Controlling temperature of a test chamber which is equipped with a refrigerant cooling subsystem and a liquid nitrogen cooling subsystem
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
F25D-017/06
F25D-029/00
출원번호
US-0143790
(2013-12-30)
등록번호
US-9482464
(2016-11-01)
발명자
/ 주소
Burke, Kevin
출원인 / 주소
EMC IP Holding Company, LLC
대리인 / 주소
BainwoodHuang
인용정보
피인용 횟수 :
0인용 특허 :
11
초록▼
An environmental control apparatus includes a test chamber, a refrigerant cooling subsystem coupled to the test chamber, a liquid nitrogen cooling subsystem coupled to the test chamber, and control circuitry. The control circuitry is coupled to the refrigerant cooling subsystem and the liquid nitrog
An environmental control apparatus includes a test chamber, a refrigerant cooling subsystem coupled to the test chamber, a liquid nitrogen cooling subsystem coupled to the test chamber, and control circuitry. The control circuitry is coupled to the refrigerant cooling subsystem and the liquid nitrogen cooling subsystem. The control circuitry is constructed and arranged to coordinate operation of the refrigerant cooling subsystem and the liquid nitrogen cooling subsystem to control internal temperature of the test chamber. Selective operation of the liquid nitrogen cooling subsystem and the refrigerant cooling subsystem can provide significant cost savings by alleviating the need to provide liquid nitrogen cooling in all cooling situations. Moreover, co-location of the liquid nitrogen cooling subsystem and the refrigerant cooling subsystem can provide an efficient and effective form factor for the environmental control apparatus.
대표청구항▼
1. An environmental control apparatus, comprising: a test chamber; a refrigerant cooling subsystem coupled to the test chamber;a liquid nitrogen cooling subsystem coupled to the test chamber; andcontrol circuitry coupled to the refrigerant cooling subsystem and the liquid nitrogen cooling subsystem,
1. An environmental control apparatus, comprising: a test chamber; a refrigerant cooling subsystem coupled to the test chamber;a liquid nitrogen cooling subsystem coupled to the test chamber; andcontrol circuitry coupled to the refrigerant cooling subsystem and the liquid nitrogen cooling subsystem, the control circuitry being constructed and arranged to coordinate operation of the refrigerant cooling subsystem and the liquid nitrogen cooling subsystem to control internal temperature of the test chamber;wherein the refrigerant cooling subsystem includes a set of refrigerant cooling coils to provide cooling from the refrigerant cooling subsystem;wherein the liquid nitrogen cooling subsystem includes a set of liquid nitrogen nozzles to provide cooling from the liquid nitrogen cooling subsystem;wherein the set of refrigerant cooling coils of the refrigerant cooling subsystem provides cooling directly to a set of computerized circuit board devices residing in a center cavity of the test chamber and the set of liquid nitrogen nozzles of the liquid nitrogen cooling subsystem provides cooling directly to the set of computerized circuit board devices residing in the center cavity of the test chamber when the set of computerized circuit board devices continue to reside in the center cavity of the test chamber during a particular electronic test of the set of computerized circuit board devices; andwherein the environmental control apparatus further comprises: a common blower which blows air from both the set of refrigerant cooling coils of the refrigerant cooling subsystem and the set of liquid nitrogen nozzles of the liquid nitrogen cooling subsystem in a direction toward the set of computerized circuit board devices residing in the center cavity of the test chamber when the set of computerized circuit board devices continue to reside in the center cavity of the test chamber during the particular electronic test of the set of computerized circuit board devices, anda vibration assembly coupled to the test chamber, the vibration assembly purposefully imparting physical motion on to the set of computerized circuit board devices residing in the center cavity of the test chamber when the set of computerized circuit board devices continue to reside in the center cavity of the test chamber during the particular electronic test of the set of computerized circuit board devices. 2. An environmental control apparatus as in claim 1 wherein the control circuitry, when coordinating operation of the refrigerant cooling subsystem and the liquid nitrogen cooling subsystem, is constructed and arranged to: individually operate each of the refrigerant cooling subsystem and the liquid nitrogen cooling subsystem. 3. An environmental control apparatus as in claim 2 wherein the control circuitry, when individually operating each of the refrigerant cooling subsystem and the liquid nitrogen cooling subsystem, is constructed and arranged to: concurrently activate the refrigerant cooling subsystem and the liquid nitrogen cooling subsystem to expose electronic equipment residing in the test chamber to a temperature stress phase in which an internal environment of the test chamber is quickly ramped from an initial temperature to a target temperature which is lower than the initial temperature to stress the electronic equipment while the electronic equipment is operating. 4. An environmental control apparatus as in claim 2 wherein the control circuitry, when individually operating each of the refrigerant cooling subsystem and the liquid nitrogen cooling subsystem, is constructed and arranged to: activate the refrigerant cooling subsystem and concurrently deactivate the liquid nitrogen cooling subsystem to expose electronic equipment residing in the test chamber to a constant temperature phase in which an internal environment of the test chamber is maintained at a constant temperature after the internal environment is ramped from an initial temperature to the constant temperature while the electronic equipment is operating. 5. An environmental control apparatus as in claim 2 wherein the control circuitry, when individually operating each of the refrigerant cooling subsystem and the liquid nitrogen cooling subsystem, is constructed and arranged to: during a non-cooling phase, deactivate the refrigerant cooling subsystem and the liquid nitrogen cooling subsystem to enable a temperature of the test chamber to reach a first temperature value,during a high demand cooling phase following the non-cooling phase, concurrently operate the refrigerant cooling subsystem and the liquid nitrogen cooling subsystem to decrease the temperature of the test chamber from the first temperature value to a second temperature value that is lower than the first temperature value, andduring a low demand cooling phase following the high demand cooling phase, deactivate the liquid nitrogen cooling subsystem and operate the refrigerant cooling subsystem to maintain the temperature of the test chamber at the second temperature value. 6. An environmental control apparatus as in claim 5wherein the vibration assembly imparts physical motion to electronic equipment residing in the test chamber while the electronic equipment operates during activation and deactivation of each of the refrigerant cooling subsystem and the liquid nitrogen cooling subsystem. 7. An environmental control apparatus as in claim 5 wherein the control circuitry includes: a common control interface to receive user input from a user, and provide user output to the user, the user input including commands to operate the refrigerant cooling subsystem and the liquid nitrogen cooling subsystem, and the user output providing operating status from the refrigerant cooling subsystem and the liquid nitrogen cooling subsystem. 8. An environmental control apparatus as in claim 5 wherein the control circuitry includes: a timer to control duration of the non-cooling phase, the high demand cooling phase, and the low demand cooling phase. 9. An environmental control apparatus as in claim 5 wherein the control circuitry includes: a proportional-integral-derivative (PID) controller to provide temperature control precision during different cooling phases. 10. An environmental control apparatus as in claim 1, further comprising: an air circulation subsystem to generate an air stream within the test chamber, wherein the set of refrigerant cooling coils and the set of liquid nitrogen nozzles are co-located relative to the air circulation subsystem to enable shared access to the air stream. 11. An environmental control apparatus as in claim 10, further comprising: a heating subsystem coupled to the control circuitry, a portion of the heating subsystem being co-located with the set of refrigerant cooling coils and the set of liquid nitrogen nozzles to share access to the air stream; andwherein the control circuitry is further constructed and arranged to coordinate operation of the heating subsystem with operation of the refrigerant cooling subsystem and the liquid nitrogen cooling subsystem. 12. An environmental control apparatus as in claim 10 wherein the set of refrigerant cooling coils and the set of liquid nitrogen nozzles are co-located adjacent a top region of the test chamber. 13. An environmental control apparatus as in claim 10 wherein the test chamber is constructed and arranged to house, as further electronic equipment, a set of computerized components while the computerized components electronically operate and endure stress testing to identify early life failures.
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