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WISE
Project Manual
Technical documentation for planners, system adjusters and operations technicians
24 V
Modbus
QUICK FACTS
○ ADAPT Don and Damper with software version 5
○ ADAPT Damper with CAC-control
○ CONTROL Damper with room function
○ Super WISE, web-based tool
WISE Project Manual
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Contents
ADAPT room functions
Room control
CAC air quality control
Occupancy control
Heating control
Two-phase cooling
DETECT Q, TUNE Ta, DETECT Ta
Master/slave connections
Master/slave connections, Modbus
LED operation and alarms
TUNE Adapt hand-held terminal
CONTROL Damper room functions
Room control
Room terminal
Occupancy control
Heating and two-phase cooling
Air quality and window connection
CONTROL Damper zone functions
TUNE Control hand-held terminal
Super WISE
Communication
Commissioning
Performance checks
Network structure
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WISE Project Manual
Overview – ADAPT functions
The ADAPT products are equipped with a complete builtin controller for controlling the room climate using temperatures, air quality and occupancy as controlling parameters, and using airflows and radiator valves as regulating functions. ADAPT Damper requires DETECT Quality and in some cases DETECT Temp to obtain specified functions:
• Measurement of the room temperature
• Measurement of the supply air
• Measurement of the airflow
• Airflow control
• CAC Air quality detection (ADAPT Damper)
• Motor regulation
• Occupancy detection
• Indication of the operating mode
• Modbus slave according to RTU
Installation
Separate installation instructions are available for all the
ADAPT products.
The controller has a limited number of outputs and inputs as tabulated below.
Table 1 & 2. Controller inputs.
11
12
13
14
15
16
Terminal Type Description
1 G Voltage, 24 V AC
2 G0 System zero
5
6
3
4
G
Z
G0
V
24 V AC
Input, 0-10 V DC
System zero
Heating on/off or a second cooling phase
24 V AC 7
8
9
10
G
X
G0
R
Occupancy, input
System zero
Occupancy, output
G
Y
G0
C
+
-
24 V AC
Output, 0-10 V
System zero
Modbus Common
Modbus RTU +
Modbus RTU -
Technical data
All technical and electrical data are specified in the catalogue leaflet for each product.
Transformer
To avoid voltage drops it is important to correctly size the transformer with the 24 V power supply cable. A computer program for the sizing of transformers and determining the appropriate length of cables is available for download at www.swegon.com. The minimum recommended cross-sectional area of the voltage supply conductor is 1.0 mm².
Simplified connection
If an ADAPT air diffuser is installed in a room without accessories, and where no radiator or slave control should take place, 24 V AC can be connected directly to the air diffuser port, see Figure X. A ø 1.0 (0.78 mm²) type RKKX single-conductor cable is recommended.
2
1
Figure 1. To connect 24 V directly to the air diffuser.
1 = Connection port to the air diffuser.
2 = Plug contact for 24 V AC.
20
Master
21
Slave
22
Slave
23
Modbus
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16
Figure 2. Controller inputs.
Jack
20
21
22
23
Type Description
RJ45 Connector to the master air diffuser
RJ45 Connection of slave air diffuser
RJ45 Connection of slave air diffuser
RJ12 Modbus connection to master air diffuser
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WISE Project Manual
Room control
Temperature
The built-in temperature sensors for supply air and room temperature have a measurement tolerance of ±0.5 K.
The time constant for the measurement is approx. 2 min.
The controller has a built-in limiting function that prevents the airflow from increasing if cooling is required and the supply air temperature is higher than the room temperature. Since the ADAPT Damper Master has only one temperature sensor, this limiting function does not work in extract air. All the temperature limits can be changed using the TUNE Adapt hand-held terminal. The table shows which temperatures can be specified depending on how the product is used and configured.
Various operating modes
Normal operation, (occupancy)
The control system works to attain the temperature values for heating 21 °C, cooling 23 °C, i.e. a room value of 22 °C
±1 K. These temperature set points can be changed using the TUNE Adapt or using the ADJUST Temp remote set point adjuster, and also via a main control system. The airflow is controlled between the min/max limit settings. In the normal operating mode, the user can choose to enable the cold downdraught protection function. This means that the heat valve will not close more than the preset value as long as the controller’s cooling value does not exceed 50% (adjustable).
Vacancy (energy save mode)
The control system works to attain new temperature set points: heating 20 °C, cooling 25°C, i.e. a room set point of 22.5°C ±2.5 K. These temperature set points can be changed using the TUNE Adapt or TUNE Temp remote set point adjuster. The values can also be changed via a main control system. The airflow is controlled down to the extract airflow, but if the temperature exceeds the new set point, 25 °C, the system begins cooling the room even if there are no occupants. In the vacancy mode, the cold downdraught protection function is not enabled.
Change-over ”heating with warm air”
The ADAPT controller has built-in functionality that can sense the difference between the room and supply air temperature and in doing so can match the airflow to the mode of operation of your choice. In the hand-held micro terminal or via Modbus, you can reset the controller to automatically increase the airflow for normal heating needs if the room temperature is lower than the supply air temperature, so-called change-over function. This function should always be combined with a DETECT Temp room sensor and can only be used on a master air diffuser located in the supply air.
Table 3. Temperature.
Type of product
ADAPT air diffuser master (supply air)
ADAPT air diffuser master (supply air)
ADAPT register slave (extract air)
ADAPT Damper master (extract air)
ADAPT Damper slave (supply air)
100%
100%
100%
0%
19° 20° 21° 22° 23° 24° 25°
Diagram 1. The control process for occupancy and standard setting for temperature control, 0% corresponds to the min. airflow and no heating, 100% corresponds to the max. airflow or maximum heating.
21° 22° 23° 24° 25°
100%
100%
0%
19° 20° 21° 22° 23°
Room temp.
X
X
X
X
-
24° 25°
Supply air temp.
X
X
-
-
X
0%
0%
19°
19°
20°
20°
21°
21°
22°
22°
23°
23°
24°
24°
25°
25° for temperature control
100%
50%
100%
20%
50%
19° 20° 21° 22° 23° 24° 25°
20%
20%
0%
0%
19°
19°
20°
20°
21°
21°
22°
22°
23°
23°
24°
24°
25°
25°
Diagram 3. The control process for occupancy and standard setting for temperature control, with the cold down-draught protection function enabled. The diagram shows how the cold down-draught protection function is enabled to 20% until the need for cooling has reached 50%.
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WISE Project Manual
Night-time cooling (chilling the building structure with free cooling)
The controller switches over to a new cooling set point,
18 °C. This can be initiated only via Modbus and a main control system.
Morning Boost (rapid heat-up with warm air)
The controller switches over to a new room set point,
28°C. This can be initiated only via Modbus and a main control system.
Switching between various operating conditions
Switching between occupancy/vacancy is controlled via the built-in presence detector. Night-time cooling and
Morning Boost can only be initiated via a main control system via Modbus.
Cold down-draught protection function
If this function is enabled with a value >0%, the heat valve remains time-proportionally enabled until the cooling mode has exceeded the 50% limit which can be changed under the Application Menu, see Diagram 3. This function is only available in the Program Version 4 or later.
Modbus temperature functions
All the temperature values and settings can be reached via Modbus. For detailed particulars of all the variables, see the separate “WISE tables” thast are available at www.swegon.com.
TUNE Adapt
The hand-held terminal has a temperature menu in which all the settings can be changed.
* TEMPERATURE MENU *
COOL TEMP OCC 23°
HEAT TEMP OCC
COOL TEMP UNOCC
HEAT TEMP UNOCC
CALC SETP
ROOM TEMP DEV
EXTERNAL INPUT
NIGHTCOOL
MORNING HEAT
VALVE TIME
21°
25°
20°
21.0°
0.0°
100%
18°
25°
350sec
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WISE Project Manual
CAC Air quality control
ADAPT Damper with Clean Air Control has an integrated
VOC sensor which measures and regulates the airflow for maintained air quality within the room. The output signal
(pulse ratio) of the VOC sensor follows the CO
2
content in the room by measuring other gases that are created proportionately with CO
2
. The highly sensitive VOC sensor responds quickly to the presence of CO, CH4, liquefied petroleum gas, alcohols, ketones, organic acids, amino, aliphatic and aromatic hydrocarbons.
The simplest way to test the function for correct performance is to spray denatured alcohol into the extract air register. This should cause an immediate reaction in the
CAC value.
VOC equivalent with CO
2
Swegon’s Clean Air Control VOC sensor does not detect
CO
2
. On the other hand, it does detect a number of different impurities/emissions from people, for instance. This means that it reacts in a manner equivalent to that of a
CO
2
sensor. Moreover, in contrast to a CO
2
sensor, it also reacts to the unhealthy emissions mentioned earlier.
Both the pulse ratio (0-90%) and CAC equivalent to the
CO
2
-value are specified in the TUNE Adapt and Modbus variables.
Table 4.
Substance group
Alcohols
Aldehydes
Ketones
Ester
Aromatic acids
Example
Spirits
Source
Detergent
Formaldehyde Construction materials
Butanone Paint residue
Methyl acetate Glue
Xylene Paint and glue
TUNE Adapt
The hand-held terminal has a CAC menu, in which all the settings for the regulation range can be changed.
* AIR FLOW *
OCCUPANCY
MIN
MAX
UNOCCUPIED
MIN
10l/s
40l/s
5l/s
PRESSURE SENSOR
FLOW PRESS
PRESS 0-CAL.
DAMPER POS
45.2Pa
00.0Pa
100%
0% SLAVE OUTPUT
CO2
MIN SET
MAX SET
800ppm
1000ppm
PPM PER VOLT 200
CAC SET POINTS (version before 170501, see figure below)
CAC MIN SET
CAC MAX SET
CAC SET POINTS (version after 170501, see figure below)
25%
35%
CAC MIN SET
CAC MAX SET
35%
45%
Clean Air Control
2500
2000
1500
1000
500
0
10 20 30 40 50 60 70 80 90
Diagram 4. The CAC/CO
2 ratio. NOTE! The diagram applies only to version of the sensor before 170501.
Version before 170501 Version after 170501
CAC sensor.
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Occupancy control
Built-in presence detector
The air diffusers have a built-in presence detector that cover approx. 16 m² floor area. The value varies with the installation height. In a room fitted with several air diffusers, all the presence detectors work together to achieve optimal detection. If the system includes an external connected DETECT
Occupancy, this unit will also work together with the builtin detectors so that the air diffusers will always switch over to the occupancy mode as soon as motion is detected.
Delay times have been programmed in the controller: the switch-on delay is set to 0; the switch-off delay is set to
20 min. The times can be changed using the TUNE Adapt.
If the presence detector via relay is used for controlling the lighting (on/off), the switch-on delay must always be set to 0. When lighting control is not used, the switch-on delay can appropriately be set to 30 s.
The ADAPT Damper products lack a built-in sensor circuit card with presence detector and should then be equipped with a separate DETECT Occupancy presence detector.
In this situation, DETECT Occupancy should have preset switch-on/switch-off delays. The values of the built-in controller will be disabled. See more about settings in the installation instructions for the DETECT Occupancy. If a presence detector is not to be connected to the ADAPT
Damper, it is supplied preset for continuous occupancy.
TUNE Adapt
The various variables for the occupancy function can be checked and changed in the hand-held terminal.
* ADVANCED MENU *
TEMPERATURE
AIRFLOW
OCCUPANCY (INT)
OCC STATUS
OCC STATUS+DELAY
DELAY OFF
DELAY ON
0000
0
0
20m
00s
Table 5. Temperature relay in DETECT Occupancy
Jumper Temp °C Description
24
26
Enables normal regulation if the temperature exceeds the preset value
28
15
17
Enables normal regulation if the temperature is lower than the preset value
19
When the built-in temperature control should not be activated; disconnect the jumpers.
Operating times
The ADAPT controller has a continuous operating time measurement function that measures the absolute time during which the controller has been powered and the time during which the controller has been in the occupancy mode. These times enable the user to easily analyse occupancy (and consequently, how often the premises need to be cleaned) for control of the light fittings and planning maintenance at the right time. The time count is automatically reset to zero after 32,767 hours, which is equivalent to 3.7 years.
Control of the lighting
In response to signals from the built-in presence detector, the lighting can be switched on/switched off via a relay connected to the CONNECT Adapt junction box.
Modbus occupancy functions
All the occupancy functions and settings can be reached via Modbus. For detailed particulars of all the variables, see separate tables that can be found at www.swegon.com.
Air quality control
When air quality control is enabled, it applies to operation in both the occupancy and vacancy modes. As from
Program Version 5, this type of regulation can only be enabled when the system is operating in the occupancy mode. If you still would like to have air quality control enabled while the system is operating in the vacancy mode, it is possible to enable this function. See the Application menu.
Table 6. Coverage area of the presence detector
H
2.2
2.4
2.6
2.8
A1
4.5
4.8
5.3
5.7
B1
4.0
4.3
4.7
5.0
A2
2.9
3.3
3.7
4.1
B2
2.5
2.9
3.2
3.6
3.0
6.1
5.4
4.5
4.0
Dimensions are specified in metres, A1-B1 refer to dimensions at floor level, A2-B2 refer to dimensions at desktop height.
Table 7. The setting of times in DETECT Occupancy
On
Off
Position
A
B
C
On
0 s
10 s
30 s
Off
5 s
1 min
5 min
D
E
1 min
5 min
10 min
20 min
F 10 min 30 min
Always switch off the power supply before repositioning the jumpers.
DETECT Occupancy is supplied as standard set to position B for both delayed switch on and position A for delayed switch off.
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WISE Project Manual
Heating control
The CONNECT Adapt junction box can be used for connecting up to the heat valve control function. The system makes it possible to control approx. 3 valves with a total output of
18 VA. An intermediate relay must be installed if more than
3 valves are to be controlled, see the wiring diagram. The intermediate relay should be of semi-conductor type, able to manage many switching on/off operations without becoming worn. These types or relay are also quiet; therefore you will not have to hear the clicking sound that commonly occurs in mechanical relays. The heating control function is time proportional with an adjustable time constant.
Valve exercise is enabled and takes place at 5-day intervals. The time is adjustable for 1-7 24-hour days.
First open function
The ACTUATOR valve actuator has first open function.
The valve is then supplied set to an open position making it possible to fill and vent the radiator system without any problem. When the ADAPT air diffuser/damper has been powered, the valves must be enabled for at least
6 minutes so that the catches will release. The controller is equipped with a function for valve exercising which involves energizing the valve for 8 minutes every fifth day, as standard. There is a test function in the TUNE Adapt which energizes the valve output for 10 minutes. This makes the “first open” catch release.
Modbus variables, heating control
All the values and settings can be reached via Modbus as tabulated below. For detailed particulars of all the variables, see the separate tables that can be found at www.swegon.com.
Two-phase cooling control
The ADAPT controller can be configured for two-phase cooling in sequence, first airborne cooling and if this is not sufficient the valve opens for waterborne cooling.
Heating control cannot take place when two-phase cooling is enabled; the heating valve output circuit is then forgone.
3
20
Master
21
Slave
22
Slave
23
Modbus
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16
A1 A2 1 3
2
Figure 3. Connecting the intermediate relay for more than 3 radiators.
1 = The terminal block in CONNECT Adapt.
2 = Semi-conductor relay for at least 2 A 24 V AC
3 = Radiators with ACTUATOR valve actuator.
1
1
TUNE Adapt
The various variables for radiator control can be checked and changed in the hand-held terminal. The time interval for valve exercising cannot be changed TUNE Adapt version 5.
* ADVANCED MENU *
OCCUPANCY (INT)
COMMUNICATION
APPLICATION MENU
* APPLICATION MENU *
APPLICATION
LED FUNCTION
HEATING
PRESENT
COLD PROTEC
ACTIVE LEVEL
COOL LIMIT
VALVE EXERCISE
INTERVAL
0
20%
50%
5 days
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Figure 4. Connect the cooling circuit valvee and the fan control system.
1 = The terminal block in CONNECT Adapt.
2 = ACTUATOR for valve on Parasol
WISE Project Manual
External control
The ADAPT products have an analogue input (0-10 V DC) that can be used for various functions. They can be connected via CONNECT Adapt, wiring terminals 4 and 5.
DETECT Quality 0
The air quality is checked using the DETECT Quality 0 which transmits a CO
2
signal to the master air diffuser.
Then the room temperature is regulated by means of the built-in temperature sensor in the air diffuser. The
CO
2
signal oversteers the temperature control function if the CO
2
value in the room becomes too high. The preset limit values are 800-1000 ppm. The air quality is regulated regardless of whether the system is operating in the Occupancy or Vacancy mode. When the CO
2
-control operates independent of the room temperature, the air in the room is likely to be cooled down more than is necessary. If the heating control with radiator function has been enabled, the radiators will heat up if the room temperature becomes too low.
TUNE Temp
Set point adjuster which enables the user to change the set point for room temperature regulation ± 3 K as the need arises. N.B.! Offsetting the setpoint does not affect the preset vacancy temperature in controller version 5.0 or later.
DETECT Temp
DETECT Temp is an analogue (0-10 V DC) temperature sensor that can be connected to the connection box. The
ADAPT products are readjusted for interpreting this signal as room temperature. The DETECT Temp function is available from Program Version 4.
DETECT Occupancy
In addition to the analogue input, there is also a digital input that can be used for connecting an external presence detector. This input is normally used or the ADAPT
Damper duct products.
Modbus variables, external control
All the values and settings can be reached via Modbus.
For detailed particulars of all the variables, see separate tables that can be found at www.swegon.com.
2
1
G
OUT1
G0
1
20
Master
21
Slave
22
Slave
23
Modbus
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16
0
24
NO
C
NC
20
Master
21
Slave
22
Slave
23
Modbus
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16
6
4
5
4
6
5
1
6
5 6
0
24
NO
C
NC
Figure 5. Connecting the accessories
1 The interconnection card in CONNECT Adapt.
2 * DETECT Qa 0
3 * TUNE Ta
4 * DETECT Ta
5 * DETECT Oa (normally for ADAPT Damper only)
Note: * Only one of these accessories can be connected.
Table 8. To set the application function. The presence detector does not need to be configured.
Accessories:
Normal
External actuation
DETECT Q 0
(Slave air diffuser)
TUNE Temp
DETECT Temp
Application
0
1
4
5
2
3
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WISE Project Manual
Master – Slave
The ADAPT products can be connected in a master-slave relationship where one air diffuser is always the master and up to three air diffusers are slaves. An extract air terminal can also be a master depending on the choice of products and the room solution. For guidance see Figure 6.
In a system with master-slave, an analogue connection is made between the various air diffusers. The analogue signals make it necessary to adjust each air diffuser taking into account the airflows between which it shall regulate. This provides maximal flexibility for the possibility of having different supply air/extract airflows.
Thanks to the analogue interconnection of the presence detector, it is enough that one air diffuser has detected occupancy in the room for the entire system to switch over to the occupancy mode.
Table 9. Analogue control signal.
The relevant value can be measured between wiring terminals 12 and 13 on the control circuit card.
Control mode
Vacancy flow
Min. airflow
Max. airflow
Emergency, close
Emergency, open
Control signal to slave
2.0 V
2.0 V
8.0 V
<1.5 V
> 8.5 V
7 7 7
Figure 6. Connection with LINK Adapt and LINK Modbus
1 The air diffuser contact in the master air diffuser.
2 The air diffuser contact in the slave air diffuser.
3 The interconnection card in CONNECT Adapt.
4 LINK Adapt, RJ 45 Internet cable, 24 AWG.
5 SPLIT Link a 45 branch contact RJ45.
6 LINK Modbus RJ12 connected to the master air diffuser.
7 SPLIT Modbus RJ12, max. stab length, 10 m.
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Connect all the slave air diffusers to
Modbus
Normally only the master air diffuser is connected to a main control system via the CONNECT Adapt junction box.
Slave air diffusers can also be connected to a main control system however this must be done directly in the RJ12 connection of the air diffuser. A splitter must be used for connecting several air diffusers.
N.B.! The Modbus stubs can be too long and cause communication problems. The recommended maximal permissible stub length per junction box is altogether 10 metres. If a longer LINK Modbus is required, install additional CONNECT Adapt for Modbus connection, Fig. 8. It does not matter which Modbus contact on the network the ADAPT product is connected to; its Modbus ID is the determining factor for how the product is shown in the main control system and Super WISE. If several CONNECT
Adapt are used for connection, the control signals must also be wired further.
Calculation of the maximal stub length
The stub length is critical in the installation. That which affects the length is the speed of communication and the pulse rise time of the transceiver. The bus wire is assumed to be terminated at each end. The ADAPT products use a fail-safe transceiver with the following data:
Signal rate = 200 kbps
Rise time = 500 ns
Maximal stub length 11.6 metres
5
4
1 6
3
5
2 6
6
5
2 6 2
20
Master
21
Slave
22
Slave
23
Modbus
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16
Figure 7. Connection with LINK Modbus
1 The air diffuser contact in the master air diffuser.
2 The air diffuser contact in the slave air diffuser.
3 The interconnection card in CONNECT Adapt.
4 LINK Adapt, RJ 45 Internet cable, 24 AWG.
5 SPLIT Link a 12 branch contact, RJ12.
6 LINK Modbus RJ12 cord, the total length must not exceed 10 m.
5 5
1 6 2 2 6 2
3
4
6
20
Master
21
Slave
22
Slave
23
Modbus
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16
4
6
7
20
Master
21
Slave
22
Slave
23
Modbus
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16
Figure 8. The wiring of several ADAPT via 2 CONNECT Adapt
1 -6 see the figure text above.
7 One extra CONNECT Adapt.
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Light-emitting diode operation
The sensor module on the ADAPT air diffusers has an LED that indicate the current operating mode. The LED can be lit in different colours; however this can be switched it off completely if the light emitted is found disturbing.
The table shows the various functions that can be indicated by the diode.
Table 10. LED functions.
Colour / output Explanation
Green / steady
Green / flashing
Red / steady
Red / flashing
Orange / steady
Orange / flashing
2 sec. interval
Normal operation, no alarm
Start up with 0 calibration
Alarms, see the alarm list. Also for too low supply voltage, not visible in the alarm list.
Internal sensor failure, see the alarm list.
Too low supply voltage.
Commissioning mode, max. airflow
Commissioning mode, min. or vacancy airflow.
Further forced control via Modbus.
Emergency mode, Manual occupancy or Test mode.
Modbus variables for the LED and alarms
All the values and settings can be reached via Modbus.
For detailed particulars of all the variables, see the separate tables that can be found at www.swegon.com.
TUNE Adapt
The various variables for alarms can be checked in the hand-held terminal.
* SWEGON TUNE ADAPT *
USER MENU
ALARM MENU
LANGUAGE
ADVANCED MENU
TEST MENU
SAVE / LOAD MENU
MOTOR
PRESSURE SENSOR
ROOM TEMP
SUPPLY TEMP
WRONG SET POINT
COMFORT ALARM
TEMPERATURE
AIR QUALITY
ALARM SETTINGS
SET TIME
RESET TIME
MAX TEMP DEV
MAX CO2 DEV
60
1
2
200
0
0
0
0
0
0
0
0
0
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Main control system, Modbus RTU
The ADAPT controller has many facilities for communication with a main control system. Most of the variables are open and can be read or entered. There are a number of product-specific variables that are password protected.
These have been programmed at the factory and should not be changed.
The communication format can be changed and in its standard form is preset for 38400 bps, None parity, 1 stop bit and always 8-bit format. All the ADAPT master products can have a continuous Modbus ID between
1 and 248. Unless otherwise specified in the purchase order, the air diffusers are supplied with ID 1. The ID number is specified on the product rating label. The user can easily change the Modbus ID number with the TUNE
Adapt.
When the TUNE Adapt hand-held terminal is connected to the sensor module for the air diffusers or to the special outlet for the Damper products, communication with the main control system is interrupted, but will be restored when the hand-held terminal is later disconnected.
All the variables can be entered an unlimited number of times without overburdening the memory.
For the main control system, the following variables can be interesting to read:
• The room temperature
• Estimated temperature set point
• The airflow, l/s (N.B.! Normally the master air diffuser only)
• The cooling control value, %
• The heating control value, %
• The controller mode (occupancy/vacancy, etc.)
• Alarm 1 – Stroke error
• Alarm 2 – Motor failure
• Alarm 3 – Pressure sensor failure
• Alarm 4 – Temperature sensor failure (internal)
• Alarm 5 – Temperature sensor failure (external)
• Alarm 6 – CAC sensor error
• Alarm 7 – Comfort alarm
• Alarm 8 – Nonconforming temperature
• Alarm 9 – Nonconforming CO
2
content
There is a configuration set of variables for alarms and operating modes in binary format as a group alarm. For detailed particulars of all the variables, see the separate tables that can be downloaded from www.swegon.com.
The following variables for the main control system can be actuated:
• Emergency control (On/Off)
• Emergency control, power (open/close)
• Night-time cooling (On/Off)
• Morning heat (On/Off)
• Occupancy control (On/Off)
• Occupancy mode (Occupancy/Vacancy)
All the other variables can be changed, but the above described values are typical for controlling via time schedule.
20170516 Swegon reserves the right to alter specifications.
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Figure 9. To open the sensor module, use a screw driver, be careful when reinstalling the module to avoid damaging the positioning pins.
TUNE Adapt
Description
TUNE Adapt is a hand-held terminal for setting and viewing the readings of all ADAPT products. TUNE Adapt is powered by the product it is connected to. Tune Adapt is supplied as standard with display in four languages:
Swedish, English, French and Danish. The compatibility of the various versions of the ADAPT controller is as follows: hand-held micro terminals of later version cannot read older versions of ADAPT controllers, hand-held micro terminals of older version can always read the newer
ADAPT controllers, however the newer variables will then be lacking in the hand-held micro terminal. The hand-held terminal must not be confused with the terminal that is supplied with the GOLD air handling unit, it has different software.
Keypad functions
The arrow keys are used for advancing up and down in the menus. To change to an underlying menu press
“enter” . In the menus for entering settings, you must immediately press ”enter” again to come to the image where you can change the variables. All the variables that can be changed will then be highlighted.
The +/- keys are used for increasing or decreasing the values. The values are changed immediately in the ADAPT products, without having to press ”enter”.
Press X to return to the previous menu.
The display can shown only four lines with text. In the descriptions that follow, the menus below are displayed in a fainter tone. The menus appear more distinctly as you press the arrow “down" key.
There is a small red LED to the side of the ”enter” key.
When it shines/flashes, the ADAPT product, to which it is connected, is being 0 calibrated. Wait a minute or two and reconnect TUNE Adapt.
Figure 10. TUNE Adapt can be connected to the air diffuser using the RJ12 contact on the circuit card.
Figure 11. TUNE Adapt can be connected directly to the single contact on the side in the duct dampers.
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The display screen
The uppermost line always shows the Swegon headline, on later versions the program version for the ADAPT products is shown as well.
The line with highlighted text is the selected line you can advance to by pressing the ”enter button”.
The pile to the right indicates whether there are more menu lines below that you can access by navigating downward. The black field at the lower edge shows that there are menu lines below. The contrary applies if there is a black field at the upper edge.
* SWEGON TUNE ADAPT *
USER MENU
ALARM MENU
LANGUAGE
Tune Adapt menu structures
Descriptions of the menus
The input menu for start up. The image shows all the functions that are available from the start menu. Press enter to advance to the menu selected.
* S W E G O N T U N E A D A P T *
USER MENU
ALARM MENU
LANGUAGE
ADVANCED MENU
TEST MENU
AIRFLOW
ROOM TEMP
SUPPLY AIR TEMP
CO2 IN ROOM
CAC LEVEL
CAC CO2 EQUV
COOLING
HEATING
VALVE POS
OCC TIME
RUN TIME
SOFTWARE
SERIAL NUMBER
000l/s
00.0g
00.0g
0000ppm
00%
0000ppm
000%
000%
000%
00000h
00000h
0000
00000
Airflow
The current airflow in l/s and the estimated set-point is shown here.
Room temp
Shows the room temperature in °C regardless of whether the temperature is measured by the built-in sensor or a connected DETECT Temp. In certain applications, for example ADAPT Damper for supply air, the room temperature cannot be shown. The value -1 is given in this case.
In ADAPT Damper, the extract air temperature can be one or two degrees higher than the representative room temperature. This should be taken into consideration when selecting the set points for the temperature settings.
Supply air temp
Shows the value of the built-in temperature sensor. In certain applications such as ADAPT Damper if the extract air, the temperature cannot be shown, the value -1 is then given.
CO
2
in room
If DETECT Quality is connected and Application type is set to 2 the carbon dioxide value in the room is shown.
CAC
If Clean Air Control is enabled, the air quality value and the corresponding recalculated CO
2
value in ppm are shown here. Good air quality corresponds here to a CAC value that is lower than 35%.
Cooling (Cooling load)
Shows the value of the cooling load 0-100%, 0% corresponds to vacancy or the occupancy flow, 100% corresponds to the max. flow.
Heating (Heating load)
The heating load in % is shown here if the controller is set for heating control. Heating control is time proportional which means that the valve is open only during that part of the time cycle to which the heat load corresponds, example: heating load 50%, the valve is open 50% of
350 s = 175 s. and then closed for 175 s.
Valve pos (Valve pos, later than version 3)
The value of the valve output is shown here, which most often is equal to the heating load. If the cold down draught protection function is enabled, the heating load can be 0% while the valve output can be 20% for instance.
Occ time (Time occupied)
The controller has a time counter which automatically counts the time during which the premises is occupied.
The function can for instance be used for analysis of the cleaning interval, etc.
Run time (Total runtime)
The controller has a built-in operating time counter which is enabled as soon as the controller is powered. The counter automatically resets after 32767 hours, approx. 3.7 years.
Software
Current version of the software.
Serial number
The product serial number.
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Alarm menu
These menus show the value 1 if something is abnormal in the ADAPT product. At the same time, the diode in the sensor module shines red.
* SWEGON TUNE A V5 *
USER MENU
ALARM MENU
LANGUAGE
CAC Sensor error
Indicates that the built-in sensor is faulty or is missing.
Comfort alarm
Activates the comfort control system and initiates an alarm if the temperature or CO
2
value deviates more than the preset limit values during a period longer than the preset period (60 min.). If the cause of the alarm is remedied, the alarm value is cleared after the preset period (5 min.).
MOTOR
PRESSURE SENSOR
ROOM TEMP
SUPPLY TEMP
WRONG SET POINT
COMFORT ALARM
TEMPERATURE
AIR QUALITY
ALARM SETTINGS
SET TIME
RESET TIME
MAX TEMP DEV
MAX CO2 DEV
0
0
0
0
0
0
0
0
0
60
1
2
200
Language menu
Used for changing the language in TUNE Adapt.
* SWEGON TUNE A V5 *
USER MENU
ALARM MENU
LANGUAGE
ADVANCED MENU
TEST MENU
ENGLISH
SVENSKA
SUOMI
DANSK
Damper stroke
When the controller is started up, a stroke check is carried out. If this check fails, an alarm is initiated.
Motor
If the control function is not operating so that the motor can steer to the desired position within the length of damper stroke detected, an alarm is initiated.
Pressure sensor
If the pressure sensor transmits unreasonable values or if communication to this sensor ceases, an alarm is initiated.
Room Temp
Refers to failure of the built-in temperature sensor normally fitted inside the sensor module.
Supply Temp
Refers to failure of the built-in temperature sensor normally fitted in the supply airflow path inside the air diffuser.
Wrong set point
An alarm is initiated if the heating set point and cooling set point cross one another. The heating load must always be lower than the cooling set point.
Language menu
As standard, TUNE Adapt is supplied with text in four languages: English, Swedish, Finnish and Danish. Scroll down to the language desired and press enter.
Other language combinations are the following:
English, Swedish, Russian and Polish or
English, Swedish, German and French
These variants must however be ordered separately.
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Advanced menu
All the setting values can be changed in these menus.
* SWEGON TUNE A V5 *
ALARM MENU
LANGUAGE
ADVANCED MENU
TEST MENU
SAVE / LOAD MENU
When you select the ADVANCED MENU, a warning is shown to remind you to be especially cautious; changing data in these menus could compromise the regulator function.
Temperature menu
In order to be able to change a value, it must be highlighted by pressing enter on the first menu line. In the image, this value is: COOL TEMP OCC.
* ADVANCED MENU *
TEMP MENU
FLOW MENU
PRESENCE (INT)
COMMUNICATION
COOL TEMP OCC
HEAT TEMP OCC
COOL TEMP UNOCC
HEAT TEMP UNOCC
CALC SETP
ROOM TEMP DEV
EXTERNAL INPUT
NIGHTCOOL
MORNING HEAT
HEAT VALVE TIME
23°
21°
25°
20°
21.0°
0.0°
100%
18°
25°
350sec
Cool temp occ (Cooling temperature, occupied)
The temperature at which cooling control begins. If the system has sufficient capacity, this will be the maximum room temperature in the cooling mode.
Heat temp occ (Heating temperature, occupied)
The temperature at which heating control begins. This will be the room’s lowest temperature if the ADAPT product steers heating control. If this does not take place, the value is insignificant.
Cool temp unocc (Cooling temperature, unoccupied)
The same function as for the occupancy temperature.
Heat temp unocc (Heating temperature, unoccupied)
The same function as for the occupancy temperature
Calc setp (Calculated set-point)
The estimated value for control is shown here. When the room temperature is between the heating and cooling set point, the room temperature is shown in this variable. If the room temperature is above the set point for cooling control, the set point is shown (for example 23.0°)
Room temp dev (Room temperature deviation)
The difference is shown here between the actual values and the preset set points for cooling/heating for occupancy or vacancy. When the room temperature is in the dead band, the value 0 is shown. If TUNE Temp is used for set point displacement, the change can be read in this menu only.
Example:
Cooling set point 23°: if the room temperature is 22.5° the value 0,0 is shown on the nonconforming temperature line. Now if TUNE Temp knob is turned down as much as possible for reduced room temperature, the cooling set point will be 20° and the value 2.5° will then be shown. This means that it is 2.5° too warm in the room and the cooling control function will start.
External input
The external input level 0-100% corresponds to the input function when an external control is used, see the Application Menu.
Nightcool (Night-time cooling)
Set point for night-time cooling. This set point applies when the night-time cooling function is enabled from a main control system and it leads to boosting the airflow until the flow reaches its preset max. airflow rate.
Morning heat
This function is not enabled in the controller, (will be introduced in a later version).
Heat valve time (protected variable)
This time is the normal time it takes for a thermal actuator to open completely from the cold position. The time is used for the time proportional opening when the heating load is <100%.
If the ADAPT controller is to control electric heating via semi-conductor relay the time should be set to max.
60 sec. The variable can only be changed via a special
Modbus tool of Modbus Poll type.
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Airflow
In order to be able to change a value, you must highlight it by pressing enter on the first menu line. In the image, this is: OCCUPANCY.
* ADVANCED MENU *
TEMPERATURE
AIRFLOW
OCCUPANCY (INT)
MIN
MAX
UNOCCUPIED
MIN
PRESSURE SENSOR
FLOW PRESS
PRESS 0-CAL.
DAMPER POS
SLAVE OUTPUT
CO2
MIN SET
MAX SET
PPM PER VOLT
CAC SET POINTS
CAC MIN SET
CAC MAX SET
10l/s
40l/s
5l/s
45.2Pa
00.0Pa
100%
0%
800ppm
1000ppm
200
25%
35%
Damper pos (Damper position)
The current damper blade position can be read here.
When commissioning, make sure that this value is at least
85% open for the design room in the zone.
Slave output
Shows the slave output flow level: 0% is minimum or vacancy flow, 100% corresponds to the maximum airflow.
CO
2
Under this menu, set the limit values for the proportional airflow control function in relation to the CO
2
value. Control starts from the minimum set point and proportionally increases to 100% airflow for the maximum set point.
ppm per Volt
This is the interpretive value of the input signal from the
CO
2
sensor. This is normally 200 ppm/V.
CAC MIN.
The lower limit where the airflow increase starts for ventilation to remove impurities.
CAC MAX.
The upper limit where the airflow has reached its max. value.
Occupancy min/max
The airflows to be used for the relevant room can be set here. If the product is marked with a “default” in the designation, then it is a product from stock with standard settings that probably are not applicable to the current installation.
Unoccupied
The airflow for vacancy of occupants
Pressure sensor
The current flow pressure can be read here. This pressure is almost identical to the static pressure drop across the air diffuser.
Zero calibration can be carried out, however this requires that you are sure that there is no airflow. It will not help to force the damper to close. 0-calibration has been carried out at the factory prior to delivery and should not normally need to be changed.
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Occupancy (INT)
In order to be able to change a value, you must highlight it by pressing enter on the first menu line. In the image, this is: Occupancy.
Communication
In order to be able to change a value, it must be highlighted by pressing enter on the first menu line. In the image, this is: Modbus address.
* ADVANCED MENU *
TEMPERATURE
AIRFLOW
OCCUPANCY (INT)
OCC STATUS
OCC STAT+DELAY
DELAY OFF
DELAY ON
0000
0
0
20m
00s
* ADVANCED MENU *
AIRFLOW
OCCUPANCY (INT)
COMMUNICATION
APPLICATION MENU
* COMMUNICATION *
MODBUS ADDRESS
BAUDRATE
PARITY
STOP BITS
000
38.4k
NONE
1
Occ sensor lev (Occupancy sensor level)
Indicates the signal level from the built-in presence sensor.
The limit value for detecting occupancy is 250.
Occ status
Shows the momentary status from the built-in presence detector 1=occupancy. The value returns to 0 after 1 minute if no new occupancy has been detected.
Occ stat + delay
The occupancy situation including the delay. This value applies to the entire system of master/slave air diffusers that are interconnected.
Delay off
The time until the controller switches over to vacancy if no new occupancy has been detected.
Delay on
The switch on delay time must always be 0 if the lighting is to be controlled. Otherwise the value can appropriately be 30 s.
Modbus address
The address can be set to a value between 1-248.
Baud rate
The communication speed can be set to three levels: 9.6k
- 19.2k - 38.4k.
Parity
The parity check can be set to: Even/Uneven/None.
Stop bits
Can be set either to 1 or 0.
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Application menu
In order to be able to change a value, it must be highlighted by pressing enter on the first menu line. In the image, this is: APPLICATION.
* ADVANCED MENU *
OCCUPANCY (INT)
COMMUNICATION
APPLICATION MENU
* APPLICATION MENU *
APPLICATION
LED FUNCTION
TEMP SENSOR USE
TYPE
HEATING
PRESENT
COOL PROTECTION
0
0
20%
50%
ACTIVE LEVEL
COOL LIMIT
VALVE EXERCISE
TIME INTERVAL
CAC USE
NOT PRESENT
VENT BOOST
ON
BOOST DELAY
BOOST TIME
CAC/CO2 AT UNOCC
NOT ACTIVE
5days
72h
5m
Application
Select the application that fits the description. The application describes how the external control input on the master air diffuser should be used. The slave air diffuser should always have the value 3.
0 = Temperature control (ADAPT)
1 = External control with 0-10 V DC signal
2 = Temp. control (ADAPT) + CO
2
3 = Slave controller
(DETECT Q 0)
4 = Set point switch, TUNE Temp
5 = External temp. sensor, DETECT Temp
LED function
Here you can choose whether the LED should be out or used for indicating the functions, see the Alarm Menu.
Temperature sensor use (from Software Version 5)
How the built-in temperature sensors should be used is adjusted with this variable. This function is programmed from the factory. If “default” ADAPT Damper is supplied directly from stock, you will have to change this variable if the damper is to be adjusted for use as a slave.
0 = ADAPT supply air diffuser
1 = ADAPT Exhaust and Damper for extract air
2 = ADAPT Damper for supply air
Heat valve control (Software later than Version 4)
If the ADAPT controller is to be used for controlling the radiators, this function must be enabled, however it cannot be combined with two-phase cooling. In the Ver.
3 ADAPT, change-over can only take place in Modbus via variable 0x0006.
Cold down draught protection (Software later than
Version 3)
This function applies only from Program Version 4. The controller can also control heating if there is no heating load. This function is used for reducing cold down draughts by the windows. The heating control feature will be enabled to the preset level, for example 20%, until the cooling load has reached 50%.
Valve exercise (Software later than Version 4)
This function applies only from Program Version 4. During the summer half of the year, the valves may need to be exercised so that they will not jam. The exercising feature can be enabled by setting the time between these occasions to >0. The time is expressed in 24-hour periods
Exercising takes place by enabling the valve output for 10 minutes. The function is enabled as standard.
CAC Use
Activation of the built-in air quality sensor in ADAPT
Damper on the extract air duct.
Ventilation boost function
Enables the function for forcing the airflow for a shorter time (5 minutes) when the ventilation system has operated in the vacant room mode longer than the preset time (72 hours).
CAC/CO
2
-function for vacancy
Provision for enabling the CAC/CO
2
function even when the ventilation system is operating in the room vacancy mode.
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Test menu
These menu functions are used for commissioning and performance checks. When you select the TEST MENU, a warning is shown to remind you to be especially cautious; changing any data in these menus could cause the control system to stop operating.
* SWEGON TUNE ADAPT *
LANGUAGE
ADVANCED MENU
TEST MENU
SAVE / LOAD MENU
* TEST MENU *
MAN FLOW OPTION
MAX AIRFLOW
AIRFLOW
EMERGENCY
CONTROL
MASTER
SLAVE REVERSED
TEST POS%
DAMPER POS MAN
OCCUPANCY
OCC AUTO/MAN
OCC ACTION
NIGHTCOOL
AUTO/MAN
MORNING BOOST
AUTO/MAN
000l/s
OFF
CLOSE
OFF
OFF
100%
AUTO
UNOCC
AUTO
AUTO
Occupancy
The occupancy function can be forced here to AUTO or
MAN. UNOCCUPIED or OCCUPANCY should be set in the manual mode. If the ADAPT Damper in the master version lacks a built-in presence detector, this value should be set to continuous OCCUPANCY if DETECT Occupancy is not connected.
Valve test
If activated the valve opens during 10 minutes. Serves to check the valve operation and to override the “first-stop” function of the valve.
Night cooling
This function is used to test the night cooling function, do not forget to set USE to “OFF” when the test is completed.
Morning boost
This function is used to test the morning heat function, do not forget to set USE to “OFF” when the test is completed.
Save/Load menu
These menu functions are used for transferring data from one air diffuser to another.
* SAVE/LOAD MENU *
UPLOAD FROM ADAPT
SAVE TO ADAPT
SAVE TO PC
Man flow option (Commissioning mode)
This function is used during the commissioning and performance check phase. All the products are supplied preset for maximum flow. The LED shines orange. During the commissioning phase, this mode should be reset to
MIN FLOW – VACANCY FLOW – and DISABLED. The LED shines orange for minimum and vacancy flows.
Emergency
This menu can be used for testing the emergency function. It is also possible to set whether the event should be ”Close” or ”Open” as well as reversed function on the slave air diffusers. Set the Open or Close event in the master air diffuser. The reversed function for the slave air diffusers can only be set if TUNE Adapt is connected to each respective slave air diffuser.
Do not forget to set USE to “OFF” when the test is completed.
Test mode
The damper position can be manually steered with this function to a fixed value within 0-100%. Do not forget to reset the test mode to “OFF”.
When the test mode is enabled, the LED shines orange.
Upload from ADAPT
Connect the first air diffuser and select UPLOAD FROM
ADAPT.
Save to ADAPT
Connect to the next air diffuser whose variables should be updated and select SAVE TO ADAPT. Caution; when saving to a new ADAPT unit data from the previous unit is carried over. Therefore a new 0-calibration of the pressure sensor must be performed. Data must only be transfered between units of the same type and dimensions.
Save to PC
The save to PC function requires special equipment that can only be handled by Swegon specialists.
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CONTROL Damper - Room functions
CONTROL Da FSFE, with associated SLAVE Control slave damper for extract air, if required, is supplied fully configured from the factory. The TUNE Control (3) hand-held room terminal is used for changing the control values.
Functions
• Wireless room sensor with set point adjustment and service functions
• Control against temperature, CO2 content and window contact
• Airflow regulation for primary cooling or ventilation
• Heating control in sequence with cooling control
• Two-phase cooling with water in a second phase, provision for condensation monitoring
• Slave airflow regulation with SLAVE Control
• Emergency settings open or closed via Modbus RTU
• Night-time cooling operation via Modbus RTU
• Presence detector, for switching to the economy mode when the room is not in use
• Built-in relay for control of the lighting or the fan in the cooling unit
• Wireless hand-held terminal for making checks and the setting of values
8
9 1
-
4
3
10 vv
7
2
Figure 12. Room functions.
Key to the digits used in the figure:
1= CONTROL Damper FSFE
2= SLAVE Control
3= TUNE Ca room terminal, temp. sensor and set point adjustment
4= DETECT Oa, presence detector
5= DETECT Qa 0, carbon dioxide sensor
6= Window contact
7= On/off or 0 - 10 V DC heating control, max. four type 24 V thermo-actuators
7= On/off or 0 - 10 V DC cooling control, max. four type 24 V thermo-actuators
9= Condensation guard
10= Lighting or on/off fan regulation, max. 2 A, 250 V
Table 11. Designation code
Code Function
FSFE Room application with supply air master and extract air slave.
Explanation: F = flow
E = extract air
S = supply air
5
6
Technical data
All technical and electrical data are specified in the catalogue leaflet for each product.
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Controller connections
RJ12
3.1
RJ12
3.2
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24
- + C
NC
- + C
NC
G0 X4 G0 X5 G0 X6 G0 X7 G0 X8 G0 X9
Modbus 2 Modbus 1 Sw Occ Pa CO2 Ω °C
G G0
Pwr
G G0
Pwr
10V X11 X12 X13 X14
Y Y G0 Y G G0 Y G G0 Y G G0 Y G
25 26 27 28 29 30 31 32 33 34 35 36 37 38
Table 12. Controller connections
The functions of the various connections are specified in the figure and in the table. Wiring terminals 1 – 24 are inputs for supply voltage and control signal transmission; wiring terminals 25 – 38 are outputs for regulation. All the wiring terminals can be connected with jacks.
18
19
20
21
22
23
24
7
8
5
6
9
10
11
12
13
14
Plinth Type Description
1 Modbus Master RTU -
2
3
4
+
C
NC
Modbus Master RTU +
Modbus common
Blind terminal, has no internal connection in the controller
15
16
17
-
+
C
NC
G0
X4
G0
X5
G0
X6
G0
X7
G0
Modbus Slave RTU -
Modbus Slave RTU +
Modbus common
Blind terminal, has no internal connection in the controller
System common
Window switch 10 V DC
System common
Occupancy input 10 V DC
System common
Airflow input 0-10 V DC
System common
CO
2
input 0-10 V DC
System common
X8
G0
X9
G
G0
G
G0
Condensation guard
System common
Temperature sensor supply air
Power 24 V AC
System common
Input Power 24 V AC
System common
36
37
38
33
34
35
29
30
31
32
Plinth Type Description
25
26
Y
Y
+ 10 V DC
+ 10 V DC
27
28
G0
Y
System common
Control signal 0-10 V cooling valve
G
G0
Y
G
Cool valve on/off max load 72 VA
System common
Control signal 0-10V Heat valve
Heat valve on/off max load 72 VA
G0
Y
G
G0
Y
G
System common
Control signal 0-10 V supply damper
Power 24 V AC max load 25 VA
System common
Control signal 0-10V exhaust damper
Power 24 V AC max load 25 VA
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Room control
Temperature
The built-in temperature sensors for supply air and room temperature have a measurement tolerance of ±0.5 K. The time constant for the measurement is approx. 2 min. The controller has a built-in limiting function that prevents the airflow from increasing if cooling is required and the supply air temperature is higher than the room temperature. All the temperature limits can be changed using the TUNE Control hand-held terminal.
The airflow
The airflow is controlled in response to the needs of the room by means of the cooling (%) or heating (%) regulation variables. If these are 0%, the airflow set point will be the min. airflow or the vacancy flow if a connected
CO
2
sensor does not indicate a higher airflow. When any of the variables increases toward 100%, the airflow will increase if the supply air temperature is lower, so that cooling can take place with air, or vice versa if heating with air.
Various operating modes
Normal operation, (occupancy)
The control system works to attain the temperature values for heating 21 °C, cooling 23 °C, i.e. a room value of 22 °C
±1 K. These temperature set points can be changed using the TUNE Control. The airflow is controlled between the min/max limit settings.
Vacancy (energy save mode)
The control system works to attain new temperature set points: heating 20 °C, cooling 25°C, i.e. a room set point of 22.5°C ±2.5 K. These temperature set points can be changed using the TUNE Control. The airflow is controlled down to the extract airflow, but if the temperature exceeds the new set point, 25 °C, the system begins cooling the room even if there are no occupants.
Change-over ”heating with warm air”
The ADAPT controller has built-in functionality that can sense the difference between the room air and supply air temperature and in doing so can match the airflow to the function of your choice, i.e. cooling or heating with air.
Night-time cooling (chilling the building structure with free cooling)
The controller switches over to a new cooling set point,
17 °C. This can be initiated only via Modbus and a main control system.
Switching between various operating conditions
The switching between occupancy/vacancy is controlled via the DETECT O presence detector. Night-time cooling can only be initiated from the main control system via
Modbus.
Modbus temperature functions
All the temperature values and settings can be reached via Modbus. For detailed particulars of all the variables, see the separate “WISE tables” that are available at www.
swegon.com.
100%
0%
19° 20° 21° 22° 23° 24° 25°
Diagram 5. The control process for occupancy and standard setting for temperature control, 0% corresponds to the min. airflow and no heating, 100% corresponds to the max. airflow or maximum heating.
100%
0%
19° 20° 21° 22° 23° 24° 25°
Diagram 6. The control process for vacancy and standard setting for temperature control
100%
50%
0%
19° 20° 21° 22° 23° 24° 25°
Diagram 7. 2-phase cooling. The control process for occupancy and standard setting for temperature control. When cool value has reached 50% the airflow is up to 100% and the 2 nd water cooling starts.
step with
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WISE Project Manual
TUNE Control hand-held room terminal
The wall-mounted room terminal can be installed as a wireless or fixed wired unit. The useful life of the battery fitted for a wireless connection is approx. 2 years. A warning indicator will appear in the terminal display when the battery voltage is low. A straight, type RJ12 LINK Modbus cable is used for the wired connection. The terminal display provides information about current operating modes and at the same time has set point adjustment for the room temperature. A changed room temperature setpoint will automatically return to the initial setting after 4 hours.
This time can be changed.
Room unit menu structure
If the OK key is pressed and held pressed in for more than
5 sec., this menu will appear and give you access to more information.
Main Menu
Setup
Select Setup from the main menu to advance further, use the OK key and enter code 1919.
Service menu
In the menu structure, use the (up/down) arrow keys to advance to the menus that are shaded in the images below. At the lower edge of the menu screen, you will find information about what function the (left/ right) arrow keys have.
<Exit
Service Menu
Status
RE Settings
Settings
Info
System parameters
Applic. parameters
Alarm
Select>
Figure 13. TUNE Control room terminal. The temperature displayed refers to the set point for the current control mode
Key to the digits used in the figure:
1= Airflow scale in 3 steps, min., medium and max. airflow.
2= Cooling/heating symbol
3= Battery level, or window symbol if the window is open.
4= Operating mode: AUTO, MAN or STOP
5= CO
2
-reading is shown when the CO
2
value > CO
2 room
min.
6= Occupancy symbol is shown only if someone is inside the
Settting keys
▲ UP
▼ DOWN
To increase the temperature set-point
To decrease the temperature set-point
Setting keys
◄ LEFT
► RIGHT
Confirmation key
Used in the subordinate menus
Used in the subordinate menus
OK CONFIRM Input to the subordinate menus, hold the key pressed in for 5 sec.
Status
The current settings and certain actual values are shown in these menus.
Cool/Heat %
SA Damp. pos %
EA Damp. pos %
<Exit
CO2 level ppm
Supply air l/s
Exhaust air l/s
<Previous
-67
100
43
Next>
-67
0
9
Exit>
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Settings
These menus are used for entering various basic settings for the function of the room terminal.
<Exit
Settings
Room unit no
RF pair up
RF Quality
Language
Open damper
Temp. Calibration
Energy saving
Backlight
Next>
Language
Select the desired language in the hand-held terminal unit. The standard language setting on delivery is English.
------------ Language ---------
---
<Exit
[ English ]
Open actuators
Select [Off] if normal operation is to be enabled; select
[On] for forced control to the open position. Used for testing the damper motor for correct function.
The room terminal’s number.
It is possible to utilise two room terminal connected to the same controller for calculation of the mean room temperature in large rooms. If two room terminals are used, the two room terminals must have different identification numbers. You can set which terminal will be the first one and and which will be the second.
Connect units
In this menu, the RF number that appears on the controller rating plate can be entered. This enables the establishment of wireless communication with the controller. This is not required if the hand-held terminal is connected to the hand-held terminal unit by means of a communication cable.
------- Open actuators -------
<Exit
[ Off ]
Temp. Calibration
There is provision in this menu for adjusting the built-in temperature sensor’s value compared with the reading on a calibration thermometer.
---- Connect units -------- Temp. Calibration -----
0 0 1 5 7 [ 0,0 °C ]
<Exit <Exit
RF Test
The quality of the wireless communication can be tested here. A value of >50 is required, the max. value is 100
<Exit
---- RF connection ----
RF Test: 58
Start/Stop
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Energy saving
The function of the background lighting. None or Automatic with switch-off delay.
Background lighting
In this menu, you can set the background lighting in the room terminal. The background lighting is on only for a few seconds to save the battery. By pressing the righthand key, you can select the next menu for setting the delay.
System Parameter Menu
The basic functions that affect communications and what application should be used can be set in these menus.
These values are always preset at the factory and there are separate tables for these parameters. Upon leaving these menus all changes must be confirmed to be saved.
----- Backlight 1/2 -----
Brightness [ 50% ]
Delay [ 5 s ]
Parameter
P_101
Value
1 ID
Modbus Address
Min 1 Max 248
<Exit Change>
<Exit Next>
Info Menu
Information about the software versions, etc. is shown in this menu.
Application Parameter Menu
The function and the size-specific values for the controller can be set in these menus. These values are always preset at the factory. See the separate tables for these parameters, or the configuration document.
Parameter
P_1001
Value
1-
Case selection
Min 1 Max 3
<Exit Change>
Alarms
The various types of alarms normally available in the controller are shown here.
PI overload denotes that the controller cannot reach its set point for room temperature or airflow. This may be due to excessively low pressure for example.
----------- Alarm -----------
No alarms
<Exit
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Occupancy control
DETECT Occupancy
There are pre-programmed delay times in the controller: the switch-on delay is set to 0; the switch-off delay is set to 20 minutes. The times can be changed with the TUNE
Control. If the presence detector via the built-in relay is used for controlling the lighting (on/off), the switch-on delay must always be 0. When lighting control is not used, the switch-on delay can appropriately be set to 30 seconds.
Control of the lighting
The lighting can be switched on/switched off by means of the built-in relay. The wiring can be done after you have removed the cover on the controller. The max. permissible load is 5 A. If the HF air diffuser is to be controlled, the system must include an intermediate relay that can cope with the high currents.
Modbus occupancy functions
All the occupancy functions and settings can be reached via Modbus. For detailed particulars of all the variables, see the separate tables that can be fetched at www.
swegon.com.
Air quality control
When air quality control is enabled, it applies to operation in both the occupancy and vacancy modes.
24V AC
2m
110º
2,5 m 8 m 15 m
Figure 15. Coverage area of a wall-mounted DETECT Occupancy
Ø 6.0 m
Ø 7.5 m
Ø 9.0 m
Ø 10.5 m
2
1
9 10
G0 X4
11 12
G0 X5
15
13 14
G0 X6
G0
16
X7
17
G0
18 21
X8
G G0
24
22 23
G G0
Z Z
25 26
G0
G0
Y G
29 30
27 28
Y G
31 32
G0
Y G
38
36 37
3
R1 R2
4
230V max 2A
Figure 14. To connect the wall-mounted or ceiling-mounted
DETECT Occupancy Note that the built-in temperature function must be disabled by disconnecting the jumpers for this function. The built-in R1 – R2 relay can be connected after you have removed the enclosure.
1 = CONTROL Damper
2 = DETECT Oa V 110 or T 360
3 = Controller mounted on CONTROL Da
4 = Lighting controlled via the built-in relay. Max. 250 V, 5 A.
Figure 16. Coverage area of a ceiling-mounted DETECT Occupancy
Table 13. The setting of times in DETECT Occupancy
On
Off
Position
A
B
C
D
On
0 s
10 s
30 s
1 min
Off
5 s
1 min
5 min
10 min
E 5 min 20 min
F 10 min 30 min
Always switch off the power supply before repositioning the jumpers. DETECT Occupancy is supplied as standard set to position B for both delayed switch on and position A for delayed switch off.
Table 14. Temperature relay in DETECT Occupancy
Jumper Temp °C Description
24
26
Enables normal regulation if the temperature exceeds the preset value
28
15
17
Enables normal regulation if the temperature is below the preset value
19
To deactivate the built-in temperature control, disconnect the jumpers.
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Heating control
A heat valve control system can be connected to the controller The system makes it possible to control approx. 10 valves with a total capacity of 72 VA. Heating control can be selected as 24 V AC on/off and is then time proportional, or as 0 - 10 V DC.
Valve exercise is enabled and takes place at 72-hour intervals. The time is adjustable for 0 – 120 hours. 0 denotes that the function is shut off.
First open-function
The ACTUATOR valve actuator has first open function.
The valve is then supplied set to an open position making it possible to fill and vent the radiator system without any problem. When the CONTROL Da has been energized, the valves must be enabled for at least 6 minutes so that the catches will release. The controller is equipped with a function for valve exercise, which involves energizing the valve for 8 minutes so that the catches release.
Modbus variables, heating control
All the values and settings can be reached via Modbus.
For detailed particulars of all the variables, see the separate tables that can be fetched at www.swegon.com.
Two-phase cooling control
The CONTROL controller can be configured for two-phase cooling in sequence with heating, first airborne cooling and if this is not sufficient the valve opens for waterborne cooling. The built-in relay can be configured to control the fan in a fan coil unit in one on/off step. The fan has a switch-off delay of 5 minutes. This delay is adjustable and prevents any disruptive start/stop during cooling operation. There is provision for connecting a condensation guard.
24V AC
9 10
G0 X4
11 12
G0 X5
13 14
G0 X6
15
16
G0
X7
17
G0
22 23
18 21
X8
G G0
24
G G0
Z Z
25 26
G0
G0
Y G
29 30
27 28
Y G
31 32
G0
Y G
38
36 37
24V AC 1
2
1
2
9 10
G0 X4
11 12
G0 X5
13 14
G0 X6
15
G0
16
X7
17
G0
22 23
18 21
X8
G G0
24
G G0
Z Z
25 26
G0
G0
Y G
29 30
27 28
Y G
31 32
G0
Y G
38
36 37 Figure 18. To connect the cooling circuit valve and the fan control system.
1 = Valve actuator for cooling circuit, 24 V AC on/off or 0 - 10 V
DC.
2 = Condensation sensor
Figure 17. To connect the radiator valves. Max. 10 valves.
1 = Radiator with wiring terminals suitable for connection with a jack .
2 = Valve actuator for heating circuit, 24 V AC on/off or 0 - 10 V
DC
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DETECT Quality
Air quality control with DETECT Quality 0 with a CO
2 signal to CONTROL Db. The CO
2
signal oversteers the temperature control function if the CO
2
value in the room becomes too high. The preset limit values are 800 - 1000 ppm. These values are set in the CONTROL controller. The air quality is regulated regardless of whether the system is operating in the Occupancy or Vacancy mode. If CO
2 control takes place independent of the room temperature, the air in the room is likely to be cooled down more than is necessary. If the heating control with radiator function has been enabled, the radiators will heat up if the room temperature becomes too low.
• DETECT Qa 0, single room sensor without display
Window contact
A window contact can be wired to CONTROL Damper.
The contact should normally be closed when the window is closed. When the window is opened, all ventilation, cooling and heating is completely shut off. If the temperature should drop in the room, the frost protection function will switch on with a set point of 10 °C. The window contact must be enabled in Parameter P_1621.
Modbus variables, external control
All the values and settings can be reached via Modbus.
For detailed particulars of all the variables, see the separate tables that can be downloaded from www.swegon.com.
1
G
G0
OUT1
24V AC
9 10
G0 X4
11 12
G0 X5
13 14
G0 X6
15
G0
16
X7
17
18 21
G0
X8
G G0
24
22 23
G G0
Z Z
25 26
G0
G0
Y G
29 30
27 28
Y G
31 32
G0
Y G
38
36 37
Figure 19. To connect accessories
1 DETECT Qa 0
24V AC
4
1
9 10
G0 X4
11 12
G0 X5
13 14
G0 X6
15
G0
16
X7
17
G0
18 21
X8
22 23
G G0
24
G G0
Z Z
25 26
G0
G0
Y G
29 30
27 28
Y G
31 32
G0
Y G
38
36 37
Figure 20. To connect a window contact
1 CONTROL Db
2 Window contact.
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Connection for Modbus communication
The details apply to Program Version 0.18 or later.
CONTROL Damper has two different connections used for Modbus communication. The connections are used in different ways, depending on whether CONTROL Damper is configured for the Super WISE or a BMS system.
Mb 1 Communication loop to main control system in
BMS mode (Damage). The communication settings can only be changed when CONTROL Damper is configured for the BMS mode, Dip switch 2 set to the ON position.
The connection is Modbus slave.
Mb 2 Communication loop under CONTROL Damper zone damper or Super WISE Router. The communication settings are fixed and cannot be changed.
Terminations
CONTROL Damper has built-in termination resistance that can be enabled depending on where in the system the product is located, see table. The termination plug should be pulled outward using small pliers.
Modbus cables
A RS485 Serial Line is used in the WISE system (the cables must be shielded).
One end of each Modbus cable must be connected to protective ground, Gnd. On CONTROL Damper, the cable shield should be connected to Gnd (wiring terminal 4 or
8). This wiring arrangement is not shown in the figure because such wiring is only done on the first and the last controller, which are not necessarily CONTROL Dampers.
Category 5 cables with AWG24 area or better can be used for cable lengths up to 800 metres. The cable ends must be fitted with termination for fault-free operation.
Mb 1
Mb 2
24V AC
RJ12
3.1
RJ12
3.2
1 2
- +
3 4
C
Modbus
NC
2
5 6
- +
7 8
C
Modbus
NC
1
1 2
3
1 2
3
21 22
23 24
G G0
G G0
.
PWR
1
Figure 21. CONTROL Da room application Modbus connections.
Explanation, 1=Termination resistance.
1 2 on off
Figure 22. To set the switch for BMS mode on CONTROL Damper.
Table 15. Configuration, Modbus connections
Connection
Modbus 1
Modbus 2
Plinth
5-8
1-4
Function
RTU Slave to BMS System
RTU Slave to Super WISE
Modbus 3 RJ12 RTU Slave to TUNE Control
Note: it is possible to connect up to the network using one connection only: either Mb2 or Mb 2.
Table 16. Terminations
Mb 1 & 2 (Slave)
In the middle of the loop
Last in the loop
3
1
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CONTROL Damper – Zone functions
CONTROL Damper, with associated SLAVE Control slave damper for extract air, is supplied fully configured from the factory. Changes in the controlled pressure or airflow with offset can be made using the TUNE Control handheld terminal.
Functions
• Pressure regulation in supply and extract air zones respectively
• Flow regulation of the slave unit or constant flow
• Slave flow regulation that sums several CONTROL
Damper units via Super WISE
• Emergencies open or closed via Modbus RTU
• Circuit closure via external contact function
• Wireless hand-held terminal for checking and setting values
These codes are translated to a numeric value that is programmed in the controller, see table below. Everything is usually preset on delivery from the factory.
Table 18. Values for programming.
Parameter P_1701 P_1702 P_1703 P_1704 P_1705 P_1706
PS
PE
PSFE
FS
FE
PED
MSFE
OS
OE
OSOE
OSFE
1
0
1
1
1
1
1
1
0
0
1
1
1
0
0
0
1
1
1
1
1
0
0
0
0
0
0
0
0
0
0
0
0
1
3
3
1
2
3
4
2
1
2
2
5
2
3
3
4
1
1
1
2
2
3
0
0
0
0
1
0
0
1
0
1
1
Installation
Separate installation instructions are available for CON-
TROL Damper and SLAVE Control. The dampers are always furnished with a code (see table below) that shows which function is preset. All the configuring can be changed afterward if the dampers have been installed at the wrong place.
N.B.! When a controller is to be ”connected” to a group for summation of the airflows in Super WISE, strict rules apply to the Modbus ID number. This in combination with P_1701 defines the product for Super WISE. For further information about MB ID, see the section on Super WISE. The MB ID should be according to the table. It is important that the correct code is entered; otherwise Super WISE or TUNE Control cannot interpret data correctly. Normally, CONTROL Damper is delivered with all settings factory made.
Table 17. Configuration codes
Code Function
PS
PE
Pressure regulation and flow measurement in the supply air duct.
Pressure regulation and flow measurement in the extract air duct.
PSFE Pressure regulation in the supply air duct. Slave
Zone of the extract air with a SLAVE Zone. Used most often when a supply air duct should control an extract air duct with or without offset. The PSFE option requires the accessory SLAVE Zone.
FS
FE
Flow regulation in the supply air duct. Is most often used for constant flow regulation.
Flow regulation in the extract air duct. Most often used when Super WISE calculates the flows to be regulated.
PED Pressure regulation in the extract air with reverse operation where the GOLD unit or zone dampers is/ are used for balancing the airflow
MSFE Measurement of airflow in the supply air duct. Slave control of exhaust air with SLAVE Zone. MSFE functionality requires that the product is combined with accessories, SLAVE Zone.
OS Optimisation of the supply air duct
OE Optimisation of extract air duct
OSOE Optimisation of both supply- and extract air duct.
OSFE Optimisation of the supply air duct. Slave control of extract air duct with SLAVE Zone. Is used to extract as much air as supplied to the zone. Separate offset can be set.
P = Pressure
F = Flow
S = Supply air
E = Extract air
D = Reverse exhaust air control
M = Measurement of flow only
O = Optimisation
Technical data
All technical and electrical data are specified in the catalogue leaflet for each product.
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Connections
Connect the CONTROL Damper to 24 V AC supply voltage and protect the circuit with a maximal 6 A fuse.
Wire all other connections to Modbus and other components according to the wiring diagram. The controller is equipped with jack-like screw terminals, which substantially simplify installation..
Requirements on wire cross-sectional areas
Supply voltage with 24 V AC to (1), at maximal 6 A is necessary. ≥ 1.0 mm 2 . Signal wire from (3) to (1) maximal
30 m >= 0.75 mm 2 . A 4-wire with 0.75 mm 2 should be fitted between (1) and (2). RKKX is an appropriate type of cable for use.
24V AC
1
3
1
13 14
G0 X6
15 16
G0 X7
21 22
G G0
23 24
G G0
WISE Project Manual
24V AC
3 2
1
13 14
G0 X6
15 16
G0 X7
21 22
G G0
23 24
G G0
G0
Y G
38
36 37
U G0
Y G
2
Figure 25. CONTROL Damper, configuration code PSFE with
SLAVE Ca.
Figure 23. CONTROL Da Configuration Code FS and FE
24V AC
3
3 2
1
1
13 14
G0 X6
15 16
G0 X7
21 22
G G0
23 24
G G0
4
1
24V AC
9 10
11 12
G0 X4
G0 X5
13 14
G0 X6
15
G0
16
X7
17
G0
18 21
X8
G G0
24
22 23
G G0
Z Z
25 26
G0
G0
Y G
29 30
27 28
Y G
31 32
G0
Y G
38
36 37
Figure 24. CONTROL Da configuration code PS and PE, PS must always be mounted on the supply air duct and PE on the extract air duct.
Explanations, figures 23-26
1. CONTROL Damper
2. SLAVE Control
3. DETECT Pressure pressure sensor
4. Exterior contact for shutting the damper off.
Figure 26. CONTROL Damper, further contact for switching off the function. The damper closes completely.
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Connection for Modbus communication
The details apply to Program Version 0.18 or later.
CONTROL Damper has two different connections used for Modbus communication. The connections are used differently, depending on whether CONTROL Damper is configured for the Super WISE or a BMS system.
Mb 1 Communication loop to main control system such as Super WISE or BMS (Damage). The communication settings can only be changed when CONTROL Damper is configured for the BMS mode, Dip switch 2 set to the ON position. The connection is Modbus slave.
Mb 2 Communication loop to underlying room controllers in the WISE system. The connection is Modbus master, and must always be terminated in position 2.
Terminations
CONTROL Damper has built-in termination resistance that can be enabled depending on where in the system the product is located. The termination plug should be pulled outward using small pliers.
Mb 1 If CONTROL Damper is last in the Modbus loop; activate the termination to position 1, and otherwise position 3.
Mb 2 If CONTROL Damper is a master for an underlying loop of air diffusers; activate the termination to position 2.
Modbus cables
A RS485 Serial Line is used in the WISE system (the cables must be shielded).
One end of each Modbus cable must be connected to protective ground. On CONTROL Damper, the cable shield should be connected to NC (wiring terminal 4 or 8). This wiring arrangement is not shown in the figure because such wiring is only done on the first and the last controller, which are not necessarily CONTROL Dampers.
Category 5 cables with AWG24 area or better can be used for cable lengths up to 800 metres. The cable ends must be fitted with termination for fault-free operation.
Table 19. Configuration, Modbus connections
Connection
Modbus 1
Plinth
5-8
Function
RTU slave to Super WISE
Modbus 2
Modbus 3
1-4
RJ12
RTU master to room
RTU master
Table 20. Terminations
Mb 1 (Slave for the Super WISE loop)
In the middle of the loop 3
Last in the loop
Mb 2 (Master for the room loop)
1
First in the loop 2
24V AC
Mb 1
Mb 2
1 2 on off
RJ12
3.1
RJ12
3.2
1 2
- +
3 4
C
Modbus
NC
2
5 6
- +
7 8
C
Modbus
NC
1
1 2
3
1 2
3
21 22
G G0
.
23 24
G G0
PWR
1
Figure 27. To set the switch for BMS mode on CONTROL Damper.
Figure 28. CONTROL Da Modbus connections.
Explanation, 1=Termination resistance, the settings are shown under the section entitled Network Structure.
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2
1
Figure 29. The key set.
TUNE Control
The parts of the hand-held micro terminal
1 Display
Shows the current status of the climate system and information about the pressure and airflow.
It also shows the settings you enter with the key set.
2 Key set
Used for changing parameter settings.
To use the TUNE Control
The following section describes how the room terminal unit should be used for reading and changing values and settings.
The key set
The key set is used for navigating forward and back in the menus.
Figure 30. Wireless communication with CONTROL Damper. The communication distance is limited to <5 metres when the sheet metal cover is on the controller. If the cover is removed, the distance can be up to 20 metres including walls of a simpler type in between. If any communication problem should arise, the TUNE
Control can be connected directly in the controller with the spiral cord to the RJ12 contact to the side of wiring terminal 1.
1 Keys for entering settings
▲ UP Next menu/parameter (increase)
▼ DOWN Previous menu/parameter
(decrease)
2 Keys for entering settings
► RIGHT
◄ LEFT
See the menu screen
See the menu screen
3 Accept key for pressure and airflow
OK CONFIRM Confirms the setting
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TUNE Control menu structure
The first menu will always show a temperature when the
TUNE Adapt is started up with battery power for the first time.
Status
This menu shows whether the controller is force controlled which means that normal regulation is blocked.
20°
Emergency
Manual
Switch
<Exit
0
0
0
OK select
To readjust the TUNE Control to become a control unit for
CONTROL Damper/Optimize, the following code must be entered: ”1919”. After that, set the correct RF frequency.
Go to the “Connect units” menu. When communication has been established, the hand-held terminal display shows the name of the product to which it is connected.
“No reception” will be shown if communication has been interrupted.
Then Setup is selected from the main menu. To advance further, the OK key is used.
CONTROL D
Mb id: 21
For normal control all the values should be 0. The emergency position signifies that a main control system has transmitted an “emergency signal” to the controller. This can cause the damper to be completely open or closed depending on the configuration.
Manual signifies that the user has forced the damper to a specific position.
Switch indicates that the connected contact function is enabled and that the damper is closed.
RE Settings, CONTROL Damper PSFE
The controller’s actual values and set points for pressure and airflow are shown in this menu. The menu shows only the values that apply to the preset control function.
In the menu example below, the controller is set to the
PSFE function, i.e. Pressure regulation of the supply air and slave regulation with SLAVE Control.
OK select
Main Menu
Setup
Pos %
SA Pa
SA l/s
<Exit
75
31
210
OK select
30
Next>
The CONTROL Damper supply air damper, damper position, regulated pressure, pressure and airflow set points are shown in the first menu.
Service Menu
In the menu structure, the arrow (up/down) keys are used to advance to the menus that are shaded in the images below. At the lower edge of the menu screen, information about what functions the arrow (left/ right) keys have is presented.
Pos %
SA l/s
Offset l/s
<Previous
65
195
OK select
30
-15
Exit>
<Exit
Service Menu
Status
RE Settings
Settings
Info
System parameters
Applic. parameters
Alarm
Select>
The extract air damper values are shown in the next menu. The set points can be changed in the right-hand column in both menus by pressing OK and then pressing the appropriate arrow key to increase/decrease the value,
.
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RE settings CONTROL Damper PS
The controller’s actual values and set points for pressure and airflow in the supply air system are shown in this menu. It is simple to change the set point for pressure.
Press OK and increase/decrease with the arrow keys .
The airflow is not shown in the first version of TUNE Control. However, if you return the hand-held unit to us, we will update it free of charge to include this reading.
Pos %
TL Pa
TL l/s
<Exit
75
31
210
OK select
30
RE serttings CONTROL Damper PE
The controller’s actual values and set points for pressure and airflow in the extract air system are shown in this menu. It is simple to change the set point for pressure.
Press OK and increase/decrease with the arrow keys .
The airflow is not shown in the first version of TUNE Control. However, if you return the hand-held unit to us, we will update it free of charge to include this reading.
Settings
These menus are used for entering the basic settings.
<Exit
Settings
(MB Address)
Connect units
RF Test
Language
Select>
Modbus address
This menu function is not used for the zone version of
CONTROL Damper.
Connect units
In this menu, the RF number that appears on the controller rating plate can be entered. This enables the establishment of wireless communication with the controller. This is not required if the hand-held terminal is connected to the hand-held terminal unit by means of a communication cable.
---- Connect units ----
0 0 1 5 7
Pos %
FL Pa
FL l/s
<Exit
75
31
210
OK select
30
<Exit
RF Test
The quality of the wireless communication can be tested here. A value of >50 is required, the max. value is 100.
---- RF connection ----
RE settings CONTROL Damper FS
The controller’s actual values and set points for airflow in the supply air system are shown in this menu. It is simple to change the set point for pressure. Press OK and increase/decrease with the arrow keys .
RF Test: 58
Pos %
TL l/s
<Exit
75
244
OK select
250
<Exit Start/Stop
Language
Select the desired language in the hand-held terminal unit. The standard language setting on delivery is English.
------------ Language ---------
---
RE settings CONTROL Damper FE
The controller’s actual values and set points for airflow in the extract air system are shown in this menu. It is simple to change the set point for pressure. Press OK and increase/decrease with the arrow keys .
Pos %
FL l/s
<Exit
75
178
OK select
175
<Exit
[ English ]
Info Menu
Information about the software versions, etc. is shown in this menu.
Application
Prog. version
Battery level
<Exit
0.20
Parameter ver.
Serial number 31297
Room temperature 23.2 C
5.8 V
D1D2
0.24
5
157
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WISE Project Manual
System Parameter Menu
The basic functions that affect communications and what application should be used can be set in these menus.
These values are always preset at the factory and there are separate tables for these parameters. Upon leaving these menus all changes must be confirmed to be saved.
Parameter
P_101
Value
1 ID
Modbus Address
Min 1 Max 248
<Exit Change>
Application Parameter Menu
The function and the size-specific values for the controller can be set in these menus. These values are always preset at the factory. See the separate tables for these parameters, or the configuration document.
Parameter
P_1001
Value
1-
Case selection
Min 1 Max 3
<Exit Change>
Alarm Menu
Possible alarms are shown here, PI overload signifies that the control set point cannot be obtained.
----------- Alarm -----------
No alarms
<Exit
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Super WISE
Super WISE is a complete computer that communicates with all Swegon products that are included in the WISE and Conductor system as well as the GOLD air handling unit. Super WISE operates also as a Gateway to the controlling intelligent building system.
Functions:
• Pressure optimisation of the supply air and extract air fans
• Addition and subtraction of airflows within a zone
• Can manage 10 zones with up to 8 dampers (CON-
TROL Damper) in each zone
• Up to 60 rooms can be connected in each zone
• Gateway to building automation via Modbus RTU,
Modbus TCP or BACnet TCP
• Flat data structure permits access to more than 50 variables per damper or room controller
• Built-in web page for supervision of all Swegon connected zones and room products
• Logging function with saved data for up to 90 days
• Fire, summer night cooling function from GOLD down to room level.
Optimisation function
When connected together with the GOLD, the Super
WISE has a fully developed function for optimising the performance of the fans. Communication is carried out via Modbus RTU connection via RS-485. The optimising function fetches information about the damper blade positions of all the connected up zone dampers, supply air and extract air respectively are separated from one another. The optimising function adjusts the pressure regulation in the GOLD air handling unit so that at least one damper (both supply air and extract air system) is at least 80% open in the system the whole time. If any damper is more open than 90% the pressure in the air handling unit will increase. The recommended limit values are 80-90%.
Summation in zones
All the airflows of the master dampers are added/subtracted in each zone. The result is then divided among the connected slave dampers in the zone.
Table 21. Grouping of dampers.
Damper no.
Damper type Zone (0-9)
3
4
5
1
2
6
7
Supply air damper
Supply air damper
Supply air damper
Supply air damper
Extract air damper
Extract air damper
–
Master 1
Master 2
Master 3
Master 4
Master 5
Slav 1
Slav 2
8 – Slav 3
Example:
Master 1 + Master 2 + Master 3 + Master 4 - Master 5 = Slave 6
7
8
6
7
8
5
6
3
4
Table 22. MB ID system of the dampers.
Damper no.
Type of damper
Zone
0
MB
ID
Zone
1
MB
ID
Zone
2
MB
ID
Zone
3
MB
ID
1
2
Master
Master
1
2
11
12
21
22
31
32
Master
Master
Master
Master
Master
Master
Slave
Slave
Slave
7
8
134
135
136
5
6
3
4
17
18
144
145
146
13
14
15
16
27
28
154
155
156
23
24
25
26
37
38
164
165
166
33
34
35
36
Up to 8 dampers can be defined in one zone. All 8 of these can be master dampers, and no slave flow calculation will then be carried out. Max. 3 slave flow dampers can be defined per zone. All the master dampers will then be added up and the airflow will then be divided among the slave dampers that have been defined. Swegon recommends always specifying the slave dampers last on the list (dampers 6 – 8)
.
.
.
.
.
.
.
.
.
n Zone
9
MB
ID
.
.
91
92
93
94
95
96
97
98
224
225
226
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Super WISE web page
A separate handbook that provides a detailed description of all the functions, the Super WISE Manual, is available for downloading at www.swegon.com.
The functions of the web page in a nutshell:
• Presents the network in the form of a tree structure similar to that of the Windows File Manager
• Provides a graphic overview of the zone dampers and room illustrations
• Offers access to detailed data for all the zone dampers and room controllers
• A number of tabs for supervision and settings
Figure 31. The illustration shows the Super WISE web page.
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Settings in the GOLD
To enable communication between the GOLD – Super
WISE, enter the settings in the hand-held micro terminal of the GOLD under the Functions Menu. The GOLD must have Program Version 5.08 or better.
There is a special tab on the web page for setting the function with Super WISE optimising. The CONTROL
Optimize function has equal status with Super WISE in the hand-held terminal.
Check that the function for CONTROL Optimize is enabled.
* CONTROL Optimize *
OPERATION
SETTINGS
OFF/ON
* CONTROL Optimize *
DISABLED
* GOLD RX TOR 14:43 *
INSTALLATION
* FUNCTIONS *
* FUNCTIONS *
TEMPERATURE
FLOW/PRESSURE
FILTERS
OPERATION
HEATING
COOLING
HUMIDITY
ReCO2
IQNOMIC PLUS
ALL YEAR COMFORT
CONTROL Optimize
CHANGE ?
Settings for optimising
The basic settings for the damper positions used for optimising can be changed here. The changes are automatically saved in Super WISE.
* CONTROL Optimize *
OPERATION OFF/ON
SETTINGS
* CONTROL Optimize *
OPTIMIZING 70/90 %
START DELAY
REMAINING TIME
10min
0s
Figure 32. The illustration shows the GOLD Web page, Tab for C Optimize. You can enter all the settings using the web page instead of doing so in the hand-held terminal. The illustration is cut off at the bottom edge. When Super WISE is connected, not all the damper positions are shown in the table on this page. These positions can be read directly in the Super WISE.
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WISE Project Manual
Super WISE communication
The Modbus structure with Super WISE
Swegon’s CONTROL Damper zone damper acts as a router and divides the network into smaller parts. All the air diffusers and room dampers in one zone should be wired to the same loop, a so-called zone loop. A zone usually consists of two or more zone dampers. We suggest that you choose a supply air damper as a router with all the room products subordinate to it. The room products are Modbus slaves and the zone damper is the
Modbus master. This should be done for all the zones in the system. In systems without CONTROL Damper, the
Super WISE Router will be used as the communication unit between Super WISE and the room products.
Also wire all the zone dampers in the ventilation system together on the same loop, a so-called system loop, under the Super WISE. Note that also the zone dampers that do not have a subordinate room loop wired to them must be wired to Super WISE.
Technical network requirements
Network cable
Cable cross sectional area
Belden 9841NH min AWG 24 or 0.20mm²
Cable length
Termination
Number of nodes/loops
Max. 600 m
120 Ohm
Theoretically 245 nodes/loops, in practice: 90
Protocol
Modbus RTU
Adjustable speed
Word length, fixed
Stop bits, adjustable
Parity, adjustable
RS485
9.600 - 19.200 - 38.400
8 bits
1 or 2 none - odd - even
The Modbus network structure without
Super WISE
A system that is able to communicate via Modbus on various levels is required in order to be able to use the main control functions.
Modbus RTU
All the zone and room products in the WISE system are capable of intercommunication via the open Modbus RTU protocol. The Modbus variables for all the products can be downloaded from Swegon’s home page.
The system operates excellently in the “Stand-alone” version. This means that air diffusers and dampers do not need to be connected up to a main control system in order to obtain full functionality.
Factory configuration
All the Swegon products can be supplied preconfigured from the factory, with the design flows, temperature requirements, control function, marking, Modbus speed and optional Modbus address. If Super WISE is included in the system, the modbus address should be placed according to a special schedule. This enables Super WISE to automatically identify all the Swegon controllers.
Modbus lists (tag list)
A complete and separate document is available containing all the Modbus variables and parameter tables for all the different products in the WISE system. The document can be downloaded from www.swegon.com.
Terminations
CONTROL Damper, Super WISE Router and the CONDUC-
TOR products have built-in termination resistance that can be enabled if the product is first or last in a Modbus loop.
Table 23. Terminations
Position
First on loop
Centre of loop
End of loop
RTU type
Master
Slave
Slave
Termination
2
3
1
Table 24. Modbus types, Mb1 and Mb2.
Product Connection
CONTROL Damper zone
CONTROL Damper zone
CONTROL Damper room
CONTROL Damper room
CONDUCTOR
CONDUCTOR
Mb1
Mb2
Mb1
Mb2
Mb1
Mb2
RTU typ
Slave
Master
Slave
Slave
Slave
Slave
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Network, example 1
Schematic image of a Modbus network where WISE is used in combination with a GOLD air handling unit. Each zone section must be terminated ”T”. In the CONTROL Damper there is a built-in termination resistor that you must move to the correct position. A separate 150 Ohm termination resistor must be wired inside the junction box of the ADAPT diffusers. In this installation, the Modbus communication in the ADAPT products must always be set for 38.400 - 1 stop bits and no parity.
Mb1
Mb2
Mb2 Mb1
Zone 0 Zone 1 Zone 2
Figure 33. Schematic image of a Modbus network, where the Super WISE is used in combination with a GOLD air handling unit. Mb1 for plinths 5-8, Mb2 for plinths 1-4. Zone 3 is for CONTROL Da FSFE or CONDUCTOR W1-W4.
Explanations: Mb1 refers to wiring terminals 5 - 8, Mb2 refers to wiring terminals 1 - 4. Zone 3 can be room controller CONTROL Da
FSFE or CONDUCTOR W1-W4.
RJ12
3.1
RJ12
3.2
1 2 3 4 5 6 7 8
- + C
NC - + C
Modbus 2 Modbus 1
NC
21 22 23 24
G G0
.
G G0
PWR
1 2 3 1 2 3
Mb 2
Mb 1
RJ12
3.1
RJ12
3.2
1 2
- +
3 4
C
Modbus
NC
2
5 6
7 8
C NC
- +
Modbus
1
1 2
3
1 2
3
21 22
23 24
G G0
G G0
.
PWR
Figure 34. Terminations (C) for Super WISE Router. Mb1 position
3, Mb2 in position 2.
Mb1
Mb2
Figure 35. Terminations for CONTROL Damper (1) in the upper figure. Mb1 position 1, Mb2 always in position 2.
RJ12
3.1
RJ12
3.2
1 2
- +
3 4
C
Modbus
NC
2
5 6
7 8
C NC
- +
Modbus
1
1 2
3
1 2
3
21 22
23 24
G G0
G G0
.
PWR
Table 25. Terminations
Location
First in the loop
In the middle of the loop
Last in the loop
Type RTU
Master
Slave
Slave
Termination
2
3
1
Mb1
Mb2
Figure 36. Terminations for CONTROL Damper (2 and 3) in the upper figure. Mb1 position 3, Mb2 in position 2.
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WISE Project Manual
Network, example 2
Schematic image of a smaller Modbus network where the WISE is connected up to a main BMS/SCADA control system.
Termination should be carried out as shown in the figure. The theoretical network length will be 600 metres with a theoretical 128 items however in practice 60 dampers and room products. CONTROL Damper must be set to BMS mode by setting Ohm switch 2 to position ON, see the figure. In the BMS mode, the communication interface can be changed according to the table ”Technical Network Requirements”.
T
Mb1
Mb1
T
Mb1
Zone 1 Zone 2 Zone 3
Figure 37. Schematic image of a smaller Modbus network where the WISE is connected to a main MBS/SCADA control system. In
Zone 3 a CONTROL Damper FSFE is shown for room application, can also be a CONDUCTOR controller. Termination (T) must be wired last in the loop. If it is a CONTROL Damper then it has a built-in termination resistor. The red wires in the figure are LINK Modbus. All the others are network cables for Modbus RTU communication.
1 2 on off RJ12
3.1
RJ12
3.2
1 2
3 4
C NC
- +
Modbus
2
7 8
5 6
C NC
- +
Modbus
1
1 2
3
1 2
3
21 22
23 24
G G0
G G0
.
PWR
Mb2
Mb1
Figure 38. To set the switch for BMS mode on CONTROL Damper.
After this change, the controller must be restarted.
Figure 39. Terminations for CONTROL Damper. Mb1 position 3, if the controller is last in the network loop (zone 3 for instance) the termination should be 1.
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Super WISE network structure
Super WISE installed in a system with GOLD units requires one Super WISE per air handling unit. The optimising function communicates with the air handling unit via
RS485. The communication upward via ETHERNET makes the Super WISE and the GOLD air handling units accessible, on one hand via web browser on the other via the main intelligent building system via Modbus TCP. It is possible to connect the main control system via the RS485 interface with Modbus RTU, Modbus TCP or BACnet TCP.
Installation instructions
Separate instructions are available for download at www.swegon.com. These instructions provide detailed information about selecting cables and the composition of the network structure.
ETHERNET
Super WISE
WISE/CONDUCTOR CONTROL D
Super WISE
GOLD
GOLD
WISE/CONDUCTOR CONTROL D
WISE/CONDUCTOR ROUTER GOLD WISE/CONDUCTOR CONTROL D
WISE/CONDUCTOR CONTROL D
GOLD
WISE/CONDUCTOR CONTROL D
Figure 40. Shows how the various components are installed in a building. The left-hand sections shows a Super WISE that is not connected to the air handling unit: consequently no optimising can take place. The right-hand section shows the connections necessary for enabling the optimising function.
Explanation:
The dashed black line denotes upward communication to ETHERNET.
The solid black line denotes connection to the GOLD for the optimising function.
The blue line denotes connection between the zone loop and the zone dampers and routers.
The red line denotes connection of the room loop from the zone/router to the room regulators..
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Adjustment
If all the ADAPT Diffusers and ADAPT Dampers are supplied as “default”, i.e. set to the standard settings for air flows, etc., then all the air diffusers and registers must be set for the air flows, at which the air diffusers and registers must operate before you begin adjustment. In the adjustment mode, the air diffusers (forced) are set to maximum. airflow. This is evident by the LED which has a steady orange glow. If the rooms have balanced ventilation, make sure that the door is open during the adjustment process. The extract air system is normally adjusted first.
To adjust the system without optimization
• Zone damper (1) controls the pressure in the zone to given static pressure. Reference pressure (2) is normally preset to Ps=40 Pa at the factory.
• Look for the reference zone (the zone that has the lowest flow expressed as a percentage compared to the design max. flow). This can be done simply by reading the current airflow in each zone damper using the TUNE Control hand-held terminal.
• Shut off x number of zone dampers (3) that correspond to the flow which is deducted from the max. flow based on the diversity factor (in order to guarantee airflow to the remaining zones). Use TUNE Control, and adjust CONTROL Damper to the closed position by temporarily reducing the pressure set-point or the air flow.
• Inspect all the diffusers in the reference zone and check that they are energised and operate correctly.
• Adjust the reference pressure (4) of the air handling unit until the design zone damper is 85-90% open.
This applies only to systems that do not have CONTROL
Optimize.
• Read the total design airflow for the zone across the zone damper (1). If needed, increase/decrease the reference pressure in the zone damper. Both the airflow damper position and pressure reading are visible at the same time in the display and the pressure set-point can be immediately changed if required. If the pressure is too high, you can find out why only by connecting up to the design room and checking its damper position, which should be between 70-90% open.
• Then connect up one diffuser in the zone. Begin with the extract air if there is balance in the room. Check the diffuser size and the design set points. Read the current airflow (actual value), then reset the adjustment level to min flow and read the same. Finally reset the adjustment level to the unoccupied flow rate, and check this as well. Disconnect the adjustment level and enter the data in your report. We also recommend that you simultaneously begin commissioning, by checking the presence detector and other control functions, if any, such as CO
2
, radiator in sequence etc. This will save much time and money. If there are slave air diffusers in the room, they must also be checked separately.
2
2-10V
Modbus
3
1
4
Figure 41. Overall view of a system with the following components:
1 = Zone damper, CONTROL Damper
2 = Pressure sensor, DETECT Pressure
3 = Zone damper, CONTROL Damper
4 = Locations of the pressure sensors in the air handling unit
• Follow the same procedure for every diffuser/damper in the zone.
• When all the zones except the shut-off zones are ready and checked, adjust these zones to normal operation. Carry out the same performance check as that described above.
• When the last zone has been checked and its data has been entered in the report, the system is adjusted, started up and operational.
• Follow the same procedure for the supply air.
• If the extract air is centrally located, check its airflows directly in the zone damper.
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To adjust the system with optimisation
Using our Super WISE system optimiser (5) offers you several benefits: You can place the unit pressure sensors (6) close to the air handling unit without having to search for a design zone for supply air and extract air respectively. Super WISE is connected together (Modbus RTU) with all the zone dampers and reads each damper position. It then lowers the pressure generated by the air handling unit until one damper is almost fully open. In this way, the air handling unit always uses the least possible energy regardless of the min. or max flow setting.
• Check that Super WISE is operating. Do so via the
GOLD air handling unit hand-held terminal or web page. All the positions of the zone damper can be seen on the web page.
• Choose an x number of zones that are to be deducted based on the diversity factor, select the zones that have the least percentage opening %, “close” these zones.
Use TUNE Control, and adjust CONTROL Damper to the
“closed” position by temporarily reducing the pressure set-point or the air flow.
• Set the air handling unit’s max. set-point for pressure regulation. It should be a few percentages above the current pressure that refers to the max. airflow at the defined diversity factor. This must be done separately for the supply air and extract air respectively. This setting can be entered directly in the GOLD air handling unit menu.
• Inspect all the diffusers in the reference zone and check that they are energised and operate correctly.
• Read the total design airflow for the zone across the zone damper (1). If needed, increase/decrease the reference pressure in the zone damper, both the airflow damper position and pressure reading are visible at the same time in the display and the pressure set-point can be immediately changed if required. If the pressure is too high, you can find out why only by connecting up to the design room and checking its damper position, which should be between 70-90% open.
• Then connect up one diffuser in the zone. Begin with the extract air if there is balance in the room. Check the diffuser size and the design set-points. Read the current airflow (actual value), then reset the adjustment level to min flow and read the same. Finally reset the adjustment level to the unoccupied flow rate, and check this as well. Disconnect the adjustment level and enter the data in the report. It is advisable to also commission at the same time, checking the presence detector and the other control functions, if required, such as CO
2
, radiator in sequence, etc. This saves you time and money. If there are slave air diffusers in the room, they must also be checked separately.
• Follow the same procedure for the every diffuser/ damper in the zone.
• When all the zones except the shut-off zones are ready and checked, adjust these zones to normal operation. Carry out the same performance check as that described above.
• When the last zone has been checked and its data has been entered in the report, the system is adjusted, started up and operational.
2
5
3
1
6
2-10V
Modbus
Figure 42. Overall view of a system with the following components:
1 = Zone damper, CONTROL Damper
2 = Pressure sensor, DETECT Pressure
3 = Zone damper, CONTROL Damper
5 = System optimization, Super WISE
6 = Locations of the sensors when Super WISE is used
• Follow the same procedure for the supply air.
• The same procedure must be carried out for the extract air registers if there is balanced ventilation in the room.
• If the extract air is centrally located, check its airflows directly in the zone damper.
• If the ventilation system has been adjusted for extract air, do the same for the min. pressure set point, which also should be a few percentages below the current pressure. Set the min. pressure value in Super WISE.
The starting value for the feedback control should also be set. Choose a value that is 50% above the min. value. The starting value should be used as the reference pressure of the air handling unit until the starting delay for system optimization has counted down to 0.
To consider:
The TUNE Adapt is required for adjusting all the room products, and the TUNE Control hand-held terminal is required for the zone dampers and system optimiser. If the system is correctly sized, the pressure sensors are correctly located and all the air diffusers and dampers are correctly configured, everything should work perfectly when the system is energised. Naturally all the air diffusers must still be checked so that the technician making the adjustments can approve and write out a report on the ventilation plant. Performance check forms matched to the various products of the WISE system can be downloaded from www.swegon.com.
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WISE Project Manual
To check the performance of the ADAPT products
A reference manual containing all the configuration variables is supplied with each product. The TUNE Adapt and a multimeter for AC/DC are needed for performance testing.
Always begin by measuring of the supply voltage to make sure that it is not too low. Carry out the test while checking the radiator valves if these are included in the system.
The voltage interval is 21.6 to 27.6 V AC. In order to carry out the following checks, it is important that the controller is not being forced by a main control system before its performance is checked. If the controller is not forced, a green LED will be lit and controls will operate normally. All
ADAPT products are supplied in the max. flow commissioning mode.
Checking the airflow
This can be done by reading the airflow when the adjustment level is enabled. There are three levels: Max. airflow, Min. airflow and the airflow for when the premises are unoccupied.
To check the temperature
This check involves testing the control function via nonconforming room temperature. Change the cooling control set-point so that this value becomes lower than the current room temperature. The cooling load value can be read as a percentage in TUNE Adapt. This should rise up to 100% after a few minutes. The speed is conditional on the difference between the actual value and the set-point.
Keep in mind that the supply air temperature setting must be lower than the room temperature. If this is not the case, the flow search will be blocked.
To check the DETECT Qa, Application 1 & 2
The simplest test is to blow on DETECT Quality and read the value in TUNE Adapt. The application must be set to
2 and the value can be read in the User Menu. If the function is used as a combined CO
2
and temperature function, no value can be shown in the controller.
To check for occupancy
You can check the performance of the built-in presence detector by reading the sensor level under the Occupancy
Menu in TUNE Adapt. When an occupant moves below an air diffuser, the level should be higher than 1000. The lower limit for detection is 250. The controller should be set to Occupancy. This can be read in the Occupancy menu.
With the function set to the Test mode you can manually reset the controller to the occupancy/unoccupied setting. If the lighting control is used, the lighting in the premises will be lit/off when you change occupancy/unoccupied mode.
To check the TUNE Temp, Application 4
Checking that the signal operates correctly can only be done by adjusting the knob to max/min. The results can only be read in the heating or cooling load in the User Menu.
To check the DETECT Temp, Application 5
You can check whether the signal reaches the controller by reading the room temperature. If it shows a relevant value, then everything is operating normally.
To check the ADAPT Slave controller, Application 3
You can check whether the signal reaches the controller under the Temperature Menu Input %. The value should be between 20-80% if the master controller is not in the alarm mode.
To check the ACTUATOR Va radiator valve
The simplest way to check how the valve is operating is to set the heating set-point to a value that is higher than the current room temperature. Check that the heating set-point increases to 100%. The valve opens. It takes approx. 3 minutes before it will be completely open, however you can see already after one or two minutes that the “hat lifts” so that the blue edge is visible. See also the text dealing with the ”First Open” function in the section about regulating the heating.
Table 26. Hierarchy list
Operation Priority Explanation
Emergency Highest Forcing of the damper by the main control system to open or closed blade position
Damper blade pos.
Manually actuated
High Manual forcing to fixed damper blade positions
Adjustment level
Occupancy
Manual
Intermediate
Low
Manual forcing to fixed airflows, so-called adjustment level
Manual control of the occupancy function
Application Lowest Various settings, such as slave, etc.
Table 14 shows the priority of the various settings. If an ADAPT product is to operate normally, all the priorities higher than
Application type must be disabled.
Margin of error, airflow control
A margin of airflow error according to the diagram is important for the ADAPT products to operate in their respective normal operating ranges.
20
10
0
0 10 20 30 40 50 60
Diagram 8. Margin of error, airflow control.
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Typical Performance Check Form for the ADAPT products.
TEMPERATURE
Cooling value, occupancy
Heating value, occupancy
Cooling value, no occupants
Heating value, no occupants
Estimated set-point
Nonconforming room temp.
External input
Night-time cooling
Morning heat
Heat control, enabled (4)
Valve time
AIRFLOW MENU
Max q, occupancy
Min q, occupancy
Min q, no occupants
Flow pressure
0 calibration
Damper blade position
Slave output
CO2 min set-point
Swegon
Date of manufacture
2009-02-04
Checked by: Date:
ADAPT Configuration Data and Performance Check
Project:
The Rosen District in Visby
Product:
Marking:
ADAPT Da 250-M
TD10:Room 23
RF: 00000
Order no. (Order #):
100 031 259
Production no. (VstOrder #):
69 875
This list refers to the same menu structure as that in the TUNE Adapt hand-held micro terminal. (4) means that the value exists only in Version 4.
USER MENU Reading OCCUPANCY Reading New
-
-
-
Airflow
Room temp.
Supply air temp.
CO2 in the room
Cooling load
Heating load
Heat valve, item (4)
Occupancy time
Running time
Software
Serial number
0000l/s
00.0gc
00.0gc
0000ppm
000%
000%
000%
00000h
00000h
4
00000
00g 23
-
-
-
-
-
-
-
-
-
-
Sensor level
Occupancy status
Status + delay
Off, delay
0000
0
0
00m
On, delay
ALARM MENU
Stroke error *
Motor failure *
Pressure sensor error *
Temp. sensor error, external *
Temp. sensor error, internal *
Wrong set-points *
00s
0
0
* = 0 or 1, where 1 is an error reading
0
0
0
0
20
0
Reading
-
-
-
-
-
-
CO2 max set-point
CO2 per volt
00g
00g
00g
000g
000%
00g
00g
0
0000s
000ls
000ls
000ls
000.0P
00.0P
000%
000%
0000pp
0000pp
000pp
21
25
20
18
28
0
350
Set
15
25
200
0
500
1000
200
-
-
-
New
-
-
-
COMMUNICATON
Modbus Address
Baud rate
Parity
Stop bits
APPLICATION MENU
Application
LED indicaton
Temp. Sensor used (4)
Radiator control (4)
Cool protection (4)
Cooling limit value (4)
Valve exercise (4)
0000
0
0
0
00%
0
0
00%
0days
0
0
Set
1
3
2
1
Set
0
1
1
1
0
50%
2
TEST MENU
Emergency use
Occurance
Test mode
0
0
0
Reading
Damper blade pos., manually actuated
Occupancy Auto/Manual
Occupancy/Unoccupied
000%
0
0
Adjustment level
Airflow
0
0
3
Do not forget to set the Adjustment level to INACTIVE!
New
New
New
-
-
-
-
20170516 Swegon reserves the right to alter specifications.
49
WISE Project Manual
CONTROL products – performance check
Checks are carried out with the TUNE Control hand-held terminal, where all the controlled values can be read. See the manual for the hand-held terminal. Note that there are two manuals: one for the CONTROL Da zone dampers and one for the CONTROL Db room applications.
The controller has light-emitting diodes that indicate whether something is wrong. Diode 1 normally flashes green slowly. If something is wrong in the installation, the diodes shine in different colours and flash at different intervals. See the FAQ list for problem analysis. Alarms can also be read in TUNE Control, where they are presented in plain text.
To check the pressure regulation
Control values and setpoints for pressure regulation can be read in TUNE Control. If the pressure sensor is not correctly connected the actual value displayed with most likely be 0 Pa and the damper will then be fully open
(100%) and the airflow reading will be unexpectedly high for the size of the equipment. The probable cause is that the pressure sensor’s plastic tube is not correctly fitted, or that the whole sensor is not vertically positioned. If the DETECT Pressure sensor is not connected, an alarm is shown and the damper will then be in alarm position
50%. The LED on the controller will flash red.
Checking the room functions
Applicable to CONTROL Db FSFE with SLAVE Cb.
To check the temperature
This check involves testing the performance of the control function via nonconforming room temperature and changing the cooling control setpoint so that this value becomes lower than the current room temperature. The heat/Cool value can be read as a percentage in TUNE
Control. This should rise up to 100% after a few minutes.
The speed is conditional on the difference between the actual value and the setpoint. Increase or decrease the setpoint in the room controller.
Air quality control
The simplest test is to blow air on DETECT Quality and read the value in TUNE Control. The function must be defined in Application parameter P_1537 or P_1437. If the value is shown as 0 ppm then the application is not defined or the electrical connection is incorrect.
To check for occupancy
If DETECT Occupancy is connected; this is indicated in the display. The controller shows ECON at the upper edge near vacancy and AUTO and a small man symbol in the lower edge near occupancy. The function must be defined in Application parameter P_1521 or P_1421 .
To check the direction of motor actuation
If you suspect that the motor actuates in the wrong direction, the simplest way to check this is by disconnecting the control signal wire from motor wiring terminal no. 34
(supply air) or 37 (extract air). On doing so the motor will close completely and the airflow will decrease down to 0 l/s, which you monitor in TUNE Control.
Window contact
Open the window. Doing so will cause a window symbol to be shown in the lower left-hand corner in the display.
The function must be defined in Application parameter
P_1520 or P_1420.
To test valves
When you check the temperature, the controller will then assume either a 100% cooling or heating mode. A snow flake symbol for cooling or a heating symbol will be shown to the side of the coil symbol in the display. An actual control value can be read under status. The relevant valve will then be fully open for -100% (cooling) and 100% (heating). The function of the valves (on/off or 0-10V) can be set in Application parameters P_1546 and P_1547 or P_1446.
Table 27. Light-emitting diode, LED, functions
LED 1 LED 2 under the metallic enclosure
Green flashing, 1 sec.
Not lit
Red and green flashing Not lit x x x
Green
Orange
Green flashing rapidly
DIP
1
DIP
2
Description
0 0 Normal operation
0 0 Normal operation, but with warnings
- Room controller, Temperature sensor or Pressure sensor is missing
- Room controller temperature reading is outside the limit values
- The parameter file is incorrect.
0 0 Emergency: External memory error or Outputs are short circuited.
Red flashing, 1 sec.
Orange flashing, 1 sec.
Not lit x
Orange
Green flashing, 1 sec.
Not lit x
Orange
Green
Green
Green x
1
1 0 Service state
0 1 BMS mode x x The controller lacks a bootloader or the control is in the process of starting up.
x x x x
The controller has a bootloader but lacks software.
The controller has a bootloader but lacks software.
The parameter file is being updated
Red x
Green flashing rapidly x
Red flashing rapidly
Red x x
Too low voltage supply, 24 V AC.
The radio communication with TUNE Control is enabled x x MB-forwarding, Super WISE is fetching information from the room controller
0 0 The controller is updating the room list; the Super WISE is scanning.
50
Swegon reserves the right to alter specifications. 20170516

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