fatronicE2 Catalogue

FATRONIC E2 User manual

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FATRONIC E2 User Manual May 2011

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INDEX 1

INTRODUCTION .................................................................................................................................. 4 Foreword ............................................................................................................................................... 4 Models .................................................................................................................................................. 4 Connectivity .......................................................................................................................................... 4 Applications .......................................................................................................................................... 4 Description ............................................................................................................................................ 4 Compatibility ......................................................................................................................................... 4 2 PRINCIPLE OF OPERATION .............................................................................................................. 5 2.1 Temperature control ............................................................................................................................. 5 2.2 Direct Mode .......................................................................................................................................... 5 2.3 Reverse Mode ...................................................................................................................................... 6 2.4 FanSpeed ............................................................................................................................................. 6 3 FATRONIC HARDWARE ..................................................................................................................... 7 3.1 Pin Description and Technical limitations ............................................................................................. 8 3.1.1 AC Voltage input: .................................................................................................................................. 8 3.1.2 Damper Output ..................................................................................................................................... 8 3.1.3 Fan Speed Outputs............................................................................................................................... 8 3.1.4 Heater Output ....................................................................................................................................... 8 3.1.5 Fuse ...................................................................................................................................................... 8 3.2 PTC Temperature Inputs ...................................................................................................................... 8 3.2.1 General ................................................................................................................................................. 8 3.3 Output schematic .................................................................................................................................. 9 3.4 Hardware, Technical Specification ....................................................................................................... 9 3.5 Installation ........................................................................................................................................... 10 3.5.1 Warnings for installation ..................................................................................................................... 10 3.6 Flexbus LAN ....................................................................................................................................... 11 3.7 Flexbus Cables and other Connection Cables ................................................................................... 12 4 LCD DISPLAY CONTROL (128x64) .................................................................................................. 13 4.1 Normal indication: ............................................................................................................................... 13 4.1.1 Power ON/OFF ................................................................................................................................... 13 4.2 Program Mode .................................................................................................................................... 14 5 PARAMETERS LIST .......................................................................................................................... 16 5.1 Default Values .................................................................................................................................... 19 5.2 Parameters / Operator Interface ......................................................................................................... 19 6 MASTER SLAVE CONCEPT ............................................................................................................. 20 6.1 Legacy issue: ...................................................................................................................................... 20 7 ALARMS ............................................................................................................................................. 20 8 APPENDIX .......................................................................................................................................... 21 8.1 Mechanical dimensions ...................................................................................................................... 21 8.2 Labelling ............................................................................................................................................. 22 8.3 Probes Specification ........................................................................................................................... 23 8.4 Applicable documents......................................................................................................................... 25 AET Manufacturing Ltd ................................................................................................................................. 26 1.1 1.2 1.3 1.4 1.5 1.6

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1

INTRODUCTION

1.1

Foreword

This User Manual describes the Fatronic Evolution (FatronicE2) Control. It contains information concerning the architectures of the control systems as well as the settings required to obtain the desired behaviour.

1.2

Models

There is only one type of FatronicE2 control board available: 

Advanced control with LCD (128x64pixels) display

The Basic Led Control has run out because the LCD control offers more versatility from the programming point of view as well as an improved view of the control parameters.

1.3

Connectivity

Every control can be connected in a Flexbus slave network (see related chapter).

1.4

Applications

The electronic control unit here described shall provide control for an ambient fan air terminal unit (FTU) which can be installed under the floor (in case of Floor Terminal Unit) or on the floor (for Console Terminal Unit). This device is always used in combination with AET’s Flexible Space air conditioner sending warm or cold air under the raised floor (CAM-C or CAM-V). The self-contained air terminal unit (TU) shall be deployed in a variety of indoor or protected locations throughout the world. Protection of the sensitive electronic equipment housed within the indoor TU from environmental extremes, together with public safety shall be considered vital design criteria.

1.5

Description

An electronic monitoring unit, which could be the Fatronic control itself, shall monitor the cooling and heating functions of the FTU. This unit shall be able to sense both the underfloor (or the available air) temperature and the floor (or the external ambient) air temperature; it shall then select the level of environmental control necessary to maintain full comfort of the cooled/heated ambient.

1.6

Compatibility

Additionally to hardware changes there are major software changes in the Fatronic Version 2.xx.xxx For this reason Fatronics with version 1.xx.xxx must not be connected with version 2.xx.xxx because they will not be able to communicate. Please take care of the CAM version too. Since there is implemented an automatic Firmware Upgrade mechanism in the CAM, please check the compatibility table which Fatronic and CAM versions can be connected to an Network FATRONIC Evolution 1.xx.xxx 2.xx.xxx

CAM Version Less than HVM 1.00.051 Greater than HVM 1.00.070

4

Automatic Fatronic E Firmware Upgrade no yes

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2 2.1

PRINCIPLE OF OPERATION Temperature control

The room temperature is compared with the set-point temperature: if the room temperature is higher than the set point plus 0.5°C cooling is needed. Cooling is possible when the temperature under the floor is lower than the room temperature; this is called the direct control mode. In this case the damper is opened by gear motor activation. The damper is closed when room temperature drops below the set point minus 0.5°C. Contrarily if room temperature is lower than the set point minus 0.5°C heating is needed. If the temperature under the raised floor is higher than the set point, heating is possible and this is called the reversed mode. In this case the damper is opened by gear motor activation. The damper is closed when room temperature rises above the set point plus 0.5°C. The information if warm or cold air is available (reverse or direct mode) can be obtained automatically using a second sensor positioned under the floor: If room temperature is higher than the temperature plus 1°C under the floor, direct mode is selected. If room temperature is below the supply air temperature minus 1°C the reversed mode is selected.

2.2

Direct Mode

In this mode there is one step of cooling and one step of heating possible. When the temperature reaches the set point plus 0.5°C the damper is energized, and cooled air enters the room from the raised floor. The damper is closed when temperature has gone 0.5°C below the set point. When the temperature is below the set point minus 1.5°C the electrical heater is activated. The electrical heater is deactivated when temperature reaches the set point minus 0.7°C. Damper fully open

Damper fully closed

Heating request ON Heating request OFF

-1.5

-0.7

-0.5

Ts

0.5

Troom

Figure 1 - Temperature control direct mode for FAT (Ts=Set Point)

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2.3

Reverse Mode

In this case two steps of heating are provided. First heating step. If the room temperature is less than the set point minus 0.5*C the control energizes the damper to open it, and warm air enters the room. The damper is closed when temperature has reached the set point plus 0.5°C Second heating step When a heater is installed on the FTU, it shall be turned on when the room temperature is 1.5°C below the set point. When the temperature has reached the set point minus 0.7°C, the electrical heater shall be switched off.

Damper fully open

Heating request ON

-3

Heating request OFF

-2

-1.5

-0.7

-0.5

0.5

Ts

Figure 2 - Temperature control reversed mode for FAT

2.4

FanSpeed

The end-user, according to his personal needs, can adjust the fanspeed. Different operating modes can be selected at the startup. See chapter 3.11 how to set different Fan speed settings. 

At startup the device will start with the last speed set by the user: By selecting the memorised mode the fan, at start-up returns to the speed it had at the moment it was switched off.



At startup the device will start with speed programmed by parameter “d”: When switched on in the default mode, it operates at a fixed speed that can then be varied by the user but will default to this setting when power is cleared and restored.



Always same fan speed: In the prohibited mode the possibility of varying the fan speed using the push buttons is excluded: the speed will be fixed at the value inputted at the time of the selection of this mode.



After startup the Fan speed is adjusted automatically based on the DeltaT: By selecting the auto mode the fan-speed will automatically change on the basis of the deviation between set-point and room temperature.

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FATRONIC HARDWARE

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3.1 3.1.1

Pin Description and Technical limitations AC Voltage input:

The Fatronic control shall be designed to operate with a single-phase power network. The AC connector’s result in the following ranges :  Voltage range : 200V –10% to 250V +6%  Frequency range : 45 to 65Hz Moreover, when an over-voltage or an under voltage is applied to the Fatronic control, it shall suffer no irreversible damage (see list of references). Overall maximum current absorption is up to 8A.

3.1.2

Damper Output

Damper Output is able to supply the Main Voltage (230V ac) by a On/Off TRIAC for loads up to 1A in steadystate. Start-up current is foreseen up to 8A for a maximum number of 10 cycles of sinusoidal waveform at 50Hz.

3.1.3

Fan Speed Outputs

FAN1 Output is able to directly drive an inductive load with a minimum cos(fi)=0.85. Regulation is achieved by a phase cutting control, delivering a voltage to the Fan in the range of 130220Vac. Maximum current foreseen for this output is 1A in steady-state. Start-up current is foreseen up to 8A for a maximum number of 10 cycles of sinusoidal waveform at 50Hz. FAN2 Output (Auxiliary Fan output) is able to supply the Main Voltage (230Vac) by a On/Off TRIAC for loads up to 1A in steady-state. Start-up current is foreseen up to 8A for a maximum number of 10 cycles of sinusoidal waveform at 50Hz.

3.1.4

Heater Output

Heater Output is able to supply the Main Voltage (230Vac) by a relay for pure ohmic loads (only resistor heaters) up to 1000W in steady-state.

3.1.5

Fuse

Fuse is 5mm*20 type 8A. CAUTION When using the control in the application ensure the overall current is not higher than 8A foreseen in worst case working. Overall current = Heater ON + Both Fans ON + Damper Activated

3.2 3.2.1

PTC Temperature Inputs Measuring Element

General

Cable

There are different Types and lengths available: please refer to Spare Parts List on the Flexface application manual. PTC Sensors are temperature-sensors, changing the resistance according to the temperature (positive temperature coefficient). The connection is 2 poles. The length of the cable for the sensor ranges up to 10 metres. (see Appendix for detailed specification).

8

Figure 3 PTC Sensor

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3.3

Output schematic

3.4

Hardware, Technical Specification

FATRONIC E TECHNICAL SPECIFICATION: 200250Vac – 50/60Hz

Vac Power Supply

Upper limit +6%, lower limit –10% Type 1.C Software category A

Type of operation isolation

Overvotltage category III pollution degree2 surge voltage 2,5kV

Power connection

type Y attachment wire connection AWG 18-20

1

Power Digital Out Main Volt output (Relay)

Normally used for Heater It applies main voltage output Maximum load (1kW, pure resistive) Type of switching: micro-disconnection

3

Power Digital Out Main Volt output (TRIAC)

Max current foreseen per output: 1A steady state 8A FLA (10 cycles 50Hz)

2 1 x HB Slave

Analogue In (PTC Kty 81-210) Flexbus connection (RJ45)

Not optocoupled

1 x RS485

Flexnet connection (RJ9)

Not optocoupled

Storage Temperature range Operating Temperature range

9

-10 (not condensation) to +65°C 0 (not condensation) to +55°C

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3.5

Installation

The FatronicE2 should be installed on a metal panel, between 0.5 and 2 mm thick, pushing it inside its proper space (see techncial appendix for mechanical dimensions).

3.5.1

Warnings for installation

Avoid mounting the control in environments with the following characteristics: 

Relative humidity above 90%.



Strong vibrations or knocks.



Exposure to continuous streams of water.



Exposure to aggressive and polluting agents (e.g.: sulphurous and ammonia gases, saline mists, smoke) which may cause corrosion and/or oxidation.



High levels of magnetic and/or radio-frequency interference (thus avoid installation near transmitting antennas).



Exposure to direct sunlight and atmospheric agents in general.



Large and rapid fluctuations in ambient temperature.



Environments where explosives or mixes of inflammable gases are present.



Excessive exposure to dust (formation of corrosive patina with possible oxidation and reduction of insulation).

When connecting the control the following cautions should be heeded: 1. Voltages different from the power ratings will seriously damage the system. 2. Use cable-ends which are suitable for the terminals being used. Once completed the fitting operation lightly pull the cables to check they are properly inserted. 3. The probe and digital input signal cables should be separated as much as possible from the inductive load and power cables, to avoid any electromagnetic disturbances. Do not use the same cable channels (including those for the electrical cables) for power cables and probe cables. Avoid installing the probe cables in the immediate vicinity of power devices (contactors, thermo-magnetic protection devices or similar). 4. Reduce the path of the sensor cables as much as possible and avoid any winding of cables which may enclose power devices. 5. Avoid touching or nearly-touching electronic components mounted on the boards to avoid electrostatic discharges (extremely damaging) from the operator to the components.

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3.6

Flexbus LAN

The Fatronic E can be connected into a Flexbus LAN to achieve communication and synchronization with the central unit according to the following layout:

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3.7



Length of Flexbus, connecting the Flexfaces, must not exceed 300 metres in total.

 

Length of Flexbus, connecting the Sensors and the xTU’s, must not exceed 300 metres in total. Sensors must be connected at first to the Flexface (max. distance 25 metres to the Flexface), xTU’s “behind” the sensors, using “T” connectors.



All Bus –cables, going out from the central unit must be screened and connected to earth.



In total 24 Master xTU are addressable, including Slave xTU’s the number must not exceed 32 xTU’s in total, connected to one Flexface.

 

The bus-cable must be wired from 1st unit to the 2nd , from 2nd to the 3rd etc. “Star” or “Ring” connections are not allowed at all.



The Maximum length of the Flexbus-cable is 300 metres, counting all connection cables together. The single distances are not of interest, as long as the total length of all cables together doesn’t exceed 300 metres.

Flexbus Cables and other Connection Cables

The connections between various Powerfaces, Flexmatic, display and sensors are carried out with cables having a different number of wires and different connectors. Following you can find how these cables have to be done. For the type of cable and connectors refer to the spare part list included in this manual. Please note that a wrong connection could cause serious problems to the electronic devices (Flexface and Flexmatic); for this reason we strongly recommend to use only first quality products or to buy the cables directly from AET. EIGHT POLES MODULAR JACK

Figure 4

EIGHT WIRES FLAT CABLE. USE SCREENED CABLE WHEN CABLE IS RUNNING OUTSIDE THE UNIT.

Eight-wires; eight poles connector FLEXBUS cable, for Flexmatic or Humitemp connections; EIGHT POLES MODULAR JACK (USE ONLY THE CENTRAL SIX POLES)

Figure 5

SIX WIRES SCREENED FLAT CABLE

Six-wires (Pin 1 and 8 not connected) FLEXBUS cable, for Microface and XTU connections. FOUR POLES MODULAR JACK

FOUR WIRES FLAT CABLE

Figure 6

4 wires flat cable for RS485 communication, four poles connectors.

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4

LCD DISPLAY CONTROL (128x64)

The LCD version of the control shall will have a 128x64 graphical display. Three u-buttons (“Set”, “Up” and “Down”) will permit the user to configure the device.

22.5°C !

FANSPEED

1/0

4.1

40%

Normal indication:

Current setpoint

Room Temp

Alarm

Fan speed Heater ON/OFF

FAN SPEED 40%

Device ID

Pressing the “Up” and “Down” button will change the Fan speed. Pressing “MODE” button ONCE, the user will have the possibility to change the set-point by pressure of the “UP” and “DOWN” buttons. Information will be stored in the non-volatile memory of the control immediately after the modification. Pressing the “POWER” button or after 5 seconds of non-activity, the control will return in the Normal indication mode with the last modification stored. Pressing “MODE” twice will put the control in the “Program” mode.

4.1.1

Power ON/OFF

Pressing the POWER key for several seconds in normal indication/operation will switch off the control. StandBy LED will switch ON and no fan operation will be possible. Damper and heater won’t work. Once in the standby condition user can switch on the control by pressing the POWER key. On/Off can be enabled and disabled by a special parameter present inside the control.

4.2

Program Mode

Once pressed the MODE button twice, starting from the “Normal indication”, the control will enter the Program Mode. The following diagram shows how to navigate in the Program sub-menus: Normal indication Mode: Fan speed Changing with UP and DOWN keys

Program Mode

Press MODE

Press MODE

Set Point Changing with UP and DOWN keys

PASSWORD (NOT SET) ??? FLOOR TEMP. 20.0°C LM92 TEMP. 36.0°C TEMP. INDICATION °C PASSWORD (NOT SET) FANSPEED CONTROL MASTER ID SLAVE ID

??? Y 1 0

PASSWORD (NOT SET) HEATER DELAY ROOM OFFSET FLOOR OFFSET

??? 0 0.0 K 0.0 K

PASSWORD (NOT SET) FANSPEED OFFSET AUTO-FANSP. DT MAST/SLAVE LOGIC

??? 5 5.0 K 1

PASSWORD (NOT SET) SECOND OUTPUT FAN 2 SWITCHOVER WINTER MODE

??? F 4K NO

PASSWORD (NOT SET) FLEXNET ID FLEXNET ENABLE POWER KEY ENABLE

??? 1 YES YES

PASSWORD (NOT SET) VERSION: FAF 2.00.001

???

MIN.FANSPEED AT

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38

Up/Down

Up/Down n

Up/Down

Up/Down

Up/Down

Up/Down

By pressing the UP and DOWN key from the Normal Indication Mode, the user can change the Fan speed setting. The user can enter the “program mode” by the pressing the “MODE” key twice starting from “normal indication mode”. Once inside the Program mode, the user can navigate the submenu by pressing “UP” and “DOWN” key. To choose one Parameter in the submenus, the user has to press the “MODE” button in the related screen. PASSWORD (NOT SET) FLOOR TEMP. LM92 TEMP. TEMP. INDICATION

Password to be inserted to allow parameters changing Underfloor temperature showing Internal control temperature See parameter (1)

PASSWORD (NOT SET) FANSPEED CONTROL MASTER ID SLAVE ID

Password to be inserted to allow parameters changing See parameter (2) See parameter (6) See parameter (7)

PASSWORD (NOT SET) HEATER DELAY ROOM OFFSET FLOOR OFFSET

Password to be inserted to allow parameters changing See parameter (5) See parameter (8) See parameter (9)

PASSWORD (NOT SET) FANSPEED OFFSET AUTO-FANSP. DT MAST/SLAVE LOGIC

Password to be inserted to allow parameters changing See parameter (A) See parameter (B) See parameter (C)

PASSWORD (NOT SET) SECOND OUTPUT FAN 2 SWITCHOVER WINTER MODE

Password to be inserted to allow parameters changing See parameter (D) See parameter (E) Indication if the control is in Direct (NO) or Reverse(YES)

PASSWORD (NOT SET) FLEXNET ID FLEXNET ENABLE POWER KEY ENABLE

Password to be inserted to allow parameters changing Flexnet address in the RS485 network Flexnet communication enabling Switching On/Off by the Standby key enabling

PASSWORD (NOT SET) VERSION: FAF 2.00.001

Password to be inserted to allow parameters changing Sw control version number

MIN.FANSPEED AT To modify the parameters chosen, the user has to press the “MODE” button. Modification of the parameter will be done by pressing the “UP” and “DOWN” button. Pressure of the “MODE” key will confirm the modification and will return to the Program mode submenu level. All the parameters, except for the set-point, are password protected.

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5

PARAMETERS LIST

On the control it's possible to set different parameters for different operation modes; the user can choose the parameter number and the value of the parameter can be set. DESCRIPTION 1 Indication units 2 Fanspeed control 5 Heater delay 6 Master ID nr. 7 Slave ID nr. 8 Room sensor offset 9 Floor sensor offset A Fanspeed offset B Automatic Fanspeed DeltaT C Master/Slave logic nd D 2 Output enable nd E 2 Fan Switchover F Minimum Fanspeed

VALUES ° C or ° F Y or N or D or A From 0 to 32 From 1 to 24 From 0 to 7 From -5.0 to +20.4 °C From -5.0 to +20.4 °C From 0 to 9 From 0 to 5 °K 0 or 1 F or 3P From 0 to 20 °K From 10 to 50 %

COMMENTS: INDICATION UNITS: °C: Selects the indication of set point and room temperature in degrees Celsius, resolution is 0.oC. °F: Selects the indication of set point and room temperature in degrees Fahrenheit, resolution is 1*F FANSPEED CONTROL : Y: Fan speed is memorized and at system ON the control takes the fan speed it was at power off. d: At system on the control takes the fan speed it had before setting this parameter to default. N: No fan speed variations are possible, the fan speed up/down keys are ignored the control takes the fan speed it had before setting the setting this parameter to NO A: Automatic mode for Fan speed. (see dedicate chapter) HEATER DELAY: In order to avoid electrical heating during start-up of the Flexible Space system, a programmable delay can be introduced between power-up and resistor ON. Time is parameter value multiplied by 10min. If 32 is selected the heater is disabled. MASTER IDENTIFICATION NUMBER: Indicates the group to which the unit belongs. For stand alone applications 0 can be used. Up to 24 Masters. SLAVE IDENTIFICATION NUMBER: Indicates the function of the unit within the group: 0 Means that the control is a master, 1, 2 indicate that the control is a slave (1,2 respectively). It could be set up to 7. ROOM SENSOR OFFSET: Allows the user to calibrate the sensor. Offset shall be visualized in DEGREES not in numbers, and range that can be stored is from –5.0°C to +20.4°C [-128 to 127]

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FLOOR SENSOR OFFSET: As above. FANSPEED OFFSET: With this parameter the fan speed corresponding to each dot can be increased or decreased. 0 means that the fan speed is decreased by 5 steps (nearly 2 dots). 9 means that the speed is increased by 4 steps. AUTOMATIC FANSPEED TEMPERATURE DIFFERENTIAL SETUP: This parameter will decide how the automatic fan speed shall work according to the difference between the SetPoint and the Current Room temperature calculated in absolute way (DeltaT). Formula to be applied is the following:

Fs  FSMAX  ( FSMAX  FSmin )

TSP  T T SP  0.5

Where:

Fs

: Actual calculated Fan Speed

Fs

MAX

Fs

min

: Maximum Fan speed (100%) : minimum fan speed (38%)

T

: Difference between the Set Point and the Room Temperature in absolute value.

TsP

: Parameter to be set.

Graphic diagram is the following (for Parameter set to 5):

Fan Speed 100 90 80

60 50 40 30 20

DELTA(T)

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4,9

4,7

4,5

4,3

4,1

3,9

3,7

3,5

3,3

3,1

2,9

2,7

2,5

2,3

2,1

1,9

1,7

1,5

1,3

1,1

0,9

0,7

10 0,5

Fan Speed

70

MASTER/SLAVE Logic: With this parameter set to 0: Slave will switch Off once related Master is switched Off With this parameter set to 1: Slave will continue to work in stand-alone condition with the last settings stored (Last data sent from the Master before switching Off). CAUTION: It should be noted that, in case this parameter has set to 0 with device programmed as slave without the master, the control will switch OFF without being possible to restore it ON unless the communication with the related master in the same network will be restored, or changing of the Flexbus address by the Flexmatic terminal. Caution should be taken to approach this parameter. nd

2 OUTPUT ENABLE: This parameter shall be set once to enable the second TRIAC out on the control. Possibilities are: 1) F: Fan speed step: In case room temp will exceed temperature set in parameter E the output will be activated. The other Fan output will work according to parameter set in F. 2) 3P: 3Point actuator: This second output would be used to work in conjunction with the damper output and used to achieve the possibility to drive a 3-Point Damper actuator at 230Vac. (110Vac in USA). In this case the further output will activate the CLOSE command. The other damper output will remain the OPEN command. Free-cooling position with intermediate regulation has to be defined and will be not implemented in this software revision. nd

2 FAN SWITCHOVER: nd This parameter will define the switch-over temperature offset related to the set point for the 2 Fan speed step as per previous parameter. Once reached the temperature set in this parameter + 1°C the output will be activated. The output will be switched off once reached the temperature set in the parameter – 1°C. (2°C dead-band zone). MINIMUM FANSPEED: Lowest limited fanspeed value.

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5.1

Default Values

If no valid values for set points or program number are stored in the memory the following default parameters will be used: Set point temperature Indication Fan speed Electrical heater delay Master Id. Number Slave Id. Number Room sensor offset Floor sensor offset Motor speed offset DeltaT Master/Slave logic nd 2 output enable nd 2 Fan switchover Minimum Fanspeed

5.2

22°C °C Last value [Y] 0 min. 1 0 0°C 0°C 5 5 1 Fan 4°K 38 %

Parameters / Operator Interface

User can set the fan speed, the set point and can choose between the direct or reversed mode when both the second sensor and the centralized command are not installed. 

ON/OFF: with this switch power to the unit is switched ON or OFF. When unit is switched ON fan motor is activated.



FANSPEED: The fan speed shall be increased or decreased respectively by the local control; there will be a total of 10 different speeds achieved by varying the voltage applied to the fan motor. There will be the possibility to have two steps of airflow capacity.



SETPOINT: In case of network working the desired room temperature shall be selected from the CAM-C of CAM-V unit that coordinates the floor and the local set point can be selected by the user in the range of +/-5°C respect what is given from the machine.

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6

MASTER SLAVE CONCEPT

When several TU units in one room are installed, the regulation can be done from one unit only (master) and the other units (slaves) follow exactly the master where it concerns the damper, and the electrical heater. Depending on what is selected the fan speed on the slave can be adjusted independent of the master, or following the master. On the slave the keys for changeover, local heating and set point local regulations are inoperative. The Fan speed mode with the Master/Slave configuration that can be foreseen can be the following: 

Follow the Master, except for the Fan speed. You can change the Slave Fan Speed independently from the master. Set parameter “Fanspeed control” to “Y” in the Master and “Y” in the Slave



Follow the Master, also for the Fan speed. Slave shall follow the Master Fan speed. Set parameter “Fanspeed control” to “Y” in the Master and “N” in the Slave



Follow the Master, also for the Fan speed. Slave shall follow the Master Fan speed and Slave shall follow the Default Master Fan Speed after a master stand-by or On/Off condition. Set parameter “Fanspeed control” to “d” in the Master and “N” in the Slave

6.1

Legacy issue:

To keep compatibility with the Fatronic controls present in the field, the parameters shall be numbered in the same way as in the old revision. Old parameters 3 and 4 will be ignored with this new control. Parameters shall be managed as in the old control, but visualized on the screen according to the specification written above.

7

ALARMS

The program checks its correct functioning and that of the sensors. If an error occurs the fat unit is switched OFF, the damper is closed. The following alarm conditions shall be considered:    

Temperature read from room sensor is outside the range; in this case the heater is switched OFF. AL1 Temperature read from supply air sensor is outside the range; also here the heater is switched OFF. AL2 If during power ON a wrong supply air temperature is read, the control switches automatically to manual changeover. If the control is set to SLAVE and there is no communication the device will work according to what set in parameter C and AL3 is set.

Alarms will appear on the main display screen (LCD control).

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8 8.1

APPENDIX Mechanical dimensions

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8.2

Labelling

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8.3

Probes Specification

Length

1. Temperature Sensor Philips KTY81-210 2. Heat shrinkable sleeve 3. Multiconductor cable restraining flame propagation, with high flexibility at low temperature too. (see specifications below) 4. crimp-contact Tyco 1586315-1 or 794956-1 or similar to be put into 8 pole housing 794954-8 (or similar) 5. Length from 30 to 200 cm Terminal metallic Tube (optional) Material: Aisi304 – Stainless Steel Length: 30mm Diameter: 6mm Connection to cable: None Temperature range: from –25C to +125C The cable shall be of the following type: FRO2R AWG18-22, Multiconductor cable restraining flame propagation, with high flexibility at low temperature too. Maximum external diameter of 5,30mm Standard Norms CEI 20-29 - IEC 228

Cable Characteristics Conductor specifications

UNEL 0722 - VDE 0293 - IEC 227-1

CEI 20 - 20 -IEC 227-1

Color coding

Technical characteristics

CEI 20 - 11

Physical characteristics

CEI 20-22 II - IEC332

No flame propagation

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ELECTRICAL SPECIFICATIONS 20ยบC UM

0.75

MAX RES. CONDUCTORS Ohm/km MIN R MAX INSULATING Ohm/km

26,00 200

SECTION

Mmq

0,75

VOLTAGE RATING

V

300/500

VOLTAGE TEST

V

2000

CONSTRUCTION SPECIFICATIONS UM

0,75

DIELETRIC

Mm

PVCAF 1,90

EXTERNAL JACKET

Mm

EXTERNAL COLOR WORKING TEMP.

24

PVCAF GRAY RAL 7035

ยบC

-10/+80

FATRONIC E2 User Manual May 2011 24

8.4

Applicable documents

[A2] EN 60730 Automatic electrical controls for household and similar use [A3] UL 1950 Safety of Information Technology Equipment, including Electrical Business Equipment [A4] CSA C22.2 #950 Safety of Information Technology Equipment, including Electrical Business Equipment [A6] UL Standard 94 Test for Flammability of Plastic Materials for Parts in Devices and Appliances [A13] IEC 61000-4-2 Electromagnetic compatibility Part 4-Section 2. Testing and Measurement TechniquesElectrostatic Discharge Immunity Test. [A14] IEC 61000-4-4 Electromagnetic compatibility Part 4-Section 4. Testing and Measurement TechniquesElectrical Fast Transient/Burst Immunity. [A15] IEC 61000-4-11 Electromagnetic compatibility Part 4-Section 11. Testing and Measurement Techniques- Voltage Dips, Short interruptions and Voltage Variation Immunity Test. [A16] IEC 61000-3-2 Electromagnetic compatibility Part 3-Section 2 Limits- Limits for Harmonic Current Emissions (Equipment input current<16A per phase) [A17] IEC 61000-4-6 Electromagnetic compatibility Part 4-Section 6. Testing and Measurement TechniquesImmunity to conducted disturbances, induced by radio-frequency fields. [A18] EN 55022 (1997): "Limits and methods of measurement of radio disturbance characteristics of information technology equipment". [A19] FCC Part 15 Radio frequency devices. Unintentional Radiators [A21] EN 61000-4-5 Electromagnetic Compatibility (EMC) Part4: Testing and measurement techniques Section 5: -Surge immunity test

25

FATRONIC E2 User Manual May 2011 25

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