Modbus register map
Destratification controller |EC fans |2 x AO | built-in Ethernet/WiFi
Solution description
Temperatures at the ceiling and floor level are measured by two temperature sensors with stainless steel probes 85 mm. The higher the difference between both temperatures, the higher the EC fan speed. There are two analogue / modulating outputs available. This destratification controller has a built-in Ethernet/WiFI gateway (IP54).
Additional specifications and description
Destratification to distribute the heat evenly
Warm air rises. In rooms with high ceilings, a layer of air builds up in layers with different temperatures. When warm air lingers just below the ceiling and the cold air is mainly at the bottom of the room, this creates an uncomfortable feeling. It also results in high heating costs, especially in the case of less well insulated buildings.
Destratification is the process of mixing these layers of air with different temperatures. Near the ceiling, the warm air accumulates. Closer to the floor are the colder layers of air. This causes an uncomfortable feeling for the residents and on top of that, a lot of heat is lost through the roof. Destratification fans or ceiling fans can solve this by mixing the layers of air with different temperatures. By mixing the air, the temperature under the ceiling and at the floor level is balanced. This creates a more pleasant feeling and requires less heating. In addition to significant energy savings, a better indoor air climate is created. Ceiling fan speed is regulated based on the difference between ceiling and floor temperatures. The higher the difference between both temperatures, the higher the fan speed. The delta temperature, minimum and maximum fan speed and all other settings can be adjusted via the Modbus holding registers. Typically, this solution is applied in large halls such as warehouses or manufacturing plants.
SenteraWeb, our online HVAC platform
The built-in internet gateway can connect the controller to SenteraWeb via a LAN ethernet cable or via the local Wi-Fi network. SenteraWeb is the HVAC cloud platform that offers remote control via a standard web browser. Connected devices can send alarm messages when the measured temperatures exceed their ranges or when errors occur. Floor and ceiling temperatures can be logged and visualised in a diagram. Logged data can be exported. One or multiple users can have access to the connected device(s). Users can only see the values, configurators can see and adjust values of the Modbus Holding registers. Via the day-week scheduler, different ventilation regimes can be created.
Infinitely variable control for ceiling fans
This fan speed controller has two analogue outputs to control ceiling fans with an EC motor requiring a 0 – 10 VDC control signal. The control signal can be generated automatically, based on the measurements of the connected HVAC sensors, or manually via a connected potentiometer.
Modbus RTU communication
All devices exchange information via Modbus RTU communication. Digital temperature sensors are more accurate than passive temperature sensors. With passive temperature sensors, the measured value is influenced by the electrical resistance of the cable. This is not the case with digital sensors. Digital temperature sensors send the measured values via Modbus RTU communication. Modbus communication is more stable and reliable than a 0-10 Volt signal and it offers the possibility to use longer cables. All information from the connected devices is available, not just the measured values. If a problem occurs in one of the sensors, a detailed alarm notification can be sent.
Warm air rises. In rooms with high ceilings, a layer of air builds up in layers with different temperatures. When warm air lingers just below the ceiling and the cold air is mainly at the bottom of the room, this creates an uncomfortable feeling. It also results in high heating costs, especially in the case of less well insulated buildings.
Destratification is the process of mixing these layers of air with different temperatures. Near the ceiling, the warm air accumulates. Closer to the floor are the colder layers of air. This causes an uncomfortable feeling for the residents and on top of that, a lot of heat is lost through the roof. Destratification fans or ceiling fans can solve this by mixing the layers of air with different temperatures. By mixing the air, the temperature under the ceiling and at the floor level is balanced. This creates a more pleasant feeling and requires less heating. In addition to significant energy savings, a better indoor air climate is created. Ceiling fan speed is regulated based on the difference between ceiling and floor temperatures. The higher the difference between both temperatures, the higher the fan speed. The delta temperature, minimum and maximum fan speed and all other settings can be adjusted via the Modbus holding registers. Typically, this solution is applied in large halls such as warehouses or manufacturing plants.
SenteraWeb, our online HVAC platform
The built-in internet gateway can connect the controller to SenteraWeb via a LAN ethernet cable or via the local Wi-Fi network. SenteraWeb is the HVAC cloud platform that offers remote control via a standard web browser. Connected devices can send alarm messages when the measured temperatures exceed their ranges or when errors occur. Floor and ceiling temperatures can be logged and visualised in a diagram. Logged data can be exported. One or multiple users can have access to the connected device(s). Users can only see the values, configurators can see and adjust values of the Modbus Holding registers. Via the day-week scheduler, different ventilation regimes can be created.
Infinitely variable control for ceiling fans
This fan speed controller has two analogue outputs to control ceiling fans with an EC motor requiring a 0 – 10 VDC control signal. The control signal can be generated automatically, based on the measurements of the connected HVAC sensors, or manually via a connected potentiometer.
Modbus RTU communication
All devices exchange information via Modbus RTU communication. Digital temperature sensors are more accurate than passive temperature sensors. With passive temperature sensors, the measured value is influenced by the electrical resistance of the cable. This is not the case with digital sensors. Digital temperature sensors send the measured values via Modbus RTU communication. Modbus communication is more stable and reliable than a 0-10 Volt signal and it offers the possibility to use longer cables. All information from the connected devices is available, not just the measured values. If a problem occurs in one of the sensors, a detailed alarm notification can be sent.
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