| Description of Equipment
The HyperStat, a signature product of 75F, intelligent thermostat with 8 onboard sensors, providing the advanced capability of the thermostat, humidistat, and IAQ sensing station with both modulating and staged equipment control. HyperStat includes monitoring and control of a wide variety of HVAC standalone equipment through its various relay stages or modulating analog outputs.
The HyperStat is a wall mount product, and the design is done thoughtfully to make sure that the product blends into most of the commercial spaces while still giving a fresh and contemporary feel compared to dated Building control interfaces.
The HyperStat 2 Pipe Fan Coil Unit (2PFCU) is a standalone profile, that comprises of 2 pipes, allowing water supply with a fan that runs air over it. The air is further conditioned by the running water.
The thermostat only has control over whether to turn on the fan and at what speed. The building's central plant determines whether the pipes are getting hot or cold water.
The 2-Pipe Fan Coil Unit (2PFCU) allows the choice between fully modulating and staged equipment control.
Quick Summary | |
Chilled Water Valve/Cooling Water Valve | Reset based on Space Temperature & mode of operation |
Fan Control | Reset based on Space Temperature & mode of operation (Cooling/ Heating) = Cooling/Heating Loopoutput* analogFanSpeedMultiplier (default=1) |
Hot Water Valve/Auxilliary Heating |
Reset based on Space Temperature & mode of operation |
| Schematics
| Control System Object List
Object Name | Type | Input/Output Type/Default Value |
Heating Desired Temp | User Intent | NA |
Cooling Desired Temp | User Intent | NA |
Current Temp | Input | HyperStat |
Humidity | Input | HyperStat |
User Cooling Max Limit | User Intent | NA |
User Cooling Min Limit | User Intent | NA |
User Heating Max Limit | User Intent | NA |
User Heating Max Limit | User Intent | NA |
Conditioning Mode | User Intent | NA |
Operation Mode | Input | NA |
Fan Mode | User Intent | NA |
Occupancy Mode |
Input
|
HyperStat Onboard |
Auxillary Heating Stage 1 | Output | HyperStat Relay |
Auxillary Heating Stage 2 | Output | HyperStat Relay |
Water Valve | Output | HyperStat Relay |
Fan Low Speed | Output | HyperStat Relay |
Fan Medium Speed | Output | HyperStat Relay |
Fan High Speed | Output | HyperStat Relay |
Humidifier | Output | HyperStat Relay |
Dehumidifier | Output | HyperStat Relay |
Modulating Water Valve | Output | HyperStat Analog Out |
Modulating Fan Speed | Output | HyperStat Analog Out |
Modulating DCV Damper | Output | HyperStat Analog Out |
Airflow Temperature | Input | HyperStat Thermistor |
Supply Water Temperature | Input | HyperStat Thermistor |
analogFanSpeedMultiplier | Tuner | 1 |
waterValveSampleingWaitTime | Tuner | 58 Mins |
waterValveSamplingOnTime | Tuner | 2 Mins |
waterValveSampling DuringLoopDeadband WaitTime |
Tuner | 5 Mins |
waterValveSamplingDuring LoopDeadband OnTime |
Tuner | 2 Mins |
auxHeating1Activate |
Tuner | 3F |
auxHeating2Activate |
Tuner | 4F |
Note: For a comprehensive list of tuners and their details refer to Tuners Complete List
| Sequence of Operation
The sequence of operation is completely driven based on Occupancy mode, Space Current Temperature, the set Cooling and Heating Desired Temperatures, Supply Water temperature, and Space CO2 levels.
Let us understand the Sequence of operations based on the occupancy modes, and how the other factors contribute to the sequence of operations during different types of occupancy modes.
| Occupancy Modes
The occupancy mode (Occupied or Unoccupied) shall be determined through a user-adjustable, graphical, seven-day schedule with a holiday schedule, alongside the configurable autoaway and forced occupied options (external schedule influencers) for optimized controls and enhanced energy savings.
Based on the above aspects factoring into the occupancy the following can be the possible applicable occupancy modes:
- Pre- Conditioning
- Occupied
- Unoccupied
- Auto-Away
- Forced Occupied
| Sequence of Operation During Pre-Conditioning
Warm-up:
- If the space temperature is below the occupied heating temperature setpoint, the pre-conditioning shall initiate the morning warm-up via HeatingLoopOutput / Auxillary Heating Stages, as below.
If | Then | ||
Supply water temperature is above the 2-pipe Fancoil Heating Threshold (85F) (Tuner) |
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Supply water temperature is below the 2-pipe Fancoil Heating Threshold (85F) (Tuner) |
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Supply water temperature is greater than 2-pipe Fancoil Heating Threshold (85F) (Tuner) & less than 2-pipe Fancoil Cooling Threshold (65F) (Tuner) |
During this condition, To ensure that the water is flowing and the water temperature is not measured for stagnant water, the Water Sampling Process is enabled, as below.
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Supply water temperature is between 2-pipe Fancoil Cooling Threshold (65F) & 2-pipe Fancoil Heating Threshold (85F) (Tuner) |
During this condition, To ensure that the water is flowing and the water temperature is not measured for stagnant water, the Water Sampling Process is enabled, as below.
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- The dcvLoopOutput is disabled.
Pre-cooling:
- If the space temperature is below the occupied heating temperature setpoint, the pre-conditioning shall initiate the morning pre-cooling via CoolingLoopOutput, as below.
If | Then | ||
Supply water temperature is below the 2-pipe Fancoil Cooling Threshold (65F) (Tuner) |
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Supply water temperature is above the 2-pipe Fancoil Heating Threshold (65F) (Tuner) |
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Supply water temperature is greater than 2-pipe Fancoil Heating Threshold (85F) (Tuner) & less than 2-pipe Fancoil Cooling Threshold (65F) (Tuner) |
During this condition, To ensure that the water is flowing and the water temperature is not measured for stagnant water, the Water Sampling Process is enabled, as below.
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Supply water temperature is between 2-pipe Fancoil Cooling Threshold (65F) & 2-pipe Fancoil Heating Threshold (85F) (Tuner) |
During this condition, To ensure that the water is flowing and the water temperature is not measured for stagnant water, the Water Sampling Process is enabled, as below.
|
- The dcvLoopOutput is disabled.
| Sequence of Operation During Occupied
At all occupied times: (based on a set schedule)
- The device maintains a space temperature within the Heating Desired Temperature and Cooling Desired Temperature Range.
During Deadband:
During Heating:
- When the space current temperature falls below the HeatingDesiredTemperature the HeatingLoopOutput is enabled as below.
If | Then | ||
Supply water temperature is above the 2-pipe Fancoil Heating Threshold (85F) (Tuner) |
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Supply water temperature is below the 2-pipe Fancoil Heating Threshold (85F) (Tuner) |
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Supply water temperature is greater than 2-pipe Fancoil Heating Threshold (85F) (Tuner) & less than 2-pipe Fancoil Cooling Threshold (65F) (Tuner) |
During this condition, To ensure that the water is flowing and the water temperature is not measured for stagnant water, the Water Sampling Process is enabled, as below.
|
||
Supply water temperature is between 2-pipe Fancoil Cooling Threshold (65F) & 2-pipe Fancoil Heating Threshold (85F) (Tuner) |
During this condition, To ensure that the water is flowing and the water temperature is not measured for stagnant water, the Water Sampling Process is enabled, as below.
|
- When the space CO2 level is above the CO2 threshold set, the dcvLoopOutput is enabled with the dcvCalculatedDamperPos = (sensorHyperStatCo2 - zoneCO2Threshold )/zoneCO2DamperOpeningRate, modulating between the analogOutxAtMinDCVDamperPos and analogOutxAtMaxDCVDamperPos
During Cooling:
- When the space current temperature is above the Cooling Desired Temperature the CoolingLoopOutput is enabled as below.
If | Then | ||
Supply water temperature is below the 2-pipe Fancoil Cooling Threshold (65F) (Tuner) |
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Supply water temperature is above the 2-pipe Fancoil Heating Threshold (65F) (Tuner) |
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||
Supply water temperature is greater than 2-pipe Fancoil Heating Threshold (85F) (Tuner) & less than 2-pipe Fancoil Cooling Threshold (65F) (Tuner) |
During this condition, To ensure that the water is flowing and the water temperature is not measured for stagnant water, the Water Sampling Process is enabled, as below.
|
||
Supply water temperature is between 2-pipe Fancoil Cooling Threshold (65F) & 2-pipe Fancoil Heating Threshold (85F) (Tuner) |
During this condition, To ensure that the water is flowing and the water temperature is not measured for stagnant water, the Water Sampling Process is enabled, as below.
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- When the space CO2 level is above the CO2 threshold set, the dcvLoopOutput is enabled with the dcvCalculatedDamperPos = (sensorHyperStatCo2 - zoneCO2Threshold )/zoneCO2DamperOpeningRate, modulating between the analogOutxAtMinDCVDamperPos and analogOutxAtMaxDCVDamperPos
| Sequence of Operation During AutoAway
- The range of Heating Desired Temperature and Cooling Desired Temperature drifts further away.
- The device maintains a space temperature within the newly set Heating Desired Temperature and Cooling Desired Temperature Range.
During Deadband:
- FanLoopOutput, HeatingLoopOutput, Auxiliary Heating Stages & CoolingLoopOutput, are disabled.
During Heating:
- When the space current temperature falls below the heating autoaway setback temperature, the HeatingLoopOutput is enabled as below.
If | Then | ||
Supply water temperature is above the 2-pipe Fancoil Heating Threshold (85F) (Tuner) |
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Supply water temperature is below the 2-pipe Fancoil Heating Threshold (85F) (Tuner) |
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Supply water temperature is greater than 2-pipe Fancoil Heating Threshold (85F) (Tuner) & less than 2-pipe Fancoil Cooling Threshold (65F) (Tuner) |
During this condition, To ensure that the water is flowing and the water temperature is not measured for stagnant water, the Water Sampling Process is enabled, as below.
|
||
Supply water temperature is between 2-pipe Fancoil Cooling Threshold (65F) & 2-pipe Fancoil Heating Threshold (85F) (Tuner) |
During this condition, To ensure that the water is flowing and the water temperature is not measured for stagnant water, the Water Sampling Process is enabled, as below.
|
During Cooling:
- When the space current is above the cooling the CoolingLoopOutput is enabled as below.
If | Then | ||
Supply water temperature is below the 2-pipe Fancoil Cooling Threshold (65F) (Tuner) |
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Supply water temperature is above the 2-pipe Fancoil Heating Threshold (65F) (Tuner) |
|
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Supply water temperature is greater than 2-pipe Fancoil Heating Threshold (85F) (Tuner) & less than 2-pipe Fancoil Cooling Threshold (65F) (Tuner) |
During this condition, To ensure that the water is flowing and the water temperature is not measured for stagnant water, the Water Sampling Process is enabled, as below.
|
||
Supply water temperature is between 2-pipe Fancoil Cooling Threshold (65F) & 2-pipe Fancoil Heating Threshold (85F) (Tuner) |
During this condition, To ensure that the water is flowing and the water temperature is not measured for stagnant water, the Water Sampling Process is enabled, as below.
|
| Sequence of Operation During UnOccupied
- The range of Heating Desired Temperature and Cooling Desired Temperature drifts further away.
- The device maintains a space temperature within the newly set Heating Desired Temperature and Cooling Desired Temperature Range.
During Deadband:
- FanLoopOutput, HeatingLoopOutput, Auxilliary Heating Stages & CoolingLoopOutput, are disabled
During Heating:
- When the space's current temperature falls below the heating the HeatingLoopOutput is enabled as below.
If | Then | ||
Supply water temperature is above the 2-pipe Fancoil Heating Threshold (85F) (Tuner) |
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Supply water temperature is below the 2-pipe Fancoil Heating Threshold (85F) (Tuner) |
|
||
Supply water temperature is greater than 2-pipe Fancoil Heating Threshold (85F) (Tuner) & less than 2-pipe Fancoil Cooling Threshold (65F) (Tuner) |
During this condition, To ensure that the water is flowing and the water temperature is not measured for stagnant water, the Water Sampling Process is enabled, as below.
|
||
Supply water temperature is between 2-pipe Fancoil Cooling Threshold (65F) & 2-pipe Fancoil Heating Threshold (85F) (Tuner) |
During this condition, To ensure that the water is flowing and the water temperature is not measured for stagnant water, the Water Sampling Process is enabled, as below.
|
- The dcvLoopOutput is disabled
During Cooling:
- When the space current temperature is above the cooling the CoolingLoopOutput is enabled as below.
If | Then | ||
Supply water temperature is below the 2-pipe Fancoil Cooling Threshold (65F) (Tuner) |
|
||
Supply water temperature is above the 2-pipe Fancoil Heating Threshold (65F) (Tuner) |
|
||
Supply water temperature is greater than 2-pipe Fancoil Heating Threshold (85F) (Tuner) & less than 2-pipe Fancoil Cooling Threshold (65F) (Tuner) |
During this condition, To ensure that the water is flowing and the water temperature is not measured for stagnant water, the Water Sampling Process is enabled, as below.
|
||
Supply water temperature is between 2-pipe Fancoil Cooling Threshold (65F) & 2-pipe Fancoil Heating Threshold (85F) (Tuner) |
During this condition, To ensure that the water is flowing and the water temperature is not measured for stagnant water, the Water Sampling Process is enabled, as below.
|
- The dcvLoopOutput is disabled.
| Sequence of Operation During Forced Occupied
- The device maintains a space temperature within the Heating Desired Temperature and Cooling Desired Temperature Range.
During Deadband:
- A minimum FanLoopOutput is enabled regardless of no conditioning.
During Heating:
- When the space current temperature falls below the Heating Desired Temperature the HeatingLoopOutput is enabled as below.
If | Then | ||
Supply water temperature is above the 2-pipe Fancoil Heating Threshold (85F) (Tuner) |
|
||
Supply water temperature is below the 2-pipe Fancoil Heating Threshold (85F) (Tuner) |
|
||
Supply water temperature is greater than 2-pipe Fancoil Heating Threshold (85F) (Tuner) & less than 2-pipe Fancoil Cooling Threshold (65F) (Tuner) |
During this condition, To ensure that the water is flowing and the water temperature is not measured for stagnant water, the Water Sampling Process is enabled, as below.
|
||
Supply water temperature is between 2-pipe Fancoil Cooling Threshold (65F) & 2-pipe Fancoil Heating Threshold (85F) (Tuner) |
During this condition, To ensure that the water is flowing and the water temperature is not measured for stagnant water, the Water Sampling Process is enabled, as below.
|
- The dcvLoopOutput is disabled.
During Cooling:
- When the space current temperature is above the Cooling Desired Temperature the CoolingLoopOutput is enabled as below.
If | Then | ||
Supply water temperature is below the 2-pipe Fancoil Cooling Threshold (65F) (Tuner) |
|
||
Supply water temperature is above the 2-pipe Fancoil Heating Threshold (65F) (Tuner) |
|
||
Supply water temperature is greater than 2-pipe Fancoil Heating Threshold (85F) (Tuner) & less than 2-pipe Fancoil Cooling Threshold (65F) (Tuner) |
During this condition, To ensure that the water is flowing and the water temperature is not measured for stagnant water, the Water Sampling Process is enabled, as below.
|
||
Supply water temperature is between 2-pipe Fancoil Cooling Threshold (65F) & 2-pipe Fancoil Heating Threshold (85F) (Tuner) |
During this condition, To ensure that the water is flowing and the water temperature is not measured for stagnant water, the Water Sampling Process is enabled, as below.
|
- The dcvLoopOutput is disabled.
| Sequence of Operation During Emergency Conditioning
when building limits are violated, and the recorded temperature is within the building limit plus leeway the conditioning will happen in the direction of zone load.
| Sequence of Operation During Temp Dead
And, When the Building temperature breaches the building limits, beyond the leeway limits all the following loops are disabled:
- CoolingLoopOutput
- HeatingLoopOutput
- Auxiliary Heating Stages
- FanLoopOutput
- dcvLoopOutput
| Humidifier Control
The humidifier is turned ON whenever the humidity level for the system drops below the targetMinInsideHumidty set. The humidifier will be turned OFF after being turned on when the humidity levels go humidityHysteresis above the targetMinInsideHumidty. Humidity control will not be maintained during UNOCCUPIED or VACATION modes.
| DeHumidifier Control
If the dehumidifier is selected, it turns ON whenever the humidity level for the system goes above the targetMaxInsideHumidty set. The dehumidifier will be turned OFF after being turned on when the humidity drops humidityHysteresis below the targetMaxInsideHumidty. Dehumidifier control will not be maintained during UNOCCUPIED or VACATION modes.
Note: The humidity level for the system is either the average level reported by all the zones serviced by the RTU/AHU.
| Control Mode Summary
User Intent Modes & Operation based on Setpoint & Setback |
Pre-Conditioning | Occupied | AutoAway | Unoccupied | Forced Occupied |
Auto |
(HeatingLoopOutput FanLoopOutput) / (HeatingLoop Output +Auxillary Heating Stages FanLoopOutput) / (CoolingLoopOutput FanLoopOutput) |
(HeatingLoopOutput FanLoopOutput) / (HeatingLoop Output +Auxillary Heating Stages
FanLoopOutput) dcvLoopOutput) / (CoolingLoopOutput FanLoopOutput) dcvLoopOutput |
(HeatingLoopOutput FanLoopOutput)/ (HeatingLoop Output +Auxillary Heating Stages FanLoopOutput) / (CoolingLoopOutput FanLoopOutput) |
(HeatingLoopOutput FanLoopOutput)/ (HeatingLoop Output +Auxillary Heating Stages
FanLoopOutput) / (CoolingLoopOutput FanLoopOutput) |
(HeatingLoopOutput FanLoopOutput) / (HeatingLoop Output +Auxillary Heating Stages
FanLoopOutput) dcvLoopOutput/ (CoolingLoopOutput FanLoopOutput) dcvLoopOutput |
Heat Only |
(HeatingLoopOutput FanLoopOutput) / (HeatingLoop Output +Auxillary Heating Stages FanLoopOutput) |
(HeatingLoopOutput FanLoopOutput) / (HeatingLoop Output +Auxillary Heating Stages FanLoopOutput) dcvLoopOutput |
(HeatingLoopOutput FanLoopOutput) / (HeatingLoop Output +Auxillary Heating Stages FanLoopOutput) |
(HeatingLoopOutput FanLoopOutput) / (HeatingLoop Output +Auxillary Heating Stages FanLoopOutput) |
(HeatingLoopOutput FanLoopOutput) / (HeatingLoop Output +Auxillary Heating Stages FanLoopOutput) dcvLoopOutput |
Cool Only |
CoolingLoopOutput FanLoopOutput |
CoolingLoopOutput FanLoopOutput dcvLoopOutput |
CoolingLoopOutput FanLoopOutput |
CoolingLoopOutput FanLoopOutput |
CoolingLoopOutput FanLoopOutput dcvLoopOutput |
Off |
All Loops Deactivated |
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