OJ GreenZone A Bruksanvisningar

Typ
Bruksanvisningar
OJ GreenZone™
Module A
67281B 12/17 (BCH)
© 2017 OJ Electronics A/S
English
Deutsch
Français
Svenska
Norsk
Dansk
INSTRUCTIONS
GREEN COMFORT
Maximum comfort with low energy consumption
© 2017 OJ Electronics A/S
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© 2017 OJ Electronics A/S
LIST OF FIGURES
The following figures are located at the back of the instructions:
Fig. 1: OJ GreenZone™ Module A
Fig. 2: Dimensions
Fig. 3: Overview of connectors in OJ GreenZone™ Module A
Fig. 4: Connection of Modbus communication
Fig. 5: “Modbus in” connector
Fig. 6: RJ12 Modbus connector
Fig. 7: Modbus cable connection
Fig. 8: Connection of supply voltage
Fig. 9: Looping terminals for supply voltage
Fig. 10: Connection of PT1000 and CO2 sensors
Fig. 10A: Connection of humidity sensor
Fig. 11: Connection of temperature oset potentiometer
Fig. 12: Connection of frost thermostat
Fig. 13: “Modbus out” connector
Fig. 14: Connection of exhaust VAV actuator
Fig. 14A: Connection of inlet VAV actuator
Fig. 15: Connection of PT1000 sensor, inlet
Fig. 16: Connection of heating valve actuator
Fig. 16A: Connection of cooling valve actuator
Fig. 17: 2-digit display
Fig. 18: RJ12 connector “Modbus sensor”
Fig. 19: Configuration overview
Fig. 20: Connection of window contact
Fig. 21: Connection of PIR sensor
INTRODUCTION
OJ GreenZone™ Module A is an electronic controller for regulating a single VAV zone in
a ventilation system. OJ GreenZone™ Module A contains all the functions necessary for
controlling the VAV zone optimally with regard to energy consumption and comfort.
INSTRUCTIONS
English ................................................................................................................. 3 - 15
Deutsch ............................................................................................................... 16 - 28
Français .............................................................................................................. 29 - 42
Svenska .............................................................................................................. 43 - 55
Norsk ................................................................................................................... 56 - 68
Dansk.................................................................................................................. 69 - 80
ILLUSTRATIONS
Illustrations .......................................................................................................... 82 - 91
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© 2017 OJ Electronics A/S
English
LIST OF FIGURES
The following figures are located at the back of the instructions:
Fig. 1: OJ GreenZone™ Module A
Fig. 2: Dimensions
Fig. 3: Overview of connectors in OJ GreenZone™ Module A
Fig. 4: Connection of Modbus communication
Fig. 5: “Modbus in” connector
Fig. 6: RJ12 Modbus connector
Fig. 7: Modbus cable connection
Fig. 8: Connection of supply voltage
Fig. 9: Looping terminals for supply voltage
Fig. 10: Connection of PT1000 and CO2 sensors
Fig. 10A: Connection of humidity sensor
Fig. 11: Connection of temperature oset potentiometer
Fig. 12: Connection of frost thermostat
Fig. 13: “Modbus out” connector
Fig. 14: Connection of exhaust VAV actuator
Fig. 14A: Connection of inlet VAV actuator
Fig. 15: Connection of PT1000 sensor, inlet
Fig. 16: Connection of heating valve actuator
Fig. 16A: Connection of cooling valve actuator
Fig. 17: 2-digit display
Fig. 18: RJ12 connector “Modbus sensor”
Fig. 19: Configuration overview
Fig. 20: Connection of window contact
Fig. 21: Connection of PIR sensor
INTRODUCTION
OJ GreenZone™ Module A is an electronic controller for regulating a single VAV zone in
a ventilation system. OJ GreenZone™ Module A contains all the functions necessary for
controlling the VAV zone optimally with regard to energy consumption and comfort.
4
© 2017 OJ Electronics A/S
English / Instruction OJ GreenZone™ Module A
DESCRIPTION
OJ GreenZone™ Module A controls VAV damper, temperature, CO2 and air humidity in
the room depending on which sensors are connected to the OJ GreenZone™ Module A.
OJ GreenZone™ Module A is self-configuring. This means that the controller performs
a test of the connected units and then controls the zone optimally on the basis of the
connected components, sensors, actuators, etc. once installation has been completed
and the OJ GreenZone™ Module A is powered up.
The module is set and operated via the built-in web server, which is accessed via the
connected OJ GreenZone™ Master.
Up to twenty-five OJ GreenZone™ Module A units can be connected to each OJ Green-
Zone™ Master.
OJ GreenZone™ Module A Modbus is equipped with 4 x 0-10 VDC for valve and
damper motors.
PRODUCT PROGRAMME
Products from OJ Electronics
Type Product
OJ-ZoneMaster
Master module for controlling max. 25 x OJ-ZoneModul-A
units
OJ-ZoneModule-A Zone Module for control of one zone
OJ-RPT-20T Room control panel with touch screen
TTH-6202 Duct temperature transmitter with Modbus
TTH-6040-W Room temperature transmitter with Modbus
HTH-6202 Duct Humidity and temperature sensor with Modbus
VTH-6202 Duct VOC sensor (fumes from volatile organic compounds)
OJ-Air2PWR80 Voltage supply unit, 2x24 VAC, 2x60 VA
ETT-KH Cover for OJ-Module-A, wall mounting
ETFWP-998
PT1000 room sensor with dial for adjusting the temperature
set point
ETF-1098L1-4 PT1000 duct sensor (°C)
ETF-998-H PT1000 room sensor (°C), 80x80 mm
Products from other suppliers
Type Product
Belimo type LMV-D3, NMV-D3 VAV damper 0-10V
Belimo type CQ24A-SR, LR24A,
NR24A, SR24A
Heating valve 0-10V
Belimo type CQ24A-SR, LR24A,
NR24A, SR24A
Cooling valve 0-10V
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© 2017 OJ Electronics A/S
OJ GreenZone™ Module A English / Instruction
Type Product
050-8-0004 eSENSE Duct CO2 sensor for duct mounting
Thermokon TFR 1,8, TFR 1,8-R Frost thermostat with 1.8 m capillary tube
Thermokon WRF06I / RDI Motion sensor for surface mounting
Telephone cable, type: TD6006 Black Telephone cable, 6-core, make: INEC
TE Connectivity telephone connector,
RJ12
Modular telephone connector 6/6, RJ12 standard connector
INSTALLATION
OJ GreenZone™ Module A should be fitted to a standard 35 mm DIN rail mounted in an
enclosure corresponding to the installation site classification (see fig. 2 for unit dimen-
sions). The unit itself is classed as IP20 and ETT-KH from OJ Electronics can be used
for such covering purposes. The most practical location will often be in the vicinity of
other components, valves, sensors, etc. associated with the VAV zone. An overview of
the physical configuration of the system is given in fig. 19.
An ideal location would be above a suspended ceiling panel. OJ GreenZone™ Module
A must be provided with a 24 VAC, +/-15% power supply and is therefore equipped
with looping terminals (max. 1.5 mm2) for the purpose (see figs 8 and 9). Other connec-
tions are made by means of a combination of RJ12 connectors and screw terminals for
connecting wires of max. 1.5 mm2 cross-sectional area (see fig. 3).
Connections and indications (see overview in fig. 1)
In fig. 3, all connectors are marked with a letter (A – P).
See below for descriptions of electrical connection of the various components, inputs
and outputs, and other signals and indications of the OJ GreenZone™ Module A.
Connection of VAV damper motors (see figs 3, 14 & 14A)
OJ GreenZone™ Module A can control two VAV dampers: one VAV damper in the
exhaust duct and one VAV damper in the inlet duct. The VAV damper motors are con-
trolled by means of a 0-10 V signal.
The VAV damper motor in the zone's exhaust duct should be connected to terminals
18, 19 & 20 (see fig. 14)
The VAV damper motor in the zone's inlet duct should be connected to terminals 21,
22 & 23 (see fig. 14A)
Connection of valve motors for heating and cooling systems (see figs 3, 16 & 16A)
OJ GreenZone™ Module A can control two 0-10 V valve motors: one valve motor for
any heating element located in the inlet duct and one valve motor for any cooling ele-
ment located in the inlet duct. The valve motors are controlled by a 0-10 V signal.
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© 2017 OJ Electronics A/S
The heating valve should be connected to terminals 24, 25 & 26 (see fig. 16)
The cooling valve should be connected to terminals 27, 28 & 29 (see fig. 16A)
Connection of temperature sensor in inlet duct (see figs 3 & 15)
It is possible to connect a sensor located in the inlet duct. The actual value recorded by
the sensor is shown on the zone's webpage. The temperature is used to control inlet
temperature.
NOTE! The sensor must be of PT1000 type.
The sensor should be connected to terminals 30 & 31 (see fig. 15).
Display “G” (see figs 3 and 17)
OJ GreenZone™ Module A is equipped with a 2-digit display (fig. 3, pos. “G”).
The display indicates various things as shown in table 3 below.
The display alternates (flashes) between the activated functions and readouts.
Example:
If the OJ GreenZone™ Module A is configured as follows:
Connected to OJ GreenZone™ Master 1
Allocated zone 13 by OJ GreenZone™ Master
A PT1000 temperature sensor is installed in the inlet duct
A combined temperature/humidity sensor (HTH-6202) is installed in the exhaust duct
- the display will alternate between the following readouts:
Table 3
Display
readout
Comments
Actual OJ GreenZone™ Module A is integrated in zone section 1 (ZoneMaster1)
Actual OJ GreenZone™ Module A is integrated in zone section 2 (ZoneMaster2)
Actual OJ GreenZone™ Module A is integrated in zone section 3 (ZoneMaster3)
English / Instruction OJ GreenZone™ Module A
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© 2017 OJ Electronics A/S
Actual OJ GreenZone™ Module A is integrated in zone section 4 (ZoneMaster4)
Actual OJ GreenZone™ Module A is integrated in zone section 5 (ZoneMaster5)
Shows the actual number (address) of the OJ GreenZone™ Master (interval: 1-25)
Temperature sensor connected correctly (inlet, exhaust or room sensor)
CO2 sensor connected correctly (exhaust or room sensor)
Humidity sensor (HTH-6202) connected correctly (exhaust sensor)
Room control panel OJ-RPT-20T correctly connected
Two temperature sensors connected
Sensor short-circuited
Zone section number not yet allocated by OJ GreenZone™ Master
Zone number (address) not yet allocated by OJ GreenZone™ Master
Software update in progress
Connector “H” – Modbus sensor (°C, %rh or VOC) (see figs 3 and 18)
OJ GreenZone™ Module A is equipped with a Modbus input for connecting Modbus
sensors (figs 3 and 18).
It is possible to connect a sensor of the following type from OJ Electronics:
OJ-RPT-20T (Room control panel with built-in temperature sensor)
TTH-6202 (Duct temperature sensor)
TTH-6040-W (Room temperature sensor)
VTH-6202 (VOC sensor)
HTH-6202 (combined temperature and humidity sensor)
In larger rooms where you want to measure the temperature in several places, the
maximum number that can be mounted is 1 x OJ-RPT-20T, 1 x TTH-6040-W with the
dial in position 1, and 1 x TTH-6040-W with the dial in position 2. The Zone Module
calculates and uses the average temperature automatically from these sensors. The
terminal layout of the RJ12 connector is shown in fig. 6.
OJ GreenZone™ Module A English / Instruction
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© 2017 OJ Electronics A/S
Connector “J” – “Modbus in” entry port (see figs 3 and 5)
OJ GreenZone™ Module A is equipped with a “Modbus in” (see figs 3 and 5) and a
“Modbus out” (see figs 3 and 13) RJ12 connector for integration in the zone-control
system with a standard Modbus RJ12 cable (see fig. 4). The terminal layout of the RJ12
Modbus connector is shown in fig. 6. The max. permissible distance between two suc-
cessive OJ GreenZone™ Module A units is 100 m. The max. permissible total cascade
length of Modbus cable between all OJ GreenZone™ Module A units is 2500 m. The
Modbus cable must be as shown in fig. 7. Modbus communication is OK when the yel-
low LED flashes regularly.
Connector “K” – Voltage supply (see figs 8 and 9)
OJ GreenZone™ Module A must be equipped with a 24 VAC power supply (see figs 8
and 9).
The 24 VAC connector is equipped with looping terminals to allow looping to max. two
other OJ GreenZone™ Module A units. The exit terminals (terminals 3 and 4) are short-
circuit protected.
This means that the OJ GreenZone™ Module A will continue to function even if the
exit terminals (3 and 4) are short-circuited. It will therefore only be the subsequent OJ
GreenZone™ Module A units that fail and become disconnected if terminals 3 and 4
are short-circuited. The recommended cross-sectional wire area is 2x1.5 mm2. Modbus
communication is OK when the green LED flashes regularly.
NOTE!
The short-circuit protection means there is a limit to the load that can be placed on the exit
terminals (3 and 4). As a result, no more than two OJ GreenZone™ Module A units may be
connected to exit terminals 3 and 4 (see fig. 9).
Connector “L” – PT1000 temperature sensor, humidity sensor and CO2 sensor (see
figs 3, 10 and 10A)
OJ GreenZone™ Module A is equipped with inputs for analogue sensors (see figs 3, 10
and 10A).
The inputs allow connection of a standard PT1000 sensor and a CO2 sensor with a
standard 0-10 VDC output signal = 0-2000 ppm.
The sensors should be connected to the RJ12 connector marked “L” in fig. 3.
Note: This connector is NOT a Modbus connector.
Room temp.
sensor: The PT1000 room temperature sensor can be placed in the exhaust
duct or in the room. It connects to screw terminal 9 and 10.
(Seefig. 10).
English / Instruction OJ GreenZone™ Module A
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© 2017 OJ Electronics A/S
0-10 VDC input
for CO2 sensor: The CO2 sensor can be installed in the exhaust duct or in the room.
It should be connected to pins 5, 6 and 8 of the RJ12 connector
(see fig. 10).
0-10 VDC input
for humidity sensor: The humidity sensor can be installed in the exhaust duct or in the
room itself. It should be connected to screw terminals 6, 7 and 8
(see fig. 10A).
If no Modbus temperature sensor is connected to the connector marked “H”, the
PT1000 sensor connected to this input (“L”) will automatically be configured as an
exhaust/room sensor.
If a Modbus temperature sensor is connected to the connector marked “H”, the Modbus
sensor values have higher priority than that of the humidity sensor on terminal 7 and the
temperature sensor on terminal 10.
Connector “M” – Temperature oset (°C) (see figs 3 and 11)
OJ GreenZone™ Module A is equipped with an inlet for the connection of a control unit
for user-determined oset in room temperature (see figs 3 and 11). Via the web user-
interface, the temperature oset can be set to either +/-3 °C or +/-5 °C.
The temperature oset potentiometer ETFWP-998 from OJ Electronics has both PT-
1000 room sensor and potentiometer.
NOTE!
If an alternative potentiometer is used, the potentiometer resistance must be min. 4.7
kΩ and max. 22 kΩ.
Connector “N” – Window contact, frostalarm and PIR sensor (see fig. 3)
OJ GreenZone™ Module A is equipped with digital inputs for the connection of window
contact, frost thermostat and PIR sensor. On the overview diagram (fig. 3), the input
terminals are marked “N”.
Frost thermostat
The frost thermostat should be attached physically to the heating element. Suitable
thermostats are Danfoss type KP61, Thermokon type TFR or TFR-R, or similar ther-
mostat with bulb or capillary tube. The bulb or capillary tube should be attached to the
heating element in the air flow on the hot side of the element. If the frost thermostat is
activated (digital input opens), the installed heating valve will be forced to open 100 %.
OJ GreenZone™ Module A English / Instruction
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© 2017 OJ Electronics A/S
The frost thermostat should be connected electrically as shown in fig. 12. The NC
contact of the frost thermostat should be used so that the input is active when there is
no danger of frost. The input is factory-equipped with a jumper.
Window contact
The window contact should be physically attached to the window or windows to be
monitored. If several windows are to be monitored, the window contacts should be con-
nected in series. If the windows are opened (the window contact is opened), the heating
and cooling valves will be forcibly closed. The VAV damper can be set to close.
The window contact(s) should be electrically connected as shown in fig. 20. The NO
contact of the window contact(s) should be used so that the input is active when the
window(s) is(are) closed. The input is factory-equipped with a jumper.
PIR sensor/motion detector
The PIR sensor should be positioned in the area of the room where motion is to be
detected. If several PIR sensors are to be used, they should be connected in parallel. If
the PIR sensor(s) detect motion in the room, the zone will be activated and controlled in
accordance with the set operating parameters.
The PIR sensor(s) should be electrically connected as shown in fig. 21.
The NO contact of the PIR sensor(s) should be used so that the input is active when
motion is detected in the room.
Connector “P” – “Modbus out” exit port (see figs 3 and 13)
OJ GreenZone™ Module A is equipped with a “Modbus in” (see figs 3 and 5) and a
“Modbus out” (see figs 3 and 13) RJ12 connector for integration in the zone-control
system with a standard Modbus RJ12 cable (see figs 4, 5 and 13). The terminal layout
of the RJ12 Modbus connector is shown in fig. 6. The Modbus cable must be as shown
in fig. 7. Modbus communication is OK when the green LED flashes regularly.
Addressing OJ GreenZone™ Module A
The OJ GreenZone™ Module A is addressed automatically by the OJ GreenZone™
Master to which it is connected.
The address is shown on the display of the OJ GreenZone™ Module A (see table 3 in
these instructions). Further information about addressing is found in the OJ Green-
Zone™ Master manual and in OJ Green Zone installer instructions.
English / Instruction OJ GreenZone™ Module A
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© 2017 OJ Electronics A/S
Safeguarding data in OJ GreenZone™ Module A
In the event of communication faults and/or power failure to the OJ GreenZone™
Module A, all data will be saved. When communication and/or the power supply has
been re-established, the OJ GreenZone™ Module A will automatically resume normal
operation.
TECHNICAL DATA
Supply voltage .............................. 24 VAC +/-10 % (see figs 8 and 9)
Consumption, no load .............................................< 2.3 VA
Consumption with max. load ........................................< 52 VA
24V AC output, short-circuit protected .................................< 24 VA
Ambient temperature, operation ................. -20/+40 °C (transient -30/+50 °C)
Ambient temperature, storage ....................................-30/+70 °C
Modbus, cascade connections .......................2 x RJ12 connectors (6P6C)
Actuator connections ..........................4 x 3 x 1.5 mm2 screw terminals
Actuator output ...............................................4 x 0-10 VDC
Actuator supply ...........................................4 x 24 VDC 0.25A
Modbus, sensor connections .........................1 x RJ12 connector (6P6C)
Sensor power ............................................1 x 24V DC 0.25A
Modbus communication ..........................RS-485, 38.4 kBaud, 24 VDC
Modbus address, OJ Zone Module ............................ Self-configuring
Digital inputs ............................................2 x built-in pull-up
Sensor supply .............................................1 x 24 VDC 0.1A
Sensor inputs ................................................2 x PT1000
Voltage input ............................................... 2 x 0-10 VDC
Measuring range, humidity .....................................0-100 % RH
Measuring range, temperature .................................. -40 - 100 °C
Measurement range, CO
2
.......................................0 - 2000 ppm
Enclosure rating .....................................................IP20
Dimensions ...................................................(see fig. 2)
Weight ..........................................................270 g
SERVICE AND MAINTENANCE
OJ GreenZone™ Module A contains no components that require service or mainte-
nance.
Please contact your supplier if faults arise.
OJ GreenZone™ Module A English / Instruction
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© 2017 OJ Electronics A/S
DISPOSAL AND ENVIRONMENTAL PROTECTION
Help protect the environment by disposing of the packaging and redundant products in
an environmentally responsible manner.
Product disposal
Products marked with this symbol must not be disposed of together with
household refuse but must be delivered to a waste collection centre in accord-
ance with applicable local regulations.
OJ ELECTRONICS A/S
Stenager 13B · DK-6400 Sønderborg
Tel. +45 73 12 13 14 · Fax +45 73 12 13 13
[email protected] · www.ojelectronics.com
CE MARKING
2004/108/EC EMC DIRECTIVE / The European parliament and of the council of
15 December 2004 on the approximation of the laws of the Member States relating to
electromagnetic compatibility and repealing Directive 89/336/EEC.
2006/95/EC LOW VOLTAGE DIRECTIVE / Council Directive 2006/95/EC of 12
December 2006 on the harmonization of the laws of Member States relating to electrical
equipment designed for use within certain voltage limits.
Applied standards
EN 60730-1 2000 / Automatic electrical controls for household and similar use
Part 1: General requirements.
TROUBLESHOOTING
Symptom Cause Action
OJ GreenZone™
Module A inoperative
– no light in display
No power Check that there is 24 VAC on entry terminals
1 and 2 and exit terminals 3 and 4.
If there is no voltage on exit terminals 3 and 4,
the components supplied from these terminals
(3 and 4) have either short-circuited or are
overloaded.
Defective OJ GreenZone™
Module A
Replace OJ GreenZone™ Module A.
English / Instruction OJ GreenZone™ Module A
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© 2017 OJ Electronics A/S
Symptom Cause Action
No communication
to OJ GreenZone™
Module A
Poor or no connection in
Modbus cable
Check Modbus cable.
Configuration of Modbus cable and connector
is shown in figs 6 and 7.
Repair or replace defective Modbus cable.
Incorrect connection of
Modbus cable
Check that the Modbus communication cable
is connected to the "Modbus in" connector
and looped to the next OJ GreenZone™
Module A from the "Modbus out" connector.
(See figs 4, 5 and 13.)
No communication
to OJ GreenZone™
Module A
Defective OJ GreenZone™
Module A
Replace OJ GreenZone™ Module A.
Display shows "9" OJ GreenZone™
Module A has not yet
received information on
section number from OJ
GreenZone™ Master
Wait until OJ GreenZone™ Master
has allocated a section number to OJ
GreenZone™ Module A.
Poor or no connection in
Modbus cable
Check Modbus cable.
Configuration of Modbus cable and connector
is shown in figs 6 and 7.
Repair or replace defective Modbus cable.
Defective OJ GreenZone™
Master
Replace OJ GreenZone™ Master.
Defective OJ GreenZone™
Module A
Replace OJ GreenZone™ Module A.
Display shows "99" OJ GreenZone™
Module A has not yet
received information on
zone number from OJ
GreenZone™ Master
Wait until OJ GreenZone™ Master has
allocated a zone number to OJ GreenZone™
Module A.
Poor or no connection in
Modbus cable
Check Modbus cable.
Configuration of Modbus cable and connector
is shown in figs 6 and 7.
Repair or replace defective Modbus cable.
Defective OJ GreenZone™
Master
Replace OJ GreenZone™ Master.
Defective OJ GreenZone™
Module A
Replace OJ GreenZone™ Module A.
OJ GreenZone™ Module A English / Instruction
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© 2017 OJ Electronics A/S
Symptom Cause Action
Display shows "SC" Sensor short-circuited Check the connected PT1000 sensor.
The sensor should be connected to the RJ12
connector marked "L" in fig. 3 – correct
connection is shown in fig. 10.
Check sensor resistance.
The measured resistance should be
approximately 1078 Ω at 20°C.
VAV damper or
heating/cooling valve
inoperative
No voltage supply to OJ
GreenZone™ Module A
Check that there is 24 VAC on entry terminals
1 and 2 and exit terminals 3 and 4.
If there is no voltage on exit terminals 3 and 4,
the components supplied from these terminals
(3 and 4) have either short-circuited or are
overloaded.
Actuator supply terminals
lack 24 VDC:
(+18-
20)
(+21- 23)
(+24- 26)
(+27- 29)
Remove the wires connected to the terminals
and check whether there is voltage across the
terminals.
If, once the load has been removed, voltage
can be measured across the terminals, it is
highly likely that the wires connecting the
actuator are short-circuited. Remove the short
circuit and reconnect the actuator. Check the
voltage again.
Defective OJ GreenZone™
Module A
Remove the wires connected to the terminals
and check whether there is voltage across the
terminals.
If, once the load has been removed, voltage
cannot be measured across the terminals, it is
highly likely that the OJ GreenZone™ Module
A is defective.
Replace OJ GreenZone™ Module A.
Fault in the electrical con-
nections
Check electrical connections.
Defective valve or VAV
actuator
Replace actuator.
OJ GreenZone™ Module A English / Instruction
15
Symptom Cause Action
Sensor for inlet
temperature shown
incorrectly
Fault in the electrical con-
nections
Check electrical connections.
Defective sensor: short-
circuited or disconnected
Check sensor. Remove the wires connected
to terminals 30 & 31 and check the resistance
using an ohmmeter.
If the sensor is disconnected, the resistance
will be infinitely high, while a resistance of
approx. 0.0 ohm indicates that the sensor is
short-circuited. If the sensor is OK, a resi-
stance of approx. 1078 ohm will be measured
at a sensor temperature of 20°C.
Replace the sensor if defective.
Incorrect sensor type The sensor must be of PT1000 type, meaning
that the ohmic value of the sensor is approx.
1078 ohm at 20°C.
Defective OJ GreenZone™
Module A
Replace OJ GreenZone™ Module A.
Frost alarm
inoperative
Frost thermostat
connected incorrectly
Check cables and connections (see fig. 12).
Defective OJ GreenZone™
Module A
Replace OJ GreenZone™ Module A.
Frost alarm
inoperative
Incorrect web configuration
of frost thermostat
See installer instructions for correct input
configuration.
Window contact
inoperative
Window contact connected
incorrectly
Check cables and connections (see fig. 12).
Defective OJ GreenZone™
Module A
Replace OJ GreenZone™ Module A.
Incorrect web configuration
of window contact
See installer instructions for correct input
configuration.
PIR sensor
inoperative
PIR sensor connected
incorrectly
Check cables and connections (see fig. 12).
Defective OJ GreenZone™
Module A
Replace OJ GreenZone™ Module A.
Temperature oset
inoperative
Oset potentiometer
connected incorrectly
Check cables and connections (see fig. 11).
Defective OJ GreenZone™
Module A
Replace OJ GreenZone™ Module A.
English / Instruction OJ GreenZone™ Module A
© 2017 OJ Electronics A/S
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© 2017 OJ Electronics A/S
BILDUNGEN
Folgende Abbildungen finden sich ganz hinten in der Anleitung:
Abb. 1: OJ GreenZone™ Module A
Abb. 2: Maßskizze
Abb. 3: Anschlussübersicht OJ GreenZone™ Module A
Abb. 4: Anschluss der Modbus-Kommunikation
Abb. 5: „Modbus-Eingang“-Terminal
Abb. 6: Modbus RJ12-Stecker
Abb. 7: Modbuskabel Anschlüsse
Abb. 8: Anschluss Spannungsversorgung
Abb. 9: Schleifenklemmen für Spannungsversorgung
Abb. 10: Anschluss PT-1000- und CO2-Fühler
Abb. 10A: Anschluss des Feuchtefühlers
Abb. 11: Anschluss Temperaturschieber
Abb. 12: Anschluss des Frostthermostats
Abb. 13: „Modbus-Ausgang“-Terminal
Fig. 14: Anschluss der VVS-Stellantriebe Abluft
Fig. 14A: Anschluss der VVS-Stellantriebe Zuluft
Abb. 15: Anschluss des PT-1000-Fühlers, Zuluft
Fig. 16: Anschluss Heizventil-Stellantriebe
Fig. 16A: Anschluss Kühlventil-Stellantriebe
Abb. 17: 2-stelliges Display
Abb. 18: „Modbus-Fühler“ RJ12-Stecker
Abb. 19: Konfigurationsübersicht
Abb. 20: Anschluss Fensterkontakt
Abb. 21: Anschluss PIR-Melder
ALLGEMEINES
Das OJ GreenZone™ Module A ist eine elektronische Steuerung (Regler) für VVS-Zonen
in Lüftungsanlagen. Das OJ GreenZone™ Module A umfasst alle die Funktionen, die zur
energie- und komfortoptimalen Steuerung einer VVS-Zone erforderlich sind.
Deutsch
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© 2017 OJ Electronics A/S
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© 2017 OJ Electronics A/S
Deutsch / Montageanweisung OJ GreenZone™ Module A
BESCHREIBUNG
Das OJ GreenZone™ Module A steuert VVS-Klappen, Temperatur, CO2 und Luftfeuch-
tigkeit im Raum, abhängig davon, welche Fühler an die Einheit angeschlossen sind.
Das OJ GreenZone™ Module A ist selbst konfigurierend. Dazu führt die Steuerung
einen Test der angeschlossenen Einheiten durch und regelt nach Abschluss der Instal-
lation und Aktivierung des OJ GreenZone™ Module A auf Basis der angeschlossenen
Komponenten, Fühler, Stellglieder u. a. m. die Zone optimal.
Einstellungen und Bedienung erfolgt über den integrierten Webserver; der Zugri auf
den Webserver erfolgt über den angeschlossenen OJ GreenZone™ Master.
An jeden OJ GreenZone™ Master können max. 25 Stk. OJ GreenZone™ Module A
angeschlossen werden.
Das OJ Green Zone™ Modul A ist mit 4 × 0-10 V= für Ventil- und Schiebermotoren
ausgestattet.
PRODUKTPROGRAMM
Produkte von OJ Electronics
Typ Produkt
OJ-ZoneMaster
Master-Modul zur Steuerung von max. 25 Stk.
OJ-ZoneModule-A
OJ-ZoneModule-A Zonenmodul zur Steuerung einer Zone
OJ-RPT-20T Raumbedienfeld mit Touchscreen
TTH-6202 Kanaltemperatur-Messumformer mit Modbus
TTH-6040-W Raumtemperatur-Messumformer mit Modbus
HTH-6202 Kanal-Feuchtigkeits- und Temperaturfühler mit Modbus
VTH-6202 Kanal-VOC-Fühler mit Modbus (Schadstokonzentration)
OJ-Air2PWR80 Spannungsversorgung 2 × 24 V~, 2 × 60 VA
ETT-KH Abdeckung für OJ-Module-A, Wandmontage
ETFWP-998
PT-1000-Raumfühler mit Rad zur Einstellung
des Temperatur-Sollwerts
ETF-1098L1-4 PT-1000-Kanalfühler (°C)
ETF-998-H PT-1000-Raumfühler (°C), 80 × 80 mm
Produkte anderer Hersteller
Typ Produkt
Belimo Typ LMV-D3, NMV-D3 VVS-Klappe 0–10 V
Belimo Typ CQ24A-SR, LR24A,
NR24A, SR24A
Heizventil 0–10 V
Belimo Typ CQ24A-SR, LR24A,
NR24A, SR24A
Kühlventil 0–10 V
BILDUNGEN
Folgende Abbildungen finden sich ganz hinten in der Anleitung:
Abb. 1: OJ GreenZone™ Module A
Abb. 2: Maßskizze
Abb. 3: Anschlussübersicht OJ GreenZone™ Module A
Abb. 4: Anschluss der Modbus-Kommunikation
Abb. 5: „Modbus-Eingang“-Terminal
Abb. 6: Modbus RJ12-Stecker
Abb. 7: Modbuskabel Anschlüsse
Abb. 8: Anschluss Spannungsversorgung
Abb. 9: Schleifenklemmen für Spannungsversorgung
Abb. 10: Anschluss PT-1000- und CO2-Fühler
Abb. 10A: Anschluss des Feuchtefühlers
Abb. 11: Anschluss Temperaturschieber
Abb. 12: Anschluss des Frostthermostats
Abb. 13: „Modbus-Ausgang“-Terminal
Fig. 14: Anschluss der VVS-Stellantriebe Abluft
Fig. 14A: Anschluss der VVS-Stellantriebe Zuluft
Abb. 15: Anschluss des PT-1000-Fühlers, Zuluft
Fig. 16: Anschluss Heizventil-Stellantriebe
Fig. 16A: Anschluss Kühlventil-Stellantriebe
Abb. 17: 2-stelliges Display
Abb. 18: „Modbus-Fühler“ RJ12-Stecker
Abb. 19: Konfigurationsübersicht
Abb. 20: Anschluss Fensterkontakt
Abb. 21: Anschluss PIR-Melder
ALLGEMEINES
Das OJ GreenZone™ Module A ist eine elektronische Steuerung (Regler) für VVS-Zonen
in Lüftungsanlagen. Das OJ GreenZone™ Module A umfasst alle die Funktionen, die zur
energie- und komfortoptimalen Steuerung einer VVS-Zone erforderlich sind.
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© 2017 OJ Electronics A/S
Typ Produkt
050-8-0004 eSENSE Duct CO2-Fühler für Kanalmontage
Thermokon TFR 1,8, TFR 1,8-R Frostthermostat mit 1,8 m Kapillarrohr
Thermokon WRF06I / RDI Bewegungsmelder für Aufputzmontage
Telefonkabel, Typ: TD6006 Schwarz 6-Leiter-Telefonkabel, Fabrikat INEC
TE Connectivity Telefonstecker, RJ12 Modular-Stecker 6/6, RJ12 Standardstecker
INSTALLATION
Das OJ GreenZone™ Module A ist in einem der Klassifikation des Installationsorts ent-
sprechendem Gehäuse auf einer standardmäßigen 35 mm DIN-Schiene zu installieren
(siehe Abmessungen in Abb. 2). Schutzart ist IP20; ETT-KH von OJ Electronics ist als
Abdeckung dafür geeignet. Geeignetster Standort ist in der Regel in der Nähe der in
der VVS-Zone angeschlossen Komponenten, Ventile, Fühler u. a. m. Für die physische
Konfiguration siehe Abb. 19.
Eine optimale Platzierung wäre z. B. im Zwischenraum über einer abgehängten Decke.
Das OJ GreenZone™ Module A ist mit 24 V~ ±15% zu versorgen, und deshalb zu
diesem Zweck mit Schleifenklemmen (max. 1,5 mm²) ausgestattet (siehe Abb. 8 und 9).
Die übrigen Anschlüsse sind eine Kombination von RJ12-Steckverbindungen und
Schraubklemmen für Leiter mit max. 1,5mm² (siehe Abb. 3).
Anschlüsse und Kennzeichnungen (siehe Abb. 1 und 3)
In Abb. 3 sind alle Anschlüsse mit einem Buchstaben (A-P) gekennzeichnet.
Siehe folgenden Beschreibung der elektrischen Anschlüsse für jede einzelne Kompo-
nente, Ein-und Ausgänge und andere Signale und Kennzeichnungen am OJ GreenZo-
ne™ Module A.
Anschluss VVS-Klappenstellantriebe (siehe Abb. 3, 14 u. 14A)
Das OJ GreenZone™ Module A kann zwei VVS-Klappen, eine VVS-Klappe im Abluft-
und einen eine VVS-Klappe im Zuluftkanal, steuern. VVS-Klappenstellantriebe werden
mit einem 0-10V-Signal gesteuert.
Der VVS-Klappenstellantrieb im Abluftkanal der Zone ist an den Klemmen 18, 19 u.
20 anzuschließen (siehe Abb. 14).
Der VVS-Klappenstellantrieb im Zuluftkanal der Zone ist an den Klemmen 21, 22 u.
23 anzuschließen (siehe Abb. 14A).
Anschluss Ventilmotoren für Heizungs- und Kühlsystem (siehe Abb. 3, 16 u. 16A)
Das OJ GreenZone™ Module A kann 2 0-10V-Ventilmotoren, einen Ventilmotor für
eine evtl. Heizfläche und einen Ventilmotor für eine evtl. Kühlfläche, angebracht im
Zuluftkanal, steuern.
Deutsch / Montageanweisung OJ GreenZone™ Module A
19
Ventilmotoren werden mit einem 0-10V-Signal gesteuert.
Das Heizventil ist an den Klemmen 24, 25 u. 26 anzuschließen (siehe Abb. 16).
Das Kühlventil ist an den Klemmen 27, 28 u. 29 anzuschließen (siehe Abb. 16A).
Anschluss Temperaturfühler für Zuluft (siehe Abb. 3 und 15)
Der Anschluss eines Fühlers im Zuluftkanal ist möglich. Der aktuelle Fühlerwert wird auf
der Website der Zone angezeigt. Die Temperaturmessung wird zur Regelung der Zuluft-
temperatur benutzt.
BITTE BEACHTEN! Als Fühler ist Typ PT-1000 anzuwenden.
Der Fühler ist an den Klemmen 30 u. 31 anzuschließen (siehe Abb. 15)
Display „G“ (siehe Abb. 3 und 17)
Das OJ GreenZone™ Module A ist mit einem 2-stelligen Display ausgestattet (Abb. 3,
Pkt. „G“)
Für die verschiedenen Anzeigen am Display siehe untenstehende „Tabelle 3“.
Das Display wechselt (blinkt) zwischen den aktivierten Funktionen und Anzeigen.
Beispiel:
Wenn das OJ GreenZone™ Module A z. B. wie folgt konfiguriert ist:
Angeschlossen an OJ GreenZone™ Master 1
am OJ GreenZone™ Master Zone 13 zugewiesen wurde
ein PT-1000-Temperaturfühler im Zuluftkanal montiert ist
ein kombinierter Temperatur-/Feuchtefühler im Abluftkanal montiert ist (HTH-6202)
- wechselt das Display zwischen den folgenden Anzeigen:
Tabelle 3
Dis-
playan-
zeige
Anmerkung
Aktuell ist das OJ GreenZone™ Module A in Zonenabschnitt 1 (ZoneMaster1) integriert
Aktuell ist das OJ GreenZone™ Module A in Zonenabschnitt 2 (ZoneMaster2) integriert
OJ GreenZone™ Module A Deutsch / Montageanweisung
20
© 2017 OJ Electronics A/S
Dis-
playan-
zeige
Anmerkung
Aktuell ist das OJ GreenZone™ Module A in Zonenabschnitt 3 (ZoneMaster3) integriert
Aktuell ist das OJ GreenZone™ Module A in Zonenabschnitt 4 (ZoneMaster4) integriert
Aktuell ist das OJ GreenZone™ Module A in Zonenabschnitt 5 (ZoneMaster5) integriert
Zeigt die aktuelle Nummer (Adresse) am OJ GreenZone™ Master (Bereich: 1 - 25) an
Temperaturfühler korrekt angeschlossen (Zuluft-, Abluft- oder Raumfühler)
CO2-Fühler korrekt angeschlossen (Abluft- oder Raumfühler)
Feuchtefühler (HTH-6202) korrekt angeschlossen (Abluftfühler)
Raumbedienfeld OJ-RPT-20T korrekt angeschlossen
2 Temperaturfühler angeschlossen
Fühler kurzgeschlossen
Zonenabschnittnummer vom OJ GreenZone™ Master noch nicht zugeteilt
Zonennummer (-adresse) vom OJ GreenZone™ Master noch nicht zugeteilt
Software-Aktualisierung läuft
Anschluss von „H“ – Modbus-Fühler (°C, %rF, VOC) (siehe Abb. 3 und 18)
Das OJ GreenZone™ Module A ist mit einem Modbus-Eingang zum Anschluss von
Modbus-Fühlern ausgestattet (Abb. 3 und 18).
Folgende Fühlertypen von OJ Electronics können angeschlossen werden:
OJ-RPT-20T (Raumbedienfeld mit integriertem Temperaturfühler)
TTH-6202 (Kanaltemperaturfühler)
TTH-6040-W (Raumtemperaturfühler)
VTH-6202 (VOC-Fühler)
HTH-6202 (kombinierter Temperatur- und Feuchtefühler)
Wenn in größeren Räumen an mehreren Stellen die Temperatur gemessen werden soll,
können maximal 1 x OJ-RPT-20T, 1 x TTH-6040-W mit Rad in Position 1 und 1 x TTH-
Deutsch / Montageanweisung OJ GreenZone™ Module A
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OJ GreenZone A Bruksanvisningar

Typ
Bruksanvisningar