POWER SUPPLY WARNING
THE INSTALLATION ENGINEER MUST ENSURE THE SAFETY AND COMPLIANCE OF ALL EQUIPMENT.
HARDWARE CONTROL This configures P1 serial port interface. SWITCH NO. (SW1)
Connection DESCRIPTION
TERMINAL V+
Live power supply terminal
V-
Neutral power supply terminal
1 2 3 4 DIP ON
ETHERNET COMMUNICATIONS This Ethernet port supports 10/100Mbps via RJ45 connector with 1.5KV magnetic isolation.
RS232 RS422 RS485 SIGNAL SIGNAL SIGNAL
1 (SW1:s1)
ON
OFF
OFF
2 (SW1:s2)
ON
ON
OFF
3 (SW1:s3)
N/A
N/A
N/A
4 (SW1:s4)
N/A
N/A
N/A
Specification
Remember Use a Category 5 RJ45-to-RJ45 ‘straightthrough’ cable for Ethernet hub/switch connections, or a ‘crossover’ cable for direct connections to laptops, or computers.
Connection FROM PIN
SIGNAL
EIA/TIA 568B
1
Transmit+
White/Orange
2
Transmit-
Orange
3
Receive+
White/Green
4
N/A
Blue
5
N/A
White/Blue
SERIAL COMMUNICATIONS Serial port P1 supports all serial communications
6
Receive-
Green
7
N/A
White/Brown
protocols, as configured by the DIP switches (see Hardware Control).
8
N/A
Brown
Tip!
Pin1
Power Input 24VDC ±15V regulated Power Consumption 300mA @24VDC If necessary, contact the service engineer.
Note
Generally, Serial ports 2, 3, and 4 are not used and may be obstructed by a label.
HARDWARE EXPANSION The unit is fitted with connections that allow additional hardware to be connected to the unit.
Connection RS232 SIGNAL
RS422 SIGNAL
RS485 SIGNAL
1
DSR*
N/A
N/A
2
RTS
TXD+
Data+ (A)
3
GND
GND
GND
4
TXD
TXD-
Data- (B)
5
RXD
RXD+
N/A
6
DCD*
RXD-
N/A
7
CTS
N/A
N/A
8
DTR*
N/A
N/A
FROM PIN
Tip! Pin1
Mini-USB Port Not used and may be obstructed by a label
USER INTERFACE The LED indicates the current status of the unit.
Specification Serial Port 4 x TTY RS485 ports via RJ45 connector, supporting Baudrate – 300 to 115200 Parity – None, Odd, Even Data Bits – 7 and 8 Stop Bits – 1 and 2
Current status of 24VDC power Current status of boot up process
Ethernet
Detected TCP/IP communications traffic
Serial Ports
Detected Serial communications traffic
ENVIRONMENTAL SPECIFICATION Storage Temperature 0 to 70C (32 to 158F), 0 to 70% Relative Humidity Operating Temperature 0 to 70C (32 to 158F), 0 to 90% Relative Humidity
Regulation CE Class A, FCC Class A WEEE Regulation To be finalised RoHS EU Directive 2002/95/EC
This unit can be mounted on a DIN Rail (TS35) or directly on to the enclosure in an environment that is suitable for IP20 equipment. INSTALLATION MUST BE PERFORMED BY A QUALIFIED ENGINEER.
DIMS (MM)
Mercury
(Cd) (Pb)
100 1000
(Hg)
1000
Height
108
Hexavalent Chromium
(Cr6+)
1000
Width
102
Poly Brominate Byphenyls
(PBB)
100
Depth
32
Packing materials: Cadmium, Lead, Mercury, Hexavalent Chromium and its components < 100PPM
Weight (DIN Rail clips inc.) 330g per unit, 410g shipped
100
Dispose of the product and packaging according to WEEE Directive at an appropriate recycling centre. All parts are recyclable. The printed circuit board may be sent to any PCB recovery contractor to recover any metals.
ISOLATE THE POWERSUPPLY TO THE ENCLOSURE BEFORE FITTING THIS UNIT TO PREVENT INJURY AND/OR DAMAGE.
SIP MODBUS/
MAX. LIMIT (PPM)
BANNED SUBSTANCES Cadmium Lead
THE UNIT
WARNING
DESCRIPTION
LEDS Power Ready
REGULATIONS
INSTALLATION
WARNING
USB Port 2 x USB2.0 high speed host ports - not used If necessary, contact the service engineer.
The SIP ModBus/vIQ product range has been designed to easily interface between 3rd party ModBus devices, particularly utility meters, Chiller units, AHU’s, VSD’s, UPS units, CRAC units communicating via ModBus RTU or ModBus TCP/IP protocol and a Trend BMS (Building Management System. Supports ModBus and JBus Supports RS485, RS232 (RTS/CTS handshaking) or RS422 signalling
DIN Rail Mounting 1. Ensure the DIN rail provides good electrical contact with the enclosure and the DIN rail clips are fitted to the unit using the screws provided. 2. Position the unit on the top of the DIN rail, and firmly push the bottom until secured in place. This is confirmed by a ‘click’.
Screw Din Rail Clip
ACCESSORIES
Screw
Tip!
Please contact the sales/service engineer for supported accessories.
PART NO.
3. Ensure clearance to allow the cables to be connected.
PS/24vDC
ACCESSORY 24V DC Power Supply
The SIP exploits the data capability of the slaves, by retrieving, logging (‘Map points’ page) and presenting (‘vIQ’ page) selected types of data, e.g. Amps, Voltage or Temperature, in real time. This information allows Building managers prevent outages, optimise the energy distribution and maintain the ventilation, lighting, power systems, fire systems, and security systems before a serious problem occurs.
SYSTEM OVERVIEW TCP/IP Protocol
Direct Enclosure Mounting
OS11
OS31
1. If fitted, remove the DIN rail clips from the unit. 2. Hold the unit in the required position and mark the holes in the enclosure. 3. Drill holes in the enclosure.
4mm
4. Secure the unit to the 7mm enclosure using appropriate fixings.
4mm
25mm
© SYNAPSYS SOLUTIONS LIMITED vIQs present ModBus devices as Trend controllers. Values are transferred as Trend Sensor, Knob, Digital Input and Switch Modules
All rights reserved. No part of this document may be reproduced in any form or by any means - graphic, electronic, or mechanical, including photocopying, recording, taping, or information storage and retrieval systems - without the written permission of the publisher. While every precaution has been taken in the preparation of this document, the publisher and the author assume no responsibility for errors or omissions, or for damages resulting from the use of information contained in this document or from the use of the software that may accompany it. In no event shall the publisher and the author be liable for any loss of profit or any other commercial damage caused or alleged to have been caused directly or indirectly by the information contained in this document. Printed: June 2010 in England
Serial Protocol (RS485, RS232 or RS422) SIP ModBus/vIQ
ModBus Slaves
(Issue 1) Jun. 2010
Dynamic Scaling
Create Slaves
Modbus Configuration
vIQ Network
Modbus Register Configuration
Scaling Factor and/or link to Dynamic Scaling Index
‘LAN’ and ‘OS’ fields do not appear in all product variants, i.e. SIP/D/MODM/nVIQ/nnnP.
Create vIQ Network (This is where the values appear in the BMS) Module Type (This is the type of value at the ModBus register) Graphical Virtual Out-stations vIQ Configuration
BMS Interface
Modbus Register Details
BMS Control
Mod. num. From ‘Map points’ page
OPEN THE WEB PAGES
CONFIGURE THE COMMS INTERFACE
CONFIGURE THE VIQ
The unit should be assigned a unique IP address in the same Subnet according to local network policies to prevent device conflicts. The IP Address identifies the unit on the network.
The communications interface parameters define the transfer of data between the slaves and the BMS.
The vIQ page is used to create a single LAN (local area network) of virtual out-stations and display the recorded value.
Tip!
SIP Search (available on request) will locate all SIP units on a network.
1. Open an internet browser and type the required IP address in the internet browser ‘Navigation’ toolbar using the standard 32-bit dotted-decimal notation. Tip!
Web pages require Adobe Flash Player 10 or later.
1. Press ‘Local IP settings’. Configure the TCP/IP network parameters. Note
These parameters must be configured according to local network policy.
2. Press ‘Comms settings’. Configure the ModBus network parameters. Define the connection to all slaves.
1. Press ‘vIQ pages’ and login, (see Open the Web Pages). 2. Create an OS number for each vIQ and define the LAN that all vIQs will appear on in the BMS. Note
Remember This must be the same for all slaves.
Default IP Address 192.168.1.227 Default Subnet Mask 255.255.255.0
2. Enter the User name and default Password, and press ‘Login’ to display the communication interface parameter options.
If necessary, configure ‘Timeout’, ‘Protocol’, and Comms failure parameters. 3. Configure ‘Trend settings’. Define where the values are displayed, i.e. to vIQ pages (see Configure the vIQ), Ethernet or Serial device.
Default ‘VCNC’ should not require changing. However, ‘Time & date’ must be correct if using the ‘Plot’ function and the ‘UDP’ is used to group particular LANs. The ‘GUID’ is used to group units to a particular site with the same ‘Machine GUID’ name.
3. Configure the ‘Address Module’ for each vIQ. This identifies the OS in the BMS, defines use of standard or IP alarms and where alarms will be displayed.
MAP THE POINTS This table defines the transfer of data from the slaves and the corresponding vIQ OS modules. 1. Press ‘Map points’. Create slaves or address TCP/IP slaves depending on ‘Connection type’.
Default Username Admin (case-sensitive) Default Password password (case-sensitive)
3. Configure the communications interface. Remember The product is licence protected. This determines the max. number of points from a max. number of slaves.
2. Configure and map registers to vIQ modules. The associated vIQ modules display recorded values. Tip!
4. Configure the module pages. These show the recorded values grouped as defined in the ‘Map points’ page (see Map the points).
Register data is provided by the manufacturer.
If necessary, enable and configure the ‘Dynamic scaling’. ‘Special type n’ data types provide specific scaling values only applicable to certain slave types.
‘Sensors’ (read-only Integers), define and enable High and Low alarms.
Remember Each vIQ has 99 Sensor module plots (1024 max. per unit) recording 1000 logged values.
‘Digital Inputs’ (read-only Booleans), define Alarm status. ‘Knobs’ (read/write Integers), define High and Low alarm limits. ‘Switches’ (read/write Booleans), define Status.