Heatweb BEMS Hat

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Revision as of 17:52, 4 October 2022 by Rhg (talk | contribs)
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Bemspcb1.png
Feature Specifcations
8 x thermistor inputs

10k resistance temperature devices

4 x universal inputs

100Hz pulse signals
volt-free contacts
0-10V signals
1k or 10k thermistors

4 x volt-free / pulse inputs

100Hz pulse signals
volt-free contacts

2 x change-over relays 10A @ 36V
4 x PWM inputs

DIP selected pull-up resistors (5V)
Voltage comparator
Low state: < 3V
High state: 3V to 24V

4 x Digital PWM outputs Pull-down operation

DIP selected pull-up resistors (5V/24V)

4 x 0-10v outputs 10mA peak current
2 x RS485

Independent lines for Modbus or bespoke protocols
DIP switch selectable terminating resistors
One line DIP switchable for Modbus Slave Mode

1 x M-Bus

For meter communications
On-board supply: 36V @ 30mA
Device limit: 10

Power Supply

Nominal voltage: 12VDC
Current requirement: 3A
Minimum supply voltage: 11.8V
Peak supply voltage: 16V

Battery support

On-board rechargeable battery socket
Maintains power to all systems (5V, 24V & 36V) during loss of supply
Voltage monitoring with safe shutdown
Duration: > 1 hour (can be extended with use of sleep mode)

Real time clock
General purpose input button
3 x user definable LEDs
Fan control and connector


The Heatweb BEMS Hat runs from a 12v dc supply, generating 5v for the board, 24v for valves, and 36v for M-Bus, using on-board dc-dc converters backed up by a rechargeable battery.  A coin cell is used to power a real-time clock.

WiFi, Ethernet and Bluetooth are provided by the parent controller board.

A number of the inputs are universal, and can be switched between NTC, 0-10v, or volt-free / pulse inputs (jumper selected).  This ability to alter the hardware setup increases versatility significantly.

The addition of M-Bus allows us to connect to heat meters as standard, making the board a stand alone solution to open-sourcing meter data, and to use meter data within control logic.  

The battery backup allows us to safely shut-down all valves and the controls when power is removed.  This overcomes a common problem with HVAC systems, where valves typically remain open, destroying network performance.