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Joule-Thomson cryostat cooled infrared cell having a built-in thermostat sensing element
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Inventors: Peterson, Eugene W.; Wurtz, Jr., Howard P.; Winner, Marvin R.;
Assignee: The United States of America as represented by the Secretary of the Navy (Washington, DC)
Primary Examiner: Wilbur; Maynard R.
Assistant Examiner: Buczinski; S. C.
Attorney, Agent or Firm: Sciascia; Richard S., Johnston; Ervin F., Keough; Thomas Glenn
A cryogenically cooled infra-red detection cell assembly comprises a Dewalask type of thermal insulation casing. The closed end of the Dewar casing is the front end of the assembly and is adapted to have a lead sulfide infra-red transducer mounted on the inside face of the casing inner end wall, and to have the casing outer end wall form a part of a lens system for focusing on the transducer. A Joule-Thomson cryostat projects into the casing so as to maintain liquid nitrogen adjacent the outside face of the inner end wall. A mass of absorbent packing is placed in the Dewar casing adjacent its closed end, just ahead of the cold end of the cryostat to retain the liquid nitrogen there. The cold end of the cryostat is mounted to a metal mandrel, with the rear end of the mandrel serving as a mount for a small piece of gold-doped germanium. This piece of doped germanium acts as a variable resistance at the critical range of temperature control for the front end of the cryostat, and is operatively connected to a thermostat circuit which actuates the valve controlling the flow of gas into the cryostat. The electrical connections to the lead sulfide transducer consist of conductive strips which extend rearwardly along the inside surface of the inner lateral wall of the Dewar casing. Shieldings to prevent microphonics due to casing vibration, and microphonics due to gas motion in the cryostat, are deposited on the surfaces of the lateral walls of the Dewar casing. |
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DETAILED DESCRIPTION What is claimed is: 1.
A cryogenic infrared energy sensing unit having a built-in Joule-Thomson cryogenic cooler of the type utilizing exhaust refrigerant gas to regeneratively cool the refrigerant supply line and having a built-in thermostat sensing element for providing an electrical signal to control operation of the cooler, in combination, comprising, a.
a double walled, Dewar type thermal insulation casing having a closed and an open end, the interior of the casing forming an elongated central cryostat chamber, the closed end of the thermal insulation casing forming the front end of the unit and containing an infrared sensor element affixed to the interior surface of the inner wall of the double walled casing, the outer wall of the casing at the front end being formed of an infrared energy window material, b.
a cryostat assembly shaped for insertion in the cryostat chamber and adapted to cool the exterior surface of the inner wall of the double walled casing at the front end, said cryostat assembly comprising a two-piece mandrel consisting of a rear thin walled tubular member and metallic heat exchange front end tip member plugging the front end of the tabular member, and a refrigerant supply tube helically wrapped around the two-piece mandrel terminating at its forward direction with an open end to form the gas expansion nozzle to provide the Joule-Thomson cooling effect, the construction being such that the helically coiled refrigerant is supported between the tubular member of the two-piece mandrel and the wall of the cryostat chamber in a manner permitting counterflow of the exhaust gases from the front to rear end of the cryostat chamber about the helical tubing in the annular space between the mandrel and the lateral wall of the cryostat chamber, c.
a temperature responsive variable impedance element made of an impurity doped semi-conductor material which intrinsically exhibits temperature sensitive characteristics at the cryogenic temperature region desired for operation of the infrared sensor element, said variable impedance element being disposed in the interior of the tubular mandrel element and affixed by one of its sides to rear face of the heat exchange front end tip member, and d
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