Compressor control module
First Claim
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1. A pressurization system having a strain gauge transducer, the pressurization system comprising:
- a compressor configured for providing compressed air in an RF system;
a first variable voltage reference associated with a pressure limit for the pressurization system;
a first comparator circuit configured for coupling with a strain gauge transducer and the first voltage reference, the first comparator circuit operable to compare a voltage signal from the strain gauge pressure transducer and the first voltage reference and output a first logic signal;
a control logic circuit coupled to the first comparator circuit and operable to provide a control signal reflective of the first logic signal for controlling operation of the compressor.
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Abstract
A compressor control module for use with a pressurization system having a strain gauge transducer and a compressor. The compressor control module includes variable voltage references associated with low and high pressure limits, comparator circuits configured to compare the voltage from the strain gauge pressure transducer to the variable voltage references, a control logic circuit configured to logically combine signals from the comparator circuits, and a relay circuit configured to apply power to the compressor.
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Citations
46 Claims
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1. A pressurization system having a strain gauge transducer, the pressurization system comprising:
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a compressor configured for providing compressed air in an RF system;
a first variable voltage reference associated with a pressure limit for the pressurization system;
a first comparator circuit configured for coupling with a strain gauge transducer and the first voltage reference, the first comparator circuit operable to compare a voltage signal from the strain gauge pressure transducer and the first voltage reference and output a first logic signal;
a control logic circuit coupled to the first comparator circuit and operable to provide a control signal reflective of the first logic signal for controlling operation of the compressor. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19)
a second comparator circuit coupled to the strain gauge transducer and the second voltage reference, the second comparator circuit configured to compare the voltage from the strain gauge pressure transducer and the second voltage reference and output a second logic signal;
the control logic circuit coupled to the first and second comparator circuits and configured to logically combine the first and second logic signals and provide the control signal.
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15. The pressurization system of claim 14, further comprising:
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a third variable voltage reference associated with at least one of an under pressure limit and an over pressure limit;
a third comparator circuit coupled to the strain gauge transducer and the third variable voltage reference, the third comparator circuit configured to compare the voltage from the strain gauge transducer and the third variable voltage reference and output a second control signal; and
a relay coupled to the third comparator circuit and operating in response to the second control signal.
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16. The pressurization system of claim 15, further comprising an indicator coupled to the third comparator circuit, the indicator indicating a state of the relay.
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17. The pressurization system of claim 15, wherein the pressurization system includes an over pressure relief valve with the third comparator relay being coupled to the over pressure relief valve.
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18. The pressurization system of claim 15, wherein the relay drives at least one of an under pressure and over pressure alarm.
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19. The pressurization system of claim 1, wherein the pressurization system is coupled to an antenna radome.
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20. A pressurization system comprising:
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a strain gauge transducer;
a compressor;
a first variable voltage reference associated with a pressure limit for the pressurization system;
a first comparator circuit coupled to the strain gauge transducer and the first voltage reference, the first comparator circuit configured to compare the voltage from the strain gauge pressure transducer and the first voltage reference and output a first logic signal;
a control logic circuit coupled to the first comparator circuit and operable to provide a control signal reflective of the first logic signal for controlling operation of the compressor;
a second variable voltage reference associated with a high pressure limit for the pressurization system, the first variable voltage reference associated with a low pressure limit;
a second comparator circuit coupled to the strain gauge transducer and the second voltage reference, the second comparator circuit configured to compare the voltage from the strain gauge pressure transducer and the second voltage reference and output a second logic signal;
the control logic circuit coupled to the first and second comparator circuits and configured to logically combine the first and second logic signals and provide the control signal. - View Dependent Claims (21, 22, 23, 24, 25, 26, 27, 28, 29, 31, 32)
a third variable voltage reference associated with at least one of an under pressure limit and an over pressure limit;
a third comparator circuit coupled to the strain gauge transducer and the third variable voltage reference, the third comparator circuit configured to compare the voltage from the strain gauge transducer and the third variable voltage reference and output a second control signal.
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27. The pressurization system of claim 26, further comprising an alarm for indicating one of an over pressure limit and under pressure limit, the alarm operating in response to the second control signal.
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28. The pressurization system of claim 26, further comprising over pressure relief valve for relieving pressure in the compressor, the over pressure relief valve operating in response to the second control signal.
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29. The pressurization system of claim 20, wherein the pressurization system is configured for coupling with an antenna radome.
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31. The pressurization system of claim 20, wherein the pressurization system is configured for use with a waveguide.
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32. The pressurization system of claim 20, wherein the pressurization system is configured for use with a conduit.
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30. A pressurization system comprising:
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a strain gauge transducer;
a compressor;
a first variable voltage reference associated with a pressure limit for the pressurization system;
a first comparator circuit coupled to the strain gauge transducer and the first voltage reference, the first comparator circuit configured to compare the voltage from the strain gauge pressure transducer and the first voltage reference and output a first logic signal;
p1 a control logic circuit coupled to the first comparator circuit and operable to provide a control signal reflective of the first logic signal for controlling operation of the compressor;
wherein the pressurization system is configured for use with an antenna having a radome and a radome window.
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33. An antenna system comprising:
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an antenna having an enclosed portion to be pressurized;
a compressor operably coupled to the antenna for pressurizing the enclosed portion;
a strain gauge transducer operably coupled to the determine a pressure for the system;
a first variable voltage reference associated with a pressure limit for the system;
a first comparator circuit coupled to the strain gauge transducer and the first voltage reference, the first comparator circuit configured to compare the voltage from the strain gauge pressure transducer and the first voltage reference and output a first logic signal;
a control logic circuit coupled to the first comparator circuit and operable to provide a control signal reflective of the first logic signal for controlling operation of the compressor to maintain the pressure of the antenna system.
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34. An RF system comprising:
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a conduit coupling electrical components of the RF system;
a compressor operably coupled to the conduit for pressurizing the conduit;
a strain gauge transducer operably coupled to the determine a pressure for the RF system;
a first variable voltage reference associated with a pressure limit for the RF system;
a first comparator circuit coupled to the strain gauge transducer and the first voltage reference, the first comparator circuit configured to compare the voltage from the strain gauge pressure transducer and the first voltage reference and output a first logic signal;
a control logic circuit coupled to the first comparator circuit and operable to provide a control signal reflective of the first logic signal for controlling operation of the compressor to maintain the pressure of the RF system.
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35. An RF system comprising:
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a waveguide coupling electrical components of the RF system;
a compressor operably coupled to the waveguide for pressurizing the waveguide;
a strain gauge transducer operably coupled to the determine a pressure for the RF system;
a first variable voltage reference associated with a pressure limit for the RF system;
a first comparator circuit coupled to the strain gauge transducer and the first voltage reference, the first comparator circuit configured to compare the voltage from the strain gauge pressure transducer and the first voltage reference and output a first logic signal;
a control logic circuit coupled to the first comparator circuit and operable to provide a control signal reflective of the first logic signal for controlling operation of the compressor to maintain the pressure of the RF system.
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36. A method of controlling the pressure in an RF system, the method comprising:
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providing compressed air to the RF system with a compressor;
comparing a voltage signal from a strain gauge pressure transducer with a first variable voltage reference associated with a pressure limit for the RF system and outputting a first logic signal;
based on such comparison and the first logic signal, generating a control signal; and
,selectively energizing or de-energizing the compressor in response to the control signal. - View Dependent Claims (37, 38, 39, 40)
comparing the voltage from the strain gauge pressure transducer with a second variable voltage reference associated with a high pressure limit for the pressurization system to output a second logic signal, the first variable voltage reference associated with a low pressure limit;
with a control logic circuit, logically combining the first and second logic signals and generating the control signal.
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38. The method of claim 37 further comprising setting at least one of the first and second variable voltage references in response to a user input.
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39. The method of claim 36 further comprising:
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comparing a voltage signal from the strain gauge pressure transducer with another variable voltage reference associated with a pressure limit for the pressurization system;
based on such comparison, operating an over pressure relief valve to relieve an over pressure condition in the system.
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40. The method of claim 36 further comprising:
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comparing a voltage signal from the strain gauge pressure transducer with another variable voltage reference associated with a pressure limit for the pressurization system;
based on such comparison, generating an alarm indicative of one of an over pressure condition and an under pressure.
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41. A method for pressurizing at least one of a conduit or a waveguide in an RF system comprising:
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coupling a compressor to the RF system;
comparing a voltage signal from a strain gauge pressure transducer with a first variable voltage reference associated with a pressure limit for the RF system and outputting a first logic signal;
based on such comparison and the first logic signal, generating a control signal; and
,selectively energizing or de-energizing the compressor in response to the control signal.
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42. A method for pressurizing an antenna system comprising:
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coupling a compressor to the antenna system;
comparing a voltage signal from a strain gauge pressure transducer with a first variable voltage reference associated with a pressure limit for the antenna system and outputting a first logic signal;
based on such comparison and the first logic signal, generating a control signal; and
,selectively energizing or de-energizing the compressor in response to the control signal.
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43. A control module configured for use with a pressurization system having a strain gauge transducer and a compressor, the control module comprising:
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a first variable voltage reference associated with a low pressure limit for the pressurization system;
a first comparator circuit configured for coupling with a strain gauge transducer and the first voltage reference, the first comparator circuit operable to compare a voltage signal from the strain gauge pressure transducer and the first voltage reference and output a first logic signal;
a second variable voltage reference associated with a high pressure limit for the pressurization system;
a second comparator circuit coupled to the strain gauge transducer and the second voltage reference, the second comparator circuit configured to compare the voltage from the strain gauge pressure transducer and the second voltage reference and output a second logic signal;
a control logic circuit coupled to the first and second comparator circuits and configured to logically combine the first and second logic signals and provide a control signal for controlling operation of the compressor;
a third variable voltage reference associated with at least one of an under pressure limit and an over pressure limit;
a third comparator circuit coupled to the strain gauge transducer and the third variable voltage reference, the third comparator circuit configured to compare the voltage from the strain gauge transducer and the third variable voltage reference and output a second control signal; and
a relay coupled to the third comparator circuit and operating in response to the second control signal. - View Dependent Claims (44, 45, 46)
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Specification