Method for sensing a fluid in a compressor shell
First Claim
1. A method for sensing a fluid in a compressor, wherein the fluid can exist in a plurality of states including at least one of a liquid state, a gaseous state, and a gas/liquid mixture, the method comprising:
- positioning a thermistor in heat transfer relationship with the fluid;
electrically heating the thermistor to a heated temperature that is higher than a fluid temperature of the fluid;
after electrically heating the thermistor, allowing the thermistor to cool toward the fluid temperature, wherein the thermistor cools at a cooling rate;
as the thermistor cools, determining the cooling rate by repeatedly sampling a temperature of the thermistor over a sample period;
determining in which state the fluid exists based on the cooling rate; and
determining the fluid temperature based on the cooling rate, wherein the fluid temperature is determined prior to the thermistor actually reaching the fluid temperature and the step of determining the fluid temperature is accomplished independent of any calculated time constant, exponential function, and exponential look up table.
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Abstract
Two vertically offset thermistors for sensing a fluid such as oil and refrigerant in a compressor shell are monitored by a method that takes into account rapidly changing conditions within the shell. The system can determine the fluid'"'"'s sump temperature, high/low liquid levels, and can determine whether the thermistors are sensing the fluid as a liquid, gas, or a mixture of the two, such as a foam or mist of liquid and gas. For greater accuracy, thermistor readings can be dithered and filtered to provide temperature or voltage values having more significant digits than the readings originally processed through a limited-bit A/D converter. For faster response, limited microprocessor time is conserved by sampling thermistor readings at strategic periods that enable the microprocessor to identify certain conditions and temperatures via simple delta-temperature ratios and undemanding equations rather than resorting to exponential functions or lookup tables to determine time constants.
39 Citations
10 Claims
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1. A method for sensing a fluid in a compressor, wherein the fluid can exist in a plurality of states including at least one of a liquid state, a gaseous state, and a gas/liquid mixture, the method comprising:
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positioning a thermistor in heat transfer relationship with the fluid; electrically heating the thermistor to a heated temperature that is higher than a fluid temperature of the fluid; after electrically heating the thermistor, allowing the thermistor to cool toward the fluid temperature, wherein the thermistor cools at a cooling rate; as the thermistor cools, determining the cooling rate by repeatedly sampling a temperature of the thermistor over a sample period; determining in which state the fluid exists based on the cooling rate; and determining the fluid temperature based on the cooling rate, wherein the fluid temperature is determined prior to the thermistor actually reaching the fluid temperature and the step of determining the fluid temperature is accomplished independent of any calculated time constant, exponential function, and exponential look up table. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10)
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Specification