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A vapor compression air conditioning system includes a motor operated expansion valve and control unit including sensors for determining the amount of superheat of the working fluid at or adjacent to the compressor inlet. Expansion valve position is adjusted to maintain a predetermined amount of sup

A vapor compression air conditioning system includes a motor operated expansion valve and control unit including sensors for determining the amount of superheat of the working fluid at or adjacent to the compressor inlet. Expansion valve position is adjusted to maintain a predetermined amount of superheat. The sensors may sense working fluid evaporator temperature and temperature downstream of the evaporator. Dual motor operated expansion valves may be disposed in the working fluid conduit between the heat exchangers in a reversible system. In operation, the expansion valve position may be set as a function of ambient temperature, a previous position, and predetermined superheat requirements to minimize liquid ingestion by the compressor.

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1. A method of controlling an expansion valve of a residential HVAC system, comprising: in response to at least one of a call for cooling and a call for heating, controlling the expansion valve to achieve a first predetermined position, wherein the controlling is achieved without respect to a superh

1. A method of controlling an expansion valve of a residential HVAC system, comprising: in response to at least one of a call for cooling and a call for heating, controlling the expansion valve to achieve a first predetermined position, wherein the controlling is achieved without respect to a superheat of the HVAC system occurring substantially contemporaneously with the controlling;wherein the first predetermined position is a predetermined percentage greater than a previous position of the expansion valve achieved (1) during operation of the expansion valve in response to at least one of a previous call for cooling and a previous call for heating and (2) during control of the expansion valve as a function of the superheat of the HVAC system occurring substantially contemporaneously with the at least one of the previous call for cooling and the previous call for heating, and wherein the predetermined percentage is the product of multiplying a substantially constant multiplying factor against the previous position of the expansion valve; andafter achieving the first predetermined position, controlling the expansion valve according to a weighted function that increasingly depends upon a function of a substantially contemporaneous superheat of the HVAC system. 2. The method of claim 1, wherein the previous position of the expansion valve is a position in which the expansion valve was last operated prior to the at least one of the call for cooling and the call for heating. 3. The method of claim 1, wherein the controlling of the expansion valve as a function of the superheat of the HVAC system comprises adjusting the expansion valve to achieve a desired superheat value. 4. The method of claim 1, wherein the first predetermined position is relatively more open than the previous position. 5. The method of claim 1, further comprising: maintaining the expansion valve in the first predetermined position for a first predetermined period of time. 6. The method of claim 5, further comprising: causing the expansion valve to achieve a second predetermined position in response to expiration of the first predetermined period of time. 7. The method of claim 5, further comprising: causing the expansion valve to achieve a second predetermined position after expiration of the first predetermined period of time. 8. The method of claim 7, further comprising: maintaining the expansion valve in the second predetermined position for a second predetermined period of time. 9. The method of claim 7, wherein the second predetermined position is relatively less open than the first predetermined position. 10. The method of claim 1, further comprising: after achieving the first predetermined position, controlling the expansion valve as a function of at least one of a substantially contemporaneously sensed pressure of the HVAC system and a substantially contemporaneously sensed temperature of the HVAC system. 11. The method of claim 1, wherein the expansion valve is an electronically controlled motor driven expansion valve. 12. A method of controlling an expansion valve of a residential HVAC system, comprising: providing an open loop profile for controlling the expansion valve without feedback related to a superheat of the HVAC system, wherein the open loop profile comprises multiplying a substantially constant multiplying factor that is not dependent upon any previous positions of the expansion valve against a previous position of the expansion valve;providing a feedback control algorithm for controlling, to the exclusion of the open loop profile, the expansion valve as a function of at least one of a substantially contemporaneously measured temperature of the HVAC system and a substantially contemporaneously measured pressure of the HVAC system; andoperating the expansion valve in response to at least one of a call for cooling and a call for heating, the operating comprising: controlling the expansion valve according to the open loop profile;controlling the expansion valve as a weighted function of both the open loop profile and the feedback control algorithm; andcontrolling the expansion valve according to the feedback control algorithm. 13. The method of claim 12, wherein the open loop profile comprises a first predetermined position of the expansion valve and an associated first predetermined time. 14. The method of claim 13, wherein the open loop profile comprises a second predetermined position of the expansion valve and an associated second predetermined time. 15. The method of claim 13, wherein the expansion valve is controlled as the weighted function of both the open loop profile and the feedback control algorithm after controlling the expansion valve according to at least a portion of the open loop profile and wherein an open loop weight value is positive while a feedback control algorithm weight is also positive. 16. The method of claim 15, wherein the open loop weight is decreased over a period of time and wherein the feedback control algorithm weight is increased over the same period of time. 17. The method of claim 14, wherein at least one of the first predetermined position and the second predetermined position are predetermined relative to a previous position of the expansion valve achieved during operation of the expansion valve in response to at least one of a previous call for cooling and a previous call for heating. 18. The method of claim 17, wherein at least one of the first predetermined position and the second predetermined position is greater than the previous position. 19. A method of controlling an expansion valve of a residential HVAC system, comprising: in response to a first call operation of the HVAC system to meet a first call temperature demand, at least partially controlling the expansion valve in response to at least one of (1) a first call temperature that is related to a first call superheat of the HVAC system and (2) a first call pressure that is related to the first call superheat, the at least one of the first call temperature and the first call pressure occurring during operation of the HVAC system to meet the first call temperature demand;discontinuing the first call operation;in response to a subsequent call operation of the HVAC system to meet a subsequent call temperature demand, controlling the expansion valve according to an open loop profile for a first subsequent period in which a subsequent call superheat is substantially ignored, wherein the open loop profile comprises multiplying a substantially constant multiplying factor that is not dependent upon any previous positions of the expansion valve against a previous position of the expansion valve; andafter the first subsequent period, controlling the expansion valve for a second subsequent period according to a weighted function of both (1) the open loop profile and (2) a feedback control algorithm in which the subsequent call superheat is not substantially ignored. 20. The method of claim 19, further comprising: after the second subsequent period, controlling the expansion valve according to the feedback control algorithm while substantially ignoring the open loop profile. 21. The method of claim 20, wherein ignoring the subsequent call superheat comprises ignoring subsequent call temperatures related to the subsequent call superheat and ignoring subsequent call pressures related to the subsequent call superheat. 22. The method of claim 21, wherein controlling the expansion valve according to the feedback control algorithm comprises controlling the expansion valve to achieve a predetermined subsequent call superheat value. 23. The method of claim 22, wherein the expansion valve is controlled to achieve the predetermined subsequent call superheat value until the subsequent call temperature demand has been met. 24. The method of claim 23, wherein each of the open loop profile and the feedback control algorithm are associated with positive value weights during control of the expansion valve according to the weighted function.