Flexible thermostat controller that permits various control point profiles when controlling multistage HVAC equipment
First Claim
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1. A process of controlling an HVAC plant having a plurality of stages and a temperature sensor located in a space whose temperature is controlled by the HVAC plant, comprising the steps of:
- determining an initial condition of the HVAC plant;
filtering said initial condition of the HVAC plant through an anticipator to create an anticipator signal,determining a current temperature signal from the temperature sensor;
creating an error signal which is equal to the difference between the current temperature signal and a temperature setpoint signal;
filtering the error signal through a proportional filter to create a proportional error signal;
filtering the error signal through an integral filter to create an integral error signal;
adding the proportional error signal and the integral error signal to create a proportional integral error signal;
subtracting said anticipator signal from said proportional integral error signal to create a switch error signal;
changing the state of the first stage if said error signal is above a predetermined value; and
repeating this process for each stage of said plurality of stages, wherein each stage has its own setpoint temperature.
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Abstract
A thermostat for use with multistage Heating, Ventilating and Air Conditioning (HVAC) plants where a proportional/integral control loop is present for each stage of the multistage HVAC plant. Filter constants, Ki and Kp as well as stage control points and interstage values can be set independently for each stage.
143 Citations
2 Claims
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1. A process of controlling an HVAC plant having a plurality of stages and a temperature sensor located in a space whose temperature is controlled by the HVAC plant, comprising the steps of:
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determining an initial condition of the HVAC plant; filtering said initial condition of the HVAC plant through an anticipator to create an anticipator signal, determining a current temperature signal from the temperature sensor; creating an error signal which is equal to the difference between the current temperature signal and a temperature setpoint signal; filtering the error signal through a proportional filter to create a proportional error signal; filtering the error signal through an integral filter to create an integral error signal; adding the proportional error signal and the integral error signal to create a proportional integral error signal; subtracting said anticipator signal from said proportional integral error signal to create a switch error signal; changing the state of the first stage if said error signal is above a predetermined value; and repeating this process for each stage of said plurality of stages, wherein each stage has its own setpoint temperature.
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2. A temperature control device for a multiple stage HVAC plant, comprising:
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a first switch for turning on and off a first stage of the HVAC plant; a second switch for turning on and off a second stage of the HVAC plant; a temperature sensor for producing a temperature signal representative of the temperature and the space in which the temperature is to be controlled; a processor connected to the first switch, the second switch, and the temperature sensor, the processor including a first anticipator, a second anticipator, first, second, third, fourth, fifth and sixth summers, first and second proportional filters and first and second integral filters, said first anticipator determining from said first switch a state of said first stage and producing a anticipator signal, said first summer receiving a temperature signal from the temperature sensor and creating a first error signal, which is the difference between a thermostat setpoint and the temperature signal, said error signal then being filtered by said first proportional filter and said first integral filter, filtered signals being summed by said second summer, said third summer subtracting said anticipator signal from said summed filter signal to produce a first switch signal, comparing said first switch signal to a first predetermined switch level, said first switch cycling if said first switch signal bears a first predetermined relationship to said predetermined switch level signal, said second anticipator determining from the second switch a state of said second stage and producing a second anticipator signal, said fourth summer receiving a temperature signal from the temperature sensor and creating a second error signal, which is the difference between a stage control point and the temperature signal, said error signal then being filtered by said second proportional filter and said second integral filter, filtered signals being summed by said fifth summer, said sixth summer subtracting said anticipator signal from said summed filter signal to produce a second switch signal, comparing said second switch signal to a second predetermined switch level, said second switch cycling if said second switch signal bears a second predetermined relationship to said second predetermined switch level signal.
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Specification