Systemair SRC Users guide

Installation and user manual

SRC

Smart Remote Control

INSTALLATION INSTRUCTION

English

NOTICE D’INSTALLATION

INSTALLATIONSHANDBUCH

ISTRUZIONI INSTALLAZIONE

INSTRUCCIONES DE INSTALACIÓN

Français

Deutsch

Italiano

Español

2 SRC

CONTENTS

1. GENERAL RECOMMENDATIONS ........................................................................................................................................................ 3

1.1. SAFETY DIRECTIONS .......................................................................................................................................................................................................................3

1.2. WARNING .........................................................................................................................................................................................................................................3

1.3. ENVIRONMENT ................................................................................................................................................................................................................................3

2. PRESENTATION ................................................................................................................................................................................. 4

2.1. INTRODUCTION ................................................................................................................................................................................................................................ 4

2.2. MINI-BMS ......................................................................................................................................................................................................................................... 4

2.3. REMOTE CONTROL ..........................................................................................................................................................................................................................4

2.4. FEATURES .........................................................................................................................................................................................................................................4

2.4.1. CHILLERS AND HOT WATER PRODUCTION UNITS ..................................................................................................................................................................................................4

2.4.2. AIR HANDLING UNIT ..................................................................................................................................................................................................................................................4

2.4.3. FAN CONVECTOR UNIT ..............................................................................................................................................................................................................................................4

2.4.4. HEAT PUMP ON WATER CIRCUIT ..............................................................................................................................................................................................................................4

3. DIMENSIONS AND INSTALLATION ..................................................................................................................................................... 5

3.1. POWER AND COMMUNICATION UNIT ..........................................................................................................................................................................................5

3.2. SRC REMOTE CONTROL ..................................................................................................................................................................................................................6

3.3. WIRING..............................................................................................................................................................................................................................................7

3.3.1. NETWORK PRINCIPLE .................................................................................................................................................................................................................................................7

4. INITIAL SETTINGS ............................................................................................................................................................................. 8

4.1. INTERFACE SETTINGS ......................................................................................................................................................................................................................8

4.2. DISPLAY SETTING ............................................................................................................................................................................................................................ 9

4.3. INTERFACE RESISTOR ...................................................................................................................................................................................................................... 9

5. CONFIGURATION OF THE CONTROL TYPE ........................................................................................................................................10

5.1. MINI-BMS .......................................................................................................................................................................................................................................10

5.1.1. ADDRESSING IN MINI-BMS MODE ........................................................................................................................................................................................................................11

5.1.2. FAN CONVECTOR UNIT CONTROL ......................................................................................................................................................................................................................... 11

5.1.3. FAN CONVECTOR UNIT CONFIGURATION .............................................................................................................................................................................................................12

5.1.4. ZONE CREATION ......................................................................................................................................................................................................................................................13

5.1.5. NAME ZONES ........................................................................................................................................................................................................................................................... 14

5.2. FAN CONVECTOR UNIT ONLY.......................................................................................................................................................................................................14

5.3. FAN CONVECTOR UNIT ZONE ......................................................................................................................................................................................................15

5.4. HEAT PUMP ON WATER CIRCUIT ONLY ......................................................................................................................................................................................16

5.5. HEAT PUMP ON WATER CIRCUIT ONLY ZONE ............................................................................................................................................................................17

6. HOURLY PROGRAMMING ............................................................................................................................................................... 18

6.1. GENERAL ........................................................................................................................................................................................................................................18

6.2. FAN CONVECTOR UNIT .................................................................................................................................................................................................................19

6.2.1. FAN CONVECTOR UNIT A ........................................................................................................................................................................................................................................ 19

6.2.2. FAN CONVECTOR UNIT B ........................................................................................................................................................................................................................................ 20

6.3. CHILLERS AND HOT WATER PRODUCTION UNITS .....................................................................................................................................................................21

6.3.1. CHILLER A ................................................................................................................................................................................................................................................................. 21

6.3.2. CHILLER B ................................................................................................................................................................................................................................................................. 21

6.4. AIR HANDLING UNIT .....................................................................................................................................................................................................................21

6.5. HEAT PUMP ON WATER CIRCUIT .................................................................................................................................................................................................22

7. CONTROL OF DEVICES ..................................................................................................................................................................... 23

7.1. FAN CONVECTOR UNIT .................................................................................................................................................................................................................23

7.1.1. FAN CONVECTOR UNIT A ........................................................................................................................................................................................................................................ 23

7.1.2. FAN CONVECTOR UNIT B ........................................................................................................................................................................................................................................ 24

7.2. CHILLERS AND HOT WATER PRODUCTION UNITS .....................................................................................................................................................................25

7.2.1. CHILLER A ................................................................................................................................................................................................................................................................. 25

7.2.2. CHILLER B ................................................................................................................................................................................................................................................................. 26

7.3. AIR HANDLING UNIT .....................................................................................................................................................................................................................26

7.4. HEAT PUMP ON WATER CIRCUIT .................................................................................................................................................................................................27

8. ALARM ........................................................................................................................................................................................... 28

9. PASSWORD CHANGE ...................................................................................................................................................................... 29

10. SRC RESET ....................................................................................................................................................................................29

11. IN CASE OF WARRANTY - MATERIAL RETURN PROCEDURE .........................................................................................................30

12. ORDERING SERVICE AND SPARE PARTS ORDER ...........................................................................................................................30

POWER SUPPLY MUST BE

SWITCHED OFF

BEFORE STARTING WORK IN THE

ELECTRIC CONTROL BOX

1. GENERAL RECOMMENDATIONS

Please read the following safety precautions very carefully before installing the unit.

1.1. SAFETY DIRECTIONS

Follow the safety rules in forces when you are working on your appliance.

3SRC

The installation, commissioning, use and maintenance of these units should be performed by qualied

personnel having a good knowledge of standards and local regulations, as well as experience of this type
of equipment.

This appliance has not been designed for use by persons (including children) with reduced physical, sensorial
or mental faculties or by persons without any experience or knowledge of heating systems, unless they act
under the safety and supervision of a responsible person or have received prior training concerning the use
of the appliance.

Any wiring produced on site must comply with the corresponding national electrical regulations.
Make sure that the power supply and its frequency are adapted to the required electric current of operation,

taking into account specic conditions of the location and the current required for any other appliance

connected to the same circuit.
The unit must be EARTHED to avoid any risks caused by insulation defects.
It is forbidden to start any work on the electrical components if water or high humidity is present on the

installation site.

1.2. WARNING

Cutoff power supply before starting to work on the appliance.

The manufacturer declines any responsibility and the warranty becomes void if these instructions are
not respected.

If you meet a problem, please call the Technical Department of your geographical area.

The information contained in these Instructions are subject to modication without advance notice.

1.3. ENVIRONMENT

This equipment is designed for indoor installation ONLY.

Climatic conditions

Transport

Storage

Operation

Ambient temperature -20... 70°C
Max. ambient humidity 95% RH, non-condensing
Ambient temperature -20... 70°C
Max. ambient humidity 95% RH, non-condensing
Ambient temperature -20... 50°C
Max. ambient humidity 95% RH, non-condensing

4 SRC

2. PRESENTATION

2.1. INTRODUCTION

The SRC HMI (Smart Remote Control) is a control interface for control systems. It has the advantage of being
a remote control system. The control can be centralized and is done either individually or by zone (unit
group). It can control up to:

² 31 units
² 15 separate zones

2.2. MINI-BMS

The SRC controls several devices of different types over several zones:

² Chillers and hot water production units

 Chiller A (SYSAQUA featuring POL423 or POL636 or POL638 control)

 Chiller B (SYSCROLL except SYSCROLL EVO 20-30)
² Air handling units (featuring Access Control)
² Fan convector units

 Fan convector unit A (featuring SYSLOGIC control)

 Fan convector unit B (featuring TCONTROLPOD control)

2.3. REMOTE CONTROL

The SRC is used as a simple remote control. It controls a single type of device, whether alone or several
in a single zone:

² Fan convector unit only

 Fan convector unit (featuring SYSLOGIC control)
² Fan convector unit zone (featuring SYSLOGIC control)
² Heat pump on water circuit only (featuring POL423 or POL636 or POL638 control)
² Heat pump zone on water circuit (featuring POL423 or POL636 or POL638 control)

2.4. FEATURES

2.4.1. CHILLERS AND HOT WATER

2.4.2. AIR HANDLING UNIT

PRODUCTION UNITS

Zone 1

05.02.2020
13:35

The SRC is used to act on the
following:

² ventilation speed

The SRC is used to act on the
following:

² operating mode

Accueil

² unit status

A

AUTO

A

OFF

ON

AUTO

StatutMode

AutoAuto

2.4.3. FAN CONVECTOR UNIT 2.4.4. HEAT PUMP ON WATER CIRCUIT

Zone 1

05.02.2020
13:35

OFF

ON

StatutMode

ArretFroid

The SRC is used to act on the
following:

² operating mode
² unit status
² ventilation speed

The SRC is used to act on the
following:

² operating mode
² unit status
² ventilation speed

Accueil

A

AUTO

Accueil

Zone 1

MANAUTO

Vitesse

Arret

Accueil

Appareil 1 , Adresse 1

A

OFF

AUTO

ON

05.02.2020
13:35

05.02.2020
13:35

MANAUTO

VitesseStatutMode

AutoArretAuto

² ambient setpoint

Vitesse

Haute

Point de consigne

18.5°C

² ambient setpoint(s)
² in use/not in use

Point de

consigne

Présence

Occ.18.5°C

165

198

230 V ~ / 50Hz

G

N

D

A

B

+

-

MODBUS RTU

SRC

3. DIMENSIONS AND INSTALLATION

3.1. POWER AND COMMUNICATION UNIT

The power and communication unit contains:

² a 220 V ~/24 V DC transformer
² a Modbus RTU protocol protection card

171

Ø5

5SRC

143

To install the power and communication unit:

1. Mount 2 screws on the wall, respecting

the dimensions.

2. Hook the unit onto the screws.

Information

the power and communication unit can be installed at the bottom of the wall just above the electrical
ducts. A 1 m connection cable between the unit and the SRC remote control is supplied. It is possible
to use a connection cable of up to 6 m.

Opening the unit

1 2 3

Electrical power supply Communication

N

L

RJ10

+

-

D

N

G

A

B

MODBUS RTU

34

105

105

6 SRC

3.2. SRC REMOTE CONTROL

The SRC is designed to be mounted on a wall. There are two
mounting options:

Method 1

To install the SRC:

1. Mount 2 screws on the wall, respecting the dimensions.

2. Connect the RJ10 cable

3. Attach the SRC remote

control to the screws.

50

Method 2

To install the SRC:

1. Fix the back to the wall

2. Connect the RJ10 cable

3. Clip the cover by pressing lightly on it at the clip.

SRC communication board

3.3. WIRING

3.3.1. NETWORK PRINCIPLE

Bus topology Star topology Trunk and branch topology

Prohibited Prohibited Prohibited

7SRC

Ring topology

Prohibited Authorized

Linear topology

The interconnection wires must be a screened twisted pair. The wire impedance shall be between 100 and
130 ohms, and its cross-sectional area between 0.12 and 0.3 mm2 (26 to 22 AWG).

Each network is limited to 31 units and a distance of 1,000 meters. However, we recommend using a
repeater well before reaching the limits and in accordance with the geographical constraints.

AB

GND

T5

B-

A+

RS485

REF

T5

B-

A+

RS485

REF

Max. number of slaves: 31

Information

The transmission is congured in 9600 baud, without parity, with 8 data bits and 1 stop bit.

MASTER

SLAVE 5 SLAVE 4 SLAVE 3

MB2

GND

RS485+

RS485-

GND

RS485+

RS485-

MB2

GND

RS485+

RS485-

GND

RS485+

RS485-

SLAVE 2SLAVE 1

RS485+

MB2

GND

RS485-

GND

RS485+

RS485-

8 SRC

4. INITIAL SETTINGS

4.1. INTERFACE SETTINGS

Start by conguring the settings for the:

1. language

Home

No zones configured

No active alarms

05.02.2020
13:35

2. type of time display

3. date and time

System preferences

Unit language

English

Unit date and time

05.02.2020 13:35:20

Use 24 hours time format

Example 13.00

Clock sync. source

None

HMI termination

2

Menu

Fan coil

Chiller

Air handling unit

Scheduling

Alarms

Settings

Unit information

i

System preferences



Unit date and time

Yea rMonthD ay

202025

1

MinuteHour

3513

System preferences

Unit language

English

Unit date and time

05.02.2020 13:35:20

Use 24 hours time format

Example 13.00

Clock sync. source

None

HMI termination

Display settings

System preferences

Unit language

English

German

Spanish

French

Italiano

Cancel OK

Display settings

1

2

Display settings

OKCancel

When the SRC is used to manage units equipped with an internal clock, it is possible to synchronize the SRC
to one of these units. Synchronization is done automatically (depending on the unit) or at the SRC power-up.

System preferences

Unit language

English

Unit date and time

05.02.2020 13:35:20

Use 24 hours time format

Example 13.00

Clock sync. source

None

HMI termination

Display settings

System preferences

Clock sync. source

Chiller A, Address 1

Chiller B, Address 2

Air handling unit, Address 5

1

Cancel OK

Display settings

System preferences

Unit language

English

Unit date and time

05.02.2020 13:35:20

Use 24 hours time format

Example 13.00

Clock sync. source

Chiller B, Address 2

HMI termination

2

Display settings

Caution

In the case of heat pump management on water circuits, the SRC’s clock must be synchronized with
that of one of the units.

9SRC

4.2. DISPLAY SETTING

This menu allows you to manage the screen brightness when it is active or in
standby mode. It is also possible to set the standby time.

Display settings

Sleep mode timeout

10 min

Sleep mode back light

2

Active mode back light

8

Display settings

Sleep mode timeout

Sleep mode timeout

1 ... 60

Display settings

Sleep mode timeout

Sleep mode back light

min10

1

OKCancel

2

2

1

OKCancel

2

System preferences

Unit language

English

Unit date and time

05.02.2020 13:35:20

Use 24 hours time format

Example 13.00

Clock sync. source

None

HMI termination

Display settings

Display settings

Sleep mode timeout

Active mode back light

8

1

OKCancel

2

Information

Setting “0” for standby brightness turns off the SRC screen. Simply tapping on the screen brings the

SRC out of this mode.

4.3. INTERFACE RESISTOR

The SRC is equipped with a 120 ohm terminating resistor. By default, the end of line resistor is activated. It
can be deactivated directly via the “Preferences” screen.

System preferences

Unit language

English

Unit date and time

05.02.2020 13:35:20

Use 24 hours time format

Example 13.00

Clock sync. source

Chiller B, Address 2

HMI termination

Display settings

System preferences

Unit language

English

Unit date and time

05.02.2020 13:35:20

Use 24 hours time format

Example 13.00

Clock sync. source

Chiller B, Address 2

HMI termination

Display settings

Fan coil A

Fancoil type

µBMS

SRC type

10 SRC

5. CONFIGURATION OF THE CONTROL TYPE

The choice of control system is made in the Parameter menu. Access is password protected (9201 by
default)

Fan coil

Chiller

Air handling unit

Scheduling

Alarms

Settings

Unit information

i

System preferences



Menu

SRC type

µBMS

Fancoil type

Fan coil A

DIP Config.

Configure addresses

Zone name

Zone devices

Change password

Factory reset

Settings

Settings

Enter Service password

9201

Cancel

Factory reset

Settings

SRC type

OK

321

2

654

987

1

µBMS

Single fan coil (A)

Zone of fan coils (A)

Single water source heat pump

Zone of water source heat pump

Cancel OK

1

0

Factory reset

2

With the Mini BMS option, the SRC allows you to group and manage several types of units by zones:

² Chillers and hot water production units
² Air handling units
² Fan convector units

For the other options, the SRC considers the network as a single zone in which only one type of machine is
present:

² Fan convector units featuring SYSLOGIC control
² Heat pump on water circuit

5.1. MINI-BMS

The conguration must be carried out according to the following process:

1. address conguration

2. choice of the control type used on the fan convector units

3. denition of the fan convector unit conguration

 Conguration dip switch (SYSLOGIC control)
 AC motor (TCONTROLPOD control)
 EC motor (TCONTROLPOD control)

4. zone creation

Information

To make it easier to identify the elds when using the SRC, it is possible to name each of the zones.

None

Address 7

None

Address 2

None

Address 1

5.1.1. ADDRESSING IN MINI-BMS MODE

Caution

Before setting up the SRC, it is important that all slave units are addressed.

² Maximum of 31 units

² Addresses between 1 and 31

11SRC

Settings

SRC type

µBMS

Fancoil type

Fan coil A

DIP Config.

Configure addresses

Zone name

Zone devices

Change password

Factory reset

1

Devices

Configure addresses

None

Fan coil

Chiller A

Chiller B

Air handling unit

Cancel OK

None

Address 7

None

1

1/5

2

Devices

Enter Service password

9201

Cancel

Devices

Address 1

Chiller A

Address 2

Fan coil

Address 3

None

Address 4

None

Address 5

None

Address 6

None

Address 7

None

1/51/5

OK

321

2

654

987

1

0

1/5

It is always possible to add or remove a machine at
a later date.

Devices

Configure addresses

None

Fan coil

Chiller A

Chiller B

Air handling unit

Cancel OK

None

Address 7

None

1/5

1

2

Address 1

Chiller A

Address 2

None

Address 3

None

Address 4

None

Address 5

None

Address 6

None

Address 7

None

Devices

1

1/5

The correspondence of each address must be
respected.

Up to 31 addresses can be assigned by changing page.

Address 1

Chiller A

Address 2

Fan coil

Address 3

None

Address 4

None

Address 5

None

Address 6

None

Address 7

None

Devices

1

1/5

1

Address 29

None

Address 30

None

Address 31

None

Devices

5/5

5.1.2. FAN CONVECTOR UNIT CONTROL

This menu is used to dene the type of regulation tted to the fan convector units:

Settings

SRC type

µBMS

Fancoil type

Fan coil A

DIP Config.

Configure addresses

Zone name

Zone devices

Change password

Factory reset

2

Settings

SRC type

µBMS

Fancoil type

Fan coil A

Fan coil B

Zone devices

Change password

Factory reset

Fancoil type

Cancel OK

1

2

²Fan convector unit A

 featuring SYSLOGIC control

²Fan convector unit B

 featuring TCONTROLPOD AC control
 featuring TCONTROLPOD EC control

321

ON

321

ON

321

ON

321ON321

ON

321

ON

321

ON

12 SRC

5.1.3. FAN CONVECTOR UNIT CONFIGURATION

The SRC must be set up according to the conguration of the fan convector units.

5.1.3.1. FAN CONVECTOR UNIT A

Type A fan coils are equipped with SYSLOGIC control. This electronic card has a DIP switch to dene the
characteristics of the machine There are 7 possible congurations:

1. 2 tubes with valve

Cooling only

2. 2 tubes with valve

Reversible/change over

3. 2 tubes with valve

Heating only

4. 2 tubes without valve

Reversible/change over

Settings

SRC type

µBMS

Fancoil type

Fan coil A

DIP Config.

Configure addresses

Zone name

Zone devices

Change password

Factory reset

Address 1

1

Address 2

1

3

TUs DIP Config.

2

TUs DIP Config.

Address 1

1

Address 2

1

TUs DIP Config.

Address 1

DIP Config.

1 ... 7

5. 4 tubes with valve

Cooling/Heating

6. 2 tubes with valve and electric

heating
Cooling/Heating

7. 2 tubes with valve and electric

heating
Reversible/change over

TUs DIP Config.

Address 1

DIP Config.

1

Address 1

1

Address 2

3

3

1

1

1

1 ... 7

OKCancel

2

TUs DIP Config.

OKCancel

2

5.1.3.2. FAN CONVECTOR UNIT B

Type B fan convector units feature TCONTROLPOD control. This electronic board is specic according to the

type of motor equipping the unit:

² AC

² EC

Settings

SRC type

µBMS

Fancoil type

Fan coil B

Model

Configure addresses

Zone name

Zone devices

Change password

Factory reset

3

Address 1

AC

Address 2

AC

TUs Model

1

TUs Model

Address 1

AC

Address 2

AC

EC

Model

Cancel OK

TUs Model

Address 1

EC

Address 2

AC

1

2

5.1.4. ZONE CREATION

After selecting the desired area, add and remove the available devices:

13SRC

² Chillers
² Terminal units

Settings

SRC type

µBMS

Fancoil type

Fan coil A

DIP Config.

Configure addresses

Zone name

Zone devices

Change password

Factory reset

Zone 1

Chiller A, Address 1

² Air handling units

Zone

Zone 1

Zone 2

Zone 3

Zone 4

Zone 5

Zone 6

Zone 7

4

Cancel OK

1

2

Zone 1

Release

Chiller A, Address 1

Release

Zone 1

Zone 1

Chiller A, Address 1

Zone devices

Chiller A, Address 4

Cancel OK

1

+

Release

2

+

1

Zone 1

Zone devices

Chiller A, Address 1

Fan coil, Address 2

Air handling unit, Address 3

Chiller A, Address 4

Fan coil, Address 5

Cancel OK

1

Zone 1

Chiller A, Address 1

Chiller A, Address 4

2

+

Release

Release

+

+

1

+

Caution

Each zone can only have one type of device. For fan convector unit zones, the conguration of the

Dips or the motor type must be identical.

Zone 1

Zone 2

Zone 3

Zone 4

Zone 5

Zone 6

Zone 7

Zone

1

Cancel OK

Zone 2

+

2

1

Zone 2

Zone devices

Fan coil, Address 2

Air handling unit, Address 3

Fan coil, Address 5

Cancel OK

Information

Access to the different zones is done by scrolling vertically. The SRC has 15
zones.

2

Zone 2

Fan coil, Address 2

Zone 1

Zone 2

Zone 3

Zone 4

Zone 5

Zone 6

Zone 7

Release

+

Zone

1

Cancel OK

Fan coil A

Fancoil type

µBMS

SRC type

14 SRC

5.1.5. NAME ZONES

Select a zone from the proposed list (zone 1, zone 2, etc.) to name it.

Settings

SRC type

µBMS

Fancoil type

Fan coil A

DIP Config.

Configure addresses

Zone name

Zone devices

Change password

Factory reset

1

Zone 1

Zone 2

Zone 3

Zone 4

Zone 5

Zone name

1

1/3

Zone name

Zone name

Cancel

1/3

OK

onbvcxz

.123

Zone 5

5.2. FAN CONVECTOR UNIT ONLY

In this operating mode the SRC can only control one type A fan conductor unit.

The conguration must be carried out according to the following process:

Zone name

Zone 1

Chiller

Zone 2

poiuytrewq

lkjhgfdsa

Zone 3

Zone 4

Zone 5

1/3

1. denition of the fan convector unit conguration

2. address conguration

Fan coil

Chiller

Air handling unit

Scheduling

Alarms

Settings

Unit information

i

System preferences



SRC type

Single fan coil (A)

DIP Config.

1

Device addresses

1

1

Menu

SRC type

µBMS

Fancoil type

Fan coil A

DIP Config.

Configure addresses

Zone name

Zone devices

Change password

Factory reset

Settings

SRC type

1

Settings

Settings

DIP Config.

1

1

1 ... 7

Settings

Enter Service password

9201

Cancel

Factory reset

Settings

SRC type

Single fan coil (A)

DIP Config.

1

Device addresses

1

Settings

SRC type

OK

321

2

654

987

1

µBMS

Single fan coil (A)

Zone of fan coils (A)

Single water source heat pump

Zone of water source heat pump

Cancel OK

1

0

Factory reset

SRC type

Device address

1

Settings

1

1 ... 247

2

1

Change password

Factory reset

Resets all settings to default

Factory reset

Resets all settings to default

OKCancel

2

Change password

2

Factory reset

Resets all settings to default

OKCancel

Factory reset

Resets all settings to default

The DIP Cong. corresponds to the technical specications of the fan convector unit (Refer to the §

FAN CONVECTOR UNIT A, page 12). It is imperative that all fan convector units have strictly the same

conguration.

The declared address must be the same as that of the fan convector unit. The address can be between 1
and 247.

Fan coil A

Fancoil type

µBMS

SRC type

5.3. FAN CONVECTOR UNIT ZONE

In this operating mode, the SRC can control a maximum of 31 type A fan conductor units.

The conguration must be carried out according to the following process:

1. denition of the fan convector unit type conguration

2. address conguration

15SRC

Menu

Fan coil

Chiller

Air handling unit

Scheduling

Alarms

Settings

Unit information

i

System preferences



Settings

SRC type

Zone of fan coils (A)

DIP Config.

1

Zone devices

1

Change password

Factory reset

Resets all settings to default

Settings

SRC type

µBMS

Fancoil type

Fan coil A

DIP Config.

Configure addresses

Zone name

Zone devices

Change password

Factory reset

Settings

SRC type

DIP Config.

1

Factory reset

Resets all settings to default

1

1 ... 7

OKCancel

Settings

Enter Service password

9201

Cancel

OK

µBMS

Single fan coil (A)

321

2

654

987

1

Zone of fan coils (A)

Single water source heat pump

Zone of water source heat pump

Settings

SRC type

1

Cancel OK

0

Factory reset

Settings

SRC type

Zone of fan coils (A)

DIP Config.

1

1

Zone devices

2

Change password

2

Factory reset

Resets all settings to default

Factory reset

Zone devices

Device 1

Address 1

2

+

1

Zone devices

Device 1

Device address

1

36

1 ... 247

1

OKCancel

2

+

Zone devices

Device 1

Address 1

Device 2

ReleaseAddress 36

+

1

The DIP Cong. corresponds to the technical specications of the fan convector unit type (Refer to the § FAN
CONVECTOR UNIT B, page 12).

The declared address must be the same as that of the fan convector unit. The address can be between 1
and 247. All addresses must be unique.

Fan coil A

Fancoil type

µBMS

SRC type

16 SRC

5.4. HEAT PUMP ON WATER CIRCUIT ONLY

In this operating mode, the SRC can only control one heat pump on water circuit.

Menu

Fan coil

Chiller

Air handling unit

Scheduling

Alarms

Settings

Unit information

i

System preferences



Settings

SRC type

Single water souce heat pump

Device addresses

1

Change password

1

Factory reset

Resets all settings to default

Settings

SRC type

µBMS

Fancoil type

Fan coil A

DIP Config.

Configure addresses

Zone name

Zone devices

Change password

Factory reset

Settings

SRC type

Device address

1

1 ... 247

Settings

Enter Service password

9201

Cancel

OK

µBMS

Single fan coil (A)

321

2

654

987

1

Zone of fan coils (A)

Single water source heat pump

Zone of water source heat pump

Settings

SRC type

Cancel OK

1

0

Factory reset

1

OKCancel

2

Factory reset

2

The declared address must correspond to that of the heat pump on water circuit. The address can be
between 1 and 247.

Fan coil A

Fancoil type

µBMS

SRC type

5.5. HEAT PUMP ON WATER CIRCUIT ONLY ZONE

In this operating mode, the SRC can control a maximum of 31 heat pumps on water circuit.

The conguration must be carried out according to the following process:

1. address conguration

17SRC

Menu

Fan coil

Chiller

Air handling unit

Scheduling

Alarms

Settings

Unit information

i

System preferences



Settings

SRC type

Zone of water source heat pump

Zone devices

1

Change password

Factory reset

Resets all settings to default

Settings

SRC type

µBMS

Fancoil type

Fan coil A

DIP Config.

Configure addresses

Zone name

Zone devices

Change password

Factory reset

Zone devices

Device 1

Address 1

+

Settings

Enter Service password

9201

Cancel

Factory reset

Zone devices

Device 1

Device address

1

1 ... 247

Settings

SRC type

OK

321

2

654

987

1

0

µBMS

Single fan coil (A)

Zone of fan coils (A)

Single water source heat pump

Zone of water source heat pump

Cancel OK

Factory reset

1

2

Zone devices

Device 1

Address 1

Device 2

36

1

OKCancel

2

+

ReleaseAddress 36

+

1

1

The declared address must correspond to that of the heat pump on water circuit. The address can be
between 1 and 247. All addresses must be unique.

Scheduling

Scheduling

Days Week Weekend

Scheduling

Zone 1

Days Week Weekend

Scheduling

Zone 1

Scheduling

Scheduling

18 SRC

6. HOURLY PROGRAMMING

6.1. GENERAL

Zone

1

Cancel OK

Zone 1

Days Week Weekend

Time range

Time range active

Start

Mode

Satus

Speed

Setpoint

Copy

2

Fan coil

Chiller

Air handling unit

Scheduling

Alarms

Settings

Unit information

i

System preferences



Menu

Zone 1

Zone 2

Zone 3

Zone 4

Zone 5

Zone 6

Zone 7

The SRC allows the operating parameters to be programmed by zone.
It is possible to program weekdays and weekends differently.
For each programming group, 4 time slots are available.

For each time slot, it is possible to set the time from which the operating
parameters will be applied. It is also necessary to enable or disable this
time slot.

4321

08:00

Cooling

OFF

Low

21.0°C

Zone 1

Days Week Weekend

Time range

Time range

Time range active

4321

4321

Zone 1

Days Week Weekend

Time range

Time range active

Start

Mode

Satus

Speed

Setpoint

Copy

08:00

Cooling

OFF

Low

21.0°C

Days Week Weekend

4321

Setpoint

Zone 1

Start

Copy

Start

08:00

Active range

00:08

1

OKCancel

Low

21.0°C

2

Time range

Time range active

Start

4321

08:00

Inactive range

Caution

The time programming of the ranges must be chronological. Otherwise, the SRC will malfunction.

When creating or modifying a program, the SRC immediately applies the setting of the range that is active
at that time.

Example:

Time: 2:30 PM
T1 active at 8:00 AM
T1 active at 12:00 noon
T3 active at 6:00 PM
T4 active at 10:00 PM

The SRC applies the programming of the T2 range.

Scheduling

Scheduling

Scheduling

Scheduling

Scheduling

Scheduling

Scheduling

Copy

Scheduling

Scheduling

Scheduling

19SRC

The Copy/Paste function allows you to copy the entire
programming of a zone and apply it to a second zone
equipped with the same type of unit.

6.2. FAN CONVECTOR UNIT

6.2.1. FAN CONVECTOR UNIT A

The SRC programming makes it possible to dene:

² operating mode

 Cool
 Heat
 Auto

Zone 1

Days Week Weekend

Time range

Time range active

Start

Mode

Satus

Speed

Setpoint

Copy

08:00

Cooling

Low

21.0°C

1

OFF

4321

Zone 2

Days Week Weekend

Time range

Time range active

Start

Mode

Satus

Speed

Setpoint

PasteCopy

² unit status

 On
 Off

4321

08:00

Cooling

OFF

Low

21.0°C

2

Zone 1

Days Week Weekend

Time range

Time range active

Start

Mode

Satus

Speed

Setpoint

Copy

08:00

Cooling

1

OFF

Low

21.0°C

Zone 1

Days Week Weekend

Time range

Time range active

Start

Mode

Satus

Speed

Setpoint

Copy

08:00

Cooling

OFF

Low

21.0°C

3

Days Week Weekend

4321

Cooling

Heating

Auto

Speed Low

Setpoint

² ventilation speed

 Low
 Average
 High
 Auto

² ambient setpoint

Days Week Weekend

4321

Low

Medium

High

Auto

Setpoint

Zone 1

Mode

1

Cancel OK

Copy

Zone 1

Speed

1

Cancel OK

Copy

2

21.0°C

21.0°C

2

Zone 1

Days Week Weekend

Time range

Time range active

Start

Mode

Satus

Speed

Setpoint

Copy

08:00

Cooling

OFF

2

Low

21.0°C

Zone 1

Days Week Weekend

Time range

Time range active

Start

Mode

Satus

Speed

Setpoint

Copy

08:00

Cooling

OFF

Low

21.0°C

4

Zone 1

4321

Days Week Weekend

Time range

Status

OFF

ON

Cancel OK

Speed Low

Setpoint

1

21.0°C

4321

2

Zone 1

Days Week Weekend

4321

Setpoint

21.0°C

1

16.0 ... 30.0

OKCancel

Setpoint

Copy

21.0°C

2

Scheduling

Scheduling

Scheduling

Scheduling

Scheduling

Scheduling

Scheduling

Scheduling

20 SRC

6.2.2. FAN CONVECTOR UNIT B

The SRC programming makes it possible to dene:

² operating mode

² unit status

Zone 1

Days Week Weekend

Time range

Time range active

Start

Mode

Satus

Speed

Setpoint

Copy

08:00

Cooling

1

OFF

Stage 1

21.0°C

Days Week Weekend

4321

OFF

Heating

Cooling

Auto

Setpoint

² ventilation speed

 Off
 Heat
 Cool
 Auto

Zone 1

Mode

1

Cancel OK

Copy

 Stage 1
 Stage 2

21.0°C

2

Zone 1

Days Week Weekend

Time range

Time range active

Start

Mode

Satus

Speed

Setpoint

Copy

08:00

Cooling

OFF

Stage 1

2

21.0°C

 On
 Off

Zone 1

4321

Days Week Weekend

Time range

Status

ON

OFF

Cancel OK

Speed Low

Setpoint

Copy

1

2

21.0°C

4321

² the BMS setpoint

 Stage 3
 Auto

Zone 1

Days Week Weekend

Time range

Time range active

Start

Mode

Satus

Speed

Setpoint

Copy

08:00

Cooling

OFF

Stage 1

21.0°C

3

Zone 1

Days Week Weekend

4321

Stage 1

Stage 2

Stage 3

Auto

Setpoint

Speed

1

Cancel OK

Copy

21.0°C

2

Days Week Weekend

Time range

Time range active

Start

Mode

Satus

Speed

Setpoint

Zone 1

Copy

4

08:00

Cooling

OFF

Stage 1

21.0°C

Zone 1

Days Week Weekend

4321

Setpoint

Setpoint

21.0°C

16.0 ... 30.0

Copy

The setting of the ambient setpoint depends:

² on the BMS setpoint (SRC)
² on the TCONTROLPOD control setpoint.

If the user changes the setpoint locally using the TCONTROLPOD remote control, then there is a ΔT between
the setpoint set on the SRC and the one requested by the TCONTROLPOD control. This ΔT will be kept for a
change of setting on the SRC.

OKCancel

1

21.0°C

2

Scheduling

Scheduling

Scheduling

Copy

Scheduling

Scheduling

Copy

Scheduling

Scheduling

Scheduling

Scheduling

Scheduling

6.3. CHILLERS AND HOT WATER PRODUCTION UNITS

6.3.1. CHILLER A

The SRC programming makes it possible to dene:

21SRC

operating mode

 Auto
 Cool
 Heat

Zone 2

Days Week Weekend

Time range

Time range active

Start

Mode

Satus

Copy

08:00

Cooling

1

OFF

Days Week Weekend

4321

Auto

Cooling

Heating

Satus OFF

Zone 2

Mode

1

Cancel OK

2

6.3.2. CHILLER B

The SRC programming makes it possible to dene:

operating mode

Zone 2

Days Week Weekend

Time range

Time range active

Start

Mode

Satus

Copy

08:00

Cooling

OFF

2

² unit status

 Auto
 Off
 On
 Night
 Load shedding

Zone 2

Status

4321

Auto

OFF

ON

Night

Load shedding

Cancel OK

Satus OFF

1

2

² unit status
 Heat
 Cool

Zone 2

Days Week Weekend

Time range

Time range active

Start

Mode

Satus

Copy

08:00

Cooling

1

OFF

Days Week Weekend

4321

Heating

Cooling

Mode

Satus

Zone 2

Mode

Cancel OK

1

Copy

Cooling

2

OFF

6.4. AIR HANDLING UNIT

The SRC programming makes it possible to dene:

² operating mode

 Off
 Manual
 Auto
 Low
 Normal
 High

Zone 2

Days Week Weekend

Time range

Time range active

Start

Mode

Satus

Copy

08:00

Cooling

OFF

2

Zone 3

Days Week Weekend

Time range

Time range active

Start

Mode

Copy

08:00

1

OFF

 Off
 On

Zone 2

Days Week Weekend

4321

4321

OFF

ON

Mode

Satus

OFF

Manual

Auto

Low

Normal

High

Status

Cancel OK

1

Copy

Zone 3

Mode

1

Cancel OK

Copy

Cooling

2

OFF

2

Cooling setpoint

22 SRC

6.5. HEAT PUMP ON WATER CIRCUIT

The SRC programming makes it possible to dene:

Scheduling

Days Week Weekend

Time range

Time range active

Start

Mode

Satus

Speed

Setpoint

Cooling setpoint

Heating setpoint

Copy

08:00

Auto

1

OFF

Auto

21.0°C

26.0°C

23.0°C

operating mode

 Auto
 Cool
 Heat
 Fan
 Off

4321

Auto

Cooling

Heating

Fan

OFF

Cancel OK

Heating setpoint

² ventilation speed

 Auto

Scheduling

Mode

1

Copy

23.0°C

2

Scheduling

Days Week Weekend

Time range

Time range active

Start

Mode

Satus

Speed

Setpoint

Cooling setpoint

Heating setpoint

Copy

08:00

Auto

OFF

Auto

2

21.0°C

26.0°C

23.0°C

² unit status

 On
 Off
 Auto

Scheduling

Days Week Weekend

4321

OFF

ON

Auto

Setpoint

Cooling setpoint

Heating setpoint

status

1

Cancel OK

Copy

21.0°C

2

26.0°C

23.0°C

² ambient setpoint

 Low
 Average
 High

Scheduling

Days Week Weekend

Time range

Time range active

Start

Mode

Satus

Speed

Setpoint

Cooling setpoint

Heating setpoint

Copy

08:00

Auto

OFF

Auto

21.0°C

3

26.0°C

23.0°C

Days Week Weekend

4321

Auto

Low

Medium

High

Cooling setpoint

Heating setpoint

Scheduling

Speed

1

Cancel OK

Copy

26.0°C

23.0°C

2

Scheduling

Days Week Weekend

Time range

Time range active

Start

Mode

Satus

Speed

Setpoint

Cooling setpoint

Heating setpoint

Copy

08:00

Auto

OFF

Auto

21.0°C

26.0°C

23.0°C

4

Scheduling

Days Week Weekend

4321

Heating setpoint

Setpoint

21.0°C

16.0 ... 30.0

Copy

Heat pump on water circuit control can manage several setpoints.

² Single setpoint: the setpoint can be adjusted between 15°C and 30°C
² Two setpoints: this approach introduces a comfort zone in which no cold or heat production is

required. It is bounded by the heat setpoint and the cool setpoint. The lower limit of the heat setpoint
is 17°C and the upper limit of the cold setpoint is 30°C. The minimum ΔT between the setpoints is
set when the units are installed.

OKCancel

1

26.0°C

23.0°C

2

The number of setpoints can be congured when installing heat pumps on water circuit.

Caution

The number of setpoints can only be detected when the SRC is on. If this setting is changed, you
must reboot the SRC.

7. CONTROL OF DEVICES

The SRC can control all the devices by acting:

² on the zone

23SRC

² on one device only

with direct control of units

direct control of a unit

verication of operating parameters

Zone 1

05.02.2020
13:35

OFF

ON

StatusMode

OFFCooling

Setpoint

18.5°C

Fan coil

Chiller

Air handling unit

Scheduling

Alarms

Settings

Unit information

i

System preferences



Menu

A

AUTO

Speed

High

Home

Information

The zone display corresponds to the machine with the smallest address in the zone.

7.1. FAN CONVECTOR UNIT

7.1.1. FAN CONVECTOR UNIT A

In mini-BMS mode, the SRC is used to act for all the devices in the zone on:

² operating mode ² unit status

Fan coil , Address 1

Fan coil , Address 2

Fan coil , Address 3

Fan coil , Address 4

Fan coil , Address 5

Fan coil , Address 6

Fan coil , Address 7



Device

Cancel OK

1

2

A

AUTO

Speed

High

A

AUTO

Speed

High

Home

Zone 1

Home

Zone 1

05.02.2020
13:35

OFF

ON

StatusMode

OFFCooling

Setpoint

18.5°C

05.02.2020
13:35

OFF

ON

StatusMode

OFFCooling

Setpoint

18.5°C

Home

Zone 1

Mode

A

AUTO

Cooling

Heating

Auto

Cancel OK

Speed

High

1

05.02.2020
13:35

OFF

ON

StatusMode

OFFCooling

Setpoint

18.5°C

Zone 1

05.02.2020
13:35

OFF

ON

StatusMode

OFFCooling

Setpoint

18.5°C

OFF

ON

Home

A

AUTO

2

Speed

High

Home

A

AUTO

Cancel OK

Speed

High

Zone 1

Status

1

05.02.2020
13:35

OFF

ON

Setpoint

18.5°C

² ventilation speed ² ambient setpoint

21.0°C

Mode

05.02.2020
13:35

1

OFF

ON

StatusMode

OFFCooling

2

Home

Zone 1

Speed

A

AUTO

Low

Medium

High

Auto

1

Cancel OK

05.02.2020
13:35

OFF

ON

18.5°CHigh

Zone 1

05.02.2020
13:35

OFF

ON

StatusMode

OFFCooling

Setpoint

18.5°C

Cooling

Heating

Auto

A

AUTO

Speed

High

Home

2

Setpoint

A

AUTO

16.0 ... 30.0

Cancel OK

2

3

Information

When the selected operating mode is AUTO, the SRC displays the actual operating mode of the
machine (COOL or HEAT). AUTO will only be displayed when the machine is off or the setpoint is
reached.

24 SRC

The SRC can act individually, like a remote control on:

² operating mode
² unit status
² ventilation speed
² ambient setpoint

It is also possible to check the different temperatures
measured by the:

² air return sensor
² remote control sensor
² water sensor

Fan coil Address 1

Mode

Cooling

Status

OFF

Speed

High

Setpoint

18.5°C

Air probe

0.0°C

7.1.2. FAN CONVECTOR UNIT B

In mini-BMS mode, the SRC is used to act for all the devices in the zone on:

² operating mode ² unit status

Zone 1

Mode

1

05.02.2020
13:35

18.5°CAuto

Zone 1

05.02.2020
13:35

OFF

ON

StatusMode

OFFCooling

Setpoint

18.5°C

A

AUTO

AUTO

Speed

Auto

Home

2

A

AUTO

AUTO

Speed

Auto

Home

Zone 1

05.02.2020
13:35

OFF

ON

StatusMode

OFFCooling

Setpoint

18.5°C

Home

OFF

Heating

Cooling

Auto

Cancel OK

1/2

Fan coil Address 1

Remote air probe

0.0°C

Water probe

0.0°C

Home

Zone 1

A

AUTO

Status

OFF

ON

Cancel OK

AUTO

Speed

Auto

1

05.02.2020
13:35

OFF

ON

Setpoint

18.5°C

2/2

2

A

AUTO

AUTO

Speed

Auto

Home

Zone 1

05.02.2020
13:35

OFF

ON

StatusMode

OFFCooling

Setpoint

18.5°C

² ventilation speed ² ambient setpoint

Zone 1

21.0°C

05.02.2020
13:35

OFF

ON

1

OKCancel

18.5°CAuto

Home

Zone 1

Speed

A

Stage 1

AUTO

Stage 2

Stage 3

Auto

AUTO

1

Cancel OK

05.02.2020
13:35

OFF

ON

18.5°CAuto

A

AUTO

AUTO

Speed

Auto

Home

Zone 1

05.02.2020
13:35

OFF

ON

StatusMode

OFFCooling

Setpoint

18.5°C

Home

Setpoint

A

AUTO

16.0 ... 30.0

AUTO

2

2

The SRC can act individually, like a remote control on:

25SRC

² operating mode
² unit status
² ventilation speed
² ambient setpoint

It is also possible to check the different temperatures
measured by the:

² ambient temperature sensor
² auxiliary probe

Fan coil Address 1

Mode

Cooling

Status

OFF

Speed

Auto

Setpoint

18.5°C

Ambient probe

0.0°C

7.2. CHILLERS AND HOT WATER PRODUCTION UNITS

7.2.1. CHILLER A

The SRC is used to act for all the devices in the zone on the following:

² operating mode ² unit status

Zone 1

05.02.2020
13:35

A

OFF

ON

AUTO

StatusMode

AutoAuto

Home

Auto

A

Cooling

AUTO

Heating

Cancel OK

Home

A

AUTO

Zone 1

Mode

05.02.2020
13:35

A

OFF

ON

AUTO

1

Home

Zone 1

A

AUTO

2

05.02.2020
13:35

A

OFF

ON

AUTO

StatusMode

AutoAuto

1/2

Fan coil Address 1

Auxiliary probe

0.0°C

Home

Zone 1

Status

Auto

OFF

ON

A

AUTO

Night

Load shedding

Cancel OK

2/2

05.02.2020
13:35

1

A

OFF

ON

AUTO

2

The SRC can act individually, like a remote control on:

² operating mode
² unit status

It is also possible to check the different temperatures measured by the:

² water return sensor

² water ow sensor

Chiller Address 1

Mode

Auto

Status

Auto

Return water temperature

0.0°C

Leaving water temperature

0.0°C

26 SRC

7.2.2. CHILLER B

The SRC is used to act for all the devices in the zone on the following:

² operating mode ² unit status

Home

Zone 1

05.02.2020
13:35

OFF

ON

StatusMode

OFFHeating

Home

Heating

Cooling

Cancel OK

Zone 1

Mode

1

05.02.2020
13:35

OFF

ON

Home

Zone 1

2

The SRC can act individually, like a remote control on:

² operating mode
² unit status

It is also possible to check the different temperatures measured by the:

² water return sensor

² water ow sensor

05.02.2020
13:35

OFF

ON

StatusMode

OFFHeating

Home

Zone 1

Status

OFF

ON

Cancel OK

Mode

Auto

Status

Auto

Return water temperature

0.0°C

Leaving water temperature

0.0°C

1

Chiller Address 1

05.02.2020
13:35

OFF

ON

2

7.3. AIR HANDLING UNIT

The SRC is used to act for all the devices in the zone on the following:

² ventilation speed

Mode

05.02.2020
13:35

1

2

Home

Zone 1

MANAUTO

Speed

OFF

05.02.2020
13:35

Home

OFF

Manual

Auto

Low

Normal

High

Cancel OK

The SRC is used to act individually on the following:

² ventilation speed

It is also possible to check the temperature measured by the:

² air ow sensor

AHU Address 1

Mode

OFF

Supply air temperature

0.0°C

7.4. HEAT PUMP ON WATER CIRCUIT

The SRC can act individually, like a remote control on:

² operating mode ² unit status

27SRC

Device 1 , Address 1

A

AUTO

Setpoint

Device 1 , Address 1

A

AUTO

Setpoint

Home

OFF

ON

Home

OFF

ON

05.02.2020
13:35

MANAUTO

SpeedStatusMode

AutoOFFAuto

Occupancy

Occ.18.5°C

05.02.2020
13:35

MANAUTO

SpeedStatusMode

AutoOFFAuto

Occupancy

Occ.18.5°C

Home

05.02.2020

Mode

Auto

Cooling

Heating

1

Fan

OFF

Cancel OK

² ventilation speed
² ambient

Speed

OFF

1

05.02.2020

ON

Home

Device 1 , Address 1

A

AUTO

Auto

Low

Medium

High

Cancel OK

13:35

Occ.18.5°C

13:35

MANAUTO

Occ.18.5°C

Home

Device 1 , Address 1

A

AUTO

OFF

ON

05.02.2020
13:35

MANAUTO

SpeedStatusMode

AutoOFFAuto

Device 1 , Address 1

A

AUTO

OFF

Home

status

OFF

ON

05.02.2020
13:35

MANAUTO

ON

Auto

1

Cancel OK

Setpoint

Occupancy

Occ.18.5°C

Occ.18.5°C

2

2

setpoint(s)

² in use/not in use

Home

Device 1 , Address 1

05.02.2020
13:35

Home

Device 1 , Address 1

Setpoint

A

AUTO

OFF

ON

MANAUTO

SpeedStatusMode

A

AUTO

AutoOFFAuto

16.0 ... 30.0

Setpoint

Occupancy

Occ.18.5°C

2

OFF

ON

21.0°C

05.02.2020
13:35

MANAUTO

1

OKCancel

Occ.18.5°C

2

Device 1 , Address 1

A

AUTO

Setpoint

Home

OFF

ON

05.02.2020
13:35

MANAUTO

SpeedStatusMode

AutoOFFAuto

Occupancy

Occ.18.5°C

Home

Device 1 , Address 1

A

OFF

AUTO

Occ.

UnOcc.

Cancel OK

Setpoint

ON

Occupancy

1

05.02.2020
13:35

MANAUTO

Occupancy

2

Occ.18.5°C

28 SRC

The SRC is used to act individually on the following:

² operating mode
² unit status
² ventilation speed
² ambient setpoint(s)
² in use/not in use

It is also possible to check the temperature measured by
the:

² air return sensor (remote control sensor)

² water ow sensor
² evaporator unit sensor
² air return sensor

Mode

Auto

Status

OFF

Speed

Auto

Setpoint

18.5°C

Occupancy

Occ.

Information

If the heat pump on water circuit is not congured to use the temperature sensor on a remote
control, the value displayed in the “Air return sensor” eld is equivalent to that in the “Air return
temperature” eld.

8. ALARM

The SRC can report alarms on units. The information is displayed:

² on the home page

the eld species the number of alarms

WSHP Address 1

Zone 1

05.02.2020
13:35

Home

1/2

WSHP Address 1

Air probe

0.0°C

Leaving water temperature

0.0°C

Indoor coil temperature

0.0°C

Return air temperature

0.0°C

Home

Zone 1

1/2

05.02.2020
13:35

² on the menu

the “Alarms” menu is displayed in black if at least
one alarm is active

A

AUTO

Speed

High

No active alarms

Fan coil

Chiller

Air handling unit

Scheduling

Alarms

Settings

Unit information

i

System preferences



Menu

OFF

ON

StatusMode

OFFCooling

Setpoint

18.5°C

A

AUTO

Speed

High

2 active alarms

Fan coil

Chiller

Air handling unit

Scheduling

Alarms

Settings

Unit information

i

System preferences



Menu

OFF

ON

StatusMode

OFFCooling

Setpoint

18.5°C

Information

For type A fan convector unit zones, the communication alarms of the different units will only appear
when a value change is sent to them.

Fan coil A

Fancoil type

µBMS

SRC type

Fan coil A

Fancoil type

µBMS

SRC type

29SRC

The SRC returns two different error messages:

² Defective unit

at least 1 alarm on the unit. It disappears
automatically as soon as the problem is
corrected.

² Communication error

no modbus communication

9. PASSWORD CHANGE

You can change the default password (9201).

Settings

SRC type

µBMS

Fancoil type

Fan coil A

DIP Config.

Configure addresses

Zone name

Zone devices

Change password

Factory reset

1

Factory reset

Settings

Enter Service password

9201

Cancel

0

OK

1

Zone 1

05.02.2020
13:35

OFF

ON

StatusMode

OFFCooling

Setpoint

18.5°C

Active alarms

Device address 1

Device alarm

Device address 2

Communication fault

A

AUTO

Speed

High

Home

2 active alarms

Service level password

Old password

Password is not correct

New password

321

2

654

Confirm new password

Cancel OK

321

987

654

987

0

Caution

If you forget the new password, action by the after-sales service will be required.

10. SRC RESET

This command resets the SRC. All created elds and addresses will be deleted, all the values displayed will
be the default parameters.

Settings

SRC type

µBMS

Fancoil type

Fan coil A

DIP Config.

Configure addresses

Zone name

Zone devices

Change password

Factory reset

1

Factory reset

Settings

Enter Service password

9201

Cancel

0

Settings

SRC type

µBMS

OK

321

2

654

987

1

Fancoil type

Factory reset

Do you really want to proceed?

Cancel

Zone devices

Change password

Factory reset

OK

1

Home

No zones configured

No active alarms

30 SRC

11. IN CASE OF WARRANTY - MATERIAL RETURN PROCEDURE

Material must not be returned without permission of our After Sales Department.

To return the material, contact your nearest sales ofce and ask for a "return form". The return form shall

be sent with the returned material and shall contain all necessary information concerning the problem
encountered.

The return of the part is not an order for replacement. Therefore, a purchase order must be entered through

your nearest distributor or regional sales ofce. The order should include part name, part number, model

number and serial number of the unit involved.
Following our personal inspection of the returned part, and if it is determined that the failure is due to faulty

material or workmanship, and in warranty, credit will be issued on customer's purchase order. All parts shall
be returned to our factory, transportation charges prepaid.

12. ORDERING SERVICE AND SPARE PARTS ORDER

The part number, the order conrmation and the unit serial number indicated on the name plate must be

provided whenever service works or spare parts are ordered.
For any spare part order, indicate the date of unit installation and date of failure. Use the part number

provided by our service spare parts, if it not available, provide full description of the part required.

KIT SRC

230V

SE 4841

230V

N

50/60Hz

L1

BK

RD

BU

GNYE

VT

NOIR

ROUGE

BLEU

VERT/JA.

VIOLET

BROWN
BLACK

RED

BLUE

GREEN/YELL.

PURPLE

WIRING BY INSTALLER

CABLAGE CLIENT

OPTIONAL/OPTION

GIALLO/V. GRUN/G. VERDE/AM.

J4

(5V/RD)

B/Yellow

A/Orange

R
S

-

4
8
5

(

m
o

d
b
u
s
)

GND/Black

(Green)

(Brown)

J2

NUARBNURB MARRON ENORRAMNB

SCHWARTZNEGRO

ROTROSSO

BLAUBLU

VIOLETTVIOLA

NERO

ROJO

AZUL

VIOLETA

D1

D2

RJ9

Y

L

G

R

B

24V

GND

J1

J3

K

N

D

PE Couvercle

MAT 10

PE Socle

0

V

2

3

2

4

V

SRC

As part of our ongoing product improvement programme, our products are subject to change without prior notice. Non contractual photos.

Systemair AC SAS

Route de Verneuil

27570 Tillières-sur-Avre

FRANCE
& : +33 (0)2 32 60 61 00
6 : +33 (0)2 32 32 55 13

IOM SRC 01-S-1GB

Part number : J581786GB

Supersedes : None