BLAUBERG S30 Automatic Control System User Manual

July 23, 2024
BLAUBERG

BLAUBERG S30 Automatic Control System

BLAUBERG-S30-Automatic-Control-System-Product

Product Information

Specifications

  • Model: S30, S31, S32

Technical Data:

  • th-Tune: -20…+70, 10…90 (no condensation)
  • AWG 20 or AWG 22 up to 500m
  • IP20 rated
  • pGDE: -20…+70, 10…90 (no condensation)
  • Telephone cable max. 50m; twisted pair AWG 22 max. 500m
  • IP40 rated

Product Usage Instructions

Installation of th-Tune Control Panel

  1. Detach the front side of the control panel from the back side using a screwdriver.
  2. Disconnect the 4-pin connector from the front side of the control panel.
  3. Complete the electric connection in compliance with the wiring diagram.
  4. Fix the back side of the control panel in the mounting box using the supplied screws.
  5. Re-connect the 4-pin connector.
  6. Lay all the wires inside the control panel and install the control panel from the bottom. Press the front side to click and complete the installation.

Installation of pGDE Control Panel

  1. Connect the pGDE control panel to the connector on the controller using the 6P6C phone connector (PLUG-6P6C-P-C2).
  2. Lay the telephone cable to the installation place of the control panel.
  3. Fix the back side of the control panel inside of the mounting box using the supplied round-head screws.

FAQ

  • Q: Can children operate this unit?
    A: The unit should not be operated by children or persons with reduced physical, mental, or sensory capacities, or those without appropriate training.

  • Q: What are the technical data for the Tune and pGDE control panels?
    A: th-Tune: -20…+70, 10…90 (no condensation), AWG 20 or AWG 22 up to 500m, IP20 rated. pGDE: -20…+70, 10…90 (no condensation), telephone cable max. 50m; twisted pair AWG 22 max. 500m, IP40 rated.

This user’s manual is a main operating document intended for technical, maintenance, and operating staff. The manual contains information about the purpose, technical details, operating principle, design, and installation of the S30, S31, and S32 unit and all its modifications. Technical and maintenance staff must have theoretical and practical training in the field of ventilation systems and should be able to work by workplace safety rules as well as construction norms and standards applicable in the territory of the country.

SAFETY REQUIREMENTS

  • Please read the user’s manual carefully before installing and operating the unit.
  • All user’s manual requirements as well as the provisions of all the applicable local and national construction, electrical, and technical norms and standards must be observed when installing and operating the unit.
  • The warnings contained in the user’s manual must be considered most seriously since they contain vital personal safety information.
  • Failure to follow the rules and safety precautions noted in this user’s manual may result in an injury or unit damage.
  • After a careful reading of the manual, keep it for the entire service life of the unit.
  • While transferring the unit control, the user’s manual must be turned over to the receiving operator.

UNIT INSTALLATION AND OPERATION SAFETY PRECAUTIONSBLAUBERG-S30-Automatic-
Control-System-Fig- \(1\)

THE PRODUCT MUST BE DISPOSED SEPARATELY AT THE END OF ITS SERVICE LIFE. DO NOT DISPOSE OF THE UNIT AS UNSORTED DOMESTIC WASTE.

PURPOSE

  • The automatic control system is designed for controlling ventilation systems of various configurations.
  • The control system controls basic ventilation system components, such as supply and extract fans, heat exchangers, air heaters, air coolers, air humidifier, air mixing chambers, and air dampers. The automation unit has a configurable controller with installed software. The controller can be individually configured for each ventilation system. The control panels are rated for non-stop operation.

For a detailed description of the automatic control system functions please refer to the controller’s manual. Please ask the ventilation unit seller to provide the manual.

  • THE UNIT SHOULD NOT BE OPERATED BY CHILDREN OR PERSONS WITH REDUCED PHYSICAL, MENTAL, OR SENSORY CAPACITIES, OR THOSE WITHOUT THE APPROPRIATE TRAINING.
  • THE UNIT MUST BE INSTALLED AND CONNECTED ONLY BY PROPERLY QUALIFIED PERSONNEL AFTER THE APPROPRIATE BRIEFING.
  • THE CHOICE OF UNIT INSTALLATION LOCATION MUST PREVENT UNAUTHORISED ACCESS BY UNATTENDED CHILDREN.

TECHNICAL DATA

Parameter| Value

th- Tune pGDE

---|---
Storage temperature [°C]| -20…+70| -20…+70
Storage humidity [%]| 10…90 (no condensation)| 10…90 (no condensation)
Operation temperature [°C]| -10…+60| -20…+60
Operation humidity [%]| 10…90 (no condensation)| 10…90 (no condensation)
Cable| AWG 20 or AWG 22 up to 500 m| Telephone cable max. 50 m; twisted pair AWG 22 max. 500 m
Ingress Protection| IP20| IP40

Overall dimensions for the control panel

Overall dimensions for pGDE control panel

INSTALLATION AND SET-UP

INSTALLATION OF TH-TUNE CONTROL PANEL
For installation of the back side of the control panel use a mounting box with a minimum diameter of 65 mm and installation depth of 31 mm.

  1. Detach the front side of the control panel from the back side using a screwdriver.
  2. Disconnect the 4-pin connector from the front side of the control panel.
  3. Complete the electric connection in compliance with the wiring diagram.
  4. Fix the back side of the control panel in the mounting box using the supplied screws.
  5. Re-connect the 4-pin connector.
  6. Lay all the wires inside of the control panel and install the control panel from the bottom. Press the control panel’s front side to click to complete the installation.BLAUBERG-S30-Automatic-Control-System-Fig- \(6\)

Overall dimensions of the control panel back side, mm
The outline drawing of the control panel’s backside is shown on the left.

BLAUBERG-S30-Automatic-Control-System-Fig- \(7\)

INSTALLATION OF PGDE CONTROL PANEL
Connect the pGDE control panel to the connector on the controller using the 6P6C phone connector (PLUG-6P6C-P-C2). The maximum telephone cable length is 50 m.

Lay the telephone cable to the installation place of the control panel.

  1. Fix the back side of the control panel inside of the mounting box using the supplied round-head screws.BLAUBERG-S30-Automatic-Control-System-Fig- \(8\)
  2. Connect the telephone cable to the front side of the control panel. Attach the front side of the control panel to its back side using the supplied countersunk head screws as shown below. Press the control panel’s front side to click to complete the installation.BLAUBERG-S30-Automatic-Control-System-Fig- \(9\)

CONTROL

S31 controller (KVENT) inputs/outputs

BLAUBERG-S30-Automatic-Control-System-Fig- \(10\)

Position Description
1 Digital inputs
2 Analogue inputs
3 Analog outputs
4 Digital outputs
5 Micro USB for updating applications, import and export of settings, alarm

log
6| Power source for external sensors
7| Ethernet port
8| Connection port for PGDe control panel
9| Display port
10| BMS/Fieldbus2 port
11| BMS/Fieldbus1 port. Used for connection of th-Tune as well
12| Slot for connection of BMS card (not included in the delivery set, available as a specially ordered accessory)
13| Jumpers for configuration of BMS/Fieldbus2 port
14| Power input

Ventilation unit control with a mobile device

BLAUBERG-S30-Automatic-Control-System-Fig- \(11\)

  • The ventilation unit is controllable via a mobile device or tablet. Connect the router through the Ethernet (LAN) connector using the twisted pair (4 x 2 x 0.51) not below Cat5 with 8P8C connectors. Go to the router menu and find the IP address of the ventilation unit. Enter the IP address in the URL bar on a mobile device.
  • After that, the unit is ready for operation via mobile device. The control interface is identical to the PGDe control panel interface.

TH-TUNE CONTROL PANEL

BLAUBERG-S30-Automatic-Control-System-Fig- \(12\)

DISPLAY SYMBOLS

1. System on/off indication
2. Main field (current indoor temperature, field for temperature setup,

schedule setup, etc.)
3.| Operation modes:

4.| Temperature measurement unit
5.| Schedule blocking function (the pictogram appears in case of an attempt to activate the schedule on an unconfigured unit)
6.| Set value
7.| Humidity measurement unit
8.| Current time band
9.| Day of the week
10.| Cooling on
11.| Heating on
12.| Ventilation mode
13.| Alarm signal. The error code is displayed in line 14
14.| Time
15.| Activated scheduled mode

Description of the operation modes:

  • STOP: the fans are off, and the protection functions are on (no indication in the field 3).
  • ECO: low fan speed, low temperature, and power consumption.
  • PRECOMFORT: medium fan speed, medium temperature, and power consumption.
  • COMFORT: maximum fan speed, increased temperature, and power consumption.
  • AUTO: scheduled operation mode.

TO reset the alarms synchronously, press and hold the FAN and ON/OFF buttons for 3 seconds.

Schedule setup

The th-Tune panel enables the setup of scheduled operation and temperature settings. To enter the menu, turn off the schedule mode and press the CLOCK button for 2 seconds.

After entering the setup menu of schedule mode the following points are displayed:

  • Clock: enables setting for the current time
  • Sel days: enables schedule and temperature setting. Press the ENCODER buttons to get access to the settings. Then rotate ENCODER to select several days or one day to set an operation mode as follows:
  • 7 days (Mon, Tue, WThu Thu, Fri, Sat, Sun). For Monday, Tuesday, Wednesday, Thursday, Friday, Saturday and Sunday the time band settings are common.
  • 5 days (Mon, Tue, Wed, Thu, Fri). For Monday, Tuesday, Wednesday, Thursday, and Friday the time band settings are common.
  • 2 days (Sat, Sun). For Saturday and Sunday, the time band settings are common.
  • Day by day. The time band settings for each day are individually settable.

Each period can have up to 6 time bands. The time bands are marked with the following pictures:

  • Rotate the ENCODER button to switch between the time band settings.
  • Each selected time band has the set temperature (1) and activation time (2) parameters.

The time band «-:-» can be deactivated on the display:

To set the OFF band on the th-Tune, rotate the minimum setting down to the OFF point as shown in the figure below.

PGDE CONTROL PANEL

The control panel has 6 buttons:

  • (ALARM): manual reset of alarm signals.
  • Prg (PRG): operation mode editing.
  • Esc (ESC): return to the previous display.
  • (UP, DOWN): moving between displays screens or increasing/decreasing values
  • (ENTER): data validation and reset to the parameter list

BLAUBERG-S30-Automatic-Control-System-Fig- \(19\)

UNIT START
After the connection of the unit to the power mains the controller is loaded and the home page opens.

BLAUBERG-S30-Automatic-Control-System-Fig- \(23\)

  1. Day and time.
  2. The supply fan is on.
  3. Operation mode.
    • STOP
    • ECONOMY
    • PURE COMFORT
    • COMFORT
    • AUTO
  4. Current unit condition.BLAUBERG-S30-Automatic-Control-System-Fig- \(24\)
  5. Main temperature control (air temperature in the supply air duct).
  6. Set indoor air or supply duct temperature point (depending on settings).
  7. Indicates access to the user menu with UP, DOWN, and ENTER buttons.
    • INFO: indicates the general condition of devices, operation status of outputs, and inputs of devices and sensors.
    • SET: indicates current set point and operation mode according to schedule. It is possible to set the set points for devices and schedules.
    • MODE: indicates changing of operation mode (stop, economy, comfort, comfort, auto).
  8. Supply fan speed.
  9. The extract fan is on.
  10. Extract fan speed.
Set-up of scheduled mode

Press ENTER to switch to the menu in the SET mode.

The menu has three set points:

  1. Setup of operation mode for each weekday. It is possible to set a maximum of four-time bands for one day (from Monday till Sunday) and start time for set mode.
  2. Selection of weekday for setup.
  3. Copying of set parameters to enter for the other weekday. Select Yes to copy parameters on the next day (parameter Copy to).
  4. Setting a number of time bands for the day. The current mode exits as the next mode starts.
  5. Saving set parameters.
  6. Setting operation mode for 3 time bands (from one day till one year). The current operation mode exits as the next mode starts.
  7. It is possible to set a day for switching to set mode.
    It is possible to set a maximum of 6 days. The current operation mode exits as the next mode starts.

To activate the schedule mode, set the value I007 for the BOARD parameter in the section Unit cfq.

ALARMS
In the case of alarms, the alarms are displayed on the display.

BLAUBERG-S30-Automatic-Control-System-Fig- \(29\)

Position Description
1 Alarm number / total alarms
2 Alarm date and time
3 Alarm code
4 Alarm description
5 Alarmed sensor value

The alarms can be reset manually, automatically, or repeated automatically.

  • Manual reset: after troubleshooting an alarm reset the audio signal using the ALARM button, then press and hold the button for 3 seconds for a final reset.
  • Automatic reset: after automatic troubleshooting of the alarm the audio signal turns off and the signal is reset.
  • Automatically repeated reset: the system checks several repeated interventions per hour. If this number is below the set maximum value, the alarm is automatically reset. As soon as the limit is crossed, the alarm must be reset manually.

WARNING!

  • By default, the unit is controlled by the TH-Tune remote control.
  • In the case of using PGDE and/or BMS control, TH-Tune must be disabled to prevent error A010 (th-tune offline). The figure below shows the screen when the unit is turned on with the PGDE control panel.
  • The button will light up. Pressing it displays the alarm code.

To continue the operation, perform the following steps:

  • Press the Prg button to go to the main menu, use the and arrows to select the Unit cfg. section and press the button to enter it.
  • In the Unit cfg. section, select the I005 thTune parameter and change its value from Y to N.BLAUBERG-S30-Automatic-Control-System-Fig- \(34\)

If the control is via BMS, the parameter I005 Enable thTune management must be set to 0.

Alarm list

Alarm code| ****

Alarm description

| ****

Reset

| ****

Action

---|---|---|---
A000| The supply temperature sensor not working| Automatic reset| Unit shutdown
A001| Cooling device alarm| Reset by user| Cooler shutdown
A002| Antifreeze alarm by DIN| Up to two times per hour (3600s), automatic reset of error, from the third time on, a manual reset required| Unit shutdown and forced 100% power heating
A003| Prototype software| Automatic reset| Unit shutdown
A004| High number of retained memory writings| Reset by user| No
A005| Error in retaining memory writings| Reset by user| No
A006| The return temperature sensor is broken and not working| Automatic reset| Changeover in the supply control mode
A007| The external temperature sensor is broken and not working| Automatic reset| Deactivation of outdoor air temperature compensation mode
A008| The CO2 air quality sensor not working| Automatic reset| Deactivation of CO2 control mode
A009| The exhaust temperature sensor not working| Automatic reset| Unit shutdown
A010| th-Tune offline| Automatic reset| Deactivation of indoor air temperature compensation mode
A011| Supply temperature out of range| Automatic reset| No
A012| Supply airflow alarm| Reset by user| Unit shutdown
A013| Return airflow alarm| Reset by user| Unit shutdown
A014| Humidifier alarm| Automatic reset| Humidifier shutdown
A015| Humidifier maintenance required| Automatic reset| No
A016| Return fan maintenance required| Automatic reset| No
A017| Supply fan maintenance required| Automatic reset| No
A018| Reheating coil maintenance required| Automatic reset| No
A019| Heat recovery maintenance required| Automatic reset| No
A020| Supply filters alarm| Automatic reset| No
A021| The th-Tune clock not working| Automatic reset| No
A022| th-Tune temperature sensor not working| Automatic reset| Deactivation of indoor air temperature regulation mode
A023| th-Tune humidity sensor not working| Automatic reset| Deactivation of indoor air humidity regulation mode
A024| BMS offline| Automatic reset| No
A025| The supply differential pressure sensor not working| Automatic reset| No
A026| Return differential pressure sensor not working| Automatic reset| No
A027| Fire alarm by digital input| Reset by user| Unit shutdown forced switching of fans to fire speed
A028| The heating coil water temperature sensor not working| Automatic reset| Unit shutdown forced switching to 100% bypass damper opening
A029| The preheating coil water temperature sensor not working| Automatic reset| Unit shutdown forced switching to 100% bypass damper opening
A030| After preheating the coil temp.sensor did not work| Automatic reset| Preheater shutdown
A031| Heating device alarm| Automatic reset to counter (filter timer) value (3 times 3600 s)| Heater shutdown
A032| Fire alarm by temperature| Reset by user| Unit shutdown forced switching of fans to fire speed
A033| Antifreeze alarm by heat backwater temperature| Automatic reset to counter (filter timer) value (3 times 3600 s)| Unit shutdown forced switching to 100% bypass damper opening
A034| Antifreeze alarm by preheat backwater temperature| Automatic reset to counter (filter timer) value (3 times 3600 s)| Unit shutdown forced switching to 100% bypass damper opening
A035| Fans overload alarm| Automatic reset| Unit shutdown
A036| The supply humidity sensor not working| Automatic reset| Humidifier shutdown
A037| Unit configuration is not allowed| Automatic reset| Unit shutdown
A038| Supply fan – Offline| Automatic reset| Unit shutdown
---|---|---|---
A039| Supply fan – Line Fault| Automatic reset| Unit shutdown
A040| Supply fan – Motor blocked| Automatic reset| Unit shutdown
A041| Supply fan – Fire alarm| Automatic reset| Unit shutdown
A042| Supply fan – Uin Low (FW 10)| Automatic reset| Unit shutdown
A043| Supply fan – Uin High (FW 10)| Automatic reset| Unit shutdown
A044| Supply fan – UZK low| Automatic reset| Unit shutdown
A045| Supply fan – UZK high| Automatic reset| Unit shutdown
A046| Supply fan – IGBT fault| Automatic reset| Unit shutdown
A047| Supply fan – Earth-GND fault| Automatic reset| Unit shutdown
A048| Supply fan – Peak current error| Automatic reset| Unit shutdown
A049| Supply fan – Hall sensor error| Automatic reset| Unit shutdown
A050| Supply fan – Offline| Automatic reset| Unit shutdown
A051| Supply fan – Phase Failure| Reset by user| Unit shutdown
A052| Supply fan – Motor blocked| Reset by user| Unit shutdown
A053| Supply fan – Mains undervoltage| Reset by user| Unit shutdown
A054| Supply fan – Mains overvoltage| Reset by user| Unit shutdown
A055| Supply fan – DC-link overvoltage| Reset by user| Unit shutdown
A056| Supply fan – DC-link undervoltage| Reset by user| Unit shutdown
A057| Supply fan – Motor overheating| Reset by user| Unit shutdown
A058| Supply fan – Internal circuit overheating| Reset by user| Unit shutdown
A059| Supply fan – Outer stage overheating| Reset by user| Unit shutdown
A060| Supply fan – Hall sensor error| Reset by user| Unit shutdown
A061| Supply fan – Communication error| Reset by user| Unit shutdown
A062| Supply fan – Generic error| Reset by user| Unit shutdown
A063| Supply fan – Outer stage high temperature| Automatic reset| Unit shutdown
A064| Supply fan – Internal circuit high-temperature| Automatic reset| Unit shutdown
A065| Supply fan – Motor high-temperature| Automatic reset| Unit shutdown
A066| Supply fan – Low DC-link voltage| Automatic reset| Unit shutdown
A067| Supply fan – Limited mains power| Automatic reset| Unit shutdown
A068| Supply fan – Limited mains current| Automatic reset| Unit shutdown
A069| Supply fan – Brake mode| Automatic reset| Unit shutdown
A070| Supply fan – Cable break| Automatic reset| Unit shutdown
A071| Supply fan – Freeze protection| Automatic reset| Unit shutdown
A072| Supply fan – Heating: motor stop| Automatic reset| Unit shutdown
A073| Supply fan – Speed under the limit| Automatic reset| Unit shutdown
A074| Supply fan – High DC-link voltage| Automatic reset| Unit shutdown
A075| Supply fan – High supply voltage| Automatic reset| Unit shutdown
A076| Supply fan – High line Impedance| Automatic reset| Unit shutdown
A077| Return fan – Offline| Automatic reset| Unit shutdown
A078| Return fan-line fault| Automatic reset| Unit shutdown
A079| Return fan – Motor blocking| Automatic reset| Unit shutdown
A080| Return fan – Fire alarm| Automatic reset| Unit shutdown
A081| Return fan – Uin Low (FW 10)| Reset by user| Unit shutdown
A082| Return fan – Uin High (FW 10)| Reset by user| Unit shutdown
A083| Return fan – UZK low| Reset by user| Unit shutdown
A084| Return fan – UZK high| Reset by user| Unit shutdown
A085| Return fan – IGBT fault| Reset by user| Unit shutdown
A086| Return fan – Earth-GND fault| Reset by user| Unit shutdown
A087| Return fan – Peak current error| Reset by user| Unit shutdown
A088| Return fan – Hall sensor error| Reset by user| Unit shutdown
A089| Return fan – Offline| Reset by user| Unit shutdown
---|---|---|---
A090| Return fan – Phase failure| Reset by user| Unit shutdown
A091| Return fan – Motor blocked| Reset by user| Unit shutdown
A092| Return fan – Mains undervoltage| Reset by user| Unit shutdown
A093| Return fan – Mains overvoltage| Reset by user| Unit shutdown
A094| Return fan – DC-link overvoltage| Reset by user| Unit shutdown
A095| Return fan – DC-link undervoltage| Reset by user| Unit shutdown
A096| Return fan – Motor overheating| Reset by user| Unit shutdown
A097| Return fan – Internal circuit overheating| Reset by user| Unit shutdown
A098| Return fan – Outer stage overheating| Reset by user| Unit shutdown
A099| Return fan – Hall sensor error| Reset by user| Unit shutdown
A100| Return fan – Communication error| Automatic reset| Unit shutdown
A101| Return fan – Generic error| Automatic reset| Unit shutdown
A102| Return fan – Outer stage high temperature| Automatic reset| Unit shutdown
A103| Return fan – Internal circuit high temperature| Automatic reset| Unit shutdown
A104| Return fan – Motor high temperature| Automatic reset| Unit shutdown
A105| Return fan – DC-link low-voltage| Automatic reset| Unit shutdown
A106| Return fan – Limited mains power| Automatic reset| Unit shutdown
A107| Return fan – Limited mains current| Automatic reset| Unit shutdown
A108| Return fan – Brake mode| Automatic reset| Unit shutdown
A109| Return fan – Cable break| Automatic reset| Unit shutdown
A110| Return fan – Freeze protection| Automatic reset| Unit shutdown
A111| Return fan – Heating: motor stop| Automatic reset| Unit shutdown
A112| Return fan – Speed under the limit| Automatic reset| Unit shutdown
A113| Return fan – DC-link high-voltage| Automatic reset| Unit shutdown
A114| Return fan – High supply voltage| Automatic reset| Shutdown of VOC regulation
A115| Return fan – High line impedance| Automatic reset| No
A404| VOC air quality sensor malfunction| Automatic reset| No
A405| Supply filter 2 alarm| Automatic reset| Shutdown. Check-up of air humidity for natural cooling
A406| Return filter alarm| Automatic reset| No
A407| The fresh air humidity sensor not working| Automatic reset| No
A408| Preheating coil maintenance required| Automatic reset| No
A412| IEC humidifier maintenance required| Automatic reset| No
A413| Cooling device maintenance required| Automatic reset| No
A414| Cooling device 2 maintenance required| Automatic reset| No
A415| Heating device maintenance required| Automatic reset| No
A416| Heating device 2 maintenance required| Automatic reset| No
A417| Reverse device maintenance required| Automatic reset| No
A418| Reverse device 2 maintenance required| Automatic reset| No
A422| Out-of-design temperature limits alarm| Automatic reset| Opening air mixing unit or ventilation shutdown if mixing unit is not available
A429| Heat exchanger clogged| Automatic reset| The shutdown of heat recovery
A430| Door switch| Automatic reset| Unit shutdown

  • THE ENGINEERING SETTINGS ARE PASSWORD PROTECTED.
  • FOR A DETAILED DESCRIPTION OF ENGINEERING SETTINGS PLEASE REFER TO THE MANUAL FOR THE CONTROLLER SOFTWARE.
  • PLEASE ASK THE UNIT SUPPLIER FOR THE MANUAL TO THE CONTROLLER SOFTWARE.
  • The engineering menu enables the operation of the automation unit with the control panels A30 and A32 both individually and jointly. The automation system is operable also without a control panel.
  • The system can be operated also with an external on/off switch.
  • The automation unit has a built-in WEB interface and supports the Modbus and Bacnet protocols according to RS485 and Ethernet interfaces.

Please refer to the controller operation manual for information about the protocol setup.

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