Independent safety processor for disabling the operation of high power devices
원문보기
IPC분류정보
국가/구분 |
United States(US) Patent
등록
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국제특허분류(IPC7판) |
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출원번호 |
US-0134174
(2005-05-20)
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등록번호 |
US-7253577
(2007-08-07)
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발명자
/ 주소 |
- Campbell,Alan J.
- Fullington,David G.
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출원인 / 주소 |
- Rockwell Automation Technologies, Inc.
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대리인 / 주소 |
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인용정보 |
피인용 횟수 :
9 인용 특허 :
7 |
초록
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A drive for delivering a high-power signal to a load includes a power circuit and a drive circuit. The power circuit is operable to provide a high power signal to the load in response to a control signal. The control circuit is operable to generate the control signal for activating the power circuit
A drive for delivering a high-power signal to a load includes a power circuit and a drive circuit. The power circuit is operable to provide a high power signal to the load in response to a control signal. The control circuit is operable to generate the control signal for activating the power circuit. The control circuit includes an application processor and a safety circuit. The application processor is operable to generate the control signal during a normal mode of operation. The safety circuit is operable to inhibit the generation of the control signal during a safe-off mode of operation. The safety circuit includes a safety processor independent from the application processor and operable to monitor the safety circuit.
대표청구항
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We claim: 1. A drive for delivering a high-power signal to a load, comprising: a power circuit operable to provide a high power signal to the load in response to a control signal; and a control circuit operable to generate the control signal for activating the power circuit, comprising: an applicat
We claim: 1. A drive for delivering a high-power signal to a load, comprising: a power circuit operable to provide a high power signal to the load in response to a control signal; and a control circuit operable to generate the control signal for activating the power circuit, comprising: an application processor operable to generate the control signal during a normal mode of operation; and a safety circuit operable to inhibit the generation of the control signal during a safe-off mode of operation, the safety circuit including a safety processor independent from the application processor and operable to monitor the safety circuit. 2. The drive of claim 1, wherein the control signal is indirectly coupled to the power circuit. 3. The drive of claim 1, wherein the control circuit includes a line driver operable to receive the control signal from the application processor, and the safety circuit is operable to disable the line driver during the safe-off mode of operation. 4. The drive of claim 3, wherein the control circuit is operable to remove power from the line driver. 5. The drive of claim 3, wherein the control circuit is operable to deassert an enable signal to the line driver. 6. The drive of claim 3, wherein the safety circuit further comprises a safety power supply block operable to generate a power supply for the line driver. 7. The drive of claim 6, wherein the safety circuit further comprises a safety power supply verify block operable to verify the presence of a power supply input to the safety power supply block, and the safety processor is operable to monitor outputs of the safety power supply block and the safety power supply verify block and identify a fault condition responsive to the outputs not concurring. 8. The drive of claim 6, wherein the safety circuit further includes a safety enable input block operable to receive a safety enable signal and enable the safety power supply block responsive to the safety enable signal being asserted. 9. The drive of claim 8, wherein the safety processor is operable to monitor outputs of the safety enable input block and the safety power supply block and identify a fault condition responsive to the outputs not concurring. 10. The drive of claim 6, wherein the safety circuit further includes a safety enable input verify block operable to verify the safety enable signal, and the safety processor is operable to monitor outputs of the safety enable input block and the safety enable input verify block and identify a fault condition responsive to the outputs not concurring. 11. The drive of claim 6, wherein the safety processor is operable to disable the safety power supply block responsive to identifying a fault condition. 12. The drive of claim 1, wherein the safety processor is operable to generate a heartbeat signal, and the safety circuit further comprises heartbeat logic operable to generate a signal for inhibiting the generation of the control signal responsive to detecting an absence of the heartbeat signal. 13. The drive of claim 3, wherein the safety circuit further comprises: safety power supply block operable to generate a power supply for the line driver; a safety power supply verify block operable to verify the presence of a power supply input to the safety power supply block; a safety enable input block operable to receive a safety enable signal and enable the safety power supply block responsive to the safety enable signal being asserted; and a safety enable input verify block operable to verify the safety enable signal, wherein the safety processor is operable to monitor outputs of the safety power supply block, the safety power supply verify block, the safety enable input block, and the safety enable input verify block to identify a fault condition. 14. The drive of claim 13, wherein the safety processor is operable to disable the safety power supply block responsive to identifying a fault condition. 15. The drive of claim 13, wherein the safety circuit further comprises safety enable logic operable to generate an enable signal for the line driver, the safety enable logic being operable to remove the enable signal responsive to a deassertion of one of the output of the safety enable input block and the output of the safety power supply verify block. 16. The drive of claim 15, wherein the safety processor is operable to generate a heartbeat signal, and the safety circuit further comprises heartbeat logic operable to generate an output responsive to detecting a presence of the heartbeat signal, and the safety enable signal is further operable to remove the enable signal responsive to a deassertion of the heartbeat logic output. 17. The drive of claim 3, further comprising an inverter coupled between the application processor and the line driver and at least one pull-up resistor coupled to a line coupling the inverter to the line driver, wherein the safety circuit is operable to remove a power supply provided to the pull-up resistor during the safe-off mode of operation. 18. The drive of claim 1, wherein the safety processor is operable to identify a fault condition in the safety circuit. 19. The drive of claim 18, wherein the safety processor is operable to notify the application processor of the fault condition. 20. The drive of claim 1, wherein the load comprises a motor. 21. A motor control system, comprising: a motor operable to rotate responsive to at least one high power driven signal; and a motor driven operable to generate the at least one high power driven signal responsive to at least one control signal, the motor driven comprising: an application processor operable to generate the control signal during a normal mode of operation; and a safety circuit operable to inhibit the generation of the control signal during a safe-off mode of operation, the safety circuit including a safety processor independent from the application processor and operable to monitor the safety circuit.
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Guenter Schwesig DE, Safe speed monitoring for sensor-free three-phase drives.
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이 특허를 인용한 특허 (9)
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Tajima, Hirokazu; Nishida, Hiroji, Drive control apparatus.
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Sato, Ikuya, Electric power converter.
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Ikeda, Yoshinori, Light source apparatus.
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Kamigauchi, Yuji, Method and apparatus for stopping servo motor.
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Ando, Kunimasa; Kubo, Tsutomu; Inoki, Keisei, Motor driving system, motor controller, and safety function expander.
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Tagashira, Tsuyoshi; Munetou, Kouji, Multi-axis robot power shut-off device and multi-axis robot.
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Fujita, Kenji; Sato, Ikuya; Takahashi, Hiroshi; Takami, Yuichi, Safety device and power converter.
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Steele, David; Krogh, Jens Steen, Safety system for a wind turbine.
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Sabapathy, Sam Gnana; Tessarolo, Alexander, Systems and methods for control with a multi-chip module with multiple dies.
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