STIEBEL ELTRON Modbus TCP/IP Software Extension for Internet Service Gateway User Guide
- June 9, 2024
- STIEBEL ELTRON
Table of Contents
STIEBEL ELTRON Modbus TCP/IP Software Extension for Internet Service
Gateway User Guide
General information
These instructions are intended for qualified contractors.
Note
Read these instructions carefully before using the appliance and retain them
for future reference.
Pass on the instructions to a new user if required.
Other symbols in this documentation
Note
General information is identified by the adjacent symbol.
- Read these texts carefully.
Symbol: Meaning
Material losses (appliance damage, consequential losses and environmental pollution)
- This symbol indicates that you have to do something. The action you need to take is described step by step.
Relevant appliances
- ISG web, part number 229336
- ISG plus, part number 233493
Brand conformity
Note
This software can only be operated in conjunction with devices and software
from the same manufacturer.
- Never use this software in conjunction with third party software or devices.
Relevant documents
Operating and installation instructions Internet Service Gateway ISG web
Operating and installation instructions for the connected integral ventilation unit or the heat pump
Conditions of use for the ISG web
Contract conditions for the purchase of chargeable software extensions with additional functions for the ISG web
Safety
Intended use
Material losses
Incorrect use can result in damage to the connected integral ventilation unit
or heat pump.
Observation of these instructions and of instructions for any accessories used is also part of the correct use of this appliance.
System requirements
- ISG web with the Basic service package
- Compatible device, see “Compatibility overview”
- Building management system with Modbus TCP/IP Master
- IP network connection to the ISG and to the building management system
General safety instructions
We guarantee trouble-free function and operational reliability only
if the original accessories intended for the appliance are used.
Instructions, standards and regulations
Note
Observe all applicable national and regional regulations and instructions.
Product description
This product is a software interface for the ISG for building automation. The ISG is a gateway for controlling integral ventilation units and heat pumps. Components required for operating the connected integral ventilation unit or the connected heat pump (e.g. sensors) cannot be replaced by Modbus components.
The following functions are available with the Modbus software:
- Selecting operating modes
- Selecting set temperatures
- Switching fan levels
- Selecting set DHW temperature
- Calling up current values and system data
Settings
The ISG uses the following 16-bit register:
“Read input register”
- Objects are read-only
- Calling up registers via function code 04 (“Read input registers”)
Example: To read register 30501, address 501 is brought up with function code
“Read/write holding register”
- Objects are read-writable
- Calling up registers via function code 03 (“Read holding registers”)
- Write via function code 06 (“Write single register”) or function code 16 (“Write multiple registers”)
The substitute value “32768 (0x8000H)” is issued for unavailable objects.
Some status objects are bit-coded (B0 – Bx). The respective corresponding status information is documented under “Coding” (e.g. compressor running yes/no).
A distinction is drawn here between the following types of data:
Data type| Value range| Multiplier for reading| Multiplier
for writing| Signed| Step size 1| Step size 5
---|---|---|---|---|---|---
2| 3276.8 to 3276.7| 0.1| 10| Yes| 0.1| 0.5
6| 0 to 65535| 1| 1| No| 1| 1
7| -327.68 to 327.67| 0.01| 100| Yes| 0.01| 0.05
8| 0 to 255| 1| 1| 5| 1| 5
- Transferred value x multiplier = data value
- Example – writing: To write a temperature of 20.3 °C, write value 203 (factor 10) to the register.
- Example – reading: The value 203 called up means 20.3 °C (203 x 0.1 = 20.3)
IP configuration
Note
Refer to the ISG operating and installation instructions.
You can perform the IP configuration in the SERVICEWELT via the “Profile” tab:
ISG: 192.168.0.126 (standard IP address)
TCP port: 502
Slave ID: 1 (permanent)
Note
The ISG retains its standard IP address when directly connected to your
computer. If connected via a router, the DHCP server automatically assigns a
different IP address to the ISG.
Compatibility overview
Note
In parameter configuration, first select the appliance type so that the
respective corresponding parameters can be configured.
- Follow the operating and installation instructions for the ISG when connecting the heat pump or the integral ventilation unit to the ISG.
Note
Generally, all listed appliances are supported.
- Not every object type is available with every appliance.
- The substitute value “32768 (0x8000H)” is issued for unavailable objects.
You can find an overview of compatible heat pumps / integral ventilation units on our website.
https://www.stiebel-eltron.de/de/home/service/smart- home/kompatibilitaetslisten.html
Incompatibility
- The ISG must not be operated together with a DCo-active GSM on the same CAN bus. This can result in errors in communication with the WPM.
- The Modbus TCP/IP software interface cannot be combined with other ISG software interfaces (Exception: Read-only access is possible at the same time as using the EMI energy management software extension).
Troubleshooting
Checking the software version
- Check whether the Modbus software is installed on the ISG.
- When a WPM is connected, you will find the corresponding menu in the SERVICEWELT under: DIAGNOSIS → SYSTEM → ISG.
- When an integral ventilation unit is connected, you will find the corresponding menu in the SERVICEWELT under: DIAGNOSIS → BUS SUBSCRIBER → ISG.
- If the “Modbus TCP/IP” interface is not listed, you need to update to the latest ISG firmware.
- Contact STIEBEL ELTRON service department.
- Visit our homepage for more information.
Checking the data transfer:
- Using a standard data object (e.g. outside temperature), check the data transfer via Modbus. Compare the transferred value with the value shown in the controller display
Note
ISG addresses are 1 based.
Allowance must be made for an offset of around 1, depending on the
configuration.
Acknowledging faults:
- Faults in the heating system are indicated by the fault status (Modbus addresses: 2504, 2002).
- For safety reasons, faults can only be acknowledged via the SERVICEWELT user interface.
If you encounter problems with the product and cannot remedy the cause, contact an IT contractor.
Modbus system values for heat pumps with WPM
Note
Generally, all listed appliances are supported.
- Not every object type is available with every appliance.
- The substitute value “32768 (0x8000H)” is issued for unavailable objects.
- ISG addresses are 1 based.
Note
Values in the “Min. value” and “Max. value” columns will vary according to the
connected heat pump, and may deviate from the indicated values.
Block 1: System values (Read input register)
Modbus address| Object designation| WPMsys- tem| WPM 3| WPM 3i| Comments| Min.
value| Max. value| Data type| Unit| Write/ read (w/r)
---|---|---|---|---|---|---|---|---|---|---
501| ACTUAL TEMPERATURE FE7| x| x| x| | | | 2| °C| r
502| SET TEMPERATURE FE7| x| x| x| | | | 2| °C| r
503| ACTUAL TEMPERATURE FEK| | x| x| | | | 2| °C| r
504| SET TEMPERATURE FEK| | x| x| | | | 2| °C| r
505| RELATIVE HUMIDITY| | x| x| | | | 2| %| r
506| DEW POINT TEMPERATURE| | x| x| | -40| 30| 2| °C| r
507| OUTSIDE TEMPERATURE| x| x| x| | -60| 80| 2| °C| r
508| ACTUAL TEMPERATURE HK 1| x| x| x| | 0| 40| 2| °C| r
509| SET TEMPERATURE HK 1| | | x| | 0| 65| 2| °C| r
510| SET TEMPERATURE HK 1| x| x| | | 0| 40| 2| °C| r
511| ACTUAL TEMPERATURE HK 2| x| x| x| | 0| 90| 2| °C| r
512| SET TEMPERATURE HK 2| x| x| x| | 0| 65| 2| °C| r
513| ACTUAL FLOW TEMPERATURE WP| x| x| x| MFG, if available| | | 2| °C| r
514| ACTUAL FLOW TEMPERATURE NHZ| x| x| x| MFG, if available| | | 2| °C| r
515| ACTUAL FLOW TEMPERATURE| x| x| x| | | | 2| °C| r
516| ACTUAL RETURN TEMPERATURE| x| x| x| | 0| 90| 2| °C| r
517| SET FIXED TEMPERATURE| x| x| x| | 20| 50| 2| °C| r
518| ACTUAL BUFFER TEMPERATURE| x| x| x| | 0| 90| 2| °C| r
519| SET BUFFER TEMPERATURE| x| x| x| | | | 2| °C| r
520| HEATING PRESSURE| x| x| x| MFG, if available| | | 7| bar| r
521| FLOW RATE| x| x| x| MFG, if available| | | 2| l/min| r
522| ACTUAL TEMPERATURE| x| x| x| DHW| 10| 65| 2| °C| r
523| SET TEMPERATURE| x| x| x| DHW| 10| 65| 2| °C| r
524| ACTUAL TEMPERATURE FAN| x| x| x| Cooling| | | 2| K| r
525| SET TEMPERATURE FAN| x| x| x| Cooling| 7| 25| 2| K| r
526| ACTUAL TEMPERATURE AREA| x| x| x| Cooling| | | 2| K| r
527| SET TEMPERATURE AREA| x| x| x| Cooling| | | 2| K| r
528| COLLECTOR TEMPERATURE| | x| | Solar thermal| 0| 90| 2| °C| r
529| CYLINDER TEMPERATURE| | x| | Solar thermal| 0| 90| 2| °C| r
530| RUNTIME| | x| | Solar thermal| | | 6| h| r
531| ACTUAL TEMPERATURE| x| x| | External heat source| 10| 90| 2| °C| r
532| SET TEMPERATURE| x| x| | External heat source| | | 2| K| r
533| APPLICATION LIMIT HZG| x| x| x| Lower heating limit| -40| 40| 2| °C| r
534| APPLICATION LIMIT WW| x| x| x| Lower DHW limit| -40| 40| 2| °C| r
535| RUNTIME| x| x| | External heat source| | | 6| h| r
536| SOURCE TEMPERATURE| x| x| x| | | | 2| °C| r
537| MIN SOURCE TEMPERATURE| x| x| x| | -10| 10| 2| °C| r
538| SOURCE PRESSURE| x| x| x| | | | 7| bar| r
539| HOT GAS TEMPERATURE| | | x| | | | 2| °C| r
540| HIGH PRESSURE| | | x| | | | 2| bar| r
541| LOW PRESSURE| | | x| | | | 2| bar| r
542| RETURN TEMPERATURE| x| x| | Heat pump 1| | | 2| °C| r
543| FLOW TEMPERATURE| x| x| | Heat pump 1| | | 2| °C| r
544| HOT GAS TEMPERATURE| x| x| | Heat pump 1| | | 2| °C| r
545| LOW PRESSURE| x| x| | Heat pump 1| | | 7| bar| r
546| MEAN PRESSURE| x| x| | Heat pump 1| | | 7| bar| r
547| HIGH PRESSURE| x| x| | Heat pump 1| | | 7| bar| r
548| WP WATER FLOW RATE| x| x| | Heat pump 1| | | 2| l/min| r
549| RETURN TEMPERATURE| x| x| | Heat pump 2| | | 2| °C| r
550| FLOW TEMPERATURE| x| x| | Heat pump 2| | | 2| °C| r
551| HOT GAS TEMPERATURE| x| x| | Heat pump 2| | | 2| °C| r
552| LOW PRESSURE| x| x| | Heat pump 2| | | 7| bar| r
553| MEAN PRESSURE| x| x| | Heat pump 2| | | 7| bar| r
554| HIGH PRESSURE| x| x| | Heat pump 2| | | 7| bar| r
555| WP WATER FLOW RATE| x| x| | Heat pump 2| | | 2| l/min| r
556| RETURN TEMPERATURE| x| x| | Heat pump 3| | | 2| °C| r
557| FLOW TEMPERATURE| x| x| | Heat pump 3| | | 2| °C| r
558| HOT GAS TEMPERATURE| x| x| | Heat pump 3| | | 2| °C| r
559| LOW PRESSURE| x| x| | Heat pump 3| | | 7| bar| r
560| MEAN PRESSURE| x| x| | Heat pump 3| | | 7| bar| r
561| HIGH PRESSURE| x| x| | Heat pump 3| | | 7| bar| r
562| WP WATER FLOW RATE| x| x| | Heat pump 3| | | 2| l/min| r
563| RETURN TEMPERATURE| x| x| | Heat pump 4| | | 2| °C| r
564| FLOW TEMPERATURE| x| x| | Heat pump 4| | | 2| °C| r
565| HOT GAS TEMPERATURE| x| x| | Heat pump 4| | | 2| °C| r
566| LOW PRESSURE| x| x| | Heat pump 4| | | 7| bar| r
567| MEAN PRESSURE| x| x| | Heat pump 4| | | 7| bar| r
568| HIGH PRESSURE| x| x| | Heat pump 4| | | 7| bar| r
569| WP WATER FLOW RATE| x| x| | Heat pump 4| | | 2| l/min| r
570| RETURN TEMPERATURE| x| x| | Heat pump 5| | | 2| °C| r
571| FLOW TEMPERATURE| x| x| | Heat pump 5| | | 2| °C| r
572| HOT GAS TEMPERATURE| x| x| | Heat pump 5| | | 2| °C| r
573| LOW PRESSURE| x| x| | Heat pump 5| | | 7| bar| r
574| MEAN PRESSURE| x| x| | Heat pump 5| | | 7| bar| r
575| HIGH PRESSURE| x| x| | Heat pump 5| | | 7| bar| r
576| WP WATER FLOW RATE| x| x| | Heat pump 5| | | 2| l/min| r
577| RETURN TEMPERATURE| x| x| | Heat pump 6| | | 2| °C| r
578| FLOW TEMPERATURE| x| x| | Heat pump 6| | | 2| °C| r
579| HOT GAS TEMPERATURE| x| x| | Heat pump 6| | | 2| °C| r
580| LOW PRESSURE| x| x| | Heat pump 6| | | 7| bar| r
581| MEAN PRESSURE| x| x| | Heat pump 6| | | 7| bar| r
582| HIGH PRESSURE| x| x| | Heat pump 6| | | 7| bar| r
583| WP WATER FLOW RATE| x| x| | Heat pump 6| | | 2| l/min| r
584 ACTUAL TEMPERATURE| x| | | Room temperature, heating circuit
1| | | 2| °C| r
585 SET TEMPERATURE| x| | | Room temperature, heating
circuit 1| | | 2| °C| r
586 RELATIVE HUMIDITY| x| | | Heating circuit 1| | | 2| %| r
587 DEW POINT TEMPERATURE| x| | | Heating circuit 1| | | 2| °C| r
588 ACTUAL TEMPERATURE| x| | | Room temperature, heating
circuit 2| | | 2| °C| r
589 SET TEMPERATURE| x| | | Room temperature, heating
circuit 2| | | 2| °C| r
590 RELATIVE HUMIDITY| x| | | Heating circuit 2| | | 2| %| r
591 DEW POINT TEMPERATURE| x| Heating circuit 2| 2| °C| r
592 ACTUAL TEMPERATURE| x| Room temperature, heating circuit
3| 2| °C| r
593SET TEMPERATURE| x| Room temperature, heating circuit 3| 2|
°C| r
594RELATIVE HUMIDITY| x| Heating circuit 3| 2| %| r
595DEW POINT TEMPERATURE| x| Heating circuit 3| 2| °C| r
596ACTUAL TEMPERATURE| x| Room temperature, heating circuit 4| 2| °C| r
597 SET TEMPERATURE| x| Room temperature, heating
circuit 4| 2| °C| r
598 RELATIVE HUMIDITY| x| Heating circuit 4| 2| %| r
599 DEW POINT TEMPERATURE| x| Heating circuit 4| 2| °C| r
600 ACTUAL TEMPERATURE| x| Room temperature, heating
circuit 5| 2| °C| r
601 SET TEMPERATURE| x| Room temperature, heating
circuit 5| 2| °C| r
602 RELATIVE HUMIDITY| x| Heating circuit 5| 2| %| r
603 DEW POINT TEMPERATURE| x| Heating circuit 5| 2| °C| r
604 SET TEMPERATURE| x| Room temperature, cooling
circuit 1| 2| °C| r
605 SET TEMPERATURE| x| Room temperature, cooling
circuit 2| 2| °C| r
606 SET TEMPERATURE| x| Room temperature, cooling
circuit 3| 2| °C| r
607 SET TEMPERATURE| x| emperature, cooling circuit4|
2| °C| r
608 SET TEMPERATURE| x| oom temperature, cooling circuit 5|
2| °C| r
References
- Home - domain expired
- Home - domain expired
- Sachverständigenbüro ELTRON - Startseite
- STIEBEL ELTRON International
- Ersatzteil- und Zubehörshop
- Wärmepumpenmanager von STIEBEL ELTRON
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