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Lighting Integrator Automation Appliance
Energ
SCENE DIM DIGITAL
Supervises Lighting Integrator global dataline
User interface via any PC with standard web browser
Remote, multi-user access via LAN or Internet connection
Integrates with BAS via BACnet® IP
Ethernet IP communication PROJECT LOCATION/TYPE
Product Overview
Description
Administration and Scheduling
The Automation Appliance serves as both an automation module and data communications link for a Lighting Integrator (LI) panel system equipped with automation cards. Used in place of the Network Clock or BMS Interface Module, the appliance connects to, and provides primary administration of, the global dataline.
In addition to supporting the same functionality of the HCLK8SS Clock/Programmer, the Automation Appliance enables users to create text user names for all panels, relays, switches, buttons, and channels, as well as override relays and channels in real time. Scheduling capabilities include flexible scheduling using seven day repetitive schedules, 365 day calendar date event type schedules, or dusk/dawn schedules based on an internal astronomic clock. The Automation Appliance supports eight schedules per panel as well as eight global schedules.
Operation Once connected to the facility enterprise LAN, intranet, or internet, the appliance allows the user to configure and access all lighting control functions from any PC on the LAN using only a standard web browser. No installed software is required for configuring, monitoring, or overriding the Lighting Integrator panels. An optional autodial/auto-answer 56K modem allows remote access in applications where firewall or other restrictions prevent unrestricted access from the internet or intranet. In the event of a power failure, an integral UPS battery backup maintains processor operation for a pre-determined interval, then writes all data to flash memory before shutting down the processor.
Features
www.wattstopper.com 800.879.8585
• Provides a web browser based user interface for an LI panel network (up to 12) • Enables simultaneous, multi-user access via global dataline connectivity
Applications The Automation Appliance provides the user a flexible PC based user interface to set up, monitor and override an LI system without requiring software installed on a PC. It is ideal for installations requiring user access from multiple remote locations. Another suitable application is where multiple systems require administration from a remote location, such as on a campus.
• Multi-level password security access • Alarm annunciation via standard email notification • Relays and global schedules automatically exposed as BACnet objects
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Technical Information
Energ
SCENE DIM DIGITAL
Specifications
System Layout & Wiring
• Power supply, 120VAC, 50/60 Hz, 25 VA maximum • Metal enclosure, dimensions: 11” W X 14” H X 2.5” D (279.4mm wide X 355.6mm high X 63.5mm deep) • Communications ports: 1 10/100 Mb Ethernet RJ-45; 1 LonWorks FTT-10 Weidmuller connector • Weight: Net 4 lbs. (1.814 kg), Gross 5 lbs. (2.268 kg)
• Operating temperature range: 32-122°F (0 – 50°C); storage temperature range: 32-158° F (0 – 70° C) • Relative humidity range: 5% to 95%, non-condensing • UL and CUL listed • FCC part 15 Class A computing device • One year warranty
LI Panel Network with Automation Appliance PC with browser Ethernet
PC with browser Internet
Automation Cards
Automation appliance
Lighting Integrator Panel
Other panels
Lighting Integrator Panel
Global dataline
Dataline Switches (optional)
Other panels
LI Automation Appliance Sample Screens
The main menu screen for browserbased scheduling and administration via the Automation Appliance.
Ordering Information
Watt Stopper/Legrand® Pub. No. 20002
Catalog No. AA-BASE
The system setup screen for configuring an LI panel system using the Automation Appliance.
Description Lighting Integrator Automation Appliance
The panel setup screen for configuring an individual LI panel with the Automation Appliance.
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Lighting Integrator Lighting Control Panel Control options include clock, photocell, and BMS interface
Modular, expandable relaybased lighting control panel
Available in 8-, 24- or 48-relay capacities; 1-6 contactors
WinControl software for optional PC-based automation and control
Switch and sensor inputs for direct control of relays
Free WinControl Designer design and documentation software
Up to 500 panel network
Product Overview
Description
Automation
The Watt Stopper’s Lighting Integrator (LI) is a scalable lighting control panel built on a foundation of low voltage, relay-based control. It offers a modular approach to functionality with a broad range of control capabilities. This modularity simplifies design and ordering as well as servicing and future upgrades. LI panels also interface with many other control devices for easy integration of building controls. LI panels offer lighting control for a wide variety of applications: commercial offices, manufacturing facilities, retail operations, educational institutions, airports, sports facilities, and large building campuses.
With the addition of an Automation card, an LI panel provides automation and dataline control capabilities, including dataline switches and panel-to-panel network communication. By adding control modules such as a Network Clock, Building Management System Interface and Photocontrol Package, users can access additional control tools (i.e., convenient, built-in control scenarios, time scheduling, exterior photocell control and astronomic capabilities, interfacing with building automation systems). These LI panels are well suited for lighting control in medium sized facilities.
Single Panel Control A single LI panel provides simple relay-based control from individual switches and sensors for stand-alone applications. It is ideal for interior or exterior lighting control in individual spaces or small building applications.
Group Switching & Smartwiring By adding a Group Switching card, an LI panel can control multiple relays and circuits simultaneously. This card also provides “smartwiring� capability, which enables easy pushbutton relay grouping. This simple programming process offers flexible grouping of lighting loads for control of individual relays or groups of relays.
PC-based Control For PC-based control, users may add a Communication card. With it, users can administer up to 500 LI panels over a network. Via WinControl software, users can implement sophisticated scheduling with preprogrammed control scenarios, as well as dataline switch and relay grouping functionality. Whether individual panel or enterprise-wide control, users can manage their LI panels via local or remote PC, modem, or internet. Applications such as airports, sports facilities and other large facilities are ideal candidates for this type of LI system.
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LI Panel Features Lighting Integrator
• Scalable product platform; 8-, 24-, and 48-relay capacity • Modularity for easy configuration and cost-effective upgrades • Heavy duty relay design with 14,000 Amps SCCR (Short Circuit Current Rating) • NEMA 1 (standard), NEMA 4, NEMA 3R enclosures, flush or surface mount door styles • Easy integration with other control devices and building automation systems • Multi-phase load control capability with optional contactors • Relay status LEDs afford visual ON/OFF status at panel • Mechanical override integral to each relay • Pilot light outputs provide lighting status at remote switches • WinControl Designer software for user-friendly panel design and documentation • Lifetime toll-free technical support and free programming assistance
Group Switching (GS) Card Automation (A) Card
• Group switching of up to eight channels for a 24-relay panel, 16 channels for a 48-relay panel • Smartwiring for easy pushbutton programming of relays or groups of relays • Global network for up to 10 panels, with dataline between automation modules, panels, and dataline switches • Accepts control from time clock scheduling, astronomic control, or building automation interface • Preprogrammed lighting control scenarios and scheduling of each channel (i.e., blink warning, occupied/unoccupied, manual ON, auto ON) via optional network clock • Optional dataline switches for local and system automation override and programmability to relays • Optional universal switch module to interface existing switches into the network • Optional telephone override module • Optional photocontrol module package
Communication (C) Card
• Distributed processing and communication for up to 500 networked LI panel • Preprogrammed lighting control scenarios (i.e., time delay override, common area with egress timer, master switch, load shed, daylight switching, cleaning switch, and other programmable scenarios) • Local or remote PC-based operation via WinControl software • Optional connectivity via TCP/IP, Web browser, and BACnet • Comprehensive system administration, logging, and reporting documentation via WinControl software • Optional graphics software (WinControl Graphics) for customizable graphical control environment • Optional WebLink appliance provides TCP/IP connectivity for WinControl plus options for browser based 365-day event schedules and MyLights personal PC control
Other Optional Cards
• Native BACnet card for interfacing LI panels with BACnet-based BAS networks
Specifications
• Multiple power supply options: 115/277 VAC, 220-240 VAC, 115/347 VAC; 50/60 Hz
• DMX 512 card for interfacing LI panel with theatrical control consoles
• Single pole relays, mechanically latching type, individually replaceable, with mechanical override and visual status indication • Available power for optional accessories: 800 mA at 24 VDC/VAC/VACR for 8-size interior 1.4 Amps at 24 VDC/VAC/VACR for 24/48 size interior • Contactor ratings: 4-pole, 30 Amp (Contactor coil voltages available: 120V, 277V) • Ambient temperature 32 to 139°F (0-60°C); 5 to 95% RH non-condensing • UL and CUL listed, one year warranty
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LI Panel Selection Guide Panel Selection & Configuration Guide
• Custom options available; contact factory or agent for custom options or specific needs • Pre-manufactured and configured-to-order services available; contact factory or agent for requirements
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LI Panel Components Ordering Information
Panel Options & Accessories Catalog No.
Description
HDLW4
4-conductor data communications wire for connecting Dataline
LI Cards Required
Optional LI Cards
A
Switches to Automation cards or for local panel-to-panel communications via Automation card (add -P for plenum rating) HDLW2
2-conductor data communications wire for panel-to-panel commu-
C
A*
A
C, B, D, G
nications via Communication card (add -P for plenum rating) AS-100
Automatic Control Switch
HDLSxSS
Dataline Switch (Add 1, 2, 4, or 8 in place of x for button configuration)
LVS-1
Standard momentary toggle switch
G
LVS-1K-G
Key operated toggle (grey); key supplied w/switch
G
LxS
Multi-button low voltage switch (Add 1, 3, 5, or 9 in place of x
G
for button configuration) RS2-3x
Low voltage momentary switch
G
TS-400-24
Low voltage digital time switch
G
EM-24A2
Photocell
HACCBOX
Accessory Enclosure
CE-40-20T-120
Normally open contactor, 4-pole, 30 Amp, 120V coil
CE-40-20T-277
Normally open contactor, 4-pole, 30 Amp, 277V coil
CE-04-20T-120
Normally closed contactor, 4-pole, 30 Amp, 120V coil
CE-04-20T-277
Normally closed contactor, 4-pole, 30 Amp, 277V coil
G A
Automation & Communication Options Catalog No.
Description
LI Cards Required
Optional LI Cards
HCLK8SS
Network Clock/Programmer
A
G
HBMS8SS
Building Management System Interface Module
A
G
HPCP8SS
Photocontrol Package
A
G
HUSM8SS
Universal Switch Module
A
C, B, D, G
HTELSS
Telephone Switching Module
A
G
WCHSTD
WinControl
C
A*, G
WCHGR
WinControl Graphics
C
A*, G
WCHDES
WinControl Designer
HMODEM
Dial-in Modem
C
A*, G
HLINK
PC Access Module
C
A*, G
WL-BASE
WebLink Base Module
C
A*, G
WL-MYLIGHTS
Personal desktop PC control and override (WL-BASE Required)
C
A*, G
WL-OPTSCHED
365 day Scheduler for WebLink (WL-BASE Required)
C
A*, G
BACSOFT
BACsoft system integration software
C
A*, G
A = Automation card; C = Communication card; G = Group Switching card; B = BACnet card; D = DMX card * = when Dataline Switches are used The Watt Stopper速, Inc. Pub. No. 17302
Models: LI8, LI24, LI48
SPECIFICATIONS Supply Voltages . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .per selected power supply P115/277 Power Supply . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .120 or 277VAC P240 Power Supply . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .240VAC P115/347 Power Supply . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .120 or 347VAC Accessory Power Output . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .800mA@24VDC/VAC/ACR Relay Load Ratings @120VAC @277VAC @347VAC Ballast . . . . . . . . . . N/A 30 Amp 20 Amp Tungsten . . . . . . . . 20 Amp N/A N/A Resistive . . . . . . . . N/A 30 Amp 20 Amp Motor . . . . . . . . . . 1 1/2 HP N/A N/A Environmental Maximum Ambient Temperature . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .60째C Maximum Humidity . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .5% to 90% RH, non-condensing UL & CUL Listed
Santa Clara, CA 95050
Installation Instructions
Lighting Integrator Panel
CONTENTS SPECIFICATIONS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .1 INTRODUCTION . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .3 COMPONENTS LOCATION . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .4 I. BASIC INSTALLATION AND SETUP . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .5 Mount the LI Enclosure . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .5 Install the LI Interior . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .5 Connect the AC Power Supply to Power Source . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .6 Connect Load and Line Voltage to Relays . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .6 Low Voltage (Class 2) Wiring . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .7 Optional group switching and smartwire procedure . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .8 II. ADVANCED FEATURES INSTALLATION AND SETUP . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .9 WARRANTY INFORMATION . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .14
LIST OF FIGURES Figure 1: Component locations inside the LI panel enclosure . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .4 Figure 2: Enclosure dimensions for LTUB8, LTUB24 and LTUB48 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .5 Figure 6: P240 wiring . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .6 Figure 5: P115/347 wiring . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .6 Figure 4: P115/277 wiring . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .6 Figure 8: Relay Control Button . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .6 Figure 7: Relay Schedule form . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .6 Figure 9c: Manual relay channel setup for the Group Switching Card . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .8 Figure 9b: Manual relay channel setup for the Group Switching Card . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .8 Figure 10: Group Switching card connections and components . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .8 Figure 9a: Manual relay channel setup for the Group Switching Card . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .8 Figure 11: HDLW4 Local Dataline . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .9 Figure 12: HDLW4 Global Dataline . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .10 Figure 13: Automation Card Address Number Settings . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .11 Figure 14: HDLW2 CC Dataline Installation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .12 Figure 15: HDLW2 CC . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .13
Page 2
www.wattstopper.com
INTRODUCTION The Lighting Integrator (LI) is a relay based automatic lighting control panel. The LI controls lighting through automatic scenarios, time schedules, photocells and occupant controlled switches. A network of LI panels can also be controlled from a clock, or building management system, or by a central computer. ENCLOSURE
INTERIOR
COVER
Smartwiring is a Watt Stopper innovation that enables easy push-button relay grouping for convenient group control. Smartwiring offers flexible grouping of lighting loads for control of individual relays, groups of relays, or channels. After installation and set up, a secure outer cover, when closed, offers protection from the high voltage area. The following page shows a photograph of a fully assembled 24 relay Lighting Integrator panel that shows installed components for reference. Note that not all of the components shown may be fitted in every Lighting Integrator panel depending on the application.
CAUTION RISK OF ELECTRIC SHOCK Before installing the LI, read the instructions completely. If you have any questions, call our Service Team at: 888-852-2778.
Important Installation Notices As a minimum, each panel will require one each of the following components: •
Enclosure
•
Cover
•
Interior assembly
Depending on the functional capabilities ordered, the interior may include the Group Switching card, Automation card, contactors, and automation modules such as a clock or BMS interface module. The panel may also be equipped with a network interface such as a Communications, DMX or BACNet card, so that the panel can be included in a network with other LI panels or building control systems. The panel interior assembly provides isolation between the line- and low-voltage sections of the panel, as well as the mounting frame for relays, the power supply and the circuit board assemblies. The separate interior assembly protects the low voltage wiring and components while allowing easy user access to a time clock or other modules such as a BMS interface, or Photocontrol module. Inside the low voltage area are LEDs for visual indication of relay status, plus manual push-buttons to turn individual relays on or off, and to perform smartwiring.
• All power must be turned off prior to wiring, installation or service. • More than one disconnect may be required to deenergize power to the LI. • External circuit protection to the LI is required (e.g., circuit breaker). • Installation shall be in accordance with all applicable regulations, wiring practices, and codes. • Care should be taken to separate high voltage power from low voltage (Class 2) control wiring. • Do not energize wiring until the unit is fully assembled and connected circuits have been tested and found to be free of electrical shorts.
WARNING IMPROPER INSTALLATION OR CONNECTION OF THIS PANEL MAY RESULT IN SERIOUS PERSONAL INJURY AND/OR DAMAGE TO THE PANEL AND OTHER DEVICES.
Call 888.852.2778 for Technical Support
Page 3
COMPONENTS LOCATION The illustration below shows a Lighting Integrator panel installed inside an enclosure with the cover removed.
Note the location of components when the panel is fully assembled.
Group Switching Card Interior assembly Low voltage area for switch and sensor connections
Mechanical Relay Override Switch Use screwdriver tip to activate
High Voltage Area
High Voltage Area
Relay Driver cards (each card supports 4 relays)
Relays Space for Optional DATALINE Power Supply Card AC power transformer assembly
Automation and Network Card locations (2 positions)
Low voltage power supply for 24VAC/VDC accessories (occupancy sensors, photocells, etc.)
Available cards: - Automation Card - Complete Control Card - BACnet Card
DIN rail and optional contactors (capacity: 6 contactors)
- DMX Card
Enclosure mounting holes (4x)
Figure 1: Component locations inside the LI panel enclosure
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www.wattstopper.com
Accessory module DIN rail mounting plate
I. BASIC INSTALLATION AND SETUP B. Install the LI Interior
A. Mount the LI Enclosure 1.
Attach the enclosure to the wall. The enclosure should be level, plumb and rigidly installed. Refer to the instructions provided with the enclosure for flush or surface mounting procedures.
2.
Determine the appropriate wire entry locations. Make sure that all line and low voltage wiring entry locations are confined to the appropriate compartments as shown in the figure below.
3.
Do not install the interior assembly until after the LI enclosure has been securely mounted to the wall and the conduit/wiring holes have been drilled or knocked out. Note: If this enclosure includes the optional DMP-1 or DMP-2 Din Rail Mounting Plate, place DMP Plate over lower studs before installing the interior.
Do not run low voltage wiring with line voltage or power wiring.
1.
Place the interior in the enclosure and align the interior with the studs provided in the enclosure.
Drill or knock out openings to bring wiring conduit into the enclosure.
2.
Attach the interior assembly to the back of the enclosure using the four sets of nuts and washers provided.
3.
After all wiring is completed, attach the cover according to the instructions provided with the enclosure.
CAUTION OBSERVE LINE AND LOW VOLTAGE SEPARATION WHEN ROUTING CONDUIT AND WIRE
LTUB48
LTUB8
Line voltage section
15.08"
11.68"
Low voltage section
Low voltage section
4.94"
4.94"
Line voltage section
35.8"
LTUB24 14"
14"
13.58"
14.5"
4.94"
4.94"
Line voltage section
4.82"
40.5"
Low voltage section Line voltage section
Line voltage section
23.34"
8.08" 26"
16"
3.04" 16"
Figure 2: Enclosure dimensions for LTUB8, LTUB24 and LTUB48
Call 888.852.2778 for Technical Support
Page 5
C. Connect the AC Power Supply to Power Source
D. Connect Load and Line Voltage to Relays
The LI has several power supply options that allow it to operate with 115VAC, 240VAC, 277VAC or 347VAC line voltage. These power supplies function with either 50 or 60 Hz. They have internal overcurrent protection. The transformer automatically turns off when overloaded and resets when the fault is removed. The power supply contains MOVs to protect all downstream electronics from transient powerline voltage surges.
Before making any connections to the relays, make sure that none of the load circuits are shorted. Route conductors from the circuit breaker through each relay’s SPST output terminals, and from there to the loads. Confirm that each circuit is wired to the relay specified in the electrical construction drawings and relay schedule forms provided with the panel. Power Up and Test Relays
CAUTION VERIFY WHETHER YOUR SUPPLY LINE VOLTAGE IS 115VAC, 240VAC, 277VAC, OR 347VAC AND THAT THE POWER SUPPLY IN THIS PANEL MATCHES THAT LINE VOLTAGE. WIRING TO THE INCORRECT VOLTAGE TERMINAL MAY RESULT IN DAMAGE TO THE POWER SUPPLY AND/OR THE PANEL, AND WILL VOID THE PRODUCT WARRANTY. 1.
Read and remove the CAUTION label covering the terminals.
2.
Note that there are different terminals for supply voltage input. Wire to ONLY ONE of these terminals. Match your input voltage to the correct terminal. 115VAC Supply
1.
Apply power to the LI power supply ONLY. Do NOT apply power to the controlled circuit loads.
2.
As shown in the illustration below, locate the relay control buttons on the Relay Driver card next to each relay’s yellow plug-in termination. Press the relay control button to toggle it ON/OFF. The relay should “click” and the LED status indicator should change state.
3.
Confirm the operation by measuring the continuity at the line voltage terminations of each relay.
4.
Apply power to the relays.
5.
Being careful not to touch any line voltage wiring, toggle each relay ON/OFF again and confirm that each relay controls the appropriate load.
277VAC Supply
115
277
NEU
GND
277
115
NEU
GND
Figure 4: P115/277 wiring
115VAC Supply
347VAC Supply
115
347
NEU
GND
115
347
NEU
GND
Figure 7: Relay Schedule form
Figure 5: P115/347 wiring LED TO RELAY 240VAC Supply
RELAY CONTROL BUTTON 240
NEU
GND
Figure 6: P240 wiring Page 6
Figure 8: Relay Control Button Call 888.852.2778 for Technical Support
E. Low Voltage (Class 2) Wiring The low voltage (Class 2) section of the panel provides a number of terminal connections for a variety of optional switches and other devices. See Figure 1 for location of the low voltage section of the panel. All wire entering this section of the panel must be Class 2 only. Do not allow line voltage conductors to pass through the Class 2 section of the panel for any reason.
Hardwire Low Voltage Switch Wiring Two-wire momentary – Operates as push ON/push OFF in an alternate action. This type of control is recommended for applications where the user can clearly see the lighting being controlled. BLACK
COMMON CONTROL 24VDC
BLUE RED
Black Red
Blue
OCCUPANCY SENSOR or PHOTOCELL R B Y W
normally turning the lighting ON and OFF based on motion detected. Manual ON/OFF with Occupancy Sensor – Allows manual ON/OFF operation of the lighting in conjunction with occupancy sensor control. WHITE
White Black
BLACK
B -to- W JUMPER COMMON
RED
CONTROL 24VDC
2-WIRE MOMENTARY PUSH BUTTON R B Y W
R -to- B JUMPER
BLACK
Black
BLUE RED
COMBINATION OF 2-WIRE MOMENTARY PUSH BUTTON WITH OCCUPANCY SENSOR or PHOTOCELL
Red
24VDC 24VDC 24VDC 24VDC
Two-wire maintained – Operates as a standard ON/OFF toggle switch. This type of control should not be used where the lighting is being controlled by scheduled or other automatic means. If the lighting is turned off by automatic means, the switch will need to be moved through the OFF position before it will once again synchronize with the status of the lighting. BLACK
BLACK
24VDC 24VDC 24VDC 24VDC
An individual relay can be controlled from a switch or sensor by hardwiring it to the corresponding connector on the Relay Driver card (see Figure 1 for locations). Alternatively, several relays can be grouped together so that they can be controlled from a single switch or sensor that is hardwired to the Group Switching card (see Optional Group Switching Card and Smartwire Procedure section). These groups are often referred to as “group channels”. A group of relays is assigned to a group channel via smartwiring. Up to 8 groups labeled A through H are available with a single Group Switching card (refer to Figure 9).
Occupancy Sensor – LI switch inputs are designed to automatically sense the connection of a Watt Stopper occupancy sensor. The operation of the input will configure for proper operation as soon as the sensor activates the input for the first time. Operation of the occupancy sensor will be determined by the occupancy state of the relay or channel it is controlling. During occupied periods the sensor will turn lighting ON when motion is detected but will not turn the lighting OFF while the relay or channel is in the occupied mode. During unoccupied periods, the sensor will operate
Blue
R B Y W
Switches with Pilot Lights The “Y” (yellow) terminal on the Switch Input Terminal Blocks supplies 24V rectified for use with pilot light switches. Voltage is present when the associated relay is ON, contact Factory for configuring the panel for use with switch pilots requiring other voltages.
WHITE
2-WIRE MAINTAINED ISOLATED CONTACT R B Y W
Three-wire momentary – Operates in a dual momentary action mode with an independent contact for the ON and OFF signals. This operation can be provided by a SPDT momentary toggle switch or a variety of Watt Stopper low voltage switch options. This is the most common type of direct wired switch option used with LI relay panels. BLACK WHITE RED
STANDARD 3-WIRE MOMENTARY R B Y W
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Page 7
F. Optional group switching and smartwire procedure
2.
LED begins If a relay was flashing TO RELAY previously “smartwired” to the channel input (1) Press Relay selected, the LED will Control Button on each Relay be flashing, otherwise Driver Card the LED will be off. to be controlled Press the associated Relay Figure 9b: Manual relay channel Control Button to setup for the Group Switching Card add/delete that relay to/from the group. The LED for each relay included in the group will be flashing.
When an LI panel includes an automation module (HCLK8SS Network Clock or HBMS8SS BMS Interface Module), turn to the installation instructions for that automation module and complete the documentation before smartwiring any relay to channels. However, if automation is to be provided by an interface to another system, or by using manual switches only, the channels may be used simply for grouping relays. Follow the instructions 1, 2 and 3 following. On the Group Switching card, press and hold the Group channel push button for several seconds. The red channel LED and the LEDs for relays currently controlled by that input will begin to flash.
3.
1. GROUP SWITCHING CARD
To Switch (2) LED begins flashing
On the Group Switching card, press the Group Channel Pushbutton again. All LEDs stop flashing and the input switch will now control the relays selected.
Figure 9c: Manual relay channel setup for the Group Switching Card
C
R B Y W
D
24VDC 24VDC 24VDC 24VDC
YELCOM 24VR 24VAC WHITE R B Y W
Group channel push-buttons (8x)
W Y B R
W Y B R
E
W Y B R
F
Pattern push-button
Figure 10: Group Switching card connections and components
Page 8
(2) LED stops flashing
Power connectors (power to accessories or sensors)
R B Y W
B
To Switch
Pattern LED indicator
Group channel connectors (8x) (connect to switch or sensor contacts, or analog photocells)
A
3. GROUP SWITCHING CARD
(1) Press Group Channel Push-button again
(1) Press and Hold Group Channel Push-button
Figure 9a: Manual relay channel setup for the Group Switching Card
R B Y W
2. RELAY DRIVER CARD
(2)
The Group Switching card (Figure 10) provides eight channels (A-H), which may be smartwired to relays within the panel. Channels are used to group relays for common control
1.
On each Relay card, select the relays to be controlled.
W Y B R
G
H
Group channel LEDs (8x)
Test Smartwired Relay Group Channels 1.
Press the Group Channel Push-button ON/OFF/ON to toggle the group ON/OFF/ON.
2.
The input LED will track the last action. Now, with all relays in the group on, turn off each relay in the group using the individual Relay Control Buttons. When the last relay is turned off, the channel LED should also go off.
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II. ADVANCED FEATURES INSTALLATION AND SETUP A. Dataline Switch Support – Local Dataline Installation
The preceding sections covered the general installation procedure for the Lighting Integrator panel. The following sections will be specific to the various optional configurations of the panel. Use the guide below to identify the configuration then proceed to the applicable section or sections to complete the installation.
Install the HDLS series digital dataline switches in accordance with the installation instructions provided with the switches. A maximum of 63 total switches can be connected to any single local dataline.
A. Dataline Switch Support – LI panels configured for use with HDLS series digital dataline switches will include the Automation Card (see Figure 1). These components require installation of the LI Local Dataline. Proceed to Section A.
The Local Dataline is a LonWorks® based digital communications bus that allows the LI panel to work with HDLS series digital programmable wall switches. The local dataline consists of two unshielded wire pairs (four wires) with the white/blue pair supplying power to the dataline switches and the red/black pair for communications.
B. Automation Level – These panels will use optional modules to provide basic automated lighting functions. These systems will have the Automation Card installed (see Figure 1) and may include either the HCLK8SS Network Clock, HBMS8SS BMS Interface, or the AA-BASE Automation Appliance. Automation Level systems may also include the HPSP8SS Photocontrol, and the HTELSS Telephone Control modules. If the system is to include more than one LI panel, it will require installation of the LI Global Dataline. Proceed to Section B.
CAUTION USE ONLY WATTSTOPPER MODEL #HDLW4 OR HDLW4P (PLENUM RATED) NETWORK WIRE OR AN EXACT EQUIVALENT. THE USE OF NON-APPROVED WIRE TYPE SHALL VOID THE WARRANTY.
C. Complete Control Level – These systems will use the WinControl software running on a personal computer to download programming and provide sophisticated lighting control functions. LI Complete Control level panels will have the Complete Control card installed (see Figure 1). Proceed to Section C.
The local dataline can be installed using free topology routing as long as the total length of wire does not exceed 1500 feet. If the installation requires more than 1500 feet of wire, run the local dataline in a strict daisy chain (linear) configuration with no T-taps, Y’s or star configurations. In either case, DO NOT run the DATALINE along with or over any HIGH VOLTAGE CONDUCTORS.
D. Native BACnet – LI panels with the Native BACnet option will have the NB card installed (see Figure 1). Proceed to Section D. E. DMX512 – LI panels configured for control by theatrical systems will have the DMX card installed (see Figure 1).
Connect the local dataline to the panel at the terminal block labeled “LOCAL DATALINE” in the upper right corner of the Automation Card (see Figure 11). The terminal block can be removed from the circuit board to facilitate making the connections. Be sure to observe the color code when connecting the dataline wire.
Automation Card RED BLACK WHITE
FTT-10A
BLUE LOCAL DATALINE
78
456
78
HDLW4 Local Dataline, 1500” max.
901
23
23
901
456
PANEL NUMBER RED
IN
BLACK
FTT-10A OUT
RED BLACK
GLOBAL DATALINE
Figure 11: HDLW4 Local Dataline Call 888.852.2778 for Technical Support
Page 9
B. Automation Level Panel and Global Dataline Installation Install any optional automation modules in accordance with the installation instructions supplied with the module(s). If the installation will include more than one panel, it will be necessary to install a Global Dataline to allow communications between the panels and the modules. The Global Dataline is a LonWorks® based digital communications bus that allows a group of LI panels to be interconnected for the purpose of providing a unified control strategy for an entire building. The global dataline consists of an unshielded wire pair (two wires) with a red/black color code. In most cases, the global dataline will use the red/black pair of wires in the Watt Stopper #HDLW4 four conductor cable. The white/blue pair will not be used.
Note that separate “IN” out “OUT” terminals are provided as a convenience in making the wire connections. These are connected together internally. The Global dataline should be tested for continuity and isolation from ground. To test for continuity: 1. Remove the red and black dataline wires at the first panel and temporarily wire nut them together. 2. Go to the last panel in the series and measure the resistance between the red and black wires. It should be less than 23 ohms. 3. Return to the first panel and restore the red and black wires to their associated terminals. To test for a short circuit to ground:
CAUTION USE ONLY WATTSTOPPER MODEL #HDLW4 OR HDLW4P (PLENUM RATED) NETWORK WIRE OR AN EXACT EQUIVALENT. THE USE OF NON-APPROVED WIRE TYPE SHALL VOID THE WARRANTY.
1. Test from the red and black terminals in turn to the metal chassis of the panel enclosure. 2. The test should show an open circuit. If the test shows a short circuit, you will need to trace the wiring back, segment by segment until the short is located.
The global dataline can be installed using free topology routing as long as the total length of wire does not exceed 1500 feet. If the installation requires more than 1500 feet of wire, run the local dataline in a strict daisy chain (linear) configuration with no T-taps, Y’s or star configurations. In either case, DO NOT run the DATALINE along with or over any HIGH VOLTAGE CONDUCTORS. Connect the Global dataline to the panel at the terminal block labeled “GLOBAL DATALINE” in the upper right corner of the Automation Card (see Figure 12.). The terminal block can be removed from the circuit board to facilitate making the connections. Be sure to observe the color code when connecting the dataline wire.
Automation Card
LCP 3
LCP 2 78
78
901
23
23
901
456
LCP 1
456
PANEL NUMBER RED
IN
BLACK
OUT
RED BLACK
GLOBAL DATALINE
Figure 12: HDLW4 Global Dataline Page 10
HDLW4 Global Dataline
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Each panel on the global dataline must have a unique address for communications. The two rotary switches on the Automation Card labeled “PANEL NUMBER” are used for this purpose. Starting with #1, set each panel to a unique address number. See Figure 13. The automation card has a push button and an LED indicator provided for troubleshooting and service. Note that under normal operation, the LED should occasionally blink green. A solid red LED indicates that there is a fault in the panel that will require service. If the LED is red, disconnect power from the panel AC power supply for ten seconds. Restore power to the panel. If the LED does not return to normal in ten seconds, contact the Watt Stopper service department. The push button on the automation card is used for a number of service and test related functions, as well as providing the LonWorks “service pin” function. The button can be used in conjunction with the rotary switches to set the panel into pre-defined modes. The two most useful modes are SET ALL CHANNELS TO OCCUPIED and RESET FACTORY DEFAULT CONDITIONS which are: all channels set to occupied, no time delay, don’t follow darkness, no blink warn, and auto on.
To enter the set up mode and use the above features, set the rotary PANEL NUMBER switches to 00 then press the service pin for a minimum of 4 seconds. The LED will begin to blink red indicating that the panel is in the set up mode. While in the set up mode, the rotary switches and service pin will be used to select the desired function. To set the panel to factory default conditions, set the rotary switches to 98 and momentarily press the service pin. Or, to set all channels to occupied without changing the other settings, set the rotary switches to 01 and press the service pin. To exit the set up mode, set the rotary switches to 00 and press the service pin. Note that the above set up mode features are available in automation card firmware version 17 or later. Be sure to set the rotary switches back to the appropriate address for your installation after exiting the set up mode.
4-Pin connectors (connect to automation modules such as: Network Clock, BMS Interface, Universal Switch Interface, Service LED indicator Photocontrol Module, Telephone Control Module) Manual push-button (Service pin) RED
Dataline switch connections: Unshielded dual twisted pair dataline wire (HDLW4) – both pairs used
BLACK WHITE
FTT-10A
BLUE LOCAL DATALINE
78
78
901
456
23
901
23
Accessory module mounting plate covers part of the Automation Card (there are no field serviceable components under the plate)
Panel address rotary switches
456
PANEL NUMBER RED
IN
BLACK
FTT-10A OUT
RED BLACK
Panel to panel network connections: Unshielded dual twisted pair dataline wire (HDLW4), – only one pair used
GLOBAL DATALINE
Figure 13: Automation Card Address Number Settings
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Page 11
C. Complete Control Level Panel and CC Dataline Installation The Complete Control level Lighting Integrator panel is designed to operate in conjunction with WinControl software which will be used to load user programming into the panel. If the installation will use HDLS series digital dataline switches, the LI panel will also have an Automation Card installed. If this is the case, ONLY THE LOCAL DATALINE on the Automation Card will be used with the switches. The GLOBAL DATALINE on the Automation Card will not be used.
The CC dataline consists of a single twisted wire pair (two wires) with a shield. It can be installed using free topology wire routing. The total length of wire should not exceed 4000 feet. If the installation requires more than 4000 feet of wire, network repeaters can be used (consult factory). In either case, DO NOT run the DATALINE along with or over any HIGH VOLTAGE CONDUCTORS.
Connect the CC dataline to the Complete Control card. See Figure 1 for the location of the card in the panel. Note that separate “IN” out “OUT” terminals are provided purely as a convenience in making the wire connections. These are connected in parallel on the circuit board. The terminal blocks are removable to aid in making the wire connections. In most installations, the GROUND terminal will not be used. However, in some cases problematic networks can be improved by connecting the shield to ground. See Figure 14.
Dataline Power Supply Every LI Complete Control Networked System will require a DATALINE Power Supply to be installed in one panel. In systems with Factory supplied submittal documents, this will typically be LCPI. Refer to the Component Layout Information on Page 4 for location of the DATALINE Power Supply.
Complete Control
LCP
LCP
LCP RED BLACK
IN
SHIELD GROUND
CC DATALINE PROGRAM STATUS
ONLINE
DATALINE STATUS
78
78
901
23
456
78
ALARM 901
23
23
901
456
LCP
456
PANEL ID RED BLACK SHIELD
OUT
GROUND
CC DATALINE
HDLW2 CC Dataline
Figure 14: HDLW2 CC Dataline Installation
Page 12
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To test for a short circuit to ground:
CAUTION USE ONLY WATTSTOPPER MODEL #HDLW4 OR HDLW4P (PLENUM RATED) NETWORK WIRE OR AN EXACT EQUIVALENT. THE USE OF NON-APPROVED WIRE TYPE SHALL VOID THE WARRANTY. The CC dataline should be tested for continuity and isolation from ground. To test for continuity: 1. Disconnect the DATALINE from the DATALINE Power Supply (DP CARD). In most installations, the DP Card will be located in LCP #1. 2. Remove the red and black dataline wires at the first panel and temporarily wire nut them together. 3. Go to the last panel in the series and measure the resistance between the red and black wires. It should be less than 60 ohms.
1. Test from the red and black terminals in turn to the metal chassis of the panel enclosure. 2. The test should show an open circuit. If the test shows a short circuit, you will need to trace the wiring back, segment by segment until the short is located. Use the three rotary switches labeled PANEL ID in the right center of the CC card to set a unique address for each panel. It is likely that the Complete Control system was supplied with factory prepared submittal documents. It is important that the panel ID settings be made in accordance with the ID settings indicated on the submittal documents. These settings will be used by the WinControl software to provide correct programming for each lighting control panel. Note: If the Automation Card is installed with the complete control card, the GLOBAL DATALINE rotary switches must be set to “01”.
4. Return to the first panel and restore the red and black wires to their associated terminals.
Factory use only
RJ11 jack for PC connection RED BLACK
IN
SHIELD GROUND
Panel to panel network connections: Shielded single twisted pair dataline wire (HDLW2)
CC DATALINE ONLINE
DATALINE STATUS
ALARM 78
78
456
456
78
901
23
901
23
901
23
456
Accessory module mounting plate covers part of the Communications Card (there are no field serviceable components under the plate)
PROGRAM STATUS
4 diagnostic LEDs Push-button switch Panel address rotary switches
PANEL ID RED BLACK SHIELD
OUT
GROUND
Panel to panel network connections: Shielded single twisted pair dataline wire (HDLW2)
CC DATALINE
Figure 15: HDLW2 CC
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Page 13
D. Lighting Integrator Panel with the Native BACnet Option
WARRANTY INFORMATION
LI panels with the native BACnet option (NB card installed) are designed to be used in conjunction with a BACnet enabled building automation system. These panels will not have any another intelligence card installed in the panel. Follow the procedures in the Native BACnet Installation and Set-up Guide document provided with the panel to complete the installation.
Watt Stopper/Legrand warranties its products to be free of defects in materials and workmanship for a period of one (1) year. There are no obligations or liabilities on the part of Watt Stopper/Legrand for consequential damages arising out of, or in connection with, the use or performance of this product or other indirect damages with respect to loss of property, revenue or profit, or cost of removal, installation or reinstallation.
E. Lighting Integrator Panel with the DMX512 Option LI panels with the DMX512 option card installed will accept control signals from any theatrical (or other) controller that supports the DMX512 control standard. Follow the procedures in the DMX512 Option Installation Instructions provided with the panel to complete the installation. If the installation will also incorporate the Automation Level panel functionality, complete the installation procedures for the Automation Level described above in section B prior to attempting to complete the installation of the DMX interface.
F. Low Voltage (Class 2) Wiring The low voltage (Class 2) section of the panel provides a number of terminal connections for a variety of optional switches and other devices. See Figure 1 for location of the low voltage section of the panel. All wire entering this section of the panel must be Class 2 only. Do not allow line voltage conductors to pass through the Class 2 section of the panel for any reason. An individual relay can be controlled from a switch or sensor by hardwiring it to the corresponding connector on the Relay Driver card (see Figure 1 for locations.) Alternatively, several relays can be grouped together so that they can be controlled from a single switch or sensor that is hardwired to the Group Switching card (see Optional Group Switching Card and Smartwire Procedure section). These groups are often referred to as “group channels.” A group of relays is assigned to a group channel via smartwiring. Up to 8 groups labeled A through H, are available with a single Group Switching card (refer to Figure 9). Up to 16 groups are supported for 48-relay panels equipped with two Group Switching cards.
Page 14
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Page 15
2800 De La Cruz Boulevard, Santa Clara, CA 95050 Technical Support: 888.852.2778 www.wattstopper.com 04400r2 1/2007
Project Name: AA-BASE Serial Number:
IP Address:
AA-BASE Automation Appliance for the Lighting Integrator Global Dataline Installation Instructions
This document covers the mounting, installation and initial start-up of the AA-BASE Automation Appliance for the Watt Stopper Lighting Integrator network. This document is targeted at engineers, technicians, and service personnel who are involved in control system installation and start-up. This document does not cover operation. For more information about this topic, please refer to the documents listed in the “Related Documentation” section.
PRODUCT DESCRIPTION . . . . . . . . . . . . . . . . . . . . . . . . . .2 Conventions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .2 Safety Precautions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .2 Static Discharge Precautions . . . . . . . . . . . . . . . . . . . . . . .3
INSTALLATION AND START-UP . . . . . . . . . . . . . . . . . . . .3 Physical Installation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .3 Mounting . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .3 Removing and Replacing the Cover . . . . . . . . . . . . . .4 Make Connections . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .4 Power Up and Initial Checkout . . . . . . . . . . . . . . . . . . . . . .4 Checking the Heartbeat LED . . . . . . . . . . . . . . . . . . . .4 About the Battery . . . . . . . . . . . . . . . . . . . . . . . . . . . . .4 Communicate with the AA-BASE . . . . . . . . . . . . . . . . . . . .5
WIRING DETAILS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .6 Power Wiring . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .6 About the Transformer . . . . . . . . . . . . . . . . . . . . . . . . .6 Making the Power Connection to the Transformer . .6 Communications Wiring . . . . . . . . . . . . . . . . . . . . . . . . . . .7 LON Port (LonWorks) . . . . . . . . . . . . . . . . . . . . . . . . . .7 Ethernet Port . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .7 Modem (Optional) . . . . . . . . . . . . . . . . . . . . . . . . . . . . .7
MAINTAINING THE AA-BASE . . . . . . . . . . . . . . . . . . . . .12 Cleaning . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .12 Required Battery Maintenance . . . . . . . . . . . . . . . . . . . . .12 Replacing the Battery . . . . . . . . . . . . . . . . . . . . . . . .12 Fuses . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .13 Replacing the Modem . . . . . . . . . . . . . . . . . . . . . . . . . . . .13
CERTIFICATIONS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .14
FIGURES . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .8
Federal Communications Commission (FCC) . . . . . . . . .14 Canadian Department of Communications (DOC) . . . . .14
MOUNTING GUIDE . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .9
APPENDIX A . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .15
RELATED DOCUMENTATION . . . . . . . . . . . . . . . . . . . . . .11
Connecting to an Enterprise Network . . . . . . . . . . . . . . .15 Login . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .15 BACnet ID & Time Synch . . . . . . . . . . . . . . . . . . . . . .16 Accessing Alarm Email, TCP/IP, Backup Screens .16 Alarm Email . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .17 TCP/IP Settings . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .17 Station Backup . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .18 Exiting the Configuration Utility . . . . . . . . . . . . . . . .18
USING STATUS LEDS . . . . . . . . . . . . . . . . . . . . . . . . . . . .11 LON (LonWorks) Port . . . . . . . . . . . . . . . . . . . . . . . . . . . . .11 Ethernet Port . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .11 Heartbeat . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .11 Modem . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .11
APPENDIX B . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .19 BACnet Integration . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .19 BACnet Network Set UP . . . . . . . . . . . . . . . . . . . . . . . . . .19 BACnet IP Configuration . . . . . . . . . . . . . . . . . . . . . .20 BACnet MS/TP Configuration . . . . . . . . . . . . . . . . . .20
WARRANTY INFORMATION . . . . . . . . . . . . . . . . . . . . . .20 www.wattstopper.com Call 888.852.2778 for Technical Support 05436r2 11/2006
PRODUCT DESCRIPTION The Automation Appliance (AA-BASE) is a multi-function controller designed for use with Watt Stopper Lighting Integrator lighting control panels that are equipped with the Automation Card option. The AA-BASE provides lighting control automation functions and acts as the primary user interface for configuring all devices connected to the Lighting Integrator network’s LON based global dataline. The user interacts with the lighting control panels and other devices via a web browser interface provided through a variety of TCP/IP connectivity options. Once the AA-BASE has been properly configured for interoperation with the lighting control panels, all relays and automation channels are automatically exposed as BACnet objects. BACnet IP (Annex J) connectivity is provided through the same TCP/IP Ethernet connection used for normal operation of the lighting control panels.
Included in this Package Included in this package you should find the following items: • Automation Appliance (AA-BASE). • these AA-BASE Installation Instructions. • a packing slip, which lists the factory settings for IP address, machine name, and host logon. • a hardware bag containing the following items: – 499 ohm resistors (quantity 6). – 6-position I/O screw terminal connector plugs (quantity 4). – 3-position RS-485 screw terminal connector plug (quantity 1). – US models only—wire nuts (quantity 2). – 2-position LON screw terminal connector plug. • Optional items (if ordered): – Factory installed modem.
Conventions This document uses the following warning and caution conventions: CAUTION
!
WARNING
CAUTIONs remind the reader to be careful. They alert readers to situations where there is a chance that the reader might perform an action that cannot be undone, might receive unexpected results, or might lose data. CAUTIONs contain an explanation of why the action is potentially problematic.
WARNINGs alert the reader to proceed with extreme care. They alert readers to situations where there is a chance that the reader might do something that can result in personal injury or equipment damage. WARNINGs contain an explanation of why the action is potentially dangerous.
Safety Precautions The following items are warnings of a general nature relating to the installation and start-up of the AA-BASE. Be sure to heed these warnings to prevent personal injury or equipment damage. WARNING
2
A 120VAC (US models) or 240VAC (International models) circuit powers the AA-BASE controller. Disconnect power before installation or servicing to prevent electrical shock or equipment damage. Make all connections in accordance with national and local electrical codes. Use copper conductors only. To reduce the risk of fire or electrical shock, install in a controlled environment relatively free of contaminants. This device is only intended for use as a monitoring and control device. To prevent data loss or equipment damage, do not use it for any other purpose.
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Static Discharge Precautions The following items are cautionary notes that will help prevent equipment damage or loss of data caused by static discharge. CAUTION
!
Static charges produce voltages high enough to damage electronic components. The microprocessors and associated circuitry within a AA-BASE controller are sensitive to static discharge. Follow these precautions when installing, servicing, or operating the system: Work in a static-free area. Discharge any static electricity you may have accumulated. Discharge static electricity by touching a known, securely grounded object. Do not handle the printed circuit board (PCB) without proper protection against static discharge. Use a wrist strap when handling PCBs. The wrist strap clamp must be secured to earth ground.
INSTALLATION AND START-UP Please read through the entire document before beginning the installation procedure. Installing the AA-BASE has four major steps, as outlined below: 1. Physical Installation 2. Make Connections 3. Power Up and Initial Checkout 4. Connect to the AA-BASE
Unpack the AA-BASE Unpack the AA-BASE and inspect the contents of the package for damaged or missing components. If damaged, notify the appropriate carrier at once and return any damaged components for immediate repair or replacement.
Physical Installation Tools Required The following tools and supplies may be required for installation: • 7 mm (1/4-inch) nut driver: used to remove the transformer shield. • Small flat-blade screwdriver: used for some wiring connectors and enclosure knockouts. • Phillips screwdriver: used to secure the door.
Mounting Mount the AA-BASE controller in a location that allows clearance for wiring, servicing, and module removal. For mounting details refer to Figure 9 (a drill template is provided on the page after that figure). Pay attention to the following recommendations and precautions: • This product is intended for indoor use only. The unit should not be exposed to ambient conditions outside of the range of 0ºC (32º F) to 50ºC (122º F) and relative humidity outside the range 5% to 95% non-condensing (pollution degree 1). • If the controller is mounted inside an enclosure, that enclosure should be designed to keep the unit within its required operating range considering a 20-watt dissipation by the controller. This is especially important if the controller is mounted inside an enclosure with other heat producing equipment. • Minimum clearance from the wall on which the unit is mounted is 0.2-inches (provided by the dimpled mounting feet). Ensure that this space is not compromised and that airflow is not blocked behind the unit. • Do not mount the unit: – in an area where excessive moisture, corrosive fumes, or explosive vapors are present. – where vibration or shock is likely to occur. – in a location subject to electrical noise. This includes the proximity of large electrical contractors, electrical machinery, welding equipment, and spark igniters. • The unit is designed to be wall mounted with the battery situated towards the bottom of the unit. For proper airflow at temperature extremes, do not mount the unit in any other way. Call 888.852.2778 for Technical Support
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Removing and Replacing the Cover The AA-BASE cover is removable. A security screw secures the cover. The security screw that ships with the AA-BASE is a standard #10-32 machine screw, pan head, 1/2-inch Phillips. You can replace this screw with a tamper-proof screw to provide a more secure installation. You can also secure the unit with a padlock through the security tab that protrudes through the cover.
Procedure 1: Removing the cover of the AA-BASE. 1. Loosen the security screw and open the cover. 2. On the inside of the door, loosen and remove the nut and locking washer that secures the green grounding strap to the cover. 3. Pull the grounding strap off the screw post. 4. Replace the locking washer, then the nut on the screw post and tighten. 5. Close the door about half way. 6. Slide the cover toward the top of the unit until the tops of the hinge tabs on the cover hit the top of the hinge slots on the left wall of the metal enclosure. 7. Slide the hinge tabs out of the slots.
Procedure 2: Replacing the cover of the AA-BASE. 1. Align the hinge tabs on the cover with the hinge slots on the left wall of the metal casing. 2. Slide the hinge tabs into the slots and slide the door toward the bottom of the unit, until the bottom of the hinge tabs hit the bottom of the slots. 3. Loosen and remove the nut and locking washer on the grounding strap post on the door. 4. Slide the ground strap onto the screw post. Replace locking washer, then the nut and tighten. 5. Close the door and tighten the security screw.
Make Connections Make connections to the AA-BASE in the following order. For specific details on each step, refer to the “Wiring Details” section. See Figure 8 to locate connectors on the AA-BASE. 1. With the 6-position power connector disconnected from the board, wire the power to the transformer. 2. Connect the Ethernet cable. 3. Connect the twisted pair for the Lighting Integrator global dataline.
Power Up and Initial Checkout Ensure power wiring to the transformer has been completed before proceeding (see the “Power Wiring” section). The AA-BASE controller does not include an on/off switch. To apply power, insert the 6-position power connector to the board. Refer to Figure 8 for the locations of status LEDs on the AA-BASE controller.
Checking the Heartbeat LED When power is first supplied to the controller, the red heartbeat LED comes on solid for approximately 15 seconds, then begins to blink. The blink pattern of the heartbeat LED under normal operation will differ for each installation (depending on station activity). But, in general, the LED should blink about once per second. The rate will be slower when the control engine is executing the database and as more panels and switches are added. After applying power to the controller, if the heartbeat LED comes on (steady) and stays lit longer than two minutes, contact Watt Stopper field technical service for technical assistance. See also the “Using Status LEDs” section.
About the Battery The AA-BASE is provided with a sealed lead acid battery, which is nearly fully charged. Therefore, the AA-BASE has battery back up protection immediately upon installation. If battery trouble messages are generated upon power up, contact Watt Stopper field technical service for technical support. CAUTION
!
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In the event of battery trouble messages, ensure the station database is backed up to removable storage such that it can be restored in the event of a power failure and loss of data. See the Operation Guide for backup instructions. For more information on the use and replacement of the battery, refer to the “Required Battery Maintenance” section.
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Communicate with the AA-BASE The AA-BASE is designed so that standard Ethernet cables and devices can provide connectivity between the system and one or more PCs. You can use a CAT 5E cross over cable directly between the PC and the AA-BASE, or a hub can be used to connect more than one PC. These instructions assume that the AA-BASE and your Lighting Integrator lighting control system connect through dedicated Ethernet cables and devices. The AA-BASE is configured at the factory for IP Address 192.168.1.14x* with a subnet mask of 255.255.255.0. * The “x” at the end of the IP Address represents the last digit of the AA-BASE serial number. Make sure that the PC used to access the AA-BASE during installation is assigned an address in the range of 192.168.1.1 to 192.168.1.254 with a subnet mask of 255.255.255.0. If you are connecting the AA-BASE to a building enterprise LAN or the internet, refer to the project submittal documents and Appedix A of this manual for network configuration. Once the AA-BASE is powered up and connected to the PC(s), communicate with the AA-BASE to confirm that it is operational. To establish communication, open a browser on the PC. In the browser’s address field, enter the AA-BASE’s IP Address and press Enter. At the login screen, all entries are case sensitive. Enter the following default login data (you will have the opportunity to personalize this login later): User Name:
Supervisor
Password:
<<no entry, leave blank>>
The appliance Home screen appears as shown in the example below. If the time and date are correct and your project name appears in the top banner, your unit was factory configured. If these settings are not correct, select the Setup option from the navigation bar on the Home screen. This Setup screen allows changes to the site name, location and time zones.
See the Automation Appliance Operation Guide for instructions on setting the time/date and using the AA-BASE. If you do not have a copy of the guide, you can click on the Help link in the upper right corner of the Home screen to obtain this information. The next step is to discover the panels, switches, and photocell if installed. Either a Watt Stopper technician is working with the installing contractor or training was provided on the setup, configuration and programming of the system and AA-BASE.
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WIRING DETAILS The following sections provide details on: • Power Wiring • Communications Wiring including: – Ethernet – LonWorks (LON) – Modem (Optional)
Power Wiring Building power is wired directly to the transformer supplied with the AA-BASE. There is no disconnect switch in the unit, therefore you should wire the AA-BASE to an external switch or breaker. Some local codes require the switch to be in sight of the unit. The switch must be capable of 120VAC, plus sufficient capacity for test equipment.
About the Transformer The AA-BASE ships with a 120VAC, 50/60 Hz transformer and 12V battery. The transformer provides power to the controller in a 14-CT-14 configuration (28VAC center tapped). The power connector has been disconnected for shipping. The following things should be noted about the AA-BASE transformer: WARNING
Wiring is to be made to the supplied transformer. All connections should be made in accordance with national and local electrical codes. Use copper conductors only. Do not power other devices from the transformer of the AA-BASE. The transformer should be dedicated to running the AA-BASE. Do not attempt to use any other power source or otherwise defeat the isolation provided by the integral transformer. A two-wire power source, including a 24V transformer, can cause permanent damage or greatly shorten the life of the unit. Verify that neither side of the transformer's secondary winding is connected to earth ground or building neutral.
Making the Power Connection to the Transformer With the 6-position power connector disconnected from the PCB, unscrew the nut and locking washer and remove the metal enclosure of the transformer. Note As typically required by code, high voltage “Class 1” wiring must be confined behind the transformer’s enclosure divider. Be sure to replace this barrier after completing the wiring. Do not pinch wires underneath the barrier when re-installing the barrier. For AA-BASE—Using the provided wire nuts, connect 120VAC 60 Hz power to the transformer and power connector using the information in Table 3. Table 3 US models—building power termination. Building Power Source Termination Type of Wire Ungrounded—Hot Grounded—Neutral Grounding—Ground (Earth)
6
Typical Wire Color Black White Green or bare copper
Termination Point Either wire of the 120V transformer Other wire of the 120V transformer Grounding stud
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Communications Wiring All communications wiring is made through knockouts near the communication ports. Prior to connecting cables, ensure that the grommet bushing has been installed for each knockout. Employ strain relief on the communication wiring to prevent damage to the controller.
LON Port (LonWorks) A single, two-pin, male LonWorks FTT-10A Weidmuller connection is provided on the controller. This connection supports twisted pair, unshielded, polarity-insensitive, peer-to-peer communications at 78 Kbps. Connect the LonWorks wiring to the Global Dataline connector on the Lighting Integrator Automation Card. Refer to the LonWorks FTT-10A Free Topology Transceiver User’s Guide (078-0156-01F) for technical guidelines associated with free topology restrictions and the Junction Box and Wiring Guidelines for Twisted Pair LonWorks Networks (005-0023-01) for more detailed information on wiring specifications. These documents are available on Echelon’s web site (www.echelon.com).
Ethernet Port A single, female 10/100-Mbit Ethernet connection is provided on the controller. This connection is capable of running at either 10 Mbps or 100 Mbps—it automatically adjusts to either speed. This means the AA-BASE can exist on the same network with a mixture of 10BaseT and 100BaseTX hardware connected to a smart 10/100 hub capable of adjusting to the devices it supports. Connection is made via a standard male RJ-45 (8-wire) connector. Using a Category 5 unshielded twisted pair (UTP) cable, connect one end of the cable through the knockout near the RJ-45 connector on the AA-BASE, and the other end to a hub on the Ethernet LAN. The maximum end-to-end distance from the controller to the hub is 328 feet (100m).
Modem (Optional) The female RJ-11 connection for the modem is located below the RS-485 port. Connect one end of a standard flat satin telephone cable (4-connector) through the knockout to the modem’s RJ11 connector and the other end to an analog telephone port. This modem is approved for US use only, and must be tested for use in other countries.
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FIGURES The following figures provide a board layout, mounting details, and a mounting guide. Figure 9 AA-BASE board layout details. Mode Jumper
LON Port LON LEDs
Ethernet Port RJ-45 Ethernet LEDs Heartbeat LED
NOT USED RS-232 Serial Port (RJ-45) NOT USED COM1 Serial LEDs
Power Connector
NOT USED RS-485 Serial Port COM2 Serial LEDs Modem LED RJ-11 Modem Port
NOT USED Relay Output Status LEDs
{ {
Pin 1 of Internal Modem
NOT USED Inputs
8
NOT USED Outputs
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Figure 10 Mounting details. 0.16" (4 mm)
1.88" (48 mm)
Mounting Surface
0.96"
1.20" (31 mm)
(24 mm)
.218" (5.5 mm)
2.50"
(64 mm)
Keyhole Detail
.438" (11.1 mm)
Conduit Knockout (typ. of 7) 1/2" (13mm)
.406" (10.3 mm)
11.8" (300 mm) Minimum 1.00"
1.00"
(25 mm)
(25 mm)
Min.
Min.
9.75"
2.00"
(248 mm)
1.52"
5.94"
(39 mm)
(151 mm)
(51 mm)
Min.
0.72"
(18 mm)
2.25"
(57 mm)
Power Module Knockout for LON wires
2.25"
(57 mm)
Knockout for Ethernet wires 9.84"
(250 mm)
15.6"
(396 mm)
11.6"
Min.
Mount This End Up
(295 mm)
0.221"
(5.6 mm)
Dia.
2.00"
(51 mm)
Min.
2.0"
(51 mm)
2.0"
(51 mm)
2.0"
(51 mm)
3.0"
(76 mm)
Minimum Clearance Area
MOUNTING GUIDE The figure on the next page provides a mounting guide for the AA-BASE. Call 888.852.2778 for Technical Support
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Keyhole Detail Upper Mounting
Mount with this end up.
AA-BASE Mounting Guide Note: Electronic and printed versions of this guide may not show the mounting guide to scale. Verify all measurements before drilling. Lower mounting holes are 0.221â&#x20AC;? (5.61 mm) dia.
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RELATED DOCUMENTATION For more information on configuring and using the AA-BASE controller, consult the applicable documents available from www.wattstopper.com.
USING STATUS LEDS The AA-BASE controller includes a series of LEDs that can be used to determine the status of a variety of normal operating parameters for the unit. They are located on the circuit board. From the top of the board to the bottom, these include the following: • LON (LonWorks) Port • Ethernet Port • Heartbeat • Serial Ports (not used) • Modem • Relay Output Status (not used) Refer to Figure 8 for the exact locations of status LEDs on the AA-BASE controller.
LON (LonWorks) Port Two LEDs are located below the LON port and show transmit and receive activity. • The yellow transmit LED (TxD) indicates that the AA-BASE is transmitting a message on the LON trunk. • The green receive LED (RxD) indicates that another LonWorks device is transmitting a message.
Ethernet Port The Ethernet port has two green LEDs, located below the Ethernet connector. • The LED marked “100” indicates whether the AA-BASE is operating at 10 Mbps (Ethernet) or 100 Mbps (Fast Ethernet). If the 100 LED is on, the network connection is operating at 100 Mbps. Otherwise, the port is communicating at 10 Mbps. • The “ACT” LED indicates activity on the port as follows: – Off—No Ethernet link is made – On—Ethernet link is present, but no activity on the LAN – Blinking—Ethernet link is present with data activity on the LAN.
Heartbeat The “BEAT” LED is located below the Ethernet status LEDs, and is red. Under normal operation, this LED should blink about once per second. The blink pattern will differ as station activity increases, but any pulse rate from once per second to 10 blinks per minute usually indicates normal control engine activity. If the heartbeat LED stays on constantly or does not light, contact Watt Stopper field techincal service for technical support.
Modem The modem LED is located directly above the RJ-11 connector for the modem, and is green. When lit, it indicates that the modem is connected to another modem (a carrier is detected). In this case, the serial port LEDs for COM2 should indicate transmit and receive activity.
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MAINTAINING THE AA-BASE This section provides information on the following topics: • Cleaning • Required Battery Maintenance
Cleaning If dust or metal filings are present inside the unit, clean with vacuum or compressed air. Otherwise, no cleaning inside the unit is required. Optionally, if the outside of the metal enclosure becomes dirty, you can wipe it with a damp cloth and mild detergent.
Required Battery Maintenance Battery life expectancy is a function of its discharge cycles (the number of discharges and their depth) and the ambient temperature of the battery during normal operation. In most applications, the battery should see relatively few discharges. Therefore, ambient temperature has more to do with determining the life expectancy of the battery than does any other factor. If the AA-BASE is installed in a conditioned space, the battery should provide dependable service for approximately three years (average). In an environment where the operating temperature is higher (that is, 50ºC or 122ºF), you should only expect the battery to last approximately one year. The sealed lead acid battery in the AA-BASE controller is nearly fully charged before shipping. The battery is automatically float-charged during normal operation (while power is applied to the unit). The AA-BASE monitors the battery and periodically loads the battery to test its ability to maintain battery-backed functions. You should investigate any battery trouble message. Check the voltage level and its connections to the unit. Replace the battery as required.
Replacing the Battery To replace the battery, proceed as follows: WARNING
When replacing the battery or harness, maintain proper polarity as marked on the label inside the unit. Although the AA-BASE is fully protected against shorted battery terminals, the battery itself is not internally protected. Use extreme care to not short circuit the battery. A shorted battery may overheat rapidly and damage the power wiring harness or cause other physical harm to the hardware.
Procedure 8: Replacing the AA-BASE battery. 1. Unplug the 6-position power connector. Do not remove the male connector from the wiring harness. 2. Using a 7 mm (1/4-inch) nut driver, unscrew the lock nut from the bracket that is holding the battery. 3. Hold the battery in place while you remove the bracket that secures it to the bottom of the unit. 4. Disconnect the two quick connect terminals on the battery. Note The AA-BASE will lose its time and date settings if it is disconnected from both battery and AC power for more than one hour. 5. Remove the old battery and recycle as defined by your regional codes. For recycling within the US, see the labelling on the battery. 6. Connect the quick connect terminals to the new battery. Make sure the RED (+) wire is connected to the positive terminal of the battery and the BLACK (–) wire is connected to the negative terminal. 7. Secure the new battery to the bottom of the unit with the bracket and tighten the lock nut. 8. Plug the power connector in and verify normal operation.
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Fuses The AA-BASE has two 250V, 2.5A delay (series 372) fuses on the printed circuit board. These fuses are Wickman F015-2.5A250V fuses. However, on-board power circuit protection is not user-serviceable. If this circuitry is suspect, contact technical support.
Replacing the Modem To replace the modem, proceed as follows: CAUTION
!
Before handling board components, discharge any accumulated static by touching the metal surface of the AA-BASE. For more information, see the “Static Discharge Precautions” section.
Procedure 9: Replacing the on-board modem. 1. Open the cover of the unit. 2. Unplug the 6-position power connector. Do not remove the male connector from the wiring harness. 3. Unplug the RJ-11 telephone wire from the modem’s RJ-11 connector. 4. Remove the old modem as follows: a. Locate the on-board modem (see Figure 8) and note the following: • Orientation of the sockets for the pins on the modem. The sockets are two parallel lines. The socket for pin 1 (noted on Figure 8) is the left-most pin on the bottom line. • Orientation of the writing on the modem. Writing on the replacement modem will be the same. b. Place the blade of a flat-blade screwdriver under the left end of the modem between the pin sockets. c. Gently pry the modem up about 3 mm (1/8th inch). CAUTION Do not try to completely remove the modem with this step. Doing so may damage the pins.
! d.
Place the blade of the screwdriver under the right end of the modem and gently pry the modem up about 3 mm (1/8th inch). e. Repeat steps b–d until the modem is out of its socket. 5. Insert a new modem as follows: a. Locate pin 1 on the modem. If you are reading the writing on the modem, pin 1 is the first pin in the lower left corner. It is marked with a small black dot on the top of the modem. b. Locate the socket for pin 1 on the board (see Figure 8). c. Orient the modem so that pin 1 of the modem is over the socket for pin 1. Tip: Use the white trace lines on the board to help you align the modem. When the modem is correctly aligned, the trace lines will outline the modem completely. d. Push the modem into the sockets using your thumbs. All pins should be properly inserted. 6. Plug the RJ-11 telephone wire into the modem’s RJ-11 connector. 7. Plug the power connector in and verify normal operation.
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CERTIFICATIONS Federal Communications Commission (FCC) This equipment generates, uses, and can radiate radio frequency energy, and if not installed and used in accordance with the instruction manual, may cause interference with radio communications. It has been tested and found to comply with the limits for a Class A computing device pursuant to Subpart J of Part 15 of FCC Rules, which are designed to provide reasonable protection against such interference when operated in a commercial environment. Operation of this equipment in a residential area may cause interference, in which case, users at their own expense will be required to take whatever measures may be required to correct the interference. Any unauthorized modification of this equipment may result in the revocation of the owner's authority to continue its operation.
Canadian Department of Communications (DOC) Note This Class A digital apparatus meets all requirements of the Canadian InterferenceCausing Equipment Regulations. Note Cet appareil numerique de la classe A respecte toutes les exigencies du Reglement sur le material broilleur du Canada.
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APPENDIX A Connecting to an Enterprise Network Use this procedure if the AA-BASE is to be connected to an enterprise network. You must log into the configuration utility described in this section to set up the following features: • • • •
BACnet device ID Alarm notification email addresses TCP/IP configuration Automation Appliance database backup
Login The configuration utility is optimized for Windows XP or Windows 2000 and Internet Explorer version 6 (or newer) browser. Open a browser window and enter your lighting control system’s IP Address in the address bar. Press Enter. Your network sign-in screen appears. Enter the user name and password as shown below (case sensitive). User Name: SysAdmin
Password: wattstopper
This log in procedure downloads Java applications to your PC. It takes several minutes the first time you log in using a PC that has not previously received the download. Subsequent log ins from the same PC do not take as long. The following screen displays during the start-up period.
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The Home screen appears below.
BACnet ID & Time Synch â&#x20AC;˘ Enter the BACnet device ID for the Automation Appliance if the lighting control system will be interfaced with a BACnet building automation system. See Appendix B for more information about BACnet. â&#x20AC;˘ Use the Time Synchronization pull down to select or disable the automatic time sync feature. The AA-BASE must be directly connected to the internet full time to use this feature. The remainder of the settings on the Home screen are duplicated on the System Setup screen within the standard Automation Appliance user interface. These items may be set from either location.
Accessing Alarm Email, TCP/IP, Backup Screens Move your cursor to the Home icon in the upper left of the screen and click the arrow to reveal the pull-down menu. This menu provides access to the Alarm Email, TCP/IP Configuration screens, and the Backup function.
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Alarm Email The Alarm Email Configuration screen appears below. Email notification can be sent for alarms generated by Primary Devices. Primary Devices are lighting control panels and thermostats. Other devices such as switches, photo controller, etc. cause alarms on the user interface only and do not generate email messages. To use the Alarm Email notification feature, the AA-BASE must be directly connected to the internet full time. Set the Email Notification Service field to â&#x20AC;&#x153;trueâ&#x20AC;? and enter one to three email addresses. Most applications require only the address, Hostname and Port. Some email systems also require an Account and Password.
TCP/IP Settings In most cases the Automation Appliance uses fixed TCP/IP settings supplied by the installation site IT department. These are entered in the appropriate boxes on the TCP/IP Configuration screen. Use this screen to make ajustments if necessary.
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Station Backup Choosing Station Backup from the menu opens the following screen. It shows a list of all the previous backups that have been performed. Click the Backup button at the bottom of the screen to perform a backup of the Automation Appliance database. Use the final screens to select a location on the PC to store the file.
Note that it is not possible to restore the database to the Automation Appliance from this application. The backup file can be used by Watt Stopper factory technicians to pre-install the existing database into a new or repaired Automation Appliance prior to shipment.
Exiting the Configuration Utility When you are finished with the configuration functions, close the browser window. Open a new browser window to log into the standard Automation Appliance user interface.
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APPENDIX B BACnet Integration The Automation Appliance connects to the global dataline of a Lighting Integrator Lighting Control Panel LON™ network and provides for set up, scheduling, and override of the lighting through a web browser interface. The AA-BASE exposes the relays and channels in all panels on the global dataline to the BAS as BACnet objects. Before trying to connect via BACnet, commission the AA-BASE system. As the lighting control panels are discovered by the AA-BASE, the BACnet objects are created automatically. The AA-BASE has a single BACnet Device ID for the system. It contains all the BACnet objects that represent the relays (BO objects) and channels (BV objects) in all the panels. In order to identify which instances are associated with each panel, the numbers are keyed using the first digit(s) as the panel address followed by the relay number. For example, relay number 5 in panel number 2 is represented as BO205 (panel 2, relay 5). The BV objects represent the channels, which are global to the system. Commanding the BV objects allows the BAS to “schedule” the channels globally (A in all panels, B in all panels, etc) to the “occupied” or “unoccupied” operating mode. Following is a list of the BACnet objects provided in the AA-BASE with their use. All are read/write: BO 101 to BO 1248 Panel 1, Relay 1 to Panel 12, Relay 48 • Use to monitor the status of individual relays. • Use to command an individual relay ON. • Use to command an individual relay OFF.
Relay On – Off
BV1 to BV8 Global channel A to H Occupied – Unoccupied • Use to monitor the occupancy state of a channel (group of relays). • Use to command a channel (group of relays) to Occupied state. • Use to command a channel (group of relays) to Unccupied state.
The integrator should note that the BO objects (relays) respond to commands according to priority in a normal BACnet manner. However, relay control via any means local to the lighting control system (such as a wall switch or a command from the AA-BASE user interface) is considered an “override” and will control the relay regardless of the current status of the priority array. Such override actions always occur at prioity level 16 and will automatically null all other levels of the BO object’s priority array.
BACnet Network Set UP The following settings are made through the Administrator login (see APPENDIX A, page 15 for login procedure).
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19
The AA-BASE must have a unique BACnet Device ID. The default setting is 86000 and in most cases this will work as set by default. The Location and Description fields are optional Device Properties and provided as a convenience to allow identification of the AA-BASE on the BACnet network.
BACnet IP Configuration Set the IP Network Number based on the requirements of the host network. In most installations, the Device Type setting will be Standard. The AA-BASE can be set up as a BACnet BBMD device by selecting this setting from the pull down. NOTE: Using the AA-BASE in the BBMD mode requires specific knowledge of this BACnet feature and will require detailed network, port, and router settings that are integral to the host system. Watt Stopper does not provide technical support for set up of the AA-BASE on an enterprise LAN or on the internet in BBMD mode
BACnet MS/TP Configuration The BACnet MS/TP feature must be enabled to use the AA-BASE on an MS/TP network segment. The default setting is disabled. Note that use of the optional modem and the MS/TP port are mutually exclusive since they both use the same serial connection to the AA-BASE. • Set the BACnet MS/TP Network Number based on the settings in the host controller for this MS/TP network segment. • Set the baud rate to the requirements of the host system. • Set the MS/TP address to a unique number for this MS/TP segment that is less than 127 (this setting is often referred to as the MS/TP MAC address).
WARRANTY INFORMATION Watt Stopper/Legrand warranties its products to be free of defects in materials and workmanship for a period of five (5) years. There are no obligations or liabilities on the part of Watt Stopper/Legrand for consequential damages arising out of, or in connection with, the use or performance of this product or other indirect damages with respect to loss of property, revenue or profit, or cost of removal, installation or reinstallation.
2800 De La Cruz Boulevard, Santa Clara, CA 95050 Technical Support: 800.852.2778 www.wattstopper.com 005436r2 11/2006
AA-BASE Automation Appliance for the Lighting Integrator Network PRODUCT DESCRIPTION . . . . . . . . . . . . . . . . . . . . . . . . . . . .2 Conventions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .3 Safety Precautions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .3 Static Discharge Precautions . . . . . . . . . . . . . . . . . . . . . . . . .3
CONNECTIVITY START-UP . . . . . . . . . . . . . . . . . . . . . . . . . .4 Commissioning . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .4 Login to the AA-BASE . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .4
SETUP OPTIONS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .5 Main Setup Page . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .5 Photocell . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .6 Location . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .6 Banner Title . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .6 Time and Date . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .7 Sunrise/Sunset Offsets . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .8 Discover Panels . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .9 Discover Switches . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .11 Discover Thermostats . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .13 User Management . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .14
Operation Guide This document covers the setup and operation instructions for the AA-BASE Automation Appliance for the Watt Stopper Lighting Integrator network. This document is for personnel who are involved in control system start-up and day to day operations. This document does not cover hardware installation. For information about this topic, please refer to the AA-BASE Installation Instructions, document #05436.
NAVIGATING THE APPLICATION . . . . . . . . . . . . . . . . . . . .15 Programming Panels . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .16 Naming Relays . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .18 Programming Switches . . . . . . . . . . . . . . . . . . . . . . . . . . . . .19 Global Schedules . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .20 Holiday Schedules . . . . . . . . . . . . . . . . . . . . . . . . . . . . .21 BACnet Schedules . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .22 Panel Schedules . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .23 Alarms . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .24 Reports . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .24 Backup . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .24 Restore . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .24
INDEX OF SCREEN SHOTS & ILLUSTRATIONS Supervisor Level Home screen . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .4 Home –> Setup Main screen . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .5 Home –> Setup –> Time and Date . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .7 Home –> Setup –> Sunrise/Sunset Offsets . . . . . . . . . . . . . . . . . . . . . . . . . . . .8 Home –> Setup –> Discover Panels . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .9 Home –> Setup –> Discover Switches . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .11 Home –> Setup –> Discover Thermostats . . . . . . . . . . . . . . . . . . . . . . . . . . . .13 Home –> Setup –> User Management . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .14 Menu Structure Overview . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .15 Home –> Panels –> “Panel Name” –> Panel Setup –> Group Setup . . . . . .16 Home –> Panels –> “Panel Name” –> Panel Setup –> Pattern Setup . . . . .17 Home –> Panels –> “Panel Name” –> Panel Setup –> Relay Descriptions .18 Home –> Switches –> Switch Setup . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .19 Home –> Global Schedules . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .20 Weekly Schedule for Channel C . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .21 Home –> Global Schedules –> Holidays –> Add . . . . . . . . . . . . . . . . . . . . . .21 Home –> Global Schedules –> BACnet Schedules . . . . . . . . . . . . . . . . . . . .22 Home –> Panels –> “Panel Name” –> Panel Schedules . . . . . . . . . . . . . . .23 “Panel Name” –> Panel Setup . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .23
www.wattstopper.com Call 800-879-8585 for Technical Support 06172r2 10/2006
PRODUCT DESCRIPTION The Automation Appliance (AA-BASE) is a multi-function controller designed for use with Watt Stopper Lighting Integrator series lighting control panels that are equipped with the Automation Card option. The AA-BASE provides lighting control automation functions and acts as the primary user interface for configuring all devices connected to the Lighting Integrator networkâ&#x20AC;&#x2122;s LON based global dataline. The user interacts with the lighting control panels and other devices via the AA-BASE web browser interface provided through a variety of TCP/IP connectivity options. The AA-BASE web interface is optimized for Windows XP or Windows 2000 and Internet Explorer version 6 (or newer). Once the AA-BASE has been properly configured for interoperation with the lighting control panels, all relays and automation channels are automatically exposed as BACnet objects. BACnet IP (Annex J) connectivity is provided through the same TCP/IP Ethernet connection used for normal operation of the lighting control panels. Before attempting to commission and use the AA-BASE, you should have already installed it per the procedure outlined in the Installation Instructions. Also, all of the lighting panels, switches, and other devices that may be part of the system should already be installed and connected to either the global dataline or local datalines per the documentation supplied with these devices. IMPORTANT Please read these instructions completely prior to beginning the set-up process. To successfully commission, set-up and use the AA-BASE, it is necessary to have an understanding of the Lighting Integrator system and the components that might be included in the system as it is installed. The AA-BASE and the lighting control panels are connected on the system global dataline. When HDLS switches are included in the system, these are connected to the local dataline. The photocell module and universal switch module, if used, are connected within one of the lighting control panels. All the panels, switches and modules are ultimately connected on a common Lon Works buss that provides the communication path to the AA-BASE.
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Conventions This document uses the following warning and caution conventions: CAUTION
CAUTIONs remind the reader to be careful. They alert readers to situations where there is a chance that the reader might perform an action that cannot be undone, might receive unexpected results, or might lose data. CAUTIONs contain an explanation of why the action is potentially problematic.
WARNING
WARNINGs alert the reader to proceed with extreme care. They alert readers to situations where there is a chance that the reader might do something that can result in personal injury or equipment damage. WARNINGs contain an explanation of why the action is potentially dangerous.
Safety Precautions The following items are warnings of a general nature relating to the installation and startup of the AA-BASE. Be sure to heed these warnings to prevent personal injury or equipment damage. WARNING
A 120Vac (US models) or 240Vac (International models) circuit powers the AA-BASE controller. Disconnect power before installation or servicing to prevent electrical shock or equipment damage. Make all connections in accordance with national and local electrical codes. Use copper conductors only. To reduce the risk of fire or electrical shock, install in a controlled environment relatively free of contaminants. This device is only intended for use as a monitoring and control device. To prevent data loss or equipment damage, do not use it for any other purpose.
Static Discharge Precautions The following items are cautionary notes that will help prevent equipment damage or loss of data caused by static discharge. CAUTION
Static charges produce voltages high enough to damage electronic components. The microprocessors and associated circuitry within a AA-BASE controller are sensitive to static discharge. Follow these precautions when installing, servicing, or operating the system: Work in a static-free area. Discharge any static electricity you may have accumulated. Discharge static electricity by touching a known, securely grounded object. Do not handle the printed circuit board (PCB) without proper protection against static discharge. Use a wrist strap when handling PCBs. The wrist strap clamp must be secured to earth ground.
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CONNECTIVITY START-UP The AA-BASE Installation Instructions provide all the information necessary to install the hardware and establish initial connections using a PC based web browser. For details about the topics listed below , consult the Installation Instructions (part number 05436): 1. 2. 3. 4.
Physical Installation Connections Power Up and Initial Checkout Connect to the AA-BASE from a PC
Commissioning There are four steps to commissioning and setting-up the AA-BASE system: 1. Set the site location, time and date information 2. Discover and name the panels and other devices that are connected to the dataline to include them in the AA-BASE database 3. Enter the user program information into the AA-BASE
Login to the AA-BASE To login, open a browser on the PC. In the browserâ&#x20AC;&#x2122;s address field, enter the AA-BASEâ&#x20AC;&#x2122;s IP Address or Site Name assigned by the network administrator. Press Enter. At the login screen, all entries are case sensitive. The system administrator or supervisor assigns User Names and Passwords for the AA-BASE system. Following is the default login data; the default may no longer be available, depending on system administration settings. User Name:
Supervisor
Password:
<<no entry, leave blank>>
The Home screen appears as shown in the following example. If the time and date are correct and your project name appears in the top banner (e.g., Demo Lighting Appliance), your unit is configured and ready for use. If this data is not correct, select the Setup option from the navigation bar on the Home screen. Setup options allow changes to the site name, location, time zones and other fundamental features of the AA-BASE system. Supervisor Level Home screen
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SETUP OPTIONS The first step toward setting up the AA-BASE for the lighting control system is to discover any accessory modules, set location information, and then give the system a name.
Main Setup Page Many lighting control functions depend on whether or not there is daylight available. Some systems include a photocell module, some systems use the astronomical function of the lighting control panel, some use both to determine daylight and dark periods. Home â&#x20AC;&#x201C;> Setup Main screen
CAUTION:
It is necessary to power cycle the AA-BASE in order for changes to the Location information on the Setup main page and Time Zone information on the Time and Date page to take effect. Power cycle the AA-BASE after completing changes to these settings. The AA-BASE has an internal UPS battery backup. After turning off the supply circuit breaker or pulling the line cord plug, wait until the red LED on the board stops flashing before restoring power. This will take approximately one minute.
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Photocell If the system uses the HPCP8SS Photocontrol Package for exterior lighting control, it must be discovered by the AA-BASE. To accomplish this, click the “Discover Devices” button. After a short delay, a box will open indicating modues found on the LON dataline. Click the “Add New Modules” button to add the Photocell Module to the database. Note: If the system also includes an HTEL8SS Telephone module, it will also be added with the Photocell Module. • Before Photocell Discovery
• After Photocell Discovery, you can use the Dark Thresholds screen to set the light level at which the panel will trigger a “dark” condition for each channel.
Location Setting up the correct geographic location is important to using the astronomical function. Based on the location information, the AA-BASE calculates sunrise and sunset times. You can enter the panel’s location using one of two methods. You can select the city closest to the panel from a list of states, provinces, countries and cities, or you can manually enter the global coordinates. To enter a location by city, use the State pull-down menu to select the state, country or province. States of the USA are listed first in alphabetical order followed by countries, then Canadian provinces and territories. After selecting the correct state, country or province, use the City pull-down menu to select the City closest to the panel location. The geographic coordinates and GMT Offset fill in automatically based on the State/City you’ve selected. To enter a location manually, use the State pull-down menu to select *Manual Entry*. Enter the panel’s longitude and latitude coordinates in the appropriate fields. Enter the number of hours difference between the panel location and GMT.
Banner Title The Banner Title is the text that appears at the top of each screen of the Automation Appliance web pages. Enter the project name or other data to identify the system. When the location and banner data has been entered, click SAVE.
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Time and Date Setting up the correct date and time information is important to using schedule functions. Once the date, time and time zone are set, the AA-BASE automatically compensates for daylight savings time changes in time zones where the change applies. To set the time and date for the site, click the Time and Date link in the navigation bar and fill in the appropriate information when the page opens. When complete, click Save at the bottom of the page to save this information in the database. CAUTION:
When you finish making changes to the Time Zone or Location information on the Setup main page, click Save and then power cycle the AA-BASE. It is necessary to power cycle the AA-BASE in order for the Time Zone and Location information to take effect. The AA-BASE has an internal UPS battery backup. After turning off the supply circuit breaker or pulling the line cord plug, it is necessary to wait until the red LED on the board stops flashing before restoring power. This will take approximately one minute.
Home â&#x20AC;&#x201C;> Setup â&#x20AC;&#x201C;> Time and Date
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Sunrise/Sunset Offsets If you will be using the astronomic clock feature to provide dark and light information to control lighting, you may wish to set an amount of time before or after sunset that you want the lights to come on and/or you may wish to set an amount of time before or after sunrise that you want the lights to turn off. To do so, click the Sunrise/Sunset Time Offsets link on the navigation bar and enter the times in the appropriate boxes. Use the pull-down menu to select time AFTER (+) or BEFORE (-) the calculated sunrise or sunset time. Note that there is a two hour limit to the offset time even though the box will allow entry of larger numbers. When complete, click Save at the bottom of the page. With the schedule shown in the example below: • Channel A will use a sunrise time that is 2 hours after (+) the actual sunrise and a sunset time that is the same as the actual sunset. • Channel D will use a sunrise time that is 1 hour and 30 minutes before (-) the actual sunrise and 30 minutes after (+) the actual sunset. • Channel H will use a sunrise time that is 2 hours after (+) the actual sunrise and a sunset time that is the same as the actual sunset. Home –> Setup –> Sunrise/Sunset Offsets
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Discover Panels The lighting control panels must be discovered and commissioned through the AA-BASE. Use the Discover Panels screen to add panels to the Automation Appliance network. The panel number is physically set by adjusting the “PANEL NUMBER” dials on the Automation Card as described in the installation instructions provided with the panel. To commission the lighting control panels, click the Discover Panels link in the navigation bar. 1. To discover panels, from the Home page go to the Setup page and click Discover Panels. When the page opens, you will see two information boxes. The lower box contains information about panels that have already been commissioned. The upper box shows panels that have been discovered but not yet commissioned. Home –> Setup –> Discover Panels
2. Click the “Discover Devices” button to display the available panels in the upper box. Note: If other devices have already been discovered, it will not be necessary to click “Discover Devices”, the panel list will already be visible in the lower box. CAUTION:
If all panels are not discovered, there is likely a communication problem present with the dataline. Re-check that the wire type, connections, and termination are made according to the Lighting Integrator Installation Instructions. Also be sure that the panel numbers set in the Automation Card are different for each panel. If dataline faults are not corrected at this time, it is likely there will be operational problems with the system.
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2. Enter a meaningful name for each panel that will help to identify its location. Hint: the list of panels will appear in alphabetical order based on the name you enter. If you want the list to appear in a specific order, use a naming convention that will force the order you want. 3. Click Add New Panels. The following message appears:
4. After completing the panel discovery and commissioning process, the list of panels appears in the lower box on the screen. The AA-BASE puts the panels into alphabetic order according to Name and displays them as shown below.
5. You may now click on one of the panel number buttons to configure a panel or click Setup in the navigation bar to return to the set-up page. Or, click Home to return to the Home page screen.
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Discover Switches Use the Discover Switches screen to add switches to the Automation Appliance network. The process of discovering switches is similar to discovering panels, with one major distinction, HDLS switches do not have hardware addresses to distinguish them among like switch types. Therefore, when commissioning a group of like switch types, it is necessary to keep track of the exact location of the switches as they are discovered and commissioned. Discovering and commissioning switches is best done using two people but this is not a requirement. Note: If you have previously discovered panels or other devices, a list of switches will already be displayed. If the list contains more than one of each type switch, it will be necessary to click “clear new device table” and discover them one by one, or a few at a time. 1. Open the Discover Switches page. The screen shows the switches that are already stored in the AA-BASE database. Home –> Setup –> Discover Switches
2. Walk (or send your assistant) to the switch you want to add. Press the Service Pin on the new switch to annunciate it’s identity on the buss. 3. Go back to the PC and click the Refresh button on the Discover Switches page. The new switch should appear in the upper window.
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4. Enter a meaningful name for the switch that can help to identify its location.
5. Repeat steps 2 to 4 for all the switches you want to add. Hint: When working alone, you may choose to press several service pins before returning to the PC. Be sure to remember the order in which you press the pins as this is the only way to distinguish between the switches. If any switch does not appear in the upper box, it is necessary to click the Clear New Device Table button and repeat the sequence.
6. Click “Add New Switches.” The following message appears:
7. After completing the switch discovery process, the list of switches appears in the lower box on the screen. The AA-BASE displays the switches according to their “Item” number, which is the order in which the service buttons were pressed.
8. You may now click on one of the switch number buttons to configure the buttons on the switch or click Setup in the navigation bar to return to the set-up page. Or, click Home to return to the Home page screen.
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Discover Thermostats Use the Discover Thermostats screen to add thermostats to the Automation Appliance network.
1. Open the Discover Thermostats page. Home –> Setup –> Discover Thermostats
2. Walk (or send your assistant) to the thermostat you want to add. Press the Service Pin on the new thermostat to annunciate it’s identity on the buss. 3. Go back to the PC and click the Refresh button on the Discover Thermostats page. The new thermostat should appear in the upper window. 4. Enter a meaningful name for the thermostat that can help to identify its location. 5. Repeat steps 2 to 4 for all the thermostats you want to add. Hint: When working alone, you may choose to press several service pins before returning to the PC. Be sure to remember the order in which you press the pins as this is the only way to distinguish between the thermostat. If any thermostat does not appear in the upper box, it is necessary to click the Clear New Device Table button and repeat the sequence. 6. Click “Add New Thermostats.” The following message appears:
7. After completing the thermostat discovery process, the list of thermostats appears in the lower box on the screen. The AA-BASE displays the thermostat according to their “Item” number, which is the order in which the service buttons were pressed.
8. You may now click on one of the thermostat number buttons to configure the thermostat or click Setup in the navigation bar to return to the set-up page. Or, click Home to return to the Home page screen.
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User Management User Management allows you to view, edit, delete and add new users to the AA-BASE system. User Management allows you to assign access levels for users of the system. You can assign each user one of four levels of access to the system as outlined in the table below. To access the User Management screen you must be logged on to the system at the supervisor role level. Home –> Setup –> User Management
• To add a user, click the New button. • To edit an existing user, click in the box next to the user name to add a check mark then click the Edit button. • To delete an existing user, click in the box next to the user name to add a check mark then click the Delete button. There are 4 role levels for users. Each role can perform a certain set of functions. The Role Matrix below shows the functions available to each role.
Supervisor
Panels
Switches
Global Schedules
HVAC
Setup
Alarms
Operator
Panels
Switches
Global Schedules
HVAC
Setup (no User Mgmt)
Alarms
User
Panels
HVAC
Global Schedules
Alarms
View Only (no editing)
Panels
HVAC
Global Schedules
Alarms
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NAVIGATING THE APPLICATION In navigating through the Automation Appliance user interface, it is helpful to understand that you are working in a web browser environment. The information displayed on the screens is not resident in the PC. Rather, it is maintained within the logic of the AA-BASE and is â&#x20AC;&#x153;servedâ&#x20AC;? up as it is requested by your web browser. Dependant upon the amount of data to be displayed on the screen, there will be slight delays in transitioning between screens. As with browsing on the internet, these delays are normal. After logging into the system, you will be at the Home page. This is the highest level within the navigation tree. Lower level screens that can be accessed from the Home page are shown as links on the lower navigation bar. Note that from any screen you can always return to the Home page by clicking the Home link at the left end of the navigation bar. Many screens will offer links to additional screens. As with the Home page, these will be offered on the lower navigation bar. As you navigate to subsequently lower level screens, the current and all previous viewed screens will be listed on the top navigation bar. Menu Structure Overview
Login
Home
Panels
Switches
Global Schedules
HVAC
Setup
Alarms
Panel Name 1
Dataline Devices
Schedule (chan) A
Overview
Time and Date
Alarm Console
Status/Schedule Overview Override Panel Schedules Schedule (chan) A Weekly Scheduler
Switch Setup Item 1 Button 1 Config Group Setup Pattern Setup Channel Setup
Special Events Schedule (chan) H Weekly Scheduler Special Events Panel Setup Group Operation Pattern Operation Relay Descriptions BACnet Status Panel Name 99 Status/Schedule Overview Override Panel Schedules Schedule (chan) A Weekly Scheduler Special Events
Button 8 Config Group Setup Pattern Setup Channel Setup Switch Setup Item # Button 1 Config Group Setup Pattern Setup Channel Setup
Weekly Scheduler Special Events Holiday Calendar
System Monitor
Sunrise/Sunset Offsets
Schedule (chan) H Weekly Scheduler Special Events Holiday Calendar
Discover Panels
Holidays
Discover Switches
BACnet Schedules
Discover Thermostats
Button 8 Config Group Setup Pattern Setup Channel Setup
User Management
Schedule (chan) H Weekly Scheduler Special Events Panel Setup Group Operation Pattern Operation Relay Descriptions BACnet Status
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Programming Panels From the Home page, click Panels. Click on the panel’s name that you want to program. When the page opens, click Panel Setup in the navigation bar. Home –> Panels –> “Panel Name” –> Panel Setup –> Group Setup
Relays must be assigned to a channel in order to set up a schedule for them. In the screen example above, you are looking at Channel A. The Relay Descriptions have not yet been entered for relays 01 to 06, but they have been assigned to Channel A, as indicated by “On” in the pull-down menu next to the channel number. Click on a channel button to program another channel. For the following example, Chan B was clicked. Notice that relays 09 to 13 are “On” indicating that they are assigned to Channel B, and they each have a description. Descriptions are programmed in the Relay Descriptions menu.
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The default mode is for Group set up as shown in the previous screen example. If you wish to set up a pattern, click the Pattern Setup button. For the following example, Chan C was clicked, then the Pattern Setup button was clicked. Notice that relays 14 and 15 are “On” and 16 to 18 are “Off” indicating that they are assigned to the Channel C Pattern Operation. A description has already been entered on the Relay Descriptions page. Home –> Panels –> “Panel Name” –> Panel Setup –> Pattern Setup
Hint: It is strongly recommended that each relay only be included in a single channel. The relay will respond to channel control actions for all the channels to which it is assigned. This can produce very confusing results. Troubleshooting Tip Lights are turning on or off at odd times. Check the Override page to see if the relay(s) are included in more than one channel. The programmable fields on this page are as follows: Panel Name: The name set when the panel was originally commissioned. The name can be changed from this field if necessary. Channel Description: Enter up to 60 characters to describe this channel. Select Channel Scenario: Select an automation scenario for the channel from the pulldown menu. Delay Time (Min): Enter a time delay (number of minutes) if desired. Blink: Use the pull down to select a blink warning if desired. Select Schedule Source: If this channel uses a schedule, choose if the schedule will be a local panel schedule or a global schedule. Hint: If a local panel schedule is set for a channel, this channel in this panel follows this schedule even if a global schedule is set for the same channel. Select Darkness Source: Select whether this channel will use the photocell or the astronomic clock to determine the dark or light status. This setting is necessary only if the channel is set for a scenario containing dark on. After all selections are made, click the Save button to save the settings in the database. CAUTION:
Do NOT click Refresh before Saving, unless you want to erase the entries you made.
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Naming Relays The system allows a user description to be associated with each relay. Use the Relay Descriptions link on the panel set up page to access this feature. While entering relay descriptions, be sure to Save your work periodically. If you refresh the screen for any reason, all unsaved names will be lost. Home –> Panels –> “Panel Name” –> Panel Setup –> Relay Descriptions
CAUTION:
Do NOT click Refresh before Saving, unless you want to erase the entries you made.
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Programming Switches From the Home page, click the Switches link. A page comes up showing all the Dataline Devices. Click on the Item number to select a switch from the list to be programmed. The switch Button Configuration screen appears Home â&#x20AC;&#x201C;> Switches â&#x20AC;&#x201C;> Switch Setup
Buttons may be programmed for one of three types of control: Group, Pattern or Channel. The default is to control a group of relays ON/OFF. Click the Pattern button if you wish to program the button to control some relays ON and some relays OFF with the same button press. With Group or Pattern control, the button controls relays only within a single panel. The third choice is to control a channel. Click the Channels button if you wish to have the button control a channel. Use the pull down to select a channel to be controlled. Use the pull downs for each panel to either include or exclude control of this channel in each panel. If desired, a description may be entered for each button at the top of the page. When complete, click the Save button to save the settings in the database. CAUTION:
Do NOT click Refresh before Saving, unless you want to erase the entries you made.
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Global Schedules Global schedules are useful when you would like a group of relays in more than one panel to follow the same schedule. Using a Global Schedule rather than a Panel Schedule allows this to be accomplished with a single schedule entry that affects the channel in all panels. There are a few rules that the AA-BASE uses when executing schedules: • • • •
Holidays cause Global Schedules to be ignored. Panel Schedules ignore Holidays. Special Events in global schedules are specific to a global channel. Special Events in panel schedules are specific to a panel channel.
From the Home page click the Global Schedules link. The Global Schedules page shows current status (Occupied or Unoccupied and whether or not it is a Holiday) as well as the Schedule for the current day. Schedule Bar
Home –> Global Schedules
1. To view the weekly schedule for a specific channel, click on the Schedule Bar or select the specific channel Schedule from the navigation bar.
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Weekly Schedule for Channel C
2. To edit an existing schedule period, double click the period. To add a schedule period, click Add Event at the bottom of the day. To enter a special event, click Special Events at the bottom of the page. 3. Enter a start time and an end time for the schedule period. 4. Use the pull down menu to select if the schedule period is to be Occupied or Unoccupied. Hint: Periods that are not scheduled to be occupied will automatically be unoccupied at all other times. If an occupied schedule and an unoccupied schedule overlap, the occupied schedule has precedence. Each day can have up to two schedule events. 5. Use the description field to enter a meaningful description for the purpose of the schedule. 6. Repeat the process for each day of the week. 7. When finished, click the Add button to save the schedule information to the database.
Holiday Schedules From the Home page click Global Schedules then select Holidays. To add a holiday, click Add and then enter the day, month and year information for the holiday event. Each holiday takes precedence over the normal schedule set for that day. Home –> Global Schedules –> Holidays –> Add
To Edit or Delete an existing holiday, click the checkbox next to the holiday then click the Edit or Delete button as approriate.
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BACnet Schedules This screen is only used if the LI network is connected to a BAS operating a BACnet network. This screen allows you to assign each channel, as a BACnet object, to run schedules according to the internal global schedules assigned through the AA-BASE, or to run scedules according to the external BACnet BAS assignments. For more information about BACnet integration, see the Appendix of the AA-BASE Installation Instructions. Home â&#x20AC;&#x201C;> Global Schedules â&#x20AC;&#x201C;> BACnet Schedules
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Panel Schedules Panel schedules are similar to global schedules except that they affect only the channel within a particular panel. From the Home page, click Panels and then select a panel in which you would like the schedule. From that panel’s screen, select Panel Schedules from the navigation bar. Then select the channel to schedule. Home –> Panels –> “Panel Name” –> Panel Schedules
When you have finished entering the schedule for the channel in this panel, click the Save button to save it in the database. Once the schedule is saved, click the Back button on the browser or navigate back to the panel name screen then to the Panel Setup screen. “Panel Name” –> Panel Setup
From the Panel Setup screen, set the Select Schedule Source as a Panel Schedule. Troubleshooting Tip If Lighting controlled by one of the panels is consistently behaving other than as expected for a global schedule, confirm that a channel in that panel is not set to follow a Panel Schedule.
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Alarms The Alarm Summary display on the home page indicates if any devices on the dataline are currently in fault (not responding) or have been in fault at some past time. A device may be currently working normally and still show an active alarm until the alarm is acknowledged. To acknowledge an alarm, click on the Alarm link in the navigation bar. Check the box to the left of the alarm to be acknowledged then click the Acknowledge button. • Devices that are in alarm and in a fault condition display in red on the Alarm page and on their respective browser screen. • Devices that were in alarm but are now working display in yellow. • Once an alarm is acknowledged, the device displays in gray.
Reports The Reports Function allows the user to download the panel and switch programming as .PDF files. These can be stored for future reference, or printed. From the home page click reports. Choose Reports for panels or switches. Note: A Report for an indivudual panel or switch can be accessed from the panel setup or switch setup page respectively.
Backup The Backup and Restore functions allow the AA-BASE program to be stored on the hard drive of the PC. To access the Backup and Restore functions it is necessary to log into the AA-BASE as the System Administrator.
Open a new browser and navigate to the AA-BASE. The factory default login is shown below with the Password being <wattstopper>. During loading, the following message will be displayed:
After a short delay, the following screen will appear.
Restore
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NOTE: The first time you log in as SysAdmin, an application is automatically downloaded to the PC. This process can take several minutes. Subsequent logins will open after a short delay. After a short delay, the following screen will appear:
Click the pull down in the upper left corner of the screen next to Home. Next, click Station Backup
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On the next screen, click the Backup button.
After a short delay, the following screen will appear:
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Click on My File System to display the file tree for the PC. Navigate to the desired folder, then click the Save button to backup the program.
To restore the program from the hard drive, follow the same procedure as above except click Restore and then navigate to the folder that contains the backup file. Click on the correct backup file to highlight it. Then click Restore to restore the program to the AA-BASE. Click My File System to display the file tree for the PC. Navigate to the desired folder, then click Save to backup the program.
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www.wattstopper.com Call 800-879-8585 for Technical Support 06172r2 10/2006
UT-300
Ultrasonic • Low Voltage Occupancy Sensor with Isolated Relay and Manual On features
Specifications Voltage . . . . . . . . . . . . . . . . .18-28VDC/VAC, half wave rectified AC Current Consumption Model UT-300-1, Model UT-300-2 . . . . . . . . . . . . . . . . . .40mA Model UT-300-3 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .45mA Power Supply . . . . . . . . . . . . . . . . . . . . . .Watt Stopper Power Packs Isolated Relay Rating . . . . . . . . . . . . . . . . . . . . . . .1 A @30VDC/VAC Operating Te m p e r a t u r e . . . . . . . . . . . . . . . .32° to 131°F (0° to 55°C) Time Delay Adjustment . . . . . . . . . . . . . . . . . . . . . . .5 to 30 minutes Walk-Through Mode . . . . .3 minutes if no activity after 30 sec. Test Mode . . . .5 sec. upon intial power-up or DIP switch reset Ultrasonic Coverage 2 Model UT-300-1 . . . . . . . . . . . . . . . . . . . . . . . . . . . . .up to 500 ft 2 Model UT-300-2 . . . . . . . . . . . . . . . . . . . . . . . . . . . .up to 1000 ft 2 Model UT-300-3 . . . . . . . . . . . . . . . . . . . . . . . . . . . .up to 2000 ft Sensitivity Adjustment . . . . . . . . . . . .Minimum to Maximum (trimpot) Frequency . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .4 0 k H z
U.S. Patents: 4,787,722 5,189,393 and Patent Pending
UNIT DESCRIPTION The Watt Stopper UT-300 sensors turn lighting systems on and off based on occupancy. SmartSet™ technology allows the sensor to be installed with minimal adjustments. SmartSet automatically adjusts the time delay to usage patterns in the controlled space. The UT-300 can be configured to turn lighting on, and hold it on as long as it detects cccupancy. After no movement is detected for a user specified or SmartSet time (5 to 30 minutes) the lights are switched off. A “walk-through” mode can turn lights off after only 3 minutes, if no activity is detected after 30 seconds of an occupancy detection. The UT-300 operates on 24V supplied by Watt Stopper Power Packs. The sensors can operate on 24VDC, 24VAC, or half wave rectified AC. UT-300 sensors also have an isolated relay with Normally Open and Normally Closed contacts for interfacing with HVAC or EMS systems.
COVERAGE PATTERN The UT-300 is available in 3 models. Each model has a different size coverage pattern. The coverage shown represents walking motion at a mounting height of 8 to 10 feet. For building spaces with lower levels of activity or with obstacles and barriers, coverage size may decrease.
Drawings not to scale.
Call 800.879.8585 or 972.578.1699 for Technical Support
PLACEMENT GUIDELINES Depending upon obstacles such as furniture or partitions, the area of coverage may be less or more than the sensing distances shown in the coverage pattern. This must be considered when planning the number of sensors and their placement. It is also recommended to place the sensor 4 to 6 feet away from air supply ducts. Mount the sensor to the ceiling. The UT-300 is designed for a ceiling height of about 8-10 feet. Mounting above or below this range will significantly affect the coverage patterns. As a general rule, each occupant should be able to clearly view the sensor. Open Office Area Coverage: To get complete coverage in an open office area, install multiple sensors so that there is approximately 20% overlap with each adjacent sensorâ&#x20AC;&#x2122;s ultrasonic coverage area.
Visit our website for FAQs: www.wattstopper.com
WIRING DIRECTIONS CAUTION TURN POWER OFF AT THE CIRCUIT BREAKER BEFORE INSTALLING POWER PACKS OR SENSORS. Each Watt Stopper B series power pack can supply power for up to 3 UT-300 sensors. Each Watt Stopper BZ series power pack can supply power for 4 UT-300 sensors. When using more sensors than this, multiple power packs are required. Refer to the wiring diagram on the next page for the following procedures: Connect the low voltage: • RED wire (+24VDC) from power pack to the +2 4 V terminal on the sensor. • BLACK wire (Return) from power pack to C o m m o n terminal on the sensor. Wiring a SINGLE LIGHTING LOAD CONTROLLED BY OCCUPANCY—connect: • BLUE wire from power pack to Control Out terminal on sensor. To add a MANUAL SWITCH such as the LVS-1 Momentary Toggle Switch, or RS2-3 Low Voltage Momentary Switch to the above applications—connect: • Wire from one side of switch to Common terminal on sensor. • Wire from other side of switch to Man Switch terminal on sensor. Wiring the ISOLATED RELAY: (The Isolated Relay is rated for 1A@30VAC/VDC) Connect the wires necessary to the application that requires this output: • Relay Common (must be used for proper operation) • N.O. (Normally Open)—Closed when occupancy is detected • N.C. (Normally Closed)—Open when occupancy is detected
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Occupancy Controlled Lighting
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MOUNTING THE SENSOR Directly to Ceiling 1. Attach the plastic spring clips to the edge of the sensor in the slots provided. 2. Cut a 3.5” to 4” round hole in the acoustic ceiling tile at the mounting location. A 3.5” hole is recommended for a secure fit . 3. Pull the low voltage wire from the power pack to the sensor through the hole. 4. Connect the low voltage wires to the appropriate terminals on the sensor. 5. Push the sensor up through the hole until the Spring Clips hold the sensor securely in place. 6. Snap the front cover onto the sensor.
Ceiling Mount
Using an Octagonal J-Box 1. Pull the low voltage wires from the power pack into the J-Box through the conduit knockout. 2. Connect the low voltage wires to the appropriate terminals on the sensor. 3. Loosen the appliance mounting screws attached to the J-Box 4. Align the sensor in the J-Box so that the mounting screws on the box match the key holes on the s e n s o r’s rear housing. J-Box Mount 5. Push the sensor up into the J-Box and twist it so that the mounting screws are seated in the keyhole slots. 6. Tighten the two screws to secure the sensor to the J-Box. 7. Snap the front cover onto the sensor.
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SENSOR ADJUSTMENT The sensors are factory preset to allow for quick installation in most applications. Verification of proper wiring, coverage, and customizing the sensor’s settings can be done using the following procedures. To make adjustments, open the Front Cover with a small screwdriver. Before making adjustments, make sure the office furniture is installed, lighting circuits are turned on, and the HVAC systems are in the overridden/ on position. VAV systems should be set to their highest airflow. Set the Time Delay to the desired settings. See “DIP Switch Setting”, next page. To Test Occupancy Sensors 1. Ensure the Ultrasonic Activity LED is enabled (DIP switch 6 ON). 2. Ensure the Time Delay is set for Test Mode* using the “5 seconds/SmartSet” setting. (DIP switches 3, 4, & 5 are OFF). 3. Ensure that the Ultrasonic Sensitivity trimpot is set to about 90%, clockwise. 4. Remain still. The LED should not flash. The lights should turn off after 5 seconds. (If not, see “Troubleshooting.”) 5. Move about the coverage area. The lights should come on. Adjust the Ultrasonic Sensitivity as necessary to provide the desired coverage (Green LED indicates activation from the ultrasonic sensor). When testing and adjustment is complete, reset DIP Switches to the desired settings, and replace the cover on the sensor. * Test Mode is a temporary state that starts when you first set the sensor’s DIP switches for the “5 sec/SmartSet mode” (switches 3, 4, 5 OFF). If you need to invoke the Test Mode and the DIP switches are already set for 5 sec/SmartSet, toggle DIP switch 5 ON then back to the OFF position. This provides a 5 minute test period. During the test period, the Time Delay is only 5 seconds.
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DIP SWITCH SETTING
Logic Configuration Chart
The UT-300 has 6 DIP switches. They are used to set manual/automatic on/off functions, time delay and sensor activation LED settings.
On Mode: Switch 1 The Manual ON function is facilitated by installing a momentary switch such as a Watt Stopper LVS-1 Momentary Toggle Switch, or RS2-3 Low Voltage Momentary Switch. This switch connects to the sensor’s Manual (Man.) Switch and Common terminals as shown in the wiring diagram. Each time the switch is pressed, the load changes state. The sensor’s operation as related to the manually operated switch is determined by the setting for DIP switch 1. Manual On: In this mode, the switch is required to turn on the load. The sensor is then used to keep the load on, based on occupant activity. After the time delay ends the manual switch must be used to turn the load on, if there is no movement detected within the 30 second re-trigger period. Automatic On: This mode uses occupancy as well as switch activation to turn the load ON. A manual switch provides the following additional functionality: a. The load can be turned ON by manual switch activation and it stays on as long as occupancy is detected. The sensor time delay operates as programmed. When the load turns OFF due to lack of occupancy detection, the load can be turned ON again by occupancy detection or switch activation. b. Activating the manual switch while the load is ON turns the load OFF. • When the load is turned OFF manually, as long as the sensor continues to detect occupancy the load stays OFF. Five minutes after the last occupancy detection, the lights stay off and the sensor reverts to the automatic-on mode. • When the load is turned OFF manually, pressing the switch again turns the load ON and the sensor reverts to the automatic-on mode. • Once the sensor returns to automatic-on mode, either the switch or occupancy detection can turn the load ON.
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Override: Switch 2 To override all sensor functions, set DIP switch 2 to the ON position. The green LED comes on and stays on for the duration of the override. This bypasses the occupancy detection control functions of the sensor, but still allows the lights to be manually controlled with a light switch, if one is installed.
Time Delay: Switches 3, 4, 5 The sensor will hold the lights on as long as occupancy is detected. The time delay countdown starts when no motion is detected. After no motion is detected for the length of the time delay, the sensor will turn the lights off. The sensor can select the time delay using SmartSet, or you can select a fixed time delay. â&#x20AC;˘ SmartSet records occupancy patterns and uses this history to choose an optimal time delay from 5 to 30 minutes. SmartSet behavior starts immediately and is refined continually as history is collected. Walk-through mode turns the lights off three minutes after the area is initially occupied, if no motion is detected after the first 30 seconds. If motion continues beyond the first 30 seconds, the selected time delay applies.
LED: Switch 6 When enabled, the green Ultrasonic Activity LED on the sensor will light when the sensor detects motion.
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TROUBLESHOOTING CAUTION TURN POWER OFF AT THE CIRCUIT BREAKER BEFORE WORKING WITH OR NEAR HIGH VOLTAGE. For any unexpected operation 1. Check DIP switch settings. 2. Make sure the switches are set according to the defined settings in the DIP Switch Setting chart. Lights do not turn on with occupancy, and the LED does not flash: 1. DIP switch #6 must be ON to enable the LED. 2. Check that the circuit breaker has been turned back on. 3. The Ultrasonic Sensitivity setting may need to be increased. Turn clockwise as needed. 4. Check all sensor and power pack wire connections. 5. Check for 24V input to the sensor. - If 24V is present, replace the sensor. - If 24V is not present, check that high voltage is present to power pack. If it is, replace power pack. Lights do not turn off automatically: 1. The sensor may be experiencing activations from outside the controlled area or from some type of interference (see “Unwanted Sensor Activations” below). 2. Check all sensor wire connections. 3. Disconnect power pack’s blue wire: If the lights do not turn off, replace power pack. Reconnect blue wire. If the lights turn off, the problem may be in the sensor—to check: Reconnect the blue wire. Turn sensitivity and time delay to minimum and allow the sensor to time out. If the lights turn off, the sensor is working properly (see number 1, above, and “Sensor Adjustment” for readjustment of sensor). 4. Set sensitivity and time delay to minimum and allow the sensor to time out. If the lights turn off, the sensor is working properly (see number 1, above, and “Sensor Adjustment” for readjustment of sensor).
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Unwanted Sensor Activations (LED flashes): •
Possible causes 1. The ultrasonic sensitivity may be too high causing detection outside of desired coverage area. 2. Sensor located too close to HVAC or VAV vents with heavy air flo w. • Possible solutions 1. Reduce the ultrasonic sensitivity (counterclockwise) as needed (see “Sensor Adjustment”). 2. Relocate the sensor.
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ORDERING INFORMATION Catalog #
Description
UT-300-1
Ultrasonic Occupancy Sensor, up to 500 sq ft coverage, Low Voltage w/Isolated Relay and Manual On feature
UT-300-2
Ultrasonic Occupancy Sensor, up to 1000 sq ft coverage, Low Voltage w/Isolated Relay and Manual On feature
UT-300-3
Ultrasonic Occupancy Sensor, up to 2000 sq ft coverage, Low Voltage w/Isolated Relay and Manual On feature
UT-305-1/2/3
Ultrasonic Occupancy Sensor, Low Voltage
BZ-100
Power Pack: 120/277VAC, 60Hz, 150mA, 20A ballast or incandescent, 1HP@120/240VAC
B120E-P
Power Pack: 120VAC, 60Hz, 150mA, 20A ballast/13A incandescent
B230E-P
Power Pack: 230VAC, 50/60Hz, 150mA 20A ballast/13A incandescent
B277E-P
Power Pack: 277VAC, 60Hz, 150mA, 20A ballast
B347D-P
Power Pack: 347VAC, 60Hz, 150mA. 15A ballast
S120/277/347E-P
Auxiliary Relay Pack: 120/277VAC, 60Hz, 20A Ballast 347VAC, 60Hz, 15A Ballast
All sensors are white. B series power packs supply power for up to 3 UT-300 sensors. BZ series power packs supply power for up to 4 UT-300 sensors.
WARRANTY INFORMATION The Watt Stopper, Inc. warranties its products to be free of defects in materials and workmanship for a period of five years. There are no obligations or liabilities on the part of The Watt Stopper, Inc. for consequential damages arising out of or in connection with the use or performance of this product or other indirect damages with respect to loss of property, revenue, or profit, or cost of removal, installation or reinstallation.
Putting a Stop to Energy Waste
®
2800 De La Cruz Boulevard, Santa Clara, CA 95050 Technical Support: 800.879.8585 • 972.578.1699 www.wattstopper.com 03630r1 09/2004
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UT-300 Low Voltage Ultrasonic Occupancy Sensor Accepts low voltage switch input for manual-ON operation
Architecturally appealing low profile appearance
Depluggable terminal wiring for quick and easy installation
SmartSet™ automatically selects optimal time delay and sensitivity
Walk-through mode increases savings potential
Ultrasonic diffusers give more comprehensive coverage PROJECT LOCATION/TYPE
Product Overview
Description
SmartSet
Watt Stopper/Legrand’s low profile UT-300 ultrasonic occupancy sensor automatically turns lighting on and off based on occupancy. The sensor mounts on the ceiling with a flat, unobtrusive appearance and provides 360° coverage.
Using SmartSet™ technology, UT sensors require no adjustment at installation. SmartSet continuously monitors the controlled space to identify usage patterns. With this information, it automatically adjusts time delay and sensitivity settings for optimal performance and energy efficiency. The sensor assigns short delays (as low as 5 minutes) for times when the space is usually vacant, and longer delays (up to 30 minutes) for busier times.
Operation The UT-300 operates on 24 VDC, VAC or halfwave rectified. It uses the Doppler Principle and high frequency (40 KHz) ultrasound to sense occupancy and automatically turn lighting on. When no occupancy is detected for the length of the time delay, lighting automatically turns off. For manual-ON operation, the UT works with a low voltage momentary switch.
Features
• Advanced control logic based on RISC microcontroller provides:
UT sensors offer excellent control of lighting for many spaces including restrooms, large offices, and open office areas. Also, they can control large partitioned office spaces when configured in zone patterns. The UT sensors’ performance combined and ease of installation will provide fast paybacks and many years of energy savings.
• Patented ultrasonic diffusion technology spreads coverage to a wider area
• Detection Signature Processing eliminates false triggers and provides immunity to RFI and EMI
• LED indicates occupancy detection
• SmartSet automatically adjusts sensitivity and time delay settings to fit occupant patterns
• DIP switch simplifies sensor adjustments
• Walk-through mode turns lights off 3 minutes after the area is initially occupied – ideal for brief visits such as mail delivery • Advanced Signal Processing Circuitry helps to eliminate false ONs www.wattstopper.com 800.879.8585
Application
• UT-300 works with low voltage momentary switches for manual control • Clip mounting system makes ceiling tile installation simple • Uses depluggable terminal wiring system for quick and easy installation • Available with isolated relay for integration with BAS or HVAC
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UT-300 Technical Information Specifications
Wiring & Controls
Ceiling Mounting White (Neutral)
Ceiling
Red (Line)
Hot
Black
Power Pack
Lighting load
Switch
Red (Load)
Blue
White
Black
N
Red
Wiring & Mounting
• Units per power pack: UT-300 up to 2(B), up to 3 (BZ); UT-305 up to 3 (B), up to 4 (BZ) • Dimensions: 4.5" diameter x 1.02" deep (114.3mm x 25.9mm) • UL and CUL listed; five year warranty
• 24 VDC/VAC • Time delays: SmartSet (automatic), fixed (5, 10, 15, 20, or 30 minutes), walk-through, test-mode • Ultrasonic frequency of 40 kHz • UT-300 contains isolated relay with N/O and N/C outputs; rated for 1 Amp at 30 VDC/VAC • Mounting options: ceiling tile; 4 square junction box with double gang mudring
Depluggable terminal
Isolated Relay Outputs Common Normally Open Contact Normally Closed Contact
Relay Common N.O. N.C.
Spring clips (2) Rear housing
Control (24VDC) Out OPTIONAL Momentary Switch*
Man. Switch +24V (In) Common
Connect wire only when momentary switch is installed
Controls & Settings
Product Controls
DIP Switch Settings Keyhole slots (for mounting to 4" octagonal box)
DIP switches
Ultrasonic transducer cones
8 7 6 4 3
ON
On Mode 1 ¥ Auto On Manual On
Ultrasonic sensitivity trimpot
E EC
5
2
Double gang mudring mounting holes
25'
15'
¥ = Factory Setting = ON – = OFF
Time Delay 3 4 5 ¥ 5 sec/SmartSet 5 minutes 10 min. 10 minutes 15 min. 15 minutes 20 minutes 30 min.
Coverage 20'
LED 6 Disabled ¥ Enabled
Override 2 ¥ Normal Override
1
Ultrasonic activity LED (Green)
Coverage & Placement
Front cover
UT-300 Terminals
*
= walk-through mode
Placement 10'
20'
5'
0'
5'
10'
15'
UT-300-3
15'
UT-300-2
10'
UT-300-1
5' 0' 5' 10' 15' 20'
20'
25'
Coverages shown represent half-step walking motion. Actual coverages can vary for each application depending on the shape and use of space and the obstacles present. Coverage may be reduced if product is mounted greater than 12 feet high.
30' x 30'
A typical layout for an open office space would be to place UT sensors so they control zones that overlap. For partitioned spaces, a typical zone is about 25' x 25' with an overlap on the coverages that senses motion up to 30' x 30'.
25'
Ordering Information
Watt Stopper/Legrand® Pub. No. 16902
Catalog No.
Voltage
Current
Coverage
Feature
UT-300-1
24 VDC
40 mA
500 ft (46.5 m )
Isolated relay
UT-300-2
24 VDC
40 mA
1000 ft2 (92.9 m2)
Isolated relay
UT-300-3
24 VDC
45 mA
2000 ft2 (185.8 m2)
Isolated relay
UT-305-1
24 VDC
30 mA
500 ft2 (46.5 m2)
UT-305-2
24 VDC
30 mA
1000 ft2 (92.9 m2)
UT-305-3
24 VDC
35 mA
2000 ft2 (185.8 m2)
2
2
All units are white and use Watt Stopper power packs. Current consumption can be slightly higher when only one sensor per power pack is used.
U T 3 5 5 Occupancy Sensor Utrasonic • Line Voltage with Isolated Relay
SPECIFICATIONS Voltages . . . . . . . . . . . . . . . . . . . . . ..120/230/277/347VAC, 50/60Hz Load Requirements @120VAC, 50/60Hz . . . . . . . . . . . . . . .0-800W Ballast/Tungsten @230 or 277VAC, 50/60Hz . . . . . . . . . . . . . . . .0-1200W Ballast @347VAC, 50/60Hz . . . . . . . . . . . . . . . . . . . . . .0-1500W Ballast Operating Te m p e r a t u r e . . . . . . . . . . . . . . . .32° to 131°F (0° to 55°C) Terminal Torque Rating . . . . . . . . . .4.428 inch pound-force. (0.5Nm) Light Level One-Step Adjustment . . . . . . . . . . . . . . . . .10FC–300FC Time Delay Adjustment . . . . . . . . . . . . . . . . . . . . . . .5 to 30 minutes Walk-Through Mode . . . . . . .3 minutes if no activity after 30 sec. Test Mode . . . . . .5 sec. upon intial power-up or DIP switch reset Ultrasonic Coverage 2 Model UT-355-1 . . . . . . . . . . . . . . . . . . . . . . . . . . . . .up to 500 ft 2 Model UT-355-2 . . . . . . . . . . . . . . . . . . . . . . . . . . . .up to 1000 ft 2 Model UT-355-3 . . . . . . . . . . . . . . . . . . . . . . . . . . . .up to 2000 ft Sensitivity Adjustment . . . . . . . . . . . .Minimum to Maximum (trimpot) Frequency . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .4 0 k H z
U.S. Patents: 4,787,722 5,189,393 and Patent Pending
UNIT DESCRIPTION The Watt Stopper UT-355 360° ultrasonic occupancy sensors operate on 120VAC, 230VAC, 277VAC or 347VAC. The UT-355 turns lighting systems on and off based on occupancy. SmartSet™ technology allows the sensor to be installed with minimal adjustments. SmartSet automatically adjusts the time delay to usage patterns in the controlled space. The sensors can be configured to turn lighting on, and hold it on as long as it detects occupancy. After no movement is detected for the user specified time or the SmartSet time (5 to 30 minutes) the lights are switched off. A “walk-through” mode can turn lights off after only 3 minutes, if no activity is detected after 30 seconds of an occupancy detection.
COVERAGE PATTERN The UT-355 is available in 3 models. Each model has a different size coverage pattern. The coverage shown represents walking motion at a mounting height of 8 to 10 feet. For building spaces with lower levels of activity or with obstacles and barriers, coverage size may decrease. Ultrasonic Coverage
Drawings not to scale.
Call 800.879.8585 or 972.578.1699 for Technical Support
PLACEMENT GUIDELINES Depending upon obstacles such as furniture or partitions, the area of coverage may be less or more than the sensing distances shown in the coverage pattern. This must be considered when planning the number of sensors and their placement. It is also recommended to place the sensor 4 to 6 feet away from air supply ducts. Mount the sensor to the ceiling. The UT-355 is designed for a ceiling height of about 8-10 feet. Mounting above or below this range will significantly affect the coverage patterns. As a general rule, each occupant should be able to clearly view the sensor. Open Office Area Coverage: To get complete coverage in an open office area, install multiple sensors so that there is approximately 20% overlap with each adjacent sensorâ&#x20AC;&#x2122;s ultrasonic coverage area.
One UT-355 Coverage Area
Visit our website for FAQs: www.wattstopper.com
WIRING DIRECTIONS CAUTION TURN POWER OFF AT THE CIRCUIT BREAKER BEFORE INSTALLING SENSORS.
Single sensor, single load
Multiple sensors connected in parallel
Visit our website for FAQs: www.wattstopper.com
MOUNTING THE SENSOR Using a 4-Inch Square Junction Box with Double-Gang Mudring 1. Pull the high voltage wires into the J-Box through the conduit knockout. 2. Connect the high voltage wires to the appropriate terminals on the sensor. 3. Align the sensor in the J-Box so that the mudring mounting screw tabs on the box match the mudring mounting holes on the Mounting to a 4” Square Junction Box with s e n s o r’s rear housing. Mudring 4. Use two machine screws (included with the sensor) to attach the sensor to the mounting tabs on the J-Box. * The Junction Box must be at 5. Snap the front cover onto the least 2.25” deep. If it is not, an sensor. extension ring is required.
Using an Octagonal Junction Box
1. Pull the high voltage wires into the J-Box through the conduit knockout. 2. Connect the high voltage wires to the appropriate terminals on the sensor. 3. Align the sensor in the J-Box so that the mounting screw tabs on the box match the key holes on the sensor’s rear housing. 4. Use two machine screws (included with the J-Box) to attach the sensor to the mounting tabs on the J-Box. Mounting to an Octagonal Junction Box 5. Snap the front cover onto the sensor.
Call 800.879.8585 or 972.578.1699 for Technical Support
SENSOR ADJUSTMENT The sensors are factory preset to allow for quick installation in most applications. Verification of proper wiring or coverage, or customizing the sensor’s settings can be done using the following procedures. To make adjustments, open the Front Cover with a small screwdriver. Before making adjustments, make sure the office furniture is installed, lighting circuits are turned on, and the HVAC systems are in the overridden/ on position. VAV systems should be set to their highest airflow. Set the Time Delay to the desired settings. See “DIP Switch Setting”, next page. To Test Occupancy Sensors 1. Ensure the Ultrasonic Activity LED is enabled (DIP switch 6 ON). 2. Ensure the Time Delay is set for Test Mode* using the “5 seconds/SmartSet” setting. (DIP switches 3, 4, & 5 are OFF). 3. Ensure that the Ultrasonic Sensitivity trimpot is set to about 90%, clockwise. 4. Remain still. The LED should not flash. The lights should turn off after 5 seconds. (If not, see “Troubleshooting.”) 5. Move about the coverage area. The lights should come on. Adjust the Ultrasonic Sensitivity as necessary to provide the desired coverage (Green LED indicates activation from the ultrasonic sensor). When testing and adjustment is complete, reset DIP Switches to the desired settings, and replace the cover on the sensor. * Test Mode is a temporary state that starts when you first set the sensor’s DIP switches for the “5 sec/SmartSet mode” (switches 3, 4, 5 OFF). If you need to invoke the Test Mode and the DIP switches are already set for 5 sec/SmartSet, toggle DIP switch 5 ON then back to the OFF position. This provides a 5 minute test period. During the test period, the Time Delay is only 5 seconds.
Call 800.879.8585 or 972.578.1699 for Technical Support
DIP SWITCH SETTING
DIP Switch Setting Chart
The UT-355 has 6 DIP switches. They are used to set manual/automatic on/off functions, time delay and sensor activation LED settings.
Not Used: Switch 1 Switch 1 has no function. It’s position does not affect the sensor’s operation.
Override: Switch 2 To override all sensor functions, set DIP switch 2 to the ON position. The green LED comes on and stays on for the duration of the override. This bypasses the occupancy detection control functions of the sensor, but still allows the lights to be manually controlled with a light switch, if one is installed.
Time Delay: Switches 3, 4, 5 The sensor will hold the lights on as long as occupancy is detected. The time delay countdown starts when no motion is detected. After no motion is detected for the length of the time delay, the sensor will turn the lights off. The sensor can select the time delay using SmartSet, or you can select a fixed time delay. • SmartSet records occupancy patterns and uses this history to choose an optimal time delay from 5 to 30 minutes. SmartSet behavior starts immediately and is refined continually as history is collected. Walk-through mode turns the lights off three minutes after the area is initially occupied, if no motion is detected after the first 30 seconds. If motion continues beyond the first 30 seconds, the selected time delay applies.
LED: Switch 6 When enabled, the green Ultrasonic Activity LED on the sensor will light when the sensor detects motion.
Visit our website for FAQs: www.wattstopper.com
TROUBLESHOOTING CAUTION TURN POWER OFF AT THE CIRCUIT BREAKER BEFORE WORKING WITH OR NEAR HIGH VOLTAGE. For any unexpected operation 1. Check DIP switch settings. 2. Make sure the switches are set according to the defined settings in the DIP Switch Setting chart. Lights do not turn on with occupancy, and the LED does not flash: 1. DIP switch #6 must be ON to enable the LED. 2. Check that the circuit breaker has been turned back on. 3. The Ultrasonic Sensitivity setting may need to be increased. Turn clockwise as needed. 4. Check all sensor wire connections. 5. Check for line voltage input to the sensor. - If line voltage is present, replace the sensor. - If line voltage is not present, check line wiring. Lights do not turn off automatically: 1. The sensor may be experiencing activations from outside the controlled area or from some type of interference (see “Unwanted Sensor Activations” below). 2. Check all sensor wire connections. 3. Set sensitivity and time delay to minimum and allow the sensor to time out. If the lights turn off, the sensor is working properly (see number 1, above, and “Sensor Adjustment” for readjustment of sensor). Unwanted Sensor Activations (LED flashes): • Possible causes 1. The ultrasonic sensitivity may be too high causing detection outside of desired coverage area. 2. Sensor located too close to HVAC or VAV vents with heavy air flo w. • Possible solutions 1. Reduce the ultrasonic sensitivity (counterclockwise) as needed (see “Sensor Adjustment”). 2. Relocate the sensor.
Call 800.879.8585 or 972.578.1699 for Technical Support
Visit our website for FAQs: www.wattstopper.com
ORDERING INFORMATION Catalog #
Description
UT-355-1
360° Ultrasonic Occupancy Sensor, Line Voltage, up to 500 sq ft coverage, w/light level sensor
UT-355-2
360° Ultrasonic Occupancy Sensor, Line Voltage, up to 1000 sq ft coverage, w/light level sensor
UT-355-3
360° Ultrasonic Occupancy Sensor, Line Voltage, up to 2000 sq ft coverage, w/light level sensor
All sensors are white.
WARRANTY INFORMATION The Watt Stopper, Inc. warranties its products to be free of defects in materials and workmanship for a period of five years. There are no obligations or liabilities on the part of The Watt Stopper, Inc. for consequential damages arising out of or in connection with the use or performance of this product or other indirect damages with respect to loss of property, revenue, or profit, or cost of removal, installation or reinstallation.
Putting a Stop to Energy Waste
®
2800 De La Cruz Boulevard, Santa Clara, CA 95050 Technical Support: 800.879.8585 • 972.578.1699 www.wattstopper.com 03632r1 09/2004
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UT-355 Line Voltage Ultrasonic Occupancy Sensor Operates at 120, 230, 277 or 347 VAC, 50/60 Hz
Architecturally appealing low profile appearance
Terminal wiring for quick and easy installation
Utilizes advanced, omni-directional, Doppler technology
Walk-through mode increases savings potential
Ultrasonic diffusers give more comprehensive coverage PROJECT LOCATION/TYPE
Product Overview
Description
SmartSet
Watt Stopper/Legrand’s low profile UT-355 ultrasonic occupancy sensor automatically turns lighting on and off based on occupancy. The sensor mounts on the ceiling with a flat, unobtrusive appearance and provides 360° coverage.
Using SmartSet™ technology, UT sensors require no adjustment at installation. SmartSet continuously monitors the controlled space to identify usage patterns. With this information, it automatically adjusts time delay and sensitivity settings for optimal performance and energy efficiency. The sensor assigns short delays (as low as 5 minutes) for times when the space is usually vacant, and longer delays (up to 30 minutes) for busier times.
Operation The UT-355 is line voltage and operates at 120, 230, 277, or 347 VAC. It uses the Doppler Principle and high frequency (40 KHz) ultrasound to sense occupancy and automatically turn lighting on. When no occupancy is detected for the length of the time delay, lighting automatically turns off.
Features
• Advanced control logic based on RISC microcontroller provides:
UT sensors offer excellent control of lighting for many spaces including restrooms, large offices, and open office areas. Also, they can control large partitioned office spaces when configured in zone patterns. The UT sensors’ performance combined and ease of installation will provide fast paybacks and many years of energy savings.
• Advanced Signal Processing Circuitry helps to eliminate false ONs
• Detection Signature Processing eliminates false triggers and provides immunity to RFI and EMI
• Ultrasonic diffusion technology spreads coverage to a wider area (patented)
• SmartSet automatically adjusts sensitivity and time delay settings to fit occupant patterns
• DIP switch simplifies sensor adjustments
• Walk-through mode turns lights off 3 minutes after the area is initially occupied – ideal for brief visits such as mail delivery
www.wattstopper.com 800.879.8585
Application
• LED indicates occupancy detection • Clip mounting system makes ceiling tile installation simple • Terminal wiring system provides quick and easy installation
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UT-355 Technical Information Specifications
Wiring & Mounting
• 120/230/277/347 VAC, 50/60 Hz • Time delays: SmartSet (automatic), fixed (5, 10, 15, 20, or 30 minutes), walk-through, test-mode • Sensitivity adjustment: SmartSet (automatic) or reduced sensitivity • Ultrasonic frequency of 40 kHz
Wiring & Controls
• Mounting options: 4 square junction box with double gang mudring; 4 inch octagonal junction box • Dimensions: 4.5" diameter x 1.02" deep (114.3mm x 25.9mm) • UL and CUL listed; five year warranty
Ceiling Mounting Neutral
Load
4" Square, 2.25" Deep* Junction Box with Double Gang Mudring attached Drop Ceiling
Switch Load
Hot CA-1 Adapter
Ground
Rear Housing Sensor Flange
Neutral
(Optional)
Screws Front Cover
Controls & Settings
Product Controls
DIP Switch Settings
Ultrasonic transducer cones
On Mode 1 ¥ Auto On Manual On
Keyhole slots (for mounting to 4" octagonal box)
DIP switches
Ultrasonic sensitivity trimpot
E EC 8 7 6 5 4 3
ON 2
¥ = Factory Setting
Override 2 ¥ Normal Override
1
Double gang mudring mounting holes
Ultrasonic activity LED (Green)
LED 6 Disabled ¥ Enabled
= ON – = OFF
Time Delay 3 4 5 ¥ 5 sec/SmartSet 5 minutes 10 min. 10 minutes 15 min. 15 minutes 20 minutes 30 min.
= walk-through mode
Coverage & Placement
Coverage 25'
20'
15'
Open Office Placement 10'
5'
0'
20'
5'
10'
15'
20'
25'
UT-355-3
15'
UT-355-2
10'
UT-355-1
5' 0' 5' 10' 15' 20'
Coverages shown represent half-step walking motion. Actual coverages can vary for each application depending on the shape and use of space and the obstacles present. Coverage may be reduced if product is mounted greater than 12 feet high.
30' x 30'
A typical layout for an open office space would be to place UT sensors so they control zones that overlap. For partitioned spaces, a typical zone is about 25' x 25' with an overlap on the coverages that senses motion up to 30' x 30'.
25'
Ordering Information
Catalog No. UT-355-1 UT-355-2
Watt Stopper/Legrand® Pub. No. 19303
Voltage/Description
Load Requirement
120 VAC, 50/60 Hz
0-800 W Ballast/ Tungsten
or
or
230/277 VAC, 50/60 Hz
0-1200 W Ballast
Coverage 500 ft2 (45.5 m2) 1000 ft 2 (92.9 m2)
or
or
UT-355-3
347 VAC, 50/60 Hz
0-1500 W Ballast
CA-1
Cosmetic adapter for ceiling installations with 4” square j-box or Wiremold #V5752 box
Sensors are white.
2000 ft2 (185.8 m2)
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WS-200 Automatic Wall Switch Dual 120/277 VAC operation
180° coverage, maximum of 900 ft2
Terminal style wiring for easy installation
Compatible with all electronic ballasts Built-in light level sensor PROJECT LOCATION/TYPE
Product Overview
Description
Light Level Sensor
The WS-200 automatic wall switch sensors replace existing wall switches and fit behind standard decorator wall plates. They turn lighting on and off based on occupancy and ambient light levels.
The WS-200 features a built-in light level sensor. This feature holds lighting systems off when natural light levels are above the pre-set level. Once lights are switched on, the sensor will not switch them off even if daylight levels increase. Using the light level feature is optional and the setting is adjustable by the user.
Operation The WS-200 utilizes advanced passive infrared technology to detect occupancy. Detection occurs when the WS senses the difference between infrared energy from a human body in motion and the background space. Lighting automatically turns on when occupancy is detected. After a userspecified length of time when no occupancy is detected, lighting automatically switches off. The sensors can also be used with multiple switches for multi-level lighting.
Features
• ASIC technology reduces components and enhances reliability • Pulse Count Processing eliminates false offs without reducing sensitivity • Detection Signature Analysis eliminates false triggers; provides immunity to RFI and EMI • Zero crossing circuitry reduces stress on the relay and results in increased sensor life
www.wattstopper.com 800.879.8585
Applications The WS-200 has the flexibility to work in a variety of applications including offices, conference rooms, break rooms, and utility rooms. Energy savings for these areas can be as high as 60% since lighting will no longer remain on once the room is vacant. With a competitive price, low installation cost, and high energy savings, paybacks are usually well under two years
• Integrated light level sensor holds lights off when natural light levels are above the pre-set level • Custom, 2-level Fresnel lens enhances detection at the desktop level • Screw terminal wiring system eliminates the need for wire nuts, making installation quicker • Patented voltage drop protection
• Digital time delay adjustment from 30 seconds up to 30 minutes
• For safety, there is no leakage to load in the off mode and sensor is safety grounded
• Adjustable unit sensitivity from 20% to 100%
• LED indicates occupancy detection
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WS-200 Technical Information Specifications
Controls & Installation
• 120/277 VAC • Coverage of 180 degrees, maximum 900 ft2; 300 ft2 for desktop activity • Time delay adjustable from 30 seconds up to 30 minutes • Adjustable unit sensitivity from 20% to 100% • Adjustable light level setting of 2 to 200 footcandles (21.5 to 2,153 lux)
• Compatible with all electronic ballasts and PL lamp ballasts • Dimensions: 2.6” x 1.7” x 2” (66.0mm x 43.1mm x 50.8mm) L x W x D • UL and CUL listed; Five year warranty
Product Controls
Installation
Auto-off Switch Override
Factory settings: 30 min. time delay, maximum light level and sensitivity
Light Level Time-Delay Sensitivity LED
Cover Plate ASP-211
Fresnel Lens
Wiring
Single Level Lighting
WS-200 Sensor
Wall Junction Box
Manual Bi-level Lighting
Neutral
Neutral
Load Line
Load
Load
Load
Line
Load
Ground Ground
Wire Connections
Coverage & Wire Connection 35' (10.7m)
15' (4.6m)
The 2-level lens was designed for superior coverage at the desktop by detecting vertical and horizontal motion. Coverage shown is for walking motion. Under optimal conditions with a high level of activity and no obstacles, coverage can reach a maximum of 900 ft2. For typical desktop activity, when mounted at 4 feet, coverage is 300 ft2.
Push-in
Screw Terminal
Wiring the sensor is quick and simple with the WS’s terminal wiring screws.
4.0' (1.2m) floor 35' (10.7m)
Ordering Information
®
Watt Stopper/Legrand Pub. No. 13904
Catalog No.
Color
Voltage
Load Requirement
Coverage
WS-200-W
White
120 VAC; 60 Hz
0-800 Watt Ballast
180°, up to 900 ft2 (83.6 m2)
WS-200-A
Lt. Almond
WS-200-I
Ivory
WS-200-G
Grey
WS-200-B
Black
or 277 VAC; 60 Hz
or 0-1200 Watt Ballast
One ASP-211 single-gang cover plate included. Order ASP-422 for blank 2-gang cover plate, ASP-432 for 2-gang cover plate with switch option (specify color). *Models for 220-240 VAC (WS-230) and 347 VAC (WS-347) are available.
SPECIFICATIONS Voltages . . . . . . . . . . . . . . . . . . . . . . . . . . .120 or 277VAC, 60Hz Load Requirements @ 120VAC, 60Hz . . . . . . . .0-800W ballast & tungsten @ 277VAC, 60Hz . . . . . . . . . . . . . . . . .0-1200W ballast @ 120 or 277 VAC . . . . . . . . . . . . . . . . . . . . . . . .1/6 hp Time Delay Adjustment . . . . . . . . . . . .30 seconds-30 minutes Sensitivity Adjustment . . . . . . . . . . . . . . .Minimum-Maximum Light Level Adjustment . . . . . . . . . . . . . . . . . . . .10 – 150 + FC
US Patent No’s: 4,787,722 4,874,962 5,124,566
Installation Instructions
WS-200
Automatic PIR Wall Switch
UNIT DESCRIPTION AND OPERATION The WS-200 Automatic Wall Switch turns lighting systems on and off based on occupancy and light levels and is designed to replace the standard light switch. The sensor uses passive infrared technology to sense human motion in a space and control the lighting. It must have a clear view of the people in the space in order to detect occupancy. Obstructions, such as furniture blocking the sensorâ&#x20AC;&#x2122;s lens, may prevent occupancy detection. Pressing the Auto/Off switch from off to auto will turn lights on. Once the space is vacant and the time delay elapses (adjustable from 30 seconds to 30 minutes), lights will turn off. Once lights are off, the sensor will turn the lights on when it detects occupancy. However, if adequate daylight is present, the sensor will hold lights off until natural light levels drop regardless of occupancy. Users can override this function by placing their hand in front of the sensor. The lights will then remain on until the space is unoccupied. The LED blinks upon initial motion detection and then resets, waiting for a period of inactivity. It will blink again upon a change of infrared energy in the space.
Call 800.879.8585 for Technical Support
COVERAGE PATTERNS The WS-200 detects motion in areas up to 900 sq. ft. and up to 35 feet from the sensor. Ideally, the sensor is designed for small amounts of motion in spaces up to 300 sq. ft. The Fresnel lens on the sensor is a multiple segment viewing lens with a field of view of 180°.
35' (10.7m)
15' (4.6m)
4.0' (1.2m) floor 35' (10.7m)
Masking the lens Opaque adhesive tape is supplied so that sections of the sensorâ&#x20AC;&#x2122;s view can be masked. This allows you to eliminate coverage in unwanted areas. Since masking removes bands of coverage, remember to take this into account when troubleshooting coverage problems.
INSTALLATION CAUTION TURN THE POWER OFF AT THE CIRCUIT BREAKER BEFORE INSTALLING THE SENSOR. WS-200 Automatic Wall Switch
Wall Junction Box
Cover plate
1. Remove the button cover to access controls by gently pressing down the security tab on top and prying off with a small screw driver. (See “Sensor Adjustment”) 2. Set the AUTO/OFF switch to the OFF position. (OFF=button out; AUTO=button in) 3. Connect the existing wires to the sensor terminals. (See “Wiring Directions” at right). • Do not allow bare wire to show below connector. • The ground wire must be tightly grounded for the unit to operate properly. 4. Attach the sensor to the wall by mounting it in the wall box with the two mounting screws provided. Note: Do not install cover plate until control adjustments are made. 5. Turn power on at the circuit breaker. 6. Press the AUTO/OFF switch to Auto (in). 7. Replace cover plate. IMPORTANT: There is an initial warm-up period. It may take up to a minute before the lights turn on due to a sensor warm-up period required during initial power-up (this occurs during installation only). IMPORTANT: Rapid successive pressing of the AUTO/OFF switch causes a delay in proper function.
Call 800.879.8585 for Technical Support
WIRING DIRECTIONS
Neutral
For normal installation of the WS-200, connect:
Load Line
Load
1. LOAD to Load terminal. 2. LINE to Line terminal. 3. GROUND to GROUND terminal.
Ground
Single-level wiring
Neutral
Load
Load
Line
Load
Ground
Manual bi-level lighting wiring
Insert or wrap wire as shown and tighten screw in the clockwise direction. #12 â&#x20AC;&#x201C; #14 AWG Strip Gauge
Cu Wire Only
SENSOR ADJUSTMENT WARNING DO NOT OVERTURN TRIMPOTS WHEN ADJUSTING THE SENSOR! 1. Remove the switch cover to access controls by gently prying it off from the top with a small screw driver. 2. To test unit operation, press Auto-off switch IN (Auto position) to turn lights on. Turn time delay to minimum (counterclockwise), leave the room and the lights should go off after 30 seconds. 3. To test sensitivity, make no motion for 10 seconds. This 10 second (no movement) time period must be observed in order for the LED to charge. Then move in a sideways motion in front of the sensor at a distance of approxi-mately 12â&#x20AC;?. The LED will blink when movement is detected. Typically, the sensitivity should be at maximum (clockwise).
Press down on tab and pry-off Cover
Auto-off Switch Override (L) Light Level (T) Time-Delay (S) Sensitivity Switch Cover
LED
Fresnel Lens
Maximum = clockwise Minimum = counter-clockwise
4. The light level setting must be set when the lights would normally be turned off due to the presence of sufficient natural or external light. [If this feature is not needed, leave the light level adjustment at maximum (clockwise)]. Adjust the light level to minimum and let the sensor time out so lights are off. Enter the space and lights should remain off. Make sure your body does not cast a shadow on the sensor, and adjust the light level trimpot clockwise in small increments. After each adjustment, wait 5-10 seconds to see if the lights turn on. Continue this procedure until the lights turn on. At this setting the lights will not turn on if light levels are above the current natural illumination. 5. Reset the time delay to the desired setting. The time delay can be set from 30 seconds to 30 minutes.
TROUBLESHOOTING Lights will not turn on: • LED does not flash: - Check the sensitivity for proper configuration. - Check all wire connections and verify the ground wire is tightly secured. • LED does flash: - Press the AUTO/OFF button. - Check all wire connections and verify the load wire is tightly secured. • If lights still do not turn on, call (800) 879-8585 for technical support.
Lights will not turn off: • Note: The time delay can be set from 30 seconds to 30 minutes. Ensure that the time delay is set to the desired delay and that there is no movement within the sensor’s view for that time period. • To quickly test the unit for proper operation, turn the time delay to minimum and move out of the sensor’s view. Lights should turn off after 30 seconds. • If lights still do not turn off, call (800) 879-8585 for technical support.
Sensing motion outside detection areas: • An opaque adhesive tape is included with the sensor and can be used to limit the detection areas. • Adjust sensitivity counter-clockwise to reduce excessive sensitivity.
Override function: In the event of unit failure or if it is necessary to leave the lights on, remove the “override jumper.” This will convert the AUTO/OFF switch into a standard ON/OFF toggle switch.
There is an initial warm-up period: It may take up to a minute before the lights turn on due to a sensor warm-up period required during initial power-up (this occurs during installation only).
Rapid successive pressing of the AUTO/OFF switch will cause a delay in proper function: If this is done, it may take several seconds for the switch to turn on the lights.
Call 800.879.8585 for Technical Support
ORDERING INFORMATION Catalog #
Description
WS-200
Automatic Wall Switch, 120 or 277 VAC, 60Hz
ASP-211
Cover Plate for single-gang box
ASP-422
Blank cover plate for 2-gang box
ASP-432
Cover plate for 2-gang box with switch option
• All units are available in Ivory (-I), White (-W), Gray (-G), Black (-B), and Light Almond (-A). • Add color designator to end of catalog number when ordering. • One ASP-211 is included with each unit.
COVER PLATES The Watt Stopper automatic wall switch fits behind industry standard decorator style switch plates. The Watt Stopper has available both single and double gang switch plates in most configurations. Consult catalog or your distributor for more information.
WARRANTY INFORMATION Watt Stopper/Legrand warranties its products to be free of defects in materials and workmanship for a period of five (5) years. There are no obligations or liabilities on the part of Watt Stopper/Legrand for consequential damages arising out of, or in connection with, the use or performance of this product or other indirect damages with respect to loss of property, revenue or profit, or cost of removal, installation or reinstallation.
2800 De La Cruz Boulevard, Santa Clara, CA 95050 Technical Support: 800.879.8585 • 972.578.1699 www.wattstopper.com 01593r4 02/2005
L I G H T I N G C O N T R O L PA N E L S
CE Multi-pole Contactor Multi-pole design enables control of multiple single-phase or of multi-phase loads
Compatible with all HID and electronic ballast loads
Normally closed or normally open contacts
Four pole, SPST power contacts
Accepts wire gauge #10 - #14 AWG Silver cadmium oxide contacts for long life PROJECT LOCATION/TYPE
Product Overview
Description
Specifications
The CE Multi-pole Contactor is a compact, electrically held lighting contactor used for controlling lighting and other electrical loads in Watt Stopper Lighting Integrator (LI) lighting control panels.
• • • • •
Services & Components
Operation & Features The CE contactor is compatible with all HID and electronic ballast loads. All line and load wiring is feed-through style, and screw terminals accept both standard blade and phillips head screw drivers. Contactors may be added to any 24- or 48relay size Lighting Integrator panel. Contactors may be ordered with LI panels (by specifying them in the LI panel catalog number) or they may be ordered separately. They may also be easily added to existing lighting control panels with DIN rail mounting capability, providing a simple way to expand the number of circuits controlled.
Electrically held Screw compression terminals Coil holding power consumption 10VA Compact DIN rail mounting Dimensions: 2.9”x 1.75”x 2.95” (73.7mm x 44.5mm x 74.9mm); weight 11.3 oz. • UL 508 listed, CSA certified; one year warranty
Ratings • Ballast load • Tungsten load • Resistive load • Motor load
Contactor Diagram
A1
Ordering Information
Catalog No.
Description
Voltage
CE-04-20T-120
4-pole normally closed
120V coil
CE-04-20T-277
4-pole normally closed
277V coil
CE-40-20T-120
4-pole normally open
120V coil
CE-40-20T-277
4-pole normally open
277V coil
coil
A2
Normally Open
A69
www.wattstopper.com 800.879.8585
Pub. No. 9007
30 Amp @ 600 V (magnetic, electronic, HID ballasts) 20 Amp @ 277 V 30 Amp @ 480 V 5 HP @ 460 V, 3 phase
A1
coil
A2
Normally Closed
L I G H T I N G C O N T R O L PA N E L S
Lighting Integrator Analog Photocell
California Title 24 Compliant — Calibration is remote from the sensor
Color-coded Class 2 connection to panel
Three application-specific models for easy selection
All adjustments made from WinControl software PROJECT LOCATION/TYPE
System & Enclosures
Product Overview
Description
Operation
Analog series photocells provide ambient light level measurements to Lighting Integrator Complete Control (LICC) panels, enabling flexible, multi-setpoint control of lighting. The outdoor model, HPSA, is completely weatherproof and equipped with a hooded lens to help protect against snow and glare. Indoor models include the HPSA-S for mounting in skylights, clearstories and atriums, and the HPSA-I, which is ideal for daylight shed applications and is mounted on the ceiling or wall.
Analog series photocells are powered by Class 2 DC voltage supplied from any input terminal on a Group Switching card installed in an LICC panel. The photocells return a DC signal to the panel in proportion to the amount of light striking the photocell lens. No adjustments are needed at the photocell head. Powerful WinControl software normalizes the photocell signal and provides an easy user interface, permitting set-up of lighting control scenarios based on footcandle level setpoints. Two modes allow for basic applications where default settings produce the desired control. An advanced mode allows the setpoints, time delays and deadband to be fine-tuned for more sophisticated application requirements.
Applications Outdoor model HPSA is typically mounted on the building roof facing north. The HPSA provides exterior ambient light level information to the LICC panel where one or more setpoints have been appointed to control exterior lighting. The skylight model HPSA-S is designed to be compatible with the high light levels encountered near the glass in skylights, atriums and clearstories. Typically, the HPSA-S will provide light level information to the panel and be used to hold off/shed unnecessary interior lighting during bright daylight hours. The HPSA-I is also used to shed interior lighting in response to daylight, but is designed to operate in the relatively low ambient light levels present at the ceiling in interior rooms.
Features
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Typical Advanced Mode WinControl Software Screen
• Exterior and skylight models provide flexible mounting options via ½” threaded conduit fitting
• Interior model mounts simply, without tools, using the provided peel and stick adhesive
• No calibration or adjustments required at the photocell location; all set-up done in software
• Color-coded flying leads and matching colorcoded terminals in panel simplify installation
Application Diagrams
• • • • • •
• Operating Tempature: -40°F-140°F (-40°C- 60°C) • Mounting: HPSA and HPSA-S: ½” NPT x .69” stem HPSA-I : 0.5” x .64” stem with 3M® adhesive pad • Housing: UV stabilized plastic • Dimensions: HPSA: 2.25” x 1.28” diameter HPSA-I: 1.23” x 2.00” diameter HPSA-S: 2.25” x 1.28” diameter
Calibration: none (controlled by system software) Input Voltage: 12VDC Sensor Output: 0-4.4 VDC Peak Current: 4.5 mA maximum Slew Rate: One minute full scale response time Wire Color Code: Red: +12VDC Black: 0-4.4VDC signal to panel White: DC common
HPSA Outdoor Wiring
HPSA-S Skylight Wiring
North Sensor Hood
Group Switching Card inside LI Panel HPSA Sensor
HPSA-S Sensor
Wiring Terminals
#20 AWG up to 250 feet #18 AWG up to 1000 feet Class 2 wiring
R B Y W
R B Y W
R B Y W
R B Y W
R B Y W
R B Y W
R B Y W
R B Y W
Vertical Orientation Option
Skylight Well
Watertight J Box
L I G H T I N G C O N T R O L PA N E L S
Specifications
Group Switching Card inside LI Panel Wiring Terminals
A
B
C
D
E
F
G
H
R B Y W
#20 AWG up to 250 feet Class 2 wiring
R B Y W
A
R B Y W
B
R B Y W
C
D
E
R B Y W
R B Y W
R B Y W
R B Y W
F
G
H
HPSA-I Indoor Wiring
Light Fixture HPSA-I Sensor Located half way between window and first row of lights
#20 AWG up to 250 feet Class 2 wiring Group Switching Card inside LI Panel
Window
Wiring Terminals
R B Y W
A
Ordering Information
Catalog No.
Description
R B Y W
B
R B Y W
C
R B Y W
D
E
R B Y W
R B Y W
R B Y W
R B Y W
F
G
H
Application Range
HPSA
Outdoor analog photocell sensor, white housing
0 - 200 FC
HPSA-I
Indoor analog photocell sensor, white housing
0 - 500 FC
HPSA-S
Skylight analog photocell sensor, white housing
0 - 6000 FC
NOTE: May be ordered with custom calibration by adding suffix "X" and stating desired range.
Pub. No. 27101
www.wattstopper.com 800.879.8585
System & Enclosures
Ceiling
Windows-based control and automation for Lighting Integrator panels
Design, layout and document lighting control projects
Activity logs and reports Simulator function for testing programming PROJECT LOCATION/TYPE
Product Overview
Description
System Reports and Analysis
WinControl software provides PC-based automation and control for Watt Stopper Lighting Integrator (LI) panels equipped with Communication cards. It includes a design program, WinControl Designer, to layout and document lighting control projects and produce CAD-ready diagrams in DXF format.
WinControl provides comprehensive monitoring and reporting capabilities, including reports for documenting control system devices and schedules. In addition, WinControl generates activity logs, exception reports and runtime graphs that can be used for trend analysis, or to track actual lighting usage (down to the individual relay level, if desired) and evaluate energy costs. The software can also be used to verify that the system is operating as intended, or to identify and diagnose potential concerns.
Operation WinControl provides a user interface for programming, monitoring and control functions for LI panel networks. Administrators can use the software to program control schedules off-line, and then execute updates with a simple command. Once programmed using WinControl, the panels execute control scenarios, including scheduled OFF with blink warning, time delay overrides with blink warning, or automatic daylight switching with occupant interlock/ override. Administrators can configure password-protected security settings to specify users with authority to change programming, documentation, and execute control functions. Online operation enables users to control individual relays or make immediate changes to scheduled operation.
Features
• Explorer-like view of all system components • Remote operation capabilities via modem, network, or TCP/IP connection • Design export to DXF format with output including single line riser diagram, panel schedules, and specification summary • User programmable override and time delays
A41
System management and administration
Panel programming off- or on-line
Networking & Software
L I G H T I N G C O N T R O L PA N E L S
WinControl Software for Lighting Integrator
www.wattstopper.com 800.879.8585
• Weekly scheduling with holidays and astronomic control
Applications Facilities with multiple LI panels, such as office building campuses, convention centers, airports, arenas, and large commercial facilities are ideal settings for lighting control management via WinControl. Capable of automating and controlling all types of interior and exterior lighting applications, WinControl is also adept at administration down to the relay level. Operators can tailor lighting control to building and occupant activities on a daily or weekly basis with programmable holiday and exception schedule handling. • Compatible with WebLink for use on an IP network • Designer wizard for creating lighting control project layouts • Full support for AS-100 automatic wall switches • Program panels for analog photocell operation with up to 32 set points • Configure panels for varied occupancy sensor behavior checking occupied and unoccupied periods
• Compatible with Windows 2000, XP Professional • PC required with 256 MB RAM, CD-ROM, 100 MB free hard disk space
• Monitor with 16-bit color, minimum 800x600 resolution • Data Communications Link (HLINKCC) required to connect PC to LI panel network
Sample WinControl Screens and Reports
Users set up weekly schedules, modify daily events, and specify actions for weekends and holidays on this scheduling screen.
Real time load report graph provides administrator with a snapshot of lighting system usage.
Monitoring and trend analysis are enabled by reports such as these runtime and runtime exception reports.
Documenting, programming and controlling panel relays is simplified with point and click screens and drop down menus.
Ordering Information
Catalog No. WCHSTD-xxx
Description
Networking & Software
Users can select reports from a browser-like screen.
L I G H T I N G C O N T R O L PA N E L S
Specifications
WinControl software (standard package)
xxx at end of catalog no. = number of relays in system (i.e., 250, 500, 750 or UL for unlimited number of relays).
Additional networking components: HLINKCC
Data Communications Link (required for PC connection to LI dataline)
Optional software packages include:
Pub. No. 10504
WCHGR
WinControl Graphics Software
www.wattstopper.com 800.879.8585
A42
L I G H T I N G C O N T R O L PA N E L S
WinControl Graphics for Lighting Integrator Panels Graphical enhancement to standard WinControl software
Networking & Software
Status, documentation, and programming data for each system device
Facility-specific on-screen system graphics
Multiple site graphics on single screen view Supports multiple graphics peripherals and file formats
PROJECT LOCATION/TYPE
Product Overview
A43
Real time programming and monitoring
Description
Customized Graphical Displays
An optional package for WinControl software, WinControl Graphics provides capabilities for onscreen system programming changes, real time monitoring and operation in a graphical environment. It functions with Watt Stopper Lighting Integrator lighting control panels outfitted with Communication cards.
WinControl Graphics allows users to create and modify graphical displays for customizing the application and view system lighting status on screen in real time. Typically, a floor or building plan, map, photograph or similar graphic is imported to create a custom control screen so that users may easily identify lighting zones. Customized lighting control buttons are associated with the graphic so that a lighting operation can be turned on or off via a simple mouse click. Users can accommodate multiple graphical displays on a single screen, enabling them to conduct system administration on different sites from a single location.
Operation WinControl Graphics works seamlessly with WinControl. All panel, load, and scheduling data entered in WinControl is automatically shared and available for access from within the WinControl Graphics environment, eliminating duplication of data input. The customized graphic screen displays enable system administrators to instantly identify the status of specific devices, or control the system with ease (i.e., turn individual lamps or relays on or off using a simple mouse click). WinControl Graphics also supports multiple graphic file formats so users can easily import graphics from other applications to customize displays.
Features
www.wattstopper.com 800.879.8585
• Multiple site graphics on single screen view
Applications For large, complex facilities, such as convention centers, airports, stadiums, or high-rise office buildings, WinControl Graphics offers a versatile, user-friendly system administration tool.
• On-screen simulation of system operation
• Supports BMP, WMF, JPEG, AVI, PCX, DCX graphics file formats
• Point and click control of individual relays or groups of relays
• Zoom, resize, and scroll capabilities for easy maneuverability
• Displays system activities in context of specific building plans
• Screens and control buttons may be tailored to individual requirements
Sample WinControl Graphics Screens
• 100 MB free hard disk space plus 1.0Mb per graphical screen • Monitor with 16-bit color, minimum 800x600 resolution
WinControl Graphics System Screen
WinControl Graphics Run Mode
Graphical screens accurately display fixtures, switches, and other system devices and their ON/OFF status.
The run mode enables users to see programming changes on-screen and in real time.
Multiple Site Viewing on Single Screen
Customized Graphical Displays
Multiple site graphics are accessible on a single screen.
Users can customize graphical displays to streamline system administration.
Catalog No. WCHGR Other software package required: WCHSTD-xxx
Description WinControl Graphics Software for Lighting Integrator Systems (requires WinControl standard) pkg.) WinControl Software (standard package) for Lighting Integrator Systems
Networking & Software
Ordering Information
• Compatible with Windows 2000, XP Professional • 512 MB RAM plus 1.0 Mb per graphical screen • CD-ROM
L I G H T I N G C O N T R O L PA N E L S
System Requirements
xxx at end of catalog no. = number of relays in system (i.e., 250, 500, 750 or UL for unlimited number of relays). Purchase of a single software license entitles use on one computer.
Pub. No. 10604 www.wattstopper.com 800.879.8585
A44
L I G H T I N G C O N T R O L PA N E L S
Lighting Integrator BMS Interface Module Automation module that interfaces with other building systems
Controls up to eight different lighting groups
Blink warnings and user-selectable time delays
Easy plug-in connection in Lighting Integrator system panel Two-line graphical display with simple menu-driven data entry
PROJECT LOCATION/TYPE
Automation Modules
Product Overview
Description
Control Scenarios
The Building Management System Interface Module (HBMS8SS), is an optional automation module for Lighting Integrator (LI) panels outfitted with Automation cards. It provides an alternative to the Network Clock when scheduling is to be provided by another building system, such as a building management system or a security system via dry contact closures.
User-selectable control scenarios include Manual ON/Scheduled OFF and Scheduled ON/OFF, as well as the exterior lighting control scenarios available with the optional Photocontrol Package. Each scenario offers necessary functions such as blink warnings and user-selectable time delays. Structured around a business hours/after hours (occupied/unoccupied) approach, these scenarios can be initiated with a signal provided by a dry contact relay closure from another building system to each channel input.
Operation The BMS Interface module mounts on the panel’s DIN rail and connects to the Automation card via a factory-supplied communication cable. (Alternatively, the module may be installed in or near the BMS and connected to the LI panel via a single run of 4-conductor dataline wire.) Each of the module’s eight channels have a pair of connection terminals to accept a dry contact closure from an external device (i.e., BMS, HVAC, security system), as well as another pair of terminals that provide pilot status output for channel feedback. The user follows a simple, menu-driven sequence to select control scenarios for each channel. When a channel receives a signal via a contact closure, it then executes the appropriate pre-programmed scenario.
Features
• Menu-driven scenario selection using business hours/after hours (occupied/unoccupied) approach simplifies operation • Manual ON/Scheduled OFF and Scheduled ON/Scheduled OFF control scenarios for interior lighting provide occupant convenience and energy efficient control
A33
Up to four common scenarios for interior and exterior lighting control
www.wattstopper.com 800.879.8585
Applications Many small to mid-sized facilities employ centralized control of building systems. With the BMS Interface Module, an LI system can take signals from building systems to initiate automated control scenarios. This can simplify building operation while accommodating individual occupant needs. The BMS Interface Module maintains the flexibility of the LI control panel while providing the convenience of integration with other building systems.
• User-selectable blink warnings • Dark ON/Dark OFF and Dark ON/Scheduled OFF control scenarios for exterior lighting (with optional Photocontrol Package) • Isolated contacts for status feedback on each channel • Selectable override time delay for all scenarios
Controls & Scheduling Information
• Power consumption 225 mA at 24 VAC • DIN rail mounting in any Lighting Integrator panel in the network; factory connection cable included • Plugs into Lighting Integrator panel with Automation card • Two-line, 16-character LCD display • Accepts scheduling signal from external devices via dry contact relay closure for each channel input
• SRAM memory with 10-year internal battery backup • Weight 1.0 lbs./0.45 kg. • Environmental: Operating temperature range 32-139°F (0-60°C); 5-95% RH non-condensing, non-corrosive atmosphere • 7.5” H x 4.5” W x 1.5” D (190 mm x 114 mm x 38 mm) • One year warranty
BMS Interface Module Controls
Scenario Scheduling
LCD display Dry contact input R W Y Y
Status output
R W
A
E
Y Y
B
F
R W Y
Eight global channels for grouping lighting loads (A-H)
Y
Y
Y Y R W
C
G
Selecting control scenarios for different channels is quick and easy with the menu-driven LCD display.
Y Y R W
R W Y
Y Y R W
R W
D
H
Y Y
R B
L I G H T I N G C O N T R O L PA N E L S
Specifications
W BU
Photocontrol scenarios are added when the optional Photocontrol Package is used.
System Layout
System Layout with BMS module Photocell (optional)
A
E
B
F
C
G
D
H
Photocontrol Module (optional)
Maintained isolated (dry) contact
Channel A relays open office areas
Channel B relays hallways and common
Channel C relays exterior security lighting
Channel D relays parking lot signage
Automation Card
Automation Card
HBMS8SS
R W Y Y
R W
A
E
B
F
R W
R W Y Y R W Y Y
Y
Y Y R W
C
G
D
H
R W Y
Y Y
Y Y R W Y Y
R B W BU
Dual 20 AWG wire 1000 ft. max.
Building Management System
BMS Interface Module Lighting Integrator Panel (02) Second Floor
Lighting Integrator Panel (01) First Floor Other panels
Other panels 4-conductor global data communications wire
4-conductor local data communications wire
4-conductor local data communications wire Etc.
Etc.
Dataline Switches
Dataline Switches
LI panel network with BMS Interface Module, optional Photocontrol Package, and Dataline Switches.
Ordering Information
Catalog No. HBMS8SS
Automation Modules
Legend HPCU8SS
Description Lighting Integrator BMS Interface Module
Optional control module: HPCP8SS
Lighting Integrator Photocontrol Package with Photosensor
HDLW4
4-conductor data communications wire
Wire:
Pub. No. 10704 www.wattstopper.com 800.879.8585
A34
L I G H T I N G C O N T R O L PA N E L S
Lighting Integrator Photocontrol Package Control module for exterior lighting control
Automatic interface with either Network Clock or BMS Interface Module
Real time LCD display of exterior light level
Includes photocontrol module and external photocell
User-defined light level setpoints for eight channels
Two pre-programmed exterior lighting control scenarios PROJECT LOCATION/TYPE
Automation Modules
Product Overview
Description
Control Scenarios
An optional control module for Lighting Integrator (LI) panels outfitted with Automation cards, the Photocontrol Package provides a DIN mounted control module together with an external photocell for exterior lighting control. Compatible with either the Network Clock or BMS Interface Module, it provides automation scenarios for up to eight different lighting groups.
The Photocontrol Package enables use of exterior lighting control scenarios preprogrammed in either a Network Clock or BMS Interface Module. These scenarios are Dark ON/OFF or Dark ON/Scheduled OFF. Users may select a control setpoint for each of the eight automation channels to trigger the control scenario for different lighting levels. For instance, ON/OFF setpoints for security and parking lighting typically range from 2-20 footcandles, while setpoints for signage lighting range from 20-200 footcandles.
Operation The photocontrol module compares outdoor light level data from the external photocell with userdefined setpoints programmed into the module. If it determines exterior lighting should be turned on or off, it transmits a control signal to either the Network Clock or BMS module, which implements the appropriate control scenario. One Photocontrol Package, together with either a Network Clock or a BMS Interface, can control a network of LI panels each equipped with an Automation card.
Features
• Packaged photocontrol module and photocell • Preprogrammed control scenarios for photosensitive control of exterior lighting • Bi-color LED indicates dark/not dark status for each channel (red = light level is less than setpoint, green = light level is greater than setpoint, no color = no setpoint for that channel)
A35
www.wattstopper.com 800.879.8585
Applications The lighting control scenarios available for use with the Photocontrol Package are ideal for the most common exterior lighting control needs: security, parking, and signage. Typically, users will select Dark ON/Dark OFF for security lighting at settings between 2-20 footcandles. For non-security lighting such as parking lot lighting or signage, the Dark ON/Scheduled OFF scenario is more commonly used to turn lighting off during hours of vacancy. • Automatic deadband and five minute time delay prevents lamp cycling • User-selectable Operate or Test mode • Real time LCD display of exterior light level and user-selected setpoint • Factory plug-in connector cable for easy installation
Controls & Installation
• Requires Automation card and either Network Clock, BMS Interface module, or Automation Appliance in LI system for Photocontrol Package to operate • Environmental: 32-131°F (0-55°C); 0-95% RH, noon-condensing, non-corrosive atmosphere • Weight: 1.0 lbs. (0.45 kg) • 7.5” H x 4.5” W x 1.5” D (190 mm x 114 mm x 38 mm) • One year warranty
• Power consumption: 24 VAC from panel, 125 mA • Eight automation channels, eight independent light level setpoints • Two line, 16 character display • Memory backup, non-volatile • Photocell footcandle range from 0 - 200 fc (0 2200 lux) • DIN rail mounting in LI panels or accessory panels; factory connection cable included
Photocontrol Module Keypad
Mounting the Photocell
LCD display 0.5 inch threaded inlet
HPCU8SS
Weathertight junction box Photocell
A
Point photocell North
E
B
F
C
G
D
H
Eight automation channels 12 inches above snow line
3-conductor 20 AWG 1000 ft. max.
L I G H T I N G C O N T R O L PA N E L S
Specifications
Users can control up to eight separate channels (A-H). The LCD displays user-selected light levels set for specific channels as well as real time photocell footcandle readings.
System Layout
Lighting Integrator System with Photocontrol Package Legend Channel B relays hallways and common
Channel C relays exterior security lighting
Channel D relays parking lot signage
HPCU8SS
A
E
B
F
C
G
D
H
Photocontrol Module
Automation Card
Automation Card
RAISE
HELP
SELECT
LOWER
Network Clock or BMS Interface
Lighting Integrator Panel (02) Second Floor
Lighting Integrator Panel (01) First Floor
Other panels
Other panels 4-conductor global dataline (using only single pair)
4-conductor local dataline (using both pairs) Etc.
4-conductor local dataline (using both pairs)
Automation Modules
Photocell
Channel A relays open office areas
Etc. Dataline Switches
Ordering Information
Catalog No. HPCP8SS
Description LI Photocontrol Package with Photosensor
Network Clock or BMS Interface required for operation with Photocontrol Package: HCLK8SS
LI Network Clock/Programmer
HBMS8SS
LI BMS Interface Module
Pub. No. 11004 www.wattstopper.com 800.879.8585
A36
L I G H T I N G C O N T R O L PA N E L S
Lighting Integrator Network Clock Time scheduling automation module for Lighting Integrator panels
Programming mode for panels and system switches
Five pre-programmed control scenarios
Simple menu-driven data entry Astronomical control for exterior lighting operation
PROJECT LOCATION/TYPE
Automation Modules
Product Overview
Description
Scheduling & Control Scenarios
The Network Clock adds time scheduled automation capability to Watt Stopper Lighting Integrator panels outfitted with Automation cards. The Clock provides global scheduling of up to eight different lighting groups using pre-programmed automated control scenarios.
The Network Clock offers multiple scheduling scenarios, including Manual ON/Scheduled OFF, Scheduled ON/OFF, and Manual ON/Sweep OFF with AS-100 switches for interior applications. These scenarios offer blink warnings and userselectable time delays. Exterior lighting scenarios include Astro or Photocell ON/Scheduled OFF, Astro or Photocell ON/OFF. Photocell controlled scenarios require the use of a Photocontrol Package.
Operation The Network Clock mounts on the accessory DIN rail and plugs into the Automation card of any panel on the network. In a multi-panel application, a single Network Clock will support multiple panels provided each contains an Automation card. The installer follows simple menu screens to set up and schedule each of eight global channels in the system based on the control needs of each specific lighting group. The clock also operates as a handheld programmer for dataline switches at their remote locations or for smartwiring relays to channels in a panel.
Features
The control scenarios are suitable for many common commercial applications. Retail lighting loads such as general sales, stocking lights, exterior signage, and accent/showcase can be controlled via different scenarios. In office buildings, lighting loads with similar control needs (i.e., common areas, hallways, and open office areas) can be grouped into a channel and scheduled together. Using Dataline and AS-100 switches provides occupants with manual override capabilities.
• Scheduling capabilities include seven-day with up to 36 holidays and six holiday date ranges
• Diagnostics function identifies dataline devices and confirms communications
• Automatic daylight savings adjustment
• Astronomical set up has choice of city/state or latitude/longitude coordinates for easy set up www.wattstopper.com 800.879.8585
Applications
• Occupied/unoccupied (after-hours) scheduling and scenario selection for up to eight channels
• Automatic interface to optional Photocontrol Package for exterior lighting control scenarios
A31
Controls up to 8 channels across a lighting control network
• Functions as hand-held programmer for dataline switches and relay smartwiring • Supports use of AS-100 Automatic Control Switches for local manual override switching
Controls & Modes
• Programming and clock carry-over during power outages for up to 10 years • Weight 1.0 lbs./0.45 kg. • Environmental: Operating temperature range 32-139°F (0-60°C); 5-95% RH non-condensing, non-corrosive atmosphere • Dimensions: 7.5” H x 4.5” W x 1.5” D (191mm x 114mm x 43mm) • One year warranty
• Power consumption from the lighting control panel 150mA at 24VAC • Eight channels with five pre-programmed scenarios • User-selectable locations or latitude/longitude coordinates for astronomical clock setup • Supports optional use of Automatic Control Switch (AS-100) for local manual override • DIN rail mounting in LI and accessory panels; factory connection cable included
Network Clock Module Controls
Clock in Programming Mode
LCD display
Dataline switch
RAISE
HELP
L I G H T I N G C O N T R O L PA N E L S
Specifications
Keypad
SELECT
LOWER
Clock can be used to program dataline switches to relays or relay groups
Lighting Integrator Application with Network Clock Legend Channel B relays hallways and common
Channel C relays exterior security lighting
Channel D relays parking lot signage
HPCU8SS
A
E
B
F
C
G
D
H
Photocontrol Module (optional)
Automation Card
Automation Card
Network Clock
Lighting Integrator Panel (02) Second Floor
Lighting Integrator Panel (01) First Floor
Other panels
Other panels 4-conductor local data communications wire (using both pairs)
4-conductor global data communications wire (using only single pair)
4-conductor local data communications wire (using both pairs)
Etc. Etc.
Automation Modules
Photocell (optional)
Channel A relays open office areas
Dataline Switches Dataline Switches
Users can group lighting loads in 1-8 channels and extend automation from a single Network Clock to a network of panels (each equipped with an Automation card).
Ordering Information
Catalog No. HCLK8SS
Description Lighting Integrator Network Clock/Programmer
Optional control module: HPCP8SS
LI Photocontrol Package with Photosensor
Pub. No. 11104 www.wattstopper.com 800.879.8585
A32
L I G H T I N G C O N T R O L PA N E L S
Lighting Integrator Dataline Switch
Locator light bar for visibility when dark
Screwless wallplate and removable lens caps for labeling Pilot light LEDs for visual status feedback
Local dataline compatibility provides easy installation and operation PROJECT LOCATION/TYPE
Product Overview
Description
Control Capabilities
Designed for use with Lighting Integrator (LI) panels, the Dataline Switch (HDLSxSS) offers flexible and user-friendly lighting control of a single relay, or a group of relays in one panel or a network of panels.
Dataline switches can be used with either Automation level or Complete Control level LI systems. In Automation level systems, buttons can be programmed to control either a group of relays in a single panel or a channel in one or more panels. In LI Complete Control systems, the buttons may also control system wide group codes.
Switches
Operation Dataline Switches install into standard wall boxes and connect to the LI panel via dual twisted pair digital bus wiring. Each switch unit contains one master button as well as up to eight individual switch buttons, which can be individually programmed (“smartwired”) to control relays or groups of relays. Individual switch buttons are programmed directly from WinControl software on LICC systems or through Smartwiring on Automation level systems by lifting the switch covers to uncover the smartwiring button. Pressing these buttons (see sequence diagram on reverse) sends a unique digital code that identifies the button and switch to the panel. The button can then be assigned to a relay or a group of relays. The master button is programmed via DIP switches on the back of the switch with a choice of functions.
Features
• Works with Lighting Integrator panels fitted with an Automation card • Bi-color pilot light status LEDs indicates relay states for each button (red= All ON, green= mixed state, no color = All OFF)
A55
1-, 2-, 4-, and 8-button configurations
Pushbutton control for single relays, groups of relays, and/or channels in Lighting Integrator panel systems
www.wattstopper.com 800.879.8585
Applications Multiple Dataline Switches connect together and to a panel via 4-conductor data communications wiring (also referred to as the “local dataline”). This reduces the wiring required by conventional switches, since up to 63 devices per panel can share the dataline. Dataline Switches are ideal for commercial office buildings and any building space where individual occupant lighting control needs are paramount. These switches are flexible enough to accommodate individual needs while facilitating efficient, area-wide automated lighting control. The “cleaning” scenario enables maintenance crews to control needed lighting without interfering with the needs of individuals working after hours.
• Optional cleaning control scenario • Optional ON Only setting to prevent inadvertently turning lights off
• Locator light bar for finding switch in the dark
• Master button with programmable configurations (RESTORE/All OFF; All OFF, All ON/All OFF, or DISABLED)
• Optional key lock version for public locations
• Available in white, ivory, almond, and grey
Specifications
• Environmental: Operating temperature range 32-139°F (0-60°C), 5-95% RH non-condensing • One year warranty
Smartwiring a Dataline Switch
1
Remove wallplate and
2
Press Smartwire tab once. Smartwire LED flashes once. All switch button LEDs begin flashin
Switch Programming
Press switch button to be programm Selected button LED continues to fl Other LEDs stop flashing.
ng.
Users can program Dataline Switches in the field with the Network Clock (if using WinControl, Network Clock is not required).
Smartwire tab Smartwire LED
Dataline Switch Wiring med. lash.
3
Press relay control button to to add or delete from group.
4
L I G H T I N G C O N T R O L PA N E L S
Switch Programming and Wiring
• Standard wallbox mounting, non-gangable • Removable switch button lens caps accommodate 3/8” (9mm) laminated tape • Custom engraving available • Dimensions: 2.75” W x 4.5” H x 1.8” D (69.8mm x 114.3mm x 46mm) for 1-, 2-, and 4-button switch 4.5”W x 4.5” H x 1.8”D (114.3mm x 114.8mm x 46mm) for 8-button switch
Press Smartwire tab again. All LEDs stop flashing. Smartwiring is completed. Repeat for other buttons as ne
Flashing LED
Red Communication Black White 9 to 30 DC/AC Blue +
Relay control button
Switch
Documentation for Dataline Switch PANEL NUMBER
LIGHTING INTEGRATOR SYSTEM
DATALINE SWITCH DOCUMENTATION
Ordering Information
SWITCH
BUTTON#
DESIGNATION
(8 MAX)1
-01 -01 -01 -01
1 2 3 4
01-01 01-02 01-08, 01-09 01-05, 01-06
Lobby sconce lighting Lobby down lighting Corridor lighting Open office lighting
-02 -02
1 2
01-05 01-06
Open office "A" lighting Open office "B" lighting
-03 -03
1 2
01-05 01-06
Open office "A" lighting Open office "B" lighting
Catalog No.
RELAYS2 CONTROLLED PANEL # - RELAYS3
01
Note: Use this form for Dataline Switches and/or Universal Switch Modules connected to the local Dataline of the panel number indicated above.
DESCRIPTION
SPECIAL FUNCTION
Description
Size
Power Consumption
HDLS1SS
Single Dataline Switch
Single-gang
45 mA
HDLS2SS
Dual Dataline Switch (2 individual buttons + Master button)
Single-gang
50 mA
HDLS4SS
Quad Dataline Switch (4 individual buttons + Master button)
Single-gang
55 mA
HDLS8SS
Octal Dataline Switch (8 individual buttons + Master button)
Double-gang
75 mA
Add to the end of catalog no.: - 2 for Ivory, - 4 for Almond, - 7 for White, - 9 for Grey.
Switches
4-conductor data communications wire (HDLW4)
Add -K after catalog no. for keyed switch.
Pub. No. 11205 www.wattstopper.com 800.879.8585
A56
Lighting Integrator Accessory Enclosure Installs anywhere on Lighting Integrator network
Connections for global and local datalines and power supply
Connectors and terminals for easy installation of network devices
Hinged cover with locking latch
PROJECT LOCATION/TYPE
Product Overview
Capacity & Controls
The HACCBOX is a surface-mounted accessory enclosure for low voltage components. It is designed to simplify remote mounting of accessories used in Watt Stopper Lighting Integrator (LI) panels outfitted with Automation cards.
Users may install an accessory enclosure at any point on an LI network, as long as twisted pair communications wiring (also referred to as a dataline) limitations are taken into consideration. The enclosure holds up to two system devices, such as a Network Clock, BMS Interface Module, Photocontrol Module, or Universal Switch Module. For convenience, the enclosure contains a circuit board with terminals for quickly connecting dataline devices to the system. Users can access two 4-pin connectors and two 4-wire terminals for connecting dataline devices requiring power, such as dataline switches. In addition, the enclosure contains separate 2-wire terminals for panel-topanel data communications wiring.
Features • Enclosure and hinged "shoebox" cover with locking latch mechanism • Compatible with LI power supply (HUPSM) for providing additional power • Accessory plate with DIN rail • Circuit board that provides dataline and power connections
Specifications
Accessory Enclosure Interior
• DIN rail, mounting plate, and frame for mounting dataline modules, non-DIN rail devices, and optional power supply 115 VAC
GND
NEUT
• Dimensions: 12.13” H x 17.5” W x 4.88” D (308mm x 444mm x 124mm)
R W Y Y
R W
A
E
Y Y
B
F
C
G
D
H
R W
• Shipping weight: 23 lbs. (10.43 kg.)
Y Y
Y
Y Y R W Y Y
DIN rail
R W
R W Y
Y Y R W
R W
Circuit board with dataline connections
Y Y
R B
W
BU
• One year warranty • UL and CUL listed Catalog No.
Ordering Information
Pub. No. 11704
HACCBOX
Description Accessory Enclosure
Services & Components
Description
L I G H T I N G C O N T R O L PA N E L S
Enclosure for Lighting Integrator accessory devices
The Accessory Enclosure includes DIN rail mounting in the low voltage section, non-DIN rail mounting plate, and line voltage section.
Optional accessory: HUPSM
Power Supply Module
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A66
L I G H T I N G C O N T R O L PA N E L S
LI Universal Switch Interface Module (USM) Dataline module enables any switch or contact closure to operate like Dataline Switch
Automation Modules
ON/OFF push button override for each group
Supports up to eight switching groups with bi-color status LEDs
Installs in any Lighting Integrator panel or accessory enclosure with local dataline ON/OFF or pattern group control PROJECT LOCATION/TYPE
Product Overview
Description
Simplified Installation
The Universal Switch Interface Module (USM) is an optional device for use with standard switches and Lighting Integrator (LI) panels fitted with automation cards. The USM emulates a Dataline Switch, allowing any standard switch or other dry contact closure device to control relays in an LI network.
The USM mounts on the LI panel’s DIN rail and connects to the Automation card. It can be installed in any panel or accessory enclosure on an LI network. The USM can be easily programmed via smartwiring or by using the LI Network Clock as a field programmer. When used in panels fitted with Communication cards, the USM can be programmed with WinControl software.
Operation With eight universal inputs to accept connections from external switches or devices, the USM mimics the function of an 8-button Dataline Switch. Users may wire any standard 2- or 3-wire momentary or maintained switch to these inputs so that each input terminal of the USM operates just like a Dataline Switch button. Similarly, users install, document, and smartwire the USM like a Dataline Switch in their Lighting Integrator network.
Features
The USM enables virtually any type of switching device to control lighting groups. For instance, the USM can provide floor- or facility-wide control as well as visual status capabilities when used with pilot light push-button switches at a facility override station. Via the USM, an override station operator can control any relay, group of relays, or channel in any panel in a Lighting Integrator system. Furthermore, standard switches can be “clustered” near a USM unit and wired to it, reducing the number of wiring conductor runs back to the panel. • Eliminates multiple home run wiring when standard switches are included in a network
• Choice of dataline connections including plug connector for factory cable or screw terminals for field connection
• Isolated dry contact relays provide status feed back for other systems
• Enables integration of simple inputs from other building systems (i.e., HVAC or security) into Lighting Integrator system www.wattstopper.com 800.879.8585
Applications
• Emulates the function of an 8-button Dataline Switch
• Bi-color status LED for each group (red = All ON, green = mixed status, no color = All OFF)
A37
Simplifies wiring of standard switches
• Easy reconfiguration of lighting groups using smartwiring, an innovation that connects occupant switches to individual relays via push-button programming rather than hardwiring
System Layout
• Power consumption from the lighting control panel 200 mA at 24 VAC • Two-wire isolated dry contact status feedback (1 amp, 24 VAC/VDC) for each of eight switching groups • Maximum of two modules per panel or accessory enclosure • DIN rail mounting in LI panels or accessory panels; factory connection cable included
• Eight inputs accepting any 2- or 3-wire switch input or contact closure (momentary or maintained) • Dimensions: 7.5” H x 4.5” W x 1.5” D (190 mm x 114 mm x 38 mm) • Weight: 1 lb./0.45 kg • Environmental: Operating temperature range 32-139°F (0-60°C), 5-95% RH non-condensing • One year warranty
Lighting Integrator System with USM Legend Channel A relays open office areas
Channel B relays hallways and common
Channel C relays exterior security lighting
Channel D relays parking lot signage
Standard switches
Automation Card
Automation Card
Universal Switch Module Lighting Integrator Panel
L I G H T I N G C O N T R O L PA N E L S
Specifications
Lighting Integrator Panel (02) Second Floor Other panels
Other panels Global dataline
4-conductor local data communications wire (using both pairs)
Etc. Etc. Dataline Switches
Programming
Smartwiring with a Universal Switch Module Switch Input Button LEDs
Switch Input Button LEDs
(top view) Smartwire LED
Service Pin
1
3
2 Flashing LED Relay control button
1
Press Service Pin (smartwire LED flashes once, all switch input button LEDs begin flashing).
2
Press switch input button to be programmed. (Selected button LED continues to flash, other LEDs stop flashing.)
3
Press relay control button(s) to add or delete from group.
4
Press service pin again (all LEDs stop flashing).
(top view) Service Pin
Ordering Information
Catalog No.
Automation Modules
Dataline Switches
Description
HUSM8SS
LI Universal Switch Interface Module
HDLW4
4-conductor data communications wire
HSSW3
Standard switch wire, 3-conductor, 20 AWG
Wire
Pub. No. 11804 www.wattstopper.com 800.879.8585
A38
Two button low voltage momentary switch
Normally open 3 Amp, 28 VAC contacts
Four versions available: unlighted locator light pilot light raise/lower
Optional key-operated models available
PROJECT LOCATION/TYPE
Product Overview
Switches
L I G H T I N G C O N T R O L PA N E L S
RS Low Voltage Momentary Switch
Description & Operation
Specifications
The RS2 switch is a low voltage momentary pushbutton switch used for controlling lighting with Watt Stopper lighting control panels. The 2 button switch includes 2 normally open 3 Amp 28 VAC contacts that provide single-pole, double-throw momentary operation. When the top button is pushed, the switch makes a contact closure, sending an ON signal to connected devices. When the bottom button is pushed, an OFF signal is sent. In the switch’s normal position, both buttons are inactivated.
• Normally open 3 Amp, 28 VAC contacts • Single-pole, double-throw configuration • Installs in mounting brackets with cover plates or snap-in mounting in control panels (.76” x 1.28” rectangular hole required) • Uses 0.186” quick connectors for easy installation (included with switch) • Size: 1.15” D x .88” W x 1.38” H (29.2mm x 22.4mm x 35.1mm) • CSA certified, one year warranty
Dimensions
1.15"
2.75"
.73"
4.88"
4.5"
4.5"
1.28"
.74"
Lockout Switch
4.88" 1.28"
RP 2-11X
.19"
RP 2-12X
Single gang plates Product
Ordering Information
Switch
Catalog No. RS2-3x*
RP 2-23X
RP 2-24X
Double gang plates Description
RMP 2-35
.44"
Master plate (mounts only on 4 11/16” gang box)
Unlighted 2 button low voltage momentary switch
RS2-3x-L*
1.38"
Low voltage momentary switch
Product Brackets
RS2-3x-RL*
Low voltage momentary switch with raise/lower arrows
Switch blanks
RA2-3x
Blanks for unused switch openings
Wall plate
RP2-11x
1 gang for 1 switch
RP2-12x
1 gang for 2 switches
RP2-23x
2 gang for 3 switches
RP2-24x
2 gang for 4 switches
Catalog No. RPB 2-1 RPB 2-2
Low voltage momentary switch with pilot light
Switches Description 1 gang for 1 or 2 switches (supplied with wallplates)
with locator light RS2-3x-P*
.88"
2 gang for 3 or 4 switches (supplied with wallplates)
Master plate
RMP 2-35
Replacement
RK0
8 switch opening plate (aluminum with black trim)
part Replacement part
Replacement key for RS2 key switches
RK1
Replacement key for RMP 235 master plate
x=Add to the catalog no. 2 for ivory, 7 for white, 9 for gray, 6 for stainless steel. * Add K to the end of catalog no. for keyed version of switch.
A61
www.wattstopper.com 800.879.8585
Pub. No. 13106
Data communications wire provides communications between panels and signaling devices
L)
Low voltage component wire connects switches, sensors, and other low voltage devices to panels
(U ED SH IE LD
Color-coded for streamlined installation
18
87
1
CM
P/ CL
3P
18
AW G
2
PR S
UN
Custom cut to specified lengths
PROJECT LOCATION/TYPE
Product Overview
Description
4-Conductor Data Communications Wire
The proper wire must be installed for connecting devices to Lighting Integrator (LI) panels, and for networking panels. Types include low voltage component wire, and data communications wire.
HDLW4 4-conductor data communications wire is unshielded dual twisted pair wire. It connects LI panels outfitted with Automation cards. This panelto-panel connection (i.e., “global” dataline) requires only one of the twisted pairs. Up to 10 panels may be connected in a single network whose maximum length does not exceed 1500 feet. If longer distances are needed or more devices are required, users can add dataline repeaters. This wire is also used for the panel-to-Dataline Switch connection; up to 63 devices (i.e., Dataline Switch, Universal Switch module) may be connected to an LI panel with an Automation card. This panel-todevice connection (i.e., “local” dataline) requires the use of both twisted pairs, one pair for supplying power to the Dataline Switches, and the other pair for data communications.
Low Voltage Wire This type of wire connects low voltage devices (i.e., switches, occupancy sensors, photocells) to panels. It is #20 AWG wire that meets UL and NEC standards for Class 2 applications. Plenum rated wire meets plenum and riser requirements. Several types of multi-conductor low voltage wires are available for standard, pilot, locator, and multilevel switching or for connecting photocells to the LI control panels. This wire can also be used to wire relays remotely.
Services & Components A63
Distance markings in foot increments
E1
L I G H T I N G C O N T R O L PA N E L S
Lighting Integrator Wire
Data Communications Wire Data communications wire (also referred to as dataline wire) is used between LI panels and digital devices. To ensure error-free communications in networked LI panel systems, users must use specific communications wire. Communications quality is critical for reliable operation of a lighting control system. Using the proper wire and following recommended installation practices ensures trouble-free start-up and operation of an LI system.
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2-Conductor Data Communications Wire HDLW2 2-conductor data communications wire is shielded single twisted pair wire. It connects LI panels outfitted with Communication cards. This panel-to-panel connection (i.e., “global” dataline) supports up to 500 panels in a single network whose maximum length does not exceed 4000 feet. If longer distances are needed or more devices are required, users can add dataline repeaters.
Application Examples
Data Communications Wire • HDLW4 is 18 AWG (7 strands x 26 AWG), 2 independent twisted pairs, unshielded copper conductors. Capacitance is 30 pF/foot max. • HDLW4 supports up to 10 panels and 1500 feet per network without repeater • HDLW2 is 18/2 AWG twisted pair with shield • HDLW2 supports up to 500 panels and 4000 feet per network without repeater • Color-coded wires to match power and data terminations • Available in plenum and non-plenum • Operating temperature range: -4 - 302°F (-20°150°C ) • UL and CUL listed
Low Voltage Component Wire • Color-coded wires to match relay and switch terminations • Component wire includes switch wire (for standard, pilot, locator, or multi-button switches), sensor wire, and remote relay wire • Available in non-plenum or plenum • Conductors are #20 AWG, stranded and jacketed • Operating temperature range: -4 - 302°F (-20°150°C ) • UL and CUL listed
Wiring Requirements for Networks of LI Panels with Automation Cards Low voltage component wire (HSSW3)
4-conductor data communications wire (HDWL4) (using both pairs)
Automation Card
L I G H T I N G C O N T R O L PA N E L S
Specifications
Low voltage switches Dataline Switches Lighting Integrator Panel
Lighting Integrator Panel Other panels
Other panels 4-conductor data communications wire (HDWL4) (using only single pair of unshielded, dual twisted pair)
Wiring Requirements for Networks of LI Panels using Communication Cards
Communication Card
Occupancy sensor
4-conductor local communications dataline(HDWL4) (using both pairs)
Automation Card
Dataline Switches Lighting Integrator Panel
Lighting Integrator Panel Other panels
Other panels 2-conductor global communications dataline (HDWL2) (shielded single twisted pair)
Ordering Information
Catalog No.
Description
# of Conductors Color Code
Max Diameter non-plenum/plenum
HSSW3*
Standard switch wire
3
Red/Black/White
0.210”/0.150”
HPSW4*
Pilot switch wire
4
Red/Black/White/Yellow
0.230”/0.275”
HDLW2*
Shielded single twisted pair data
2+ shield
Red/Black/Shield
0.185”/0.185”
4
Black/Red (data)
0.230”/0.230”
communications wire HDLW4*
Unshielded dual twisted pair data communications wire
Services & Components
Low voltage component wire (HOSW4)
Blue/White (power)
* Add -P after catalog number for plenum rated wire.
Pub. No. 13506 www.wattstopper.com 800.879.8585
A64
L I G H T I N G C O N T R O L PA N E L S
Lighting Control System Services Technical services related to design and installation of Watt Stopper/Legrand control products
Free telephone technical support for purchased product(s) lifetime
Extended warranties available
PROJECT LOCATION/TYPE
Product Overview
Description
Programming
Comprehensive services from Watt Stopper/Legrand ensure optimal performance, from effective design to proper commissioning, with onsite training and troubleshooting as necessary.
Services (SPROGSYS) include wiring documentation, defining switch codes and group switches, setting up telephone overrides, and entering operating schedules.
Commissioning
Services & Components
Documentation
A65
Services (SDRAWxxx) include factory assembled submittals that include: system one-line diagram (or reflected ceiling plan when applicable) showing system components and quantities, such as Lighting Integrator panels, relays, low voltage switches and sensors, dataline and network components, and computer; drawings for each panel showing hardware configuration and numbering; panel wiring schedules showing circuit/relay/load relationships and any direct overrides; typical wiring diagrams for each component; and installation instructions and testing procedures for each component.
Ordering Information
www.wattstopper.com 800.879.8585
Catalog No.
Commissioning services (SCOMxxx) include a Watt Stopper factory-trained technician who verifies system hardware is installed in accordance with project documentation; tests and verifies systems are operating as intended; and inputs data into programmable systems to reflect the ownersâ&#x20AC;&#x2122; intended sequences of operation.
Training With training services (STRAIN), a Watt Stopper factory-trained technician provides a more indepth review of all system hardware, software, and adjustments. Operations personnel also receive hands-on training with how-to demonstrations on testing and troubleshooting different functions.
Description
SDRAWDAY
Daylighting sensor locations on reflected ceiling plans
SDRAWSEN
Occupancy sensor locations on reflected ceiling plans
SDRAWSYS
Schematics and Point-to-Point diagram of control panels
SPROGSYS
Factory programming and lifetime technical support
SCOMDAY
On-site commissioning for daylighting controls
SCOMSEN
Onsite commissioning for occupancy sensors
SCOMSYS
Onsite commissioning for lighting control panels
STRAIN
Day(s) Onsite training for Watt Stopper control products
SWARRANTY
Year(s) extended warranty for hardware
Pub. No. 13804
L I G H T I N G C O N T R O L PA N E L S
LP Lighting Control Panels Simple and effective interior and exterior lighting control Compatible with AS Automatic Control Switches for local override control
System clock provides time scheduled or astronomic control
Color-coded for streamlined installation PROJECT LOCATION/TYPE
Product Overview
Description
System Time Clock
Watt Stopper/Legrand’s LP Peanut Panels provide simple, effective control for exterior and interior lighting in small applications. The panels ship preassembled in easy to install packages; the LP8 in a compact tub, the LP24 in a larger tub complete with DIN rails for mounting contactors.
The system clock provides automation. With an easy to navigate keypad, a backlit LCD and userfriendly help menus, set-up and programming is simple. Included are the following pre-programmed control scenarios: scheduled on/off, manual on/scheduled off, manual on/sweep off with automatic switch, astronomic or photocell on/off, and astronomic or photocell with schedule on/off. The clock features 7 day format with holiday scheduling.
LP Peanut Panel
Operation The LP consists of relays, a system time clock, panel intelligence, power supply and a tub and cover (the LP24 contains DIN rails to accept up to 12 contactors). The panels can control up to eight channels or zones of lighting. The relays respond to control signals from the system time clock (or other signalling devices), to turn lighting on and off. When controlling exterior lighting, users can utilize the clock for astronomic control (based on sunrise and sunset) or add the optional photocell for exterior light level control. For interior lighting control, users can implement AS Automatic Control Switches or low voltage switches to automate after hours lighting shutoff while providing manual override control.
Features
• System clock: 8 channels, pre-programmed control scenarios, 7 day scheduling with holiday, astronomic control, automatic daylight savings, retains time during power outage, non-volatile program memory • Eight universal switch inputs for low voltage switches, occupancy sensors, photocells or other devices to directly control each relay • Optional four universal group switch inputs allows pushbutton grouping of relays (smartwiring)
A71
DIN rail accommodates up to 12 contactors
Controls up to eight single-pole relays
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Applications The Peanut Panels are ideal for applications where single- and multi-phase control are needed, such as parking lot lighting, site night lighting, and sign lighting. Their use promotes energy savings by turning off outside lighting when not needed, as well as providing a secure illuminated environment when occupants might be present. For interior lighting, LP panels integrate with a wide range of control devices such as switches and occupancy sensors to create a flexible lighting shutoff strategy. • Pushbuttons for manual override of each relay • LED for visual indication of relay status • Accepts most types of switch inputs • Accessory power of 800mA VDC/AC for powering external devices • Separate high voltage and low voltage sections for user protection • Controls single- and multi-phase loads (LP24)
LP8 Panel Layout
• •
• • •
load 30 Amp @ 480 V; Motor load 5 HP @ 460 V, 3 phase Accessory power 800 mA at 24 VDC/VAC/VACR 8 universal switch inputs; compatible with 3 wire momentary or maintained, 2 wire momentary or maintained, or 24 VDC input 4 universal group switch inputs; allows pushbutton grouping of relays Ambient temperature 32 to 139°F; 5 to 95% RH non-condensing UL and CUL listed, one year warranty
LP8 Dimensions EM photocell connection
Relays
6" (152.4 mm)
Power supply
Switch and pilot connections
15.08" (383.0 mm)
Space for optional group switching card Accessory power
16.5" (419.1 mm) Low Voltage Compartment (Class 2)
Time clock and keypad display on interior door
Line Voltage Compartment (High Voltage)
Wiring & Installation
• Multiple power supplies to choose from: 115/277 VAC, 220-240 VAC, 115/347 VAC; 50/60 Hz • Relay Ratings: 20 Amp tungsten @ 120 VAC 30 Amp ballast @ 277 VAC 20 Amp ballast @ 347 VAC 30 Amp resistive @ 347 VAC 1.5 hp @ 120 VAC • Contactor Ratings (LP24 only): Ballast load: 30Amp @ 600 V (magnetic, electronic, HID ballasts) Tungsten load 20 Amp @ 277 V; Resistive
Slotted Mounting Holes
12.53" (318.3 mm)
L I G H T I N G C O N T R O L PA N E L S
Specifications
Override push
Shown with interior door open buttons 14.5" (368.3 mm)
LP24 Dimensions Relay Capacity 8 = 8 relay enclosure 24 = 24 relay enclosure
8.13" (206.5 mm) Power Supply Voltage* 115 - 115/277V (USA) 240 - 240V (International) 347 - 115/347V (Canada) • Specifies contactor voltage if contactors ordered
Low Voltage Compartment (Class 2)
??
??
??
??/??
?
???
Optional Components Contactors, 4-Pole Q1 - 12 = # of normally open contactors QC1 - 12 = # of normally closed contactor
Group Switching G = Group switching card supports smartwiring or 4 channels
Contactor Coil Voltage 115 = 115V Coil 277 = 277V Coil
28.0" (711.2mm)
LP
31.38" (383.5 mm)
Single Pole Relays 4 or 8 = # of relays
Line Voltage Compartment (High Voltage)
LP Peanut Panel
Door Options S = Surface Mount (standard) F = Flush/Recess Mount S3R = Surface NEMA 3R S4 = Surface NEMA 4
23.88" (606.5 mm)
15.1" (383.5 mm)
Ordering Information
Required Components
Examples: LP8S-8-G-115 describes an LP8 panel with surface mount door, 8 relays, group switching card, 115 V power supply. LP24S-8-Q8-G-115 describes an LP24 panel with surface mount door, 8 relays, 8 normally open 4-pole contactors, group switching card, 115 V power supply.
Catalog No.
16.0" (406.4 mm)
Description
LP8S-8-115
8 relay lighting control panel; 115/277 VAC
LP8S-8-347
8 relay lighting control panel; 115/347 VAC
Optional system enhancements: EM-24A2
Low voltage exterior photocell
AS-100
Automatic control switch; 120/277 VAC; 50/60 Hz
Pub. No. 15105 www.wattstopper.com 800.879.8585
A72
L I G H T I N G C O N T R O L PA N E L S
Lighting Integrator Data Communications Link PC connection to a Lighting Integrator panel network
Alarm contacts
Clock synchronization LED status indicators PROJECT LOCATION/TYPE
Networking & Software
Product Overview
A45
Industry standard RS 232 connection
Description
Networking
The Data Communications Link (HLINKCC) provides the connection between a PC and a Lighting Integrator (LI) network outfitted with Communication cards. It enables PCs running WinControl software to communicate to multiple panels linked together.
The Data Communication Link enables PC control and automation of networked LI panels. Multiple units can be used on an LI panel network to provide multiple operator stations or as portals to other building control systems.
Operation The Data Communications Link interfaces PCs with the panel network. It connects at any point on the shielded, twisted pair communications wire. The device enables all the lighting control panels in a LI system to be programmed and monitored from a computer using WinControl software. It also provides notification of failed field devices or relays, including a failure in the Data Communications Link itself via an LED and a set of relay contacts. The Data Communications Link is connected to a PC using the cable (HCABLE-C).
Features
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Administrators may select from additional networking options. For remote access via telephone lines, the LI modem option (HMODEM) may be selected, which connects to the Data Communications Link. For single user access to the Data Communications Link via a local area network using a standard Ethernet connection, the TCP/IP Connectivity Module (HLANCC) is available. If multi-user access to the panel network is desired via TCP/IP or the internet, the WebLink appliance (WL-BASE) can be added.
• System synchronization clock with automatic daylight savings and leap year adjustment
• LED status indicators for power, online, and data activity
• Alarm contacts and LEDs to annunciate failed devices
• Terminals for connection to global dataline
System Layout
• Shipping weight: 3 lbs. (1.36 kg.) • UL and CUL listed • One year warranty
• RS232 serial communications port • 300/1200/2400/4800/9600/19200 auto baud • Alarm contacts rated at 28 VDC and 2 mA maximum • 115 VAC plug-in transformer power supply
Networked System Layout
RS 232
Communication Card
HCABLE-C Cable
Lighting Integrator Panel (01) First Floor
Data Communications Link
Communication Card
Lighting Integrator Panel (02) Second Floor Other panels
Other panels
Shielded single twisted pair data communications wire (HDLW2)
L I G H T I N G C O N T R O L PA N E L S
Specifications
LI panel network using communication card with PC connection via Data Communications Link
Networking Options
Data Communication Link Applications Data Communications Link
To panels
Shielded single twisted pair data communications wire (HDLW2)
Communications components for single-user connections.
Ethernet
WL-BASE WebLink option
Data Communications Link RS 232
To panels
HCABLE-C Cable
Shielded single twisted pair data communications wire (HDLW2)
Communications components for multi-user LAN, WAN or internet connections
Ordering Information
Catalog No. HLINKCC
Description Data Communications Link with 115V power supply
Additional networking components and options: HMODEM
LI Modem
HCABLE-M
RS 232 Modem Connection Cable
HLANCC
TCP/IP Connectivity Module
WL-BASE
WebLink Appliance
HDWL2
Shielded single twisted pair data communications wire
WCHSTD-xxx
WinControl software
Networking & Software
RS 232 HCABLE-C Cable
Pub. No. 18904 www.wattstopper.com 800.879.8585
A46
L I G H T I N G C O N T R O L PA N E L S
Lighting Integrator Weblink
Set up control schedules through Web browser interface
Integrate with BAS system via BACnet protocol
PROJECT LOCATION/TYPE
System & Enclosures
Product Overview
Description
WebLink Scheduler
The WebLink network appliance is one option for connectivity between a standard IP network and a Lighting Integrator (LI) panel network. It enables multiple users to access and control a network of Lighting Integrator Complete Control panels from any location on an Ethernet network (i.e., LAN, WAN, or internet). Optional Scheduler software provides scheduling capabilities via a standard web browser. Optional My Lights software offers personal lighting control via individual desktop PCs. Optional BACnet integration exposes relays and group codes as BACnet objects.
With the optional WebLink Scheduler, users can employ browser software instead of WinControl to configure full calendar and event schedules. This option serves control schedules as web pages to multiple PCs, displaying annual, monthly, weekly, and daily calendars. Users can set up and enter new events for any time period by selecting a specific date, time, and action, resulting in easy modifications for one-time or recurring events. Schedule templates enable users to create and store alternative schedules for special events that need unique lighting scenarios; a feature ideal for stores, arenas, convention centers, and multi-use centers.
Operation WebLink connects to and automatically maintains communications directly with the LICC network through a serial connection with the HLINKCC Data Communications Link module. The WebLink provides web browser bases access to the panels on the network and allows user access for viewing panel status and overriding relays. It also allows panel network connectivity to be shared among multiple connections, enabling simultaneous access by multiple users. The WebLInk also provides an IP connection to one or more instances of WinControl software installed on remote PCs over a dedicated or enterprise LAN or WAN.
Features
Optional My Lights software offers personal space lighting control via desktop PC. In its manual mode, My Lights provides users with ON/OFF control via a display on their PC. In automatic mode, My Lights maintains space lighting by monitoring PC mouse and keyboard activity; when activity ceases, My Lights turns lighting off after a preset interval initiated by a blink warning. Users may override this automatic OFF with any mouse or keyboard movement. • Modem option for phone dial up remote access (where remote IP access is not convenient)
• Compatible with legacy Complete Control panels
• Labels and descriptors of LI network devices (i.e., relays, switches) automatically synchronize with WinControl for easy device selection
• Optional shelf for rack mounting www.wattstopper.com 800.879.8585
MyLights
• Enables IP network connectivity to LI panel network for multiple users via WinControl • Configurable for DHCP services or static IP address
A47
Multi-user access for WinControl clients
IP connectivity to Lighting Integrator panel network
• Provides connectivity with BAS systems using industry standard BACnet protocol
Specifications
Includes AC Adapter: Input (AC 100~240 V) Serial DB9 connector - for connection to HLINK 10/100 RJ45 Ethernet LAN connector Dimensions: 11.5" x 2 .5" x 10.75" (W x H x D) (292.1 mm x 63.5 mm x 273.1 mm)
• Shipping weight: 10 lbs (4.5 kg) • One year warranty
L I G H T I N G C O N T R O L PA N E L S
System Layout
• • • •
LI Panel System with WebLink
WinControl users or browser
RJ-45 Ethernet LAN/WAN
BACnet™
WebLink Complete Control Cards
Data Communications Link (HLINKCC)
Lighting Integrator Panel (01) First Floor
Other panels
WebLink Options
Main Scheduler Screen
Ordering Information
Catalog No.
Global dataline
Other panels
My Lights
Individual users can access this control display from desktop PCs launched from a simple applet in the Windows system tray.
Description
WL-BASE
WebLink Internet Appliance with AC adapter
WL-OPTSCHED
WebLink Scheduler software, browser based scheduler
WL-MYLIGHTS
My Lights software for personal desktop PC control and override
WL-OPTMODEM
Modem for remote access via dial-up phone network
WL-RACKSHELF
Shelf, for rack mounting. 5.25” H x 17.25” W x 12.13” D, holds up to 50 lbs, black
WL-BACNET
BACnet integration with BAS
System & Enclosures
WebLink’s main scheduler screen shows recent actions on the LI network, actions scheduled for the day, and quick links to alternate views.
Lighting Integrator Panel (02) Second Floor
Pub. No. 19104 www.wattstopper.com 800.879.8585
A48
HDR Low Voltage Relay Mechanically latching
Manual override switch 5-pin pluggable connector for easy low voltage connection
14,000 Amp SCCR
Single pole, heavy duty power contacts
PROJECT LOCATION/TYPE
Product Overview
Specifications
This low voltage relay is used for control of lighting circuits and other electrical loads in Watt Stopper’s Lighting Integrator control panels. Momentary, low voltage pulses from the panel’s control system switch the relays on or off. Mechanical latching operation results in lower power consumption. The relay will remain in the last switched state in the event of a power loss. A manual override switch allows lights to be turned on in the event of a panel or relay failure. The relay mounts into a standard knockout and comes with a pluggable cable for easy panel connection. Typically, users specify the number of relays and the panel is assembled and shipped with this quantity.
• 1/2” knockout mounting • Accepts wire gauge #10 - #14 AWG, copper wire, solid or stranded • Operating voltage 24 VDC • Isolated pilot relay contacts, .5 Amp @ 30 VAC/ DC for status feedback • Integral manual override • Rated 14,000 amps Short Circuit Current Rating (SCCR) • Suitable for use with all HID ballasted loads • Expected service life is over 25 years at nominal load and cycle rate • Dimensions: 3.2”x 1.3”x .85” (81.3 mm x 33.0 mm x 21.6 mm) • UL listed E258542, CSA certified; five-year warranty
Ratings • • • •
Ballast load (including HID) Tungsten load Resistive load Motor load
30 Amp @ 277 VAC 20 Amp @ 347 VAC 20 Amp @ 120 VAC 30 Amp @ 347 VAC 1 1/2 HP @ 120 VAC
HDR Wiring Power terminal connections Manual override switch Ylw Ylw Red Black Blue
Ordering Information
Catalog No. HDR
Description Mechanically Latching Relay with 5-pin Plug-in Connector, Pilot Contacts, Override Switch
Pub. No. 19406
Pluggable wire connection Blue = 24 VDC to center coil Red = On wire Black = Off wire Ylw = Isolated pilot contacts
www.wattstopper.com 800.879.8585
Services & Components
Description
LIGHTING CONTROL PANELS
20-Amp rated for ballast lighting loads
L I G H T I N G C O N T R O L PA N E L S
Lighting Integrator Native BACnet Option
Configure LI panel with any BACnet workstation
No proprietary configuration tools or software needed for commissioning
Integral blink warnings and override time delays
PROJECT LOCATION/TYPE
Networking & Software
Product Overview
Description
Lighting Control Specific Functions
The Native BACnet option enables native level integration of lighting control between a Lighting Integrator (LI) panel and any building automation system that supports the ANSI/ASHRAE BACnet communication protocol. The LI BACnet option allows the BAS to schedule, monitor status, and override lighting freely without the need to support lighting-specific functions (i.e., blink warning, local override switches, and delay timers).
The LI native BACnet option provides integral automation capabilities that enable lighting control compliant with state energy codes based on ASHRAE 90.1 and IECC. Its distributed processing also ensures operation of primary lighting control functions, such as wall switch overrides, blink warnings, and after-hours time out of overrides.
Operation
In most applications, a BAS will set lighting zones to occupied/unoccupied status through a schedule or a workstation command. The LI panel then coordinates local switch overrides, time delays and blink warnings based on this status.
With the LI native BACnet option, panel relays and channels are automatically exposed to the BAS as standard BACnet objects. Relays can be individually commanded and monitored for their actual ON/OFF status, or be combined into channels and commanded and monitored as a group. This permits a building to be conveniently divided into lighting control zones, greatly reducing the number of individual objects a BAS must administer. LI panels perform all typical lighting control sequence of operations without continuous supervision by the BAS.
Features
• Integral automation enables BAS to easily provide code compliant lighting control • Distributed processing ensures operation of primary lighting control functions • Compatible with Watt Stopper occupancy sensors
A51
Industry standard MS/TP communication
Native level integration between lighting control panel and BAS via BACnet
www.wattstopper.com 800.879.8585
Applications
• Supports Auto ON, or energy saving Manual ON function for lighting in areas scheduled as occupied • Optional photocell choices for exterior and interior lighting
BACnet Objects Supported
Native BACnet Card and System Layout
• MS/TP communications port with on-board termination jumper • 9600/19200/38400/76800 baud rates, selectable • MS/TP MAC address selectable, 0 - 127 • Device ID selectable, 0 - 999 or 86000 - 86999 switch selectable
• Compatible with direct wired low voltage switches for relay override; not compatible with dataline switches • Description property writable for all objects • One year warranty
• Binary Output, Instance range 01–48 (1per relay), monitor and control relays ON (1), OFF (NULL) • Binary Value, Instance range 01–08 (1 per channel), command channels to occupied (1) or unoccupied (0) status • Multi State Value, Instance range 01–08 (1 per channel), read channel relays’ status as ALL ON, ALL OFF, BLINK, or MIXED state • Binary Value, Instance range 101–108 (1 per channel), sets channel relays to manual-ON (1) or auto-ON (0) • Analog Value, Instance range 101–108 (1 per channel), sets blink warning time for channel relays as five minutes (5) or no blink (0) • Analog Value, Instance range 201–208 (1 per channel), sets time delay for each channel relay (1-240 minutes) or no time delay (0) • Analog Value, Instance range 01–48 (one per relay), sets relay to follow channel A–H (1–8)
LI Native BACnet Card
L I G H T I N G C O N T R O L PA N E L S
Specifications
Device ID selector knobs
MS/TP Mac address selection switches Baud rate selection switches
Networking & Software
MS/TP network terminals Network termination jumper
LI Panel Network with Native BACnet Card
BACnet workstation
BACnet option card
BAS Lighting Integrator Panel
Ordering Information
Lighting Integrator Panel
MS/TP network
Catalog No. NB
Description Native BACnet option card
Pub. No. 19503 www.wattstopper.com 800.879.8585
A52
L I G H T I N G C O N T R O L PA N E L S
Lighting Integrator DMX512 Option Control relays from any DMX control device Supports one DMX512 universe Allows local switch overrides with priority
PROJECT LOCATION/TYPE
Product Overview
Description
Override Priority
The DMX integration card allows control of relays in Lighting Integrator (LI) panels from theatrical control devices (i.e., control consoles and show controllers).
Relays are controlled by a variety of inputs to the panel, including direct wired override switches, direct wired group switches, dataline switches, and the DMX control signal. Relays that are controlled by both DMX and a switch respond based on the following override priority scheme:
Networking & Software
Operation Selected relays in an LI panel are each controlled by one DMX control channel. A channel level greater than 50% turns the relay on and a level below 50% turns the relay off. Local override is accommodated via wiring the low voltage switch terminals on the relay driver cards or group switch card. An optional group switch card(s) adds smartwiring capability for eight or 16 group switches (the latter requires a 48 size panel). These switches can easily be configured to control groups of relays to match DMX channels containing more than one relay.
Features
www.wattstopper.com 800.879.8585
Applications Applications include auditoriums, ballrooms, themed entertainment venues, arenas, churches, and TV/film studios.
• Control all or portion of panel relays via theatrical control system
• Fail safe operation; relays do not change state if DMX signal lost
• Use in stand-alone panel or in LI networked system
• Flexible switch override priority scheme
• Optional group switch override setup with smartwired pushbutton programming
A49
DMX level >75%: relay ON, accept switch override DMX level <75% but >50%: relay ON, ignore switch override DMX level >25% but <50%: relay OFF, ignore switch override DMX level <25%: relay OFF, accept switch override DMX level 50: DMX null, no operation performed, accept override
• Compatibility with optional Automation card and Dataline switches affords additional override capability
System Layout & Wiring
• • • • • • •
Terminal connection for DMX in and DMX through (out) Starting channel number set via three rotary selector switches, max address is 464 (512 – 48) Select starting relay for DMX range of relays for control (#1- 48) using DIP switches #1 - 6 LED status indicators (Red LED = power on, no DMX data, Green LED = DMX data true) RS485 com optically isolated with 500 volt minimum breakdown Integral end of line termination selected via DIP switch position 8 One year warranty
LI DMX512 Card Select first DMX relay, #1- 48
Set starting channel #001 - 464
Data line termination switch DMX in terminals
L I G H T I N G C O N T R O L PA N E L S
Specifications
DMX through (out) terminals
Data line status LED
Lighting Integrator Panel
Lighting Integrator Panel
Automation card (optional) Automation card (optional)
DMX card (optional)
Theatrical control console
DMX dataline
Other panels Local dataline
Dataline Switches (optional)
Ordering Information
Catalog No. DX
Global dataline
Local dataline
Dataline Switches (optional)
Networking & Software
LI Panel Network with DMX Interface
Description DMX512 Integration Card
Pub. No. 19604 www.wattstopper.com 800.879.8585
A50
L I G H T I N G C O N T R O L PA N E L S
Lighting Integrator Automation Appliance
Remote, multi-user access via LAN or Internet connection
Integrates with BAS via BACnet® IP
Ethernet IP communication PROJECT LOCATION/TYPE
Automation Modules
Product Overview
Description
Administration and Scheduling
The Automation Appliance serves as both an automation module and data communications link for a Lighting Integrator (LI) panel system equipped with automation cards. Used in place of the Network Clock or BMS Interface Module, the appliance connects to, and provides primary administration of, the global dataline.
In addition to supporting the same functionality of the HCLK8SS Clock/Programmer, the Automation Appliance enables users to create text user names for all panels, relays, switches, buttons, and channels, as well as override relays and channels in real time. Scheduling capabilities include flexible scheduling using seven day repetitive schedules, 365 day calendar date event type schedules, or dusk/dawn schedules based on an internal astronomic clock. The Automation Appliance supports eight schedules per panel as well as eight global schedules.
Operation Once connected to the facility enterprise LAN, intranet, or internet, the appliance allows the user to configure and access all lighting control functions from any PC on the LAN using only a standard web browser. No installed software is required for configuring, monitoring, or overriding the Lighting Integrator panels. An optional autodial/auto-answer 56K modem allows remote access in applications where firewall or other restrictions prevent unrestricted access from the internet or intranet. In the event of a power failure, an integral UPS battery backup maintains processor operation for a pre-determined interval, then writes all data to flash memory before shutting down the processor.
Features
A39
Supervises Lighting Integrator global dataline
User interface via any PC with standard web browser
www.wattstopper.com 800.879.8585
• Provides a web browser based user interface for an LI panel network (up to 12) • Enables simultaneous, multi-user access via global dataline connectivity
Applications The Automation Appliance provides the user a flexible PC based user interface to set up, monitor and override an LI system without requiring software installed on a PC. It is ideal for installations requiring user access from multiple remote locations. Another suitable application is where multiple systems require administration from a remote location, such as on a campus.
• Multi-level password security access • Alarm annunciation via standard email notification • Relays and global schedules automatically exposed as BACnet objects
System Layout & Wiring
• Power supply, 120VAC, 50/60 Hz, 25 VA maximum • Metal enclosure, dimensions: 11” W X 14” H X 2.5” D (279.4mm wide X 355.6mm high X 63.5mm deep) • Communications ports: 1 10/100 Mb Ethernet RJ-45; 1 LonWorks FTT-10 Weidmuller connector • Weight: Net 4 lbs. (1.814 kg), Gross 5 lbs. (2.268 kg)
• Operating temperature range: 32-122°F (0 – 50°C); storage temperature range: 32-158° F (0 – 70° C) • Relative humidity range: 5% to 95%, non-condensing • UL and CUL listed • FCC part 15 Class A computing device • One year warranty
LI Panel Network with Automation Appliance PC with browser Ethernet
PC with browser Internet
Automation Cards
Automation appliance
Lighting Integrator Panel
Other panels
Lighting Integrator Panel
Global dataline
Dataline Switches (optional)
Other panels
The main menu screen for browserbased scheduling and administration via the Automation Appliance.
Catalog No. AA-BASE
The system setup screen for configuring an LI panel system using the Automation Appliance.
The panel setup screen for configuring an individual LI panel with the Automation Appliance.
Automation Modules
LI Automation Appliance Sample Screens
Ordering Information
L I G H T I N G C O N T R O L PA N E L S
Specifications
Description Lighting Integrator Automation Appliance
Pub. No. 20003 www.wattstopper.com 800.879.8585
A40
L I G H T I N G C O N T R O L PA N E L S
Lighting Integrator Thermostat Option Single and multi-stage control of heating and cooling
Integrates seamlessly with lighting schedules for automated temperature setback
Connects directly to LI LON dataline
LCD display with intuitive menu setup
PROJECT LOCATION/TYPE
Product Overview
System Layout PC with browser
PC with browser Internet
Ethernet
Networking & Software
Automation Cards Thermostat Automation appliance
Lighting Integrator Panel (01) First Floor
Other panels
Global dataline
Dataline Switches (optional)
Other panels
Features • Temperature control via Automation Appliance • Provides occupied/unoccupied setpoints
• Compliance with ASHRAE 90.1 temperature setback requirements
• Weekly or 365-day event schedules
• LonMark® compliant communications
• Supports rooftop or split systems • Two option inputs for filter, security, or other alarm conditions
Ordering Information
A53
Lighting Integrator Panel (02) Second Floor
www.wattstopper.com 800.879.8585
Catalog No.
Description
AA-TS11
Thermostat Option, 1 heat, 1 cool
AA-TS22
Thermostat Option, 2 heat, 2 cool
AA-TS22E
Thermostat Option, 2 heat, 2 cool + economizer
AA-TS32H
Thermostat Option, 3 heat, 2 cool, heat pump
Pub. No. 21702
L I G H T I N G C O N T R O L PA N E L S
ELCU-100 Emergency Lighting Control Unit Guarantees emergency lighting remains ON when power to the control device is lost
UL listed for use in emergency circuits Interfaces with fire alarm panel or security system
Emergency Lighting Control
PROJECT LOCATION/TYPE
Product Overview
A73
Integrated push-to-test button
Description
Mounting
Watt Stopper/Legrand’s Emergency Lighting Control Unit (ELCU) is a self-contained, emergency lighting control device. The ELCU provides all required functionality to allow any standard lighting control device to control emergency lighting in conjunction with normal lighting in any area within a building.
The ELCU is equipped with an integral DIN rail mounting groove and retaining clip mechanism. It can be installed on the DIN rail track provided within a Watt Stopper enclosure (i.e., LS-E8, LSE12), or in a Watt Stopper lighting control panel.
Operation
The ELCU is designed to control lighting in areas where emergency lighting fixtures are connected on dedicated emergency lighting circuits that are typically on 24 hours per day. The ELCU allows normal control of emergency lighting for energy savings and/or task related reasons while strictly adhering to National Electric Code requirements. It is suitable for any application where enhanced energy saving is desired.
The ELCU monitors a single circuit that provides normal lighting to an area. As long as normal power is present, the ELCU permits lighting control devices (i.e., occupancy sensors, panels, dimmers, or wall switches) to control the emergency lighting fixtures as well as the general lighting. If power is lost for any reason, including the tripping of a single branch circuit breaker, the ELCU will force the emergency fixtures for that area on. The ELCU can be wired either as a control device, so that emergency lighting follows the control of normal lighting, or as a bypass device to shunt emergency power around a control device when normal power fails.
Features
• Eliminates energy waste caused by “always ON” emergency lighting • Integral push-to-test button activates emergency mode for a true test condition
www.wattstopper.com 800.879.8585
Applications
• Compatible with Watt Stopper occupancy sensors, daylighting controls, lighting control panels, and dimmers • LED indication for emergency and normal power
• Connects to remote test switch or other input to activate emergency ON from a remote location
• Half-second delayed ON positively identifies emergency fixtures for required maintenance
• Operates as a control device or as a shunt
• Provides absolute fail-to-on emergency lighting
• Senses local single circuit power failure
• UL924 listed, meets NEC, OSHA and NFPA safety codes
• Zero cross switching technology for reliability and increased product life
• 120/277 VAC; 60Hz • Maximum load: - Ballast
10 A @ 120 VAC; 10 A @ 277 VAC - Incandescent 2 A @ 120 VAC - Motor 1HP @ 120 VAC • Remote activation: supplies 24 VDC source for dry contact closure
System Wiring
• Integral control: push-to-test button on unit • Housing: fire rated V-0, 80ÞC • Terminal torque: 4/428 inch pound-force (0.5Nm) • Dimensions: 2.78” x 3.44” x 2.63” (71mm x 87mm x 67mm) LxWxD • UL listed Emergency Lighting and Power Equipment; five year warranty
ELCU Wiring Diagrams ON/OFF Control Device
Normal Line
Normal Lighting
Normal Neutral
Normal Lighting
Dimmer
Normal Neutral
"Switching" Line
"Sensing" Line
Normal Power
Normal Line
Line In
Neut.
Switch In
"Sensing" Line
Jumper Wire or Normally Closed Input from • Test Switch • Fire Alarm Input • Security Input • Other Remote Out +24VDC
Remote In
Normal Power
Jumper Wire or Normally Closed Input from • Test Switch • Fire Alarm Input • Security Input • Other Line In
Neut.
Switch In
Remote In
L I G H T I N G C O N T R O L PA N E L S
Specifications
Remote Out +24VDC
ELCU-100 ELCU-100
Emergency Power
Line Out
Line In
Neut Neut
Emergency Line Emergency Lighting
Emergency Neutral
Dimmer
Emergency Lighting
Emergency Neutral
When wired as a control device, the ELCU receives a switching signal from the output of the control device (relay, switch, power pack, etc.)
Catalog No.
Line In
When wired as a shunt, the switching line is not used. Note: Use with Watt Stopper universal dimmers or contact dimmer manufacturer to determine the suitablity of the specified dimmer for shunt operation.
Description
Voltage
ELCU-100
Emergency Lighting Control Unit
120/277 VAC; 60Hz
EMTS-100
Remote test switch on single gang plate
24VDC, normally closed contact
LS-E8
Surface Mount Enclosure for 1 or 2 ELCU units*
N/A
LS-E12
Surface Mount Enclosure for up to 6 ELCU units*
N/A
Emergency Lighting Control
Emergency Line
Ordering Information
Line Out
Emergency Power
*LS-E8 and LS-E12 enclosures include screw cover and DIN rail
Pub. No. 22102
www.wattstopper.com 800.879.8585
A74
L I G H T I N G C O N T R O L PA N E L S
EM Photocell Low voltage photocell automatically turns lighting on and off
Mounts on building exterior or roof
Simple to wire and install
Adjustable aperture window for varying ON setpoint
Raintight gray plastic enclosure
PROJECT LOCATION/TYPE
Services & Components
Product Overview
Description
Features
The EM is a low voltage photocell used for controlling exterior lighting. It works with Watt Stopper power packs and lighting control panels (Lighting Integrator and LP series panels) by signalling a change in light levels to the panel.
• One set of normally open, isolated relay contacts; contacts are closed when sensed light level is below dark setpoint, open when light level is above light setpoint
Operation
• 1/2” threaded male conduit base for easy mounting on conduit fittings or junction boxes.
Typically mounted so the light level window faces the northern sky, the EM photocell provides an ON signal when the ambient light level drops below a preset “dark” setpoint. It then provides a signal OFF as the ambient light level rises above the preset “light” setpoint. The setpoint can be changed for specific applications by opening and closing the photocell’s aperture window. Normally, a lighting control panel or a power pack supplies power to the photocell. The photocell’s relay contact red wires are connected to the panel or to a low voltage controlled load.
• 8-second time delay and built-in setpoint deadband prevent cycling
Accessory Enclosure Interior
Light sensing window
24 VDC
Sliding window aperture 1/2" thread fitting
24 VAC
BLK(-) WHT(+)
BLK
RED
BLK
RED
N/O relay contacts 1 Amp at 30 VAC/VDC
Specifications Accessory Enclosure Interior • • • •
1 - 15 footcandle range (10.8 - 161.5 lux) Isolated relay contacts 1 amp @ 30 VAC/VDC Power input: 24 VAC, 1 VA or 24 VDC, 1 VA Dimensions: 2.64”x 1.57”x 1.89” (67.1mm x 39.9mm x 48.0mm) • One year warranty
Ordering Information
A67
Compatible with all Watt Stopper lighting control panels and power packs
www.wattstopper.com 800.879.8585
Catalog No.
Description
Voltage
EM-24A2
Exterior photocell
24 VAC
EM-24D2
Exterior photocell
24 VDC
Pub. No. 8405
Mount on exterior or roof of building. Point light sensing window North.
(4) #18 AWG
Lighting Control Panel
®
System Clock for Control Panels ♦ Time schedule control ♦ Astronomic based control ♦ Advanced holiday scheduling ♦ Battery backed time carry over ♦ Automatic daylight savings adjustment ♦ Multiple control channels ♦ FCC tested, CE certified
Component Information
The System Clock is the central time controller used in some Watt Stopper lighting control panels. It provides on/off control signals based on time of day, day of week, holiday and calculated sunrise/sunset (astronomic) time. Its simple programming and advanced control features make it a powerful tool for automating control of facility lighting and electrical loads. The SC-100-CP operates with the Basic Control contactor panels while the SC-100 functions with the ARP and ACP products.
Operation
The System Clock sends on/off commands by either hardwire connection to relay channels, by network communication over twisted pair wiring, or by expansion port connection to a Basic Control intelligence board. This gives the clock the ability to work in the simplest of control applications or to automate larger, more complex systems. The clock schedules are programmed events that command clock channels on and off. Each schedule is assigned a number, type, time-of-day, channel, day(s) and may include other information for specific clock event operation. A schedule can be assigned to operate any combination of days or holiday types. This scheduling flexibility provides great functionality while simplifying programming. All programming is securely stored in non-volatile memory. Unlike many other time clocks, the SC-100 runs an initialization procedure to insure that commands missed during a power outage are executed after power is restored.
SC-100-CP Features
The SC-100-CP, utilized with the Basic Control contactor panels, features eight control channels that can be independently programmed. In addition, the clock enables control of eight individual override inputs, which can be used to connect external devices such as photocells to the Basic Control system. Programming is easy using the SC-100 keypad, LCD screen, and fill-in-the-blank programming.
SC-100 Features
When used with The Watt Stopper’s ACP and ARP products, the SC-100 may be programmed from a PC using The Watt Stopper’s LCS software by direct connect or by modem dial-in. The SC-100 uses LonWorks® networking protocol to reliably operate with ACP-Net and ARP-Net products. Channels of the SC-100 can be linked to control any relay/contactor or group of relay/contactors in these products. The System Clock is typically ordered as part of a Watt Stopper lighting control panel, whether that be a Basic Control panel or an ACP- or ARP-Net product. One system clock will be installed in the main or central panel in a facility. All other panels in the lighting control system receive their time based control from this centralized system clock. In some applications, a system clock may be ordered with each lighting control panel for stand-alone panel operation.
System Clock Technical Information Product Specifications
SC-100-CP Model SC-100 Model Ordering Information
♦ ♦ ♦ ♦ ♦ ♦ ♦ ♦ ♦ ♦ ♦ ♦ ♦ ♦ ♦ ♦ ♦ ♦
120 schedules assignable to one or multiple days of the week or holiday type Temporary schedules which execute once then delete themselves Repeating schedules from 5 minutes to 10 hours 32 holidays, each up to 120 days with 3 holiday schedule types Single date, perpetual date, perpetual day of week and perpetual Easter holidays Astronomic control predicting sunrise and sunset times Astronomic offset ± 120 minutes Automatic daylight savings transition Manual on/off override from keypad Adjustable channel stagger up 1-60 seconds Selectable 12 or 24 hour time format Battery backed clock operation for up to 8 years Non-volatile program memory storage Power-up sequence, executes missed schedules following power outage Input power of 24 VAC or 24 VDC Mounting dimensions: 3.60" x 6.70" x 1.30" (91.44mm x 177.80mm x 33.02mm) FCC compliant, CE certified One year warranty
♦ Eight output channels ♦ Configuration of eight individual override inputs ♦ 32 network output channels ♦ 5 normally open isolated relays rated 1 Amp 24 VAC/VDC, assigned to channels 1-5 ♦ Duration time scheduling from 1 second to 18 hours Catalog No.
SC-100
System Clock Controls
Description
SC-100-CP System Clock for Basic Control contactor panels System Clock for ARP or ACP panels
Status lights
LCD display
Up/on button Down/off button
SC100 Com5
ln 2
Power
ln 1
Service
Rtn Rtn Rtn
Com4
UP/ ON
Com3 Com2 Com1
Comm.
DOWN/ OFF
Error
Rtn
Cnl1
Net A
Pwr-
MENU
PREV.
NEXT ENTER
Pwr+
J2
Expansion Port
Next Menu Previous
ARP
ARP
SC100
ARP-Net
ACP-Net
The Watt Stopper , Inc. Pub. No. 7903
Enter
Repeating Schedules Expansion port
SC-100 and ARP-Net and ACP-Net ARP
®
Connection terminals (only with SC-100 model)
Temporary programmed schedules execute once on the assigned day and then delete themselves from the system clock’s memory. This is used for scheduling one time events such as late hour activities, inventories or extended work periods.
J3
Plug-in Port
System Clock Wiring
Cnl4
Cnl2
Rx
Plug-in port
Cnl5
Cnl3
Tx
Net B
Schedule Types A schedule is assigned a type which selects the functional operation of the clock for the assigned schedule. A type can be timed on, timed off, dusk on/time off, time on/dawn off or dusk on/dawn off.
Temporary Schedules
ln 4 ln 3
Schedule Features
This feature is used to repeat a schedule at a regular interval and may be set from 5 minutes to 10 hours. This is used to operate a lighting sweep at regular intervals without needing to enter multiple schedules.
SC-100-CP and Basic Control contactor panel
SC100 UP/ ON
Power Service Comm.
DOWN/ OFF
Error
MENU Plug-in Port
PREV.
NEXT ENTER Expansion Port
®
ER-10 Ethernet Router ♦ Provides ethernet connectivity ♦ Uses standard data network for communications ♦ Works over LAN or WAN networks ♦ Monitor and control lighting remotely ♦ Wall or rack mounting ♦ Power: 120 VAC, 15 Watts ♦ One year warranty
System Information
The Watt Stopper’s ER-10 Ethernet Router allows The Watt Stopper’s ACP-Net and ARP-Net lighting controls to communicate over an ethernet. This makes connectivity and communication to a lighting control network available over common data communication networks.
Features
The ER-10 "tunnels" the LonWorks communication protocol, used by The Watt Stopper’s networked lighting control panels, over standard ethernet networks that use TCP/IP. Through the Ethernet Router, multiple lighting control panel networks, either close together or widely separated, can communicate with each other by taking advantage of LAN, WAN or enterprise networks. This offers significant advantages for operation and administration of lighting control systems. It reduces the networking and wiring costs by using planned or existing data communication infrastructures. The Ethernet Router used by The Watt Stopper is a third party, multi-protocol router widely used as a LonWorks/IP connectivity solution.
Applications
Using an ER-10 enables communication of The Watt Stopper lighting control panel network between floors in the same building, between buildings on a corporate campus, and between lighting control networks located thousands of miles apart. Networks can be easily connected together for monitoring and control from central or multiple administration sites. This adds flexibility to lighting control network architecture, design and operation.
Ordering Information
Catalog No.
Description
ER-10
Ethernet Router
Network Connection Diagram Building A Lighting Control Network typical of all buildings
Remote Campus
Ethernet ER-10
Local Ethernet/ Intranet
Building B ER-10
ER-10
Building C ER-10
Corporate Campus
Pub. No. 10402
Wide Area Network
Administration Site
Remote Campus
L I G H T I N G C O N T R O L PA N E L S
Lighting Integrator Enclosures and Covers Lockable door access to Class 2 panel section, meets NFPA 70
Three sizes of enclosures available
Surface or flush mounting, screw cover
UL and CUL listed
DIN rail available on 24, 48 capacity enclosures PROJECT LOCATION/TYPE
System & Enclosures
Product Overview
Description
Modularity
Enclosures (LTUB) and covers (LCVR) are designed to enclose Watt Stopper/Legrand Lighting Integrator (LI) lighting control panels. Enclosures hold the panel interior assembly. Screw on covers with locking doors are available for either surface or flush mount applications. The 24 and 48 relay capacity enclosures are available with DIN rail for mounting contactors and other accessory components.
Lighting Integrator’s modularity enables the enclosure to be mounted in the early stages of construction, facilitating conduit installation and rough-in wiring. Later, the interior assembly containing the relays, electronics, power supply and termination blocks simply slides into the enclosure. At that point, lighting circuits and low voltage control wiring can be terminated and the enclosure cover installed.
NEMA Rating Sizes Enclosures and covers come in three sizes for Lighting Integrator. These are 8, 24, and 48-relay capacity. The larger sized enclosures (24- and 48relay) can be ordered with optional DIN rail for mounting up to six 4-pole contactors. Enclosures and covers are ordered separately. Enclosure size must match cover size. Although ordinarily included as part of an LI panel order, enclosures and covers may be ordered separately by catalog number.
Features
www.wattstopper.com 800.879.8585
Enclosures and covers are standard with NEMA 1 ratings, suitable for dry indoor locations (i.e., electrical rooms or closets). Consult factory for other NEMA rated applications.
• 16 gauge all steel enclosures with galvineal finish
• Door access to low voltage panel section with lockable door
• Surface or flush mount, with back mounting holes and threaded holes for cover mounting screws
• DIN rail for six contactors is optional on 24 and 48 relay capacity enclosures
• Screw on cover permits temporary hanging via key hole screw slots
• UL and CUL listed
• Covers are powder coat painted finish • One year warranty
LTUB24 23.88"
LTUB8 16.5"
14"
4.94"
11.68"
Line voltage section
4.82"
15.08"
4.94"
Low voltage section Low voltage section
13.58"
Line voltage section
14.5"
Line voltage section
23.34
26"
31.5"
8.04"
LTUB48 23.88"
40.5" 43.75"
8.08"
16"
Ordering Information
Catalog No.
Description
Dimensions (HxWxD)
Weight
LTUB8
Enclosure, LI panel 8 relay capacity
15.08 x 16.5 x 4.5
11 lbs
LTUB24
Enclosure, LI panel 24 relay capacity
31.38 x 23.88 x 4.5
24 lbs
LTUB48
Enclosure, LI panel 48 relay capacity
43.88 x 23.88 x 4.5
32 lbs
LCVR8S
NEMA 1 surface cover, for LTUB8 enclosure
15.36 x 16.84 x .75
7 lbs
LCVR8F
NEMA 1 flush cover, for LTUB8 enclosure
17.06 x 18.48
9 lbs
LCVR24S
NEMA 1 surface cover, for LTUB24 enclosure
31.66 x 24.16 x .75
21 lbs
LCVR24F
NEMA 1 flush cover, for LTUB24 enclosure
33.35 x 25.85
26 lbs
LCVR24PS
NEMA 1 surface cover for LTUB24 with 8 relay interior
31.66 x 24.16 x .75
21 lbs
LCVR24PF
NEMA 1 flush cover for LTUB24 with 8 relay interior
33.35 x 25.85
26 lbs
LCVR48S
NEMA 1 surface cover, for LTUB48 enclosure
44.90 x 24.19 x .75
30 lbs
LCVR48F
NEMA 1 flush cover, for LTUB48 enclosure
45.85 x 25.85
34 lbs
Pub. No. 10806 www.wattstopper.com 800.879.8585
System & Enclosures
Low voltage section
4.94"
Line voltage section
14"
Line voltage section
35.8"
4.94"
16"
L I G H T I N G C O N T R O L PA N E L S
Enclosure Dimensions
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Lighting Integrator Dataline Power Supply Powers up to 4000 feet of dataline and up to 500 Lighting Integrator panels
Slots for up to three networking option cards
Surface mounted, hinged cover with locking latch
PROJECT LOCATION/TYPE
Product Overview
Description
Operation
The Dataline Power Supply & Network Options Module (HDPS1CC) is designed for use with Lighting Integrator (LI) panels equipped with communication cards. Also referred to as the Dataline Power Supply, it powers the LI system dataline and provides an options panel for further enhancements.
Using a 115 volt power supply for system power, the module provides power for up to 4,000 feet of system dataline (without dataline repeater) and can support up to 500 LI panels. Containing slots for networking options cards, each module can accommodate up to two Global Switch Annunciator cards and one Telephone Override card. While only a single module is required for a networked system of LI panels, multiple modules can be included in a system to provide for the desired number of networking options cards.
Specifications • Pre-assembled in tub and cover • 115 VAC power supply • Dimensions: 12” H x 17.5” W x 5.25” D (304.8mm x 444.5mm x 133.4mm) • One year warranty • UL and CUL listed
System Layout
Lighting Integrator System with Dataline Power Supply
Dataline Power Supply and Network Options Module To Lighting Integrator panels
Ordering Information
Dataline repeater
115 VAC Dataline wire
Dataline Link
Cable
Catalog No. HDPS1CC
www.wattstopper.com 800.879.8585
Pub. No. 12504
Description Dataline Power Supply Module
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Lighting Integrator Networking Cards Global Switch Annunciator card controls up to 12 status relays and group switch codes
Optional plug-in cards for networked Lighting Integrator systems
Telephone Override card enables override of relays and relay groups via touch-tone phones
PROJECT LOCATION/TYPE
Product Overview
Description
Operation
The Global Switch Annunciator and Telephone Override Cards are optional enhancements to a Lighting Integrator (LI) system equipped with communication cards. These plug-in intelligence cards provide extended flexibility to the system’s networking capabilities.
The Global Switch Annunciator card (HGSA12CC) allows 12 switches or contact closures to execute dataline commands globally by controlling up to 12 group switch codes. The global switch input accepts any isolated 2- or 3-wire contact, maintained or momentary switch. In addition to transmitting dataline commands, the card monitors activity related to such commands, and tracks the status of relays and switches it controls. If an occupant overrides a switch or relay for a specific area, the card causes the override to be annunciated at the central unit and provide local status through a contact closure. An LI networks supports up to 99 GSA cards.
Specifications • Cards install in expansion slots inside Dataline Power Supply Module • EEPROM 10-year data storage without power • One year warranty • UL and CUL listed
Ordering Information
Catalog No.
Description
HGSA12CC
Global Switch Annunciator Card
HPHOxCC
Telephone Override Card
The Telephone Override Card (HPHOxCC) supports an unlimited number of telephone override codes, with ON/OFF or ON only options for each code. Up to 12 relays or programmable system switches can be controlled by each code. The card is available in 1- or 2-line configurations.
Expanded Lighting Integrator Networking Applications Dataline Power Supply and Network Options Module
4-Wire pilot light switch
115 VAC
GND
NEUT
Standard RJ11 telephone jack (1- or 2-line)
3-Wire maintained or momentary switch Telephone Override Card
Global Switch Annunciator Card
www.wattstopper.com 800.879.8585
Pub. No. 12604
2-Wire maintained switch Closed contact = ON Open contact = OFF
LIGHTING CONTROL PANELS
AS-100 Automatic Control Switch Automatic or manual switching options
Pushbutton overrides the shutoff event
Simple retrofit installation and operation; no neutral needed
Multi-way operation for 3 and 4 way switching
Terminal style back wiring
Shutoff warning with audible beep PROJECT LOCATION/TYPE
Switches
Product Overview
Description
Operation (continued)
The InteliSwitch® AS-100 Automatic Control Switch operates as both a manual and automatic control device. Manually, it allows users to control loads on/off. Automatically, it receives signals to turn lighting on or off from lighting control panels or other lighting control systems.
warns users that lights will turn off in five minutes. The locator LED on the AS-100 blinks and an audible beep sounds (if enabled). If the button is pushed during this five minutes, the shutoff will be cancelled and the switch will remain on until the next commanded shutoff signal.
Operation
Applications
The AS-100 replaces a standard wall switch. Occupants turn the lights on and off manually by its pushbutton. However, when a timed power interrupt signal is received from a lighting control panel, the AS is automatically commanded to turn on, turn off or delay off. The duration of the power interrupt signal determines how the AS-100 will operate (see back).
Since signaling is accomplished through power interruption, the AS-100 does not require additional signal wiring from a lighting control system or panel. It is designed for easy retrofit of lighting shutoff control in buildings. This greatly reduces installation labor and costs, making it an economical and effective lighting control strategy.
Used with a lighting control panel, the AS-100 allows users to manually turn lighting on in private offices, while lighting in common areas turns on automatically. After hours, if lights were not shut off by users, a signal from the control panel would command the switch to delay off. A shutoff signal
Features
www.wattstopper.com 800.879.8585
• Settings are selected with the front pushbutton using configuration LEDs; face plate does not need to be removed for setup
• Self-adjusting zero crossing switching for consistent, reliable operation of high inrush loads
• Users can select automatic ON operation, and an audible beep warning
• Can be used in 3-way, 4-way and multi-way switching applications
• Selectable beep warning sounds every minute during last five minutes, and every five seconds during last minute
• Compatible with all electronic ballasts and motor loads
• Five minute delay OFF time with user ability to cancel impending shutoff
• Command OFF without delay OFF time
• Microcontroller enhances reliability
Operation
Operation description
Normal Operating Mode 1-2 sec
Delay off
3 sec 5 sec
Turn on Turn off
Initiates 5 minute delay before shutting load off. Locator light blinks and audible beep sounds (if enabled). Pushing the button cancels shut off from occurring. Turns load on if automatic on feature is enabled Turns load off
Installation
Single Switch Wiring with Panel
Wall Junction Box
Neutral
Load
Ground
Load
3-Way
Locator LED
Ground
Installation & Wiring
Duration
Line
Power Interruption Signals
• Dimensions: 2.69” x 1.75” x 1.81” (68.0mm x 45.0mm x 46.0mm) LxWxD • UL and CUL listed; five year warranty
• Dual voltage 120/277 VAC, 60 Hz • No minimum load requirements • Power interruption signal resolution ± 0.1 seconds
Signal Only * No connection for this application.
LIGHTING CONTROL PANELS
Specifications
Hot
Line
Lighting Control Panel
ON/OFF Switch ASP-211
Remote Switch
Setup Mode Options
Master Switch
Setup Mode Options: (Option is on when LED flashes in display
)
Automatic-ON
Line
3-Way
Signal Only * Do not connect to line voltage
= Setup Mode options off (factory setting)
= Audible beep (option on) Load Line
Line
Load
Neutral No Load Connection
Ground
Ground
Do not connect to line voltage
Load
3-Way
Ground
Ground
Audible beep (during Automatic Delayed-off) Signal Only *
Line
Hot
= Automatic-ON (option on)
Lighting Control Panel
= Automatic-ON & Audible beep (options on)
= Unused
LED display
Each switch wired for multi-way operation has the ability to turn on, turn off or override a shutoff signal.
Ordering Information
Catalog No.
Color
AS-100-W
White
AS-100-A
Lt. Almond
AS-100-I
Ivory
Description
Load Requirement
120 VAC, 60 Hz or
0-1300W @ 120 V Watt Ballast & Tungsten or
277 VAC, 60 Hz
0-3000W @ 277 V Watt Ballast
One ASP-211 single-gang cover plate included. Order ASP-422 for blank 2-gang cover plate, ASP-432 for 2-gang cover plate with switch option (specify color).
Pub. No. 14806 www.wattstopper.com 800.879.8585
Switches
Multi-way Switch Wiring with Panel
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Multi-Button Low Voltage Switches Simple to label with protective plastic cover
Architectural Lexan plate, screwless cover
1, 3, 5 or 9 button models available
Pilot light indication
PROJECT LOCATION/TYPE
Product Overview
Description
Multiple Push Buttons
Watt Stopper/Legrand's multi-button low voltage switches offer flexible and user-friendly lighting control via 1, 3, 5, or 9 button models.
The multi-button switches provide control of multiple lighting groups or zones from a single location. Depending on the configuration of the lighting control panel, the single larger button on the 3, 5 and 9 button switches can be used for specialized control functions such as all on, all off, or cleaning operation. The switch’s multiple push buttons and compact design replace multiple gang switch locations with a single or double gang wall switch.
Operation The multi-button switches toggle lighting on and off by signaling Watt Stopper lighting control panels or occupancy sensors (with manual control capability). If lights are off, pressing the button turns lights on. If lights are on, pressing the button turns them off. Adjacent to each standard button is a red pilot light indicating the status of controlled lighting when connected to a pilot light output from a lighting control panel. This is particularly useful when switches are placed in a location where the controlled lighting cannot be seen. Terminals on the back of the switch provide easy wiring without additional connectors.
Features
www.wattstopper.com 800.879.8585
Applications From single room, single switch, to central, multiple switch station locations, the multi-button switches keep a consistent and pleasing look. Consistency in appearance is maintained with Watt Stopper dataline switches or other architecturally designed switches. The multi-button switches are particularly well suited for demanding switch locations such as reception desk areas, nursing stations, guard stations and administration areas.
• 1, 3, 5, or 9 button models available
• Terminal back screws simplify wiring
• Pilot light next to each standard button for remote indication of the lighting status
• Screwless cover plate enhances switch aesthetics
• Locator light bar helps users find the switch easily in the dark
• Low voltage switch wiring simplifies installation making it easy to add switches anywhere needed and to accommodate multiple switching locations
• Mounts in a single or double gang box; no special plates or large gang boxes are required
• Architectural design matches Watt Stopper dataline and other switches
• Lens caps are removable for easy labeling of standard buttons
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Multi-Button Switch Technical Information Specifications
Wiring & Dimensions
• Compatible with: Watt Stopper Lighting Integrator and legacy panels; occupancy sensors with manual control capability; LC100 intelligent power pack • Removable lens caps for labeling each standard button with 3/8” (9mm) laminated tape; larger button does not have labeling capability • Pilot and location light LED, 18-30 VAC recti-
fied or DC; each LED draws 5 mA @ 24 V • Custom engraving available • Available in white, ivory, almond, or grey • Dimensions: 2.75” W x 4.5” H x .94” D (69.8mm x 114.3mm x 23.9mm) for 1, 3, and 5 button switch; 4.5” W x 4.5” H x .94” D (114.3mm x 114.3mm x 23.9mm) for 9 button switch • One year warranty
Wire Connections
Wiring Diagram Pilot light
P(x)
(one for each standard button)
TB1
Switch input
TB2 S1
P1
S2 S3 S4 S5 S6
P2 P3 P4 P5 P6
S7 S8 S9 COM
P7 P8 LOC
S(x)
(for each button) Locator light (one per switch)
Loc
Common (one per switch)
Com
Switch Configurations Single button
Three button
Wire connections shown for model L9S, 9 button double gang switch
Switch
Product Features 4.5"
Removable lens caps for labeling Downlights
Standard button
Wall washer
2.75"
Sconce Proj screen
Panel#
Five button
Larger button for specialized functions
Nine button
Switch#
Pilot light
Locator light
4.5"
Ordering Information
Catalog No.
Description
Standard Button Larger Button
Max Pilot Load
L1S
Single button switch
0
1*
Single-gang
10 mA
L3S
Three button switch
2*
1
Single-gang
15 mA
L5S
Five button switch
4*
1
Single-gang
25 mA
L9S
Nine button switch
8*
1
Double-gang
45 mA
Add to the end of catalog no.: - 2 for Ivory, - 4 for Almond, - 7 for White, - 9 for Grey * with pilot light
Watt Stopper/Legrand® Pub. No. 15403
Size
System & Enclosures
L I G H T I N G C O N T R O L PA N E L S
Lighting Integrator Panel Interiors Universal power supply with international options
Individual plug-in latching relays with isolated pilot status contacts and mechanical override
DIN rail mounting for automation modules or other Class 2 devices
Group switch card for unique Smartwire pushbutton programming
PROJECT LOCATION/TYPE
Product Overview
Description
Operation cont’d.
Watt Stopper/Legrand’s Lighting Integrator (LI) Panel Interiors provide mounting for the systems single pole relays, power supply and control cards. The interior is shipped as a separate assembly from the panel tub and cover to facilitate project rough-in requirements. Interiors are configured as 8, 24 or 48 relay capacity with the quantity of relays installed as called for on the order. The interior field mounts into an appropriate enclosure supplied separately.
allow connection of direct wired low voltage switches or other devices for remote control of the relays. Switch inputs can be wired to accommodate either momentary three wire, momentary two wire (toggle) or maintained contact switches as well as occupancy sensors. The switch input circuits are auto sensing and will automatically configure appropriately when Watt Stopper occupancy sensors are connected to the inputs.
Applications Operation The relays are driven into a latched on or off state through a 24 volt DC pulse generated by the relay driver cards. A momentary pushbutton is provided for each relay driver circuit that will manually force the relay to toggle it’s state with each press of the button. An isolated set of contacts in the relays provide a positive status feedback to the relay driver circuits which is annunciated by an LED associated with each relay. Removable terminal blocks associated with each relay driver circuit
Features
• Separate enclosure and panel interior facilitate rough-in and installation
• Push button override, pilot light signal and status LED provided for each relay
• Panel interior provides complete isolation between line and Class 2 voltages
• Panel provides low voltage power source for occupancy sensors and daylighting controls
• Individual plug-in, latching style single pole relays with isolated pilot contacts
• DIN rail(s) provided for mounting Class 2 modules and accessories
• Factory configured for any quantity of relays up to 48 max
• Two slots provided for factory installed automation, networking and integration control cards
• Power supply options for 115/277 volts, 115/347 volts and 220 volts 50Hz www.wattstopper.com 800.879.8585
Lighting Integrator panel interiors can be supplied configured to suit a wide range of lighting control applications. Interiors are compatible with enclosure options for surface or flush mounted interior applications, as well as, NEMA 3R and 4 exterior applications. Lighting integrator is suitable for both new construction and retrofit applications.
Specifications
• Interiors available as 8, 24 or 48 relay capacity • Relays are factory installed and tested in user selectable quantity per interior
• Group switching card provides Smartwire (pushbutton programming) capability for assigning relays to groups or patterns
Panel Interior Configurations
• DIN rails supplied in Class 2 section of interior for mounting optional automation modules or other devices • Accessory power available: - 8 relay interior, 1000 MA @ 24VAC or 800 MA @ 24VDC - 24 and 48 relay interior, 1400 MA @ 24VAC or 800 MA @24VDC
• Eight channels provided per group switch card, includes override/programming pushbuttons, pattern button and status LED per channel
• Pilot light output, 24 V rectified or 24 VAC, other voltages configurable with external power supply
• All relay and channel switch inputs are configurable for three wire momentary, two wire momentary, maintained contact or occupancy sensor input
• UL listed, One year warranty sensor input
Group switching card
Mechanical override switch on relay
Interior frame and voltage barrier
Relay driver cards Plug-in relays
L I G H T I N G C O N T R O L PA N E L S
• Relay driver circuit cards provide support for 4 relays and includes manual pushbutton override, LED relay status indicator and removable switch input terminal block per relay
• Interior supports one or two factory installed control/automation cards
Dataline power supply card position DIN Rail for mounting modules Line voltage transformer assembly Networking card positions Class 2 power supply card
Panel Interior Dimensions
Ordering Information
Pub. No. 21602
Catalog No.
Description
Shipping Weight
LIN8-G1-115
Panel interior, max 8 relays, 115/277 VAC 60Hz power supply
13 Lbs.
LIN8-G1-347
Panel interior, max 8 relays, 115/347 VAC 60Hz power supply
13 Lbs.
LIN8-G1-240
Panel interior, max 8 relays, 240 VAC 50Hz power supply
13 Lbs.
LIN24-G1-115
Panel interior, max 24 relays, 115/277 VAC 60Hz power supply
31 Lbs.
LIN24-G1-347
Panel interior, max 24 relays, 115/347 VAC 60Hz power supply
31 Lbs.
LIN24-G1-240
Panel interior, max 24 relays, 240 VAC 50Hz power supply
31 Lbs.
LIN48-G1-115
Panel interior, max 48 relays, 115/277 VAC 60Hz power supply
44 Lbs.
LIN48-G1-347
Panel interior, max 48 relays, 115/347 VAC 60Hz power supply
44 Lbs.
LIN48-G1-240
Panel interior, max 48 relays, 240 VAC 50Hz power supply
44 Lbs. www.wattstopper.com 800.879.8585
System & Enclosures
Mounting holes; typical 4x
L I G H T I N G C O N T R O L PA N E L S
Lighting Integrator Automation Level
Eight independent control channels LonWorks™ based network communications Compatible with legacy Smartwired switching systems PROJECT LOCATION/TYPE
Product Overview
System & Enclosures
Scheduling via network clock, BMS interface, or browser based Automation Appliance
Function specific modules provide automation features
Features
Description
Smartwiring
Watt Stopper/Legrand’s Lighting Integrator (LI) series lighting control panels offer a variety of flexible control features. The Automation level LI product provides a simple networked configuration enabling automation of lighting functions globally throughout an entire facility. A selection of function specific Automation Modules can be specified to add control features such as scheduling, photocell control, remote override, telephone override, or BAS integration on an as-needed basis.
Lighting Integrator provides a unique and flexible means for grouping relays into channels for common control and scheduling. Using a simple button-press user interface called Smartwiring, the user can quickly include or exclude relays from the channels within a panel (requires group switching card). Similarly, smartwiring can be used to group relays or channels for common control by buttons on dataline switches.
Operation
Applications
Automation level LI panels provide eight channels for manual control of lighting or implementation of unique pre-programmed automation scenarios. These scenarios, implemented through function specific automation modules, include: scheduled ON/OFF, Manual ON/Scheduled OFF, Scheduled ON/Sweep OFF, Astro ON/Astro OFF, Astro ON/Scheduled OFF, Photocell ON/OFF, and Photocell ON/Scheduled OFF. Dataline switches that connect to the panels using a common fourwire dataline provide manual and override control.
Automation level Lighting Integrator, along with the desired function-specific automation modules, are ideal for small to medium size projects that require networking of up to 12 panels. Applications include office buildings, schools, retail, warehouses and any other application that requires a basic level of lighting automation without the need for a PC and software.
• Standard single pole heavy duty relays, optional multi-pole contactors
• Direct wired switch inputs are compatible with three-wire momentary, two-wire momentary or maintained contacts
• Available in 8, 24, or 48 relay configurations • DIN rail in Class 2 compartment for mounting function-specific automation modules • Optional DIN rail in high voltage section for mounting contactors or other accessories
www.wattstopper.com 800.879.8585
• Direct wired switch inputs configure automatically for use with Watt Stopper occupancy sensors
• Compatible with AS-100 automatic switches for sweep-based automatic shutoff • Programmable dataline switches for control of relays or channels • Provision for integral Lightsaver daylighting controls
Specifications
• Automation channels: 8 per panel, provide global schedule and control functions
• Standard relay, individually replaceable Watt Stopper HDR series, latching SPST, 20 AMP electronic ballast 14,000 Amps SCCR, with integral manual override (other relay types available)
• Direct wire switch inputs, one each per relay and group switch channel, automatically configure for occupancy sensor operation
• Digital global dataline, one pair twisted, open topology allows linear, star and T network configurations for panels, 1500’ max length (4000’ linear topology)
• Integral DIN rail for mounting of Class 2 automation modules
• Pilot light output per relay and group switch channel, configurable for any Class 2 voltage
• UL, CUL listed, one year warranty
• Local dataline, two pair twisted, open topology allows linear, star and T configurations, 63 HDLS series switches per dataline, 1500’ max length
System Layout
LI Automation Panel System Layout Global dataline Occupancy sensor
Photocell Mount on roof facing North
Non-dataline devices
Lighting Integrator
R W Y
1
5
2
6
3
7
4
8
Y
R W Y
Y
Y
Lighting Integrator
Y
R W Y Y
Y
R W
R W Y
Y
R W
R W Y Y
Y
L I G H T I N G C O N T R O L PA N E L S
• Panel configurations provide 8, 24, or 48 relays each
R W Y Y
Universal switch interface Local dataline
HPCU8SS
INPUT RATING: 24VAC/VDC/3W OUTPUT RATING: 1AMP@24VAC/VDC
The Watt Stopper ®, Inc.
Telephone Control Module OR:
OR:
Y Y
A
E
Y Y
Y Y
B
F
C
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D
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Ordering Information
Catalog No. LI 8S GA 115
Network clock/ programmer
Y Y
Y Y
Y Y R W Y Y
R B W BU
BMS interface module
Dataline Switches
Description LI Automation level panel with 8 relays, group switch card, surface mount enclosure, standard 115/277 volt power supply
LI 24S GA 115
LI Automation level panel with 24 relays, group switch card, surface mount enclosure, standard 115/277 volt power supply
LI 48S GA 115
LI Automation level panel with 48 relays, group switch card, surface mount enclosure, standard 115/277 volt power supply
Optional Modules Model HCLK8SS
Module
Application
Network Clock/
Set up and run system wide schedules using pre-programmed automation
Programmer
scenarios. Also operates as system programming tool for channels and dataline switches.
HBMS8SS
BMS Interface Module
Allows BMS to run pre-programmed lighting automation scenarios through a simple contact closure interface.
HPCP8SS
Photocontrol Module
Provides Dark ON/OFF control of lighting based on exterior ambient light level. Provides 8 independent set points.
HUSM8SS
Universal Switch
Input/output module allows any external contact closure to control relays or
Interface Module
channels. Isolated contacts provide feedback to external systems.
Pub. No. 21802 www.wattstopper.com 800.879.8585
System & Enclosures
Automation Appliance
Photocontrol Module
R W
R W Y
H
R W
R W
Y SELECT
LOWER
G
R W
R W
RAISE
HELP
F
C D
bled
00917
R W
E
B
Ena
Hoo
Pow er Serv ice
Off
Global Dataline
A
Unit
k
Santa Clara, CA 95050 1(888)-852-2778
System & Enclosures
L I G H T I N G C O N T R O L PA N E L S
Lighting Integrator Complete Control Distributed processing architecture with robust 2-wire digital network communications
Now features a new priority array based logic engine for simple execution of complex control scenarios
Compatible with legacy Complete Control systems
Complete scheduling, monitoring, and reporting capabilities via exclusive WinControl software PROJECT LOCATION/TYPE
Product Overview
Features
Description
Operation
The Watt Stopper/Legrand Lighting Integrator Complete Control system is a full featured networked control system that provides the maximum flexibility for the control of lighting by providing both panel based and distributed load control options. Because it is based on distributed processing, LICC provides a high level of reliability. A digital communication bus allows user programming generated at the WinControl workstation to be transferred to the panels where it runs autonomously. Once loaded into the panels, the lighting automation features operate without the need for an on-line PC. LICC incorporates all the base features of the Lighting Integrator hardware platform including the HDR, mechanically latching, heavy duty relay.
Each LICC panel stores the user generated programming in non volatile memory housed within the Complete Control intelligence card. This controller monitors all inputs and uses a unique priority array based logic engine to generate the appropriate load response (relay control) based on simple or complex combinations of input triggers that can include schedules, override switches, occupancy sensors, photocells and signals from other building systems.
• Distributed processing insures reliable panel operation without an on line PC
• Generate detailed reports for documentation of all aspects of the user programs via WinControl software
• Network up to 500 panels via open topology digital data bus switching • Create user programming off line using WinControl software and transfer to panels • Import site documentation from WinControl Designer project design and documentation software
www.wattstopper.com 800.879.8585
Unique to LICC are library of scenario based control schemes that provide powerful control options without the complexity of low level user programming. These control scenarios include provisions for common area logic with egress, cleaning crew overrides, load shed, force on, force off, blink warn, and after hour time delay.
• Supports Watt Stopper occupancy sensors directly without power packs • Programmable analog inputs provide multiple set points for photocells or other analog devices • Programmable dataline switches connect to panel with 4 wire open topology digital data bus
• Programmable group codes with scenario base logic provide system-wide control
• Integral logic provides full support for Watt Stopper AS series Automatic Wall Switch
• Powerful data logging feature with manual and automatic log transfer to PC
• Remote network supervision and programming via TCP/IP connection using the optional WebLink
• Option for seamless building system integration using BACnet protocol
Specifications
• Panel configurations provide 8, 24, or 48 relays max each
• Digital network dataline, one pair twisted and shielded, open topology allows linear, star, and T network configurations for panels, 4000’ max length • Network link device provides RS-232 connection to digital dataline for PC or WebLink • Optional local dataline, two pair twisted, open topology allows linear, star, and T configurations, 63 HDLS series switches per dataline, 1500’ max length
System Layout
• Analog set points, 32 maximum per panel, high set/low set with individual high/low time delays • Direct wire switch inputs, one each per relay and group switch channel, automatically configure for occupancy sensor operation • Pilot light output per relay and group switch channel, configurable for any Class 2 voltage • DIN rail mounting for automation modules • UL listed, one year warranty
Panel System Layout and Configuration
in one panel only.
Ordering Information
Catalog No.
Description
LI8S GAC 115
Complete 8 relay surface panel with group card and dataline switch support
LI8S GACP 115
Complete 8 relay surface panel with group card and dataline switch support with dataline power supply
LI24S GAC 115
Complete 24 relay surface panel with group card and dataline switch support
LI24S GACP 115
Complete 24 relay surface panel with group card and dataline switch support with dataline power supply
LI48S GAC 115
Complete 48 relay surface panel with group card and dataline switch support
LI48S GACP 115
Complete 48 relay surface panel with group card and dataline switch support with dataline power supply
WCHSTD
WinControl Software
HLINKCC
Data Communications link (required for PC connection to dataline)
HPSA
Outdoor analog photocell, 0 – 200 fc.
HPSA-I
Indoor analog photocell, 0 – 500 fc.
HPSA-S
Skylight analog photocell, 0 – 6000fc.
Pub. No. 21902 www.wattstopper.com 800.879.8585
System & Enclosures
Note: Dataline power supply required
L I G H T I N G C O N T R O L PA N E L S
• Standard relay, individually replaceable Watt Stopper HDR series, latching SPST, 20 AMP electronic ballast, 14,000 Amps SCCR, with integral manual override (other relay types available)
• Analog input, 12 VDC source provided, 0 – 4 VDC input, 8 inputs provided per group switching card
System & Enclosures
LIGHTING CONTROL PANELS
Lighting Integrator ARP Automatic Relay Pack Two relay outputs work independently or as a bi-level pair
Adds distributed intelligent room control to Lighting Integrator systems
Low voltage switch, occupancy sensor and daylight sensor inputs
Automatic shutoff with blink warn and after hour time delays
PROJECT LOCATION/TYPE
Product Overview
Features
Description
Operation cont’d.
The LIARP automatic relay pack is a self contained room controller that provides distributed intelligent control of lighting loads. Because the ARP is installed where the control is needed, it reduces the cost and complexity of design and installation. The ARP shares data with the LI Complete Control system and allows an integrated lighting control solution that includes time, occupancy, and daylight based control.
choose to cancel the off by activating the wall switch. If an occupancy sensor is connected to an ARP input, it’s operation will be normal during unoccupied periods. But, during occupied periods, the occupancy sensor will by default operate as a manual ON/automatic OFF control. This operating scenario minimizes energy waste while eliminating nuisance activation of lighting by “walk by” traffic.
Operation
Applications
The two relays in the ARP can be controlled independently by the two low voltage switch inputs or together using a single switch. The default settings for the ARP are set for maximum energy saving incorporating a manual on/automatic off strategy. When the ARP receives an occupied state signal from the LI system schedule, the relays will wait for a wall switch activation before turning ON the relays. At the end of the occupied period, the lights will blink to warn the occupants, then wait for a five minute grace period before turning off the lights. During the grace period, the occupant can
The ARP is ideal for applications where a combination time, occupancy, and daylight based strategies need to be applied to multiple areas in the building. This “room controller” concept places the multi-strategy distributed intelligence directly in the area that is to be controlled, eliminating runs to the electrical closet. Since the ARP contains two relays, it provides an excellent solution for bi-level switching or load shedding within a single space. The ARP is perfect for classrooms, offices, conference rooms and other smaller space types.
• Default configuration maximizes energy savings and simplifies application
• Standard inputs accommodate two switches, one occupancy sensor and one daylight sensor
• Distributed intelligence enhances the operation of integrated control strategies and insures reliability
• NEMA 1 housing is suitable for use in return air plenums
• Two relays can be used independently for bilevel or load shed applications • Isolated form C contacts for each relay allow custom integration with other devices
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• Two low voltage switch inputs are configurable for three wire momentary or two wire alternate action
• Robust digital network is polarity insensitive and can be installed using linear, “T” tap, or star topologies • Fully integrates with Lighting Integrator Complete Control systems using WinControl software • Stand alone mode allows for use without network
Specifications
ARP Low Voltage Wiring
ARP Junction Box Wiring
GRN Hot
BLK/BRN
Hot Hot
WHT
Power Supply
Relay 1
RED
RED
Relay 2
ORN
ORN
Junction box
Neutral
Load 1 Load 2
ARP
(Division from HV to LV) Network Wiring To other devices
Network Wiring From other devices
ARP Low voltage wiring to switches
$
$
LIGHTING CONTROL PANELS
Wiring Configurations
• Network dataline, one pair twisted, 1500’ max, free topology • Enclosure, 1/2” pipe thread mount, NEMA 1, approved for use in return air plenum • Size, 6.63”h x 6.13”w x 2.13”d • FCC Compliant Part 15, sub part J for commercial and residential • UL and CUL listed; Three year warranty
• 120/277 VAC, 60 Hz • Load relays rated 20 amps ballast at 120/277 VAC 60Hz, 20 amps incandescent at 120 VAC 60Hz, 1 hp at 250 VAC 60Hz • Auxiliary relay contacts, 1 amp at 24 VDC, form C • Pilot light output, 24 VDC each relay • Auxiliary power, 200 mA at 24 VDC
ARP Application Examples Room A
Room B
B
B
A
J
D
ARP
J O
$ Low Voltage Switch J Junction Box
ARP
O Occupancy Sensor D Daylight Sensor
$ $ A B
Ordering Information
Catalog No. LIARP 120/277
Accessories
Pub. No. 24901
$ A
$ B
Network Dataline
Description Automatic relay pack for Lighting Integrator LVS-1
LVS-1
Three wire momentary toggle switch
L1S (color)
Single button alternate action switch with pilot
LS-100
Ceiling mount daylight sensor
WPIR
Ceiling mount infrared occupancy sensor
www.wattstopper.com 800.879.8585
System & Enclosures
A
Room C
®
Outdoor Controller for Panels ♦ Intelligent control module for exterior lighting with built-in control scenarios ♦ Independent outputs for three lighting types ♦ User-selectable ranges for three light levels ♦ Built-in deadband ♦ Optional egress delay ♦ Compatible with Smartwired Contactor, Complete Control, and basic relay panels ♦ Occupied/unoccupied contacts ♦ One year warranty
Component Information Operation
The Watt Stopper’s Outdoor Controller package is an intelligent component for simple exterior lighting control. It works with Smartwired Contactor, Complete Control, and basic relay panels. The package includes the controller module itself (HPCU3BC) as well as the photocell sensor (HPSA). The Outdoor Controller utilizes the exterior photocell sensor to read light levels and transmit the data to the controller module, usually located in the lighting control panel. The photocell is mounted outdoors, typically on a roof facing the northern sky. In addition to receiving input from the photocell, the controller module may also be connected, via a dry contact input, to a system clock, time switch, or building management system that signals occupied/unoccupied (business hours/after hours) status of the facility. The module contains three intelligent outputs, each dedicated to a specific type of exterior lighting: security, parking, and signage. Based on the signal from the photocell and/or the occupancy input, the controller will switch exterior lighting loads ON or OFF. Use of the “occupied” input enables the three outputs to be controlled differently. The security output will operate Dusk ON/Dawn OFF based solely on the light level data from the photocell. The parking and signage outputs require both an occupancy signal and an indication from the photocell that the light level is low to turn lights ON. To turn lights OFF requires either a non-occupancy or an adequate light level signal. With the parking output, users may select an optional egress time delay to ensure occupants have adequate illumination while exiting the premises.
Features & Applications
Each output includes an independent, adjustable setpoint, so that users may adjust the light level at which the lights turn ON or OFF. Each output may be wired to control a single relay, group of relays, or an intelligent input such as a channel in a Smartwired Contactor panel. In addition, the package provides a built-in deadband to eliminate lamp cycling due to intermittent, minor light level changes. For facilities utilizing a lighting control panel such as Smartwired Contactor, Complete Control, or a basic relay panel, the Outdoor Controller offers a simple method of adding exterior lighting control for the most common types of exterior lighting easily and with minimal additional wiring.
Outdoor Controller Technical Information Specifications
♦ ♦ ♦ ♦ ♦ ♦ ♦ ♦ ♦ ♦ ♦
Ordering Information Unit Layout & Wiring
Intelligent component for simple exterior lighting control Compatible with Smartwired Contactor, Complete Control, and basic relay panels Includes controller module (HPCU3BC) and exterior photodiode photocell sensor (HPSA) Three independent outputs with adjustable setpoints for security, parking, and signage lighting User-selectable footcandle range for each output (2-20 for security and parking outputs, 20-200 for signage output) Controller module mounts in any panel interior or accessory enclosure Weatherproof exterior photodiode photocell sensor Automatic deadband and time delay for each output User-selectable parking lighting egress time delay from 15 minutes to two hours Occupied contact accepts dry contact closure One year warranty
Catalog No. HPCP3BC
Description Outdoor Controller (includes HPCU3BC controller module and HPSA photocell sensor)
Controller Settings and Wiring
Occupied contact
Test/operate switch*
2-conductor 20 Awg 1000 ft. max.
To photocell
Red Black White
RED
Red
BLACK YELLOW WHITE
1
White
Relay Red
Security lighting level
Black
Outputs to relays and/or smart inputs such as channel terminals
Parking lighting level Parking egress delay Red
Signage lighting level
Black
White
A
Blue
24 VAC
*Must be in OPERATE position for normal operation.
Installation
Installing the Outdoor Controller Module
Installing the HPSA Photocell Weathertight junction box 0.5" Threaded Inlet 20/3 AWG 1000’ Maximum
PHOTOCELL R B W S
TEST
OPERATE OCCUPIED
R W
0
R B W
SECURITY LEVEL
SECURITY
PARKING LEVEL 0
R B W
0
PARKING PARKING EGRESS
R B W
0
SIGNAGE LEVEL
SIGNAGE
POWER
The Watt Stopper , Inc. ®
Pub. No. 13401
The Outdoor Controller module installs easily in the panel interior.
24VAC WHITE
®
Power Supply ♦ Provides 24 VAC to system panels and components ♦ Single unit for multiple input voltages ♦ Functions with either 50 or 60 Hz ♦ Internal overcurrent protection ♦ Voltage spike protection ♦ Two separate Class 2 40 VA transformers ♦ UL and CUL listed, one year warranty
Component Information
The HPSM is the power supply unit for The Watt Stopper relay panels. Installed in a relay panel interior, it provides 24 VAC operating voltage to system components such as electronics, relays, and accessories. It operates with either 115/277 or 115/347 (Canadian) voltages and will function with either 50 or 60 Hz.
Operation & Features
The Power Supply contains two 40 VA transformers to provide a stable power source for the panel, ensuring an adequate supply for relays and any user-installed accessories that draw power from the panel. In addition, these transformers feature internal overcurrent protection so that they will automatically shut off if overloading occurs. The Power Supply features voltage spike protection of all downstream electronics via Metal Oxide Varistors (MOV).
Ordering Information
Catalog No. HPSM115/277 HPSM115/347
Description
Voltage
Power Supply Power Supply
115 or 277 115 or 347
Add -A after catalog number for ACP-Net panels
Wiring & Installation
Power Supply Unit for Relay Panels
Installing the Power Supply
Dual transformers 277
115
NEU
GND
277
115
NEU
Front view
The Power Supply includes dual transformers for a stable power source.
Pub. No. 11305
GND
Back view
The Power Supply easily installs into the line voltage section of any relay panel interior.
Power Pack
SPECIFICATIONS: Voltages: . . . . . . . Load Requirments: Ballast . . . . . . . Incandescent . . Motor . . . . . . . .
. . . . . 120 and 277VAC 60Hz . . . . . 20amp @120/277VAC . . . . . 20amp @120VAC . . . . . 1HP @120/240VAC
Output: . . . . . . . . . . . . . . 150mA @24VDC (with relay connected) Low Voltage Inputs . . . . . Control On 5-24VDC Hold On 5-24VDC Hold Off 5-24VDC Operating Temperature . .32째-131째F (0-55째C)
Santa Clara, CA 95050 1(800) 879-8585
Installation Instructions
BZ-100E-P
WARNING: TURN THE POWER OFF AT THE CIRCUIT BREAKER BEFORE INSTALLING POWER PACKS ONLY QUALIFIED ELECTRICIANS SHOULD ATTEMPT TO INSTALL WATT STOPPER POWER PACKS DESCRIPTION: The BZ power pack is the foundation for any low voltage lighting control system. The BZ supplies low voltage power to occupancy sensors and other control devices, switching line voltage in response to signals from control devices. The BZ power pack is attached to existing junction boxes or mounted into fixture wiring trays. Low voltage wiring should use at least 22-gauge wire, high voltage connections should use at least 14-gauge. Always check local building codes. After initial wiring is complete, check wiring diagram to verify power pack is wired correctly. Improper wiring can cause damage to power pack, lighting system, and occupancy sensor. INSTALLATION Wiring Diagrams:
White
Neut.
Power Pack
Lighting Load
Red Switch
Black 120VAC
Red
Yellow
5-24VDC In Brown Hold Off
Red
5-24VDC In Hold On
Blue
Brown 277VAC Black
Hot
+24VDC Common Control Output
Any 3-Wire 24VDC Sensor
Installation Notes: 1. Power packs should be installed in accordance with state, local and national electrical codes and requirements. 2. Power packs are designed to attach to existing or new electrical enclosures with 1/2 inch knockouts. 3. Most applications require UL listed, 18-22 AWG, 3conductor, Class 2 cable for low voltage wiring. For plenum return ceilings, use UL listed plenum-approved cables. CAUTION: CONNECT ONLY THE POWER SUPPLY WIRE FOR VOLTAGE USED. INSULATE/CAP UNUSED POWER SUPPLY WIRE
OPERATION: Low Voltage Inputs: Three +5-24VDC maintained inputs are provided with the following functionality: 1. Control ON (Blue Wire) â&#x20AC;&#x201C; Applying 5-24VDC to this input closes the relay. Remove the voltage and the relay returns to its normal state. This input is intended for sensor or control device input 2. Hold ON (Yellow Wire)- Applying 5-24VDC to this input closes the relay. Remove the voltage and the relay returns to its normal state. This input is intended for timer or panel input and overrides the Control ON input. 3. Hold OFF (Brown Wire)- Applying 5-24VDC to this input opens the relay. Remove the voltage and the relay can accept input from either the Control On or hold on inputs. This input is intended for timer, panel input, or load shed signals and overrides the Control ON/Hold ON signal input.
Over Current Protection: If the current drawn from the BZ exceeds 150mA (i.e. there are too many sensors per power pack) the +24VDC output will be turned off. The LED will continuously blink to indicate that the Over Current Mode has been activated. Upon removal of fault condition, the BZ will not attempt to restore the power for 10 seconds after an over-current event. This protection also applies if the low voltage outputs are shorted. LED Indicator: The LED will indicate when the load is active with a continuous red light and will indicate when the current limit of the BZ has been exceeded by blinking continuously. ORDERING INFORMATION: Catalog Number
Description
Input Voltage
BZ-100E-P Power Pack 120/277VAC 60Hz
Load Ratings Ballast (A) Incan. (A) Motor (hp) Output 20
20
1
24 VDC, 150 mA (w/relay connected)
WARRANTY INFORMATION The Watt Stopper速, Inc. warranties its products to be free of defects in materials and workmanship for a period of five years. There are no obligations or liabilities on the part of The Watt Stopper, Inc. for consequential damages arising out of or in connection with the use or performance of this product or other indirect damages with respect to loss of property, revenue, or profit, or cost of removal, installation or reinstallation.
Putting a Stop to Energy Waste速 Santa Clara, CA 95050 1(800)879-8585 1(972)578-1699 02237r1 6/02
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BZ-100 Dual Voltage Power Pack Fully self-contained transformer and relay
Hold ON and Hold OFF inputs
Overcurrent protection (low voltage)
Zero crossing for reliability and increased product life
Dual 120/277 VAC Plenum rated PROJECT LOCATION/TYPE
Product Overview
Description
Plenum Rated
The BZ-100 is a full-featured power pack, providing 24 VDC operating voltage to Watt Stopper’s low voltage occupancy sensors. In addition, the BZ enables special hold-ON, hold-OFF and load shed applications when used with lighting control panels or building management systems.
The BZ is UL 2043 plenum rated with teflon coated low voltage leads and plenum rated plastic. This means that the power packs do not need to be installed in the junction box, but can be installed in the plenum. They are housed in ABS, UL-rated 94V-0 plastic enclosures.
Applications Operation The BZ consists of a transformer and a highcurrent relay. The transformer has a primary high voltage input of 120 or 277 VAC. The secondary output, which provides the operating power for Watt Stopper occupancy sensors, is 24 VDC, 150 mA. This 150 mA output is available with the power pack’s relay connected. The power packs receive input from occupancy sensors or light level sensors and switch lighting on and off. For example, when an occupancy sensor detects motion, it electrically closes an internal circuit which sends 24 VDC to the power pack. This closes the power pack relay and turns the lights on.
Features
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• Self-contained transformer relay system
BZ power packs can control lighting circuits, selfcontained air conditioners, pumps, fans, motors, VAV systems, motorized damper controls and setback thermostats. The hold-OFF input can be used to perform load shedding. During a power alert or during peak demand, a signal from a BMS or utility meter triggers the BZ to shed non-critical lighting loads. The hold-OFF function also works with a security system to hold some lights off during a security walk-through. The hold-ON input is ideal for retail and commercial facilities that want to hold certain lighting ON during normal business hours. After-hours, a time clock signals the BZ to no longer hold lights ON, allowing occupancy sensors to resume control.
• Primary high voltage input of 120 or 277 VAC
• Hold-ON input enables method to override occupancy sensor and hold lighting ON
• LED indicates status of relay or if there is a low voltage overcurrent
• Zero crossing circuitry for reliability and increased product life
• Hold-ON and hold-OFF inputs integrate with lighting control panels, BMS and other building systems
• UL 2043 plenum rated
• Hold-OFF input can provide load shedding function
• 1/2 inch snap-in nipple attaches to standard electrical enclosures through 1/2 inch knockouts
• Can be installed directly in plenum for cost-effective installation
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BZ-100 Technical Information Specifications
System Layout & Wiring
• UL-rated 94 V-0 plastic enclosure; units are grey • UL 2043 plenum rated • Dimensions: 1.6" x 2.75" x 1.6" (40.6mm x 69.9mm x 40.6mm) with a 1/2 inch snap-in nipple • UL and CUL listed; Five year warranty
• 120/277 VAC voltage input • Secondary voltage of 24 VDC • Secondary output of 150 mA (with relay connected) • Low voltage leads are rated for 300 volts • Hold-ON and hold-OFF inputs for integration with lighting control panels, BMS, and other building systems 12-24 VDC)
Installation Diagram
Wiring with Occupancy Sensor
Power Pack
Power Pack
White
Neut.
Lighting Load
Red Switch
Black 120VAC
+12-24VDC In
Yellow
Red
Brown 277VAC Blue
High voltage connection made inside J-box
Red
Black
Hot
+24VDC
Hold On +12-24VDC In
Common Brown
Control Output
Any 3-Wire 24VDC Sensor
Hold Off
Hold-OFF & Hold-ON Applications
Load Shed (Hold-OFF) Application for Open Office Spaces Occupancy Sensor
BZ
BZ-100 Power Pack Low Voltage
BZ1
BZ2
BZ1
Line Voltage
BZ2
Hold-OFF Signal
Hold-OFF Signal
When the load shed command is given (by utility meter, BMS, etc.), lights connected to the BZ2 are held off. Remaining lights, (BZ1) are controlled by occupancy sensor.
The occupancy sensor, connected to each BZ, keeps all lights on when the space is occupied.
Hold-ON Retail Application Occupancy Sensor
BZ1
BZ2
BZ1
BZ2 BZ
BZ-100 Power Pack Low Voltage Line Voltage
BZ3
BZ4
BZ3
BZ4
Hold-ON Signal
Hold-ON Signal
During store hours, a signal from a time clock to the BZ holds lights on, regardless of occupancy.
After hours, the clock schedule cancels the hold on and occupancy sensor control takes over.
Load Ratings
Ordering Information
Catalog No. BZ-100
Input Voltage 120/277 VAC; 60 Hz
* 1 Hp rated at 120/250 VAC.
Installation Notes Watt Stopper/Legrand® Pub. No. 14405
Ballast (A) 20
Incan (A) 20
Motor (HP) 1*
Output 24 VDC; 150 mA**
** Output is 150 mA with relay connected.
1. All Watt Stopper power packs should be installed in accordance with state, local, and national electrical codes and requirements. 2 Power packs are designed to attach to existing or new electrical enclosures with .5” (25.40mm) knockouts. (Check electrical codes in your area.) 3. Most applications require UL listed, 18-22 AWG, 3-conductor, Class 2 cable for low voltage wiring. For plenum return ceilings use UL listed plenum-approved cables.