IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0974002
(2010-12-21)
|
등록번호 |
US-8450983
(2013-05-28)
|
우선권정보 |
JP-2010-151690 (2010-07-02) |
발명자
/ 주소 |
- Gokan, Hiroshi
- Suetake, Naruki
- Tsujimoto, Katsuya
|
출원인 / 주소 |
- Mitsubishi Electric Corporation
|
대리인 / 주소 |
Buchanan Ingersoll & Rooney PC
|
인용정보 |
피인용 횟수 :
2 인용 특허 :
6 |
초록
▼
A microcomputer that exercises driving control and power-generation control over a motor generator unit and a power-generation maintaining unit that, separately from the power-generation control exercised by the microcomputer, maintains a power-generation process performed by the motor generator uni
A microcomputer that exercises driving control and power-generation control over a motor generator unit and a power-generation maintaining unit that, separately from the power-generation control exercised by the microcomputer, maintains a power-generation process performed by the motor generator unit are provided. While the microcomputer is operating normally, the power-generation maintaining unit allows the microcomputer to exercise the power-generation control. When an abnormality has occurred in the microcomputer, the power-generation maintaining unit acts as a backup or secondary controller to maintain the power-generation process performed by the motor generator unit, in an autonomous manner independently of the microcomputer.
대표청구항
▼
1. An electric power converting apparatus, comprising: a microcomputer that, based on a rotor current and stator phase voltages of a motor generator, exercises driving control and power-generation control over the motor generator; anda power generation maintaining unit that allows the microcomputer
1. An electric power converting apparatus, comprising: a microcomputer that, based on a rotor current and stator phase voltages of a motor generator, exercises driving control and power-generation control over the motor generator; anda power generation maintaining unit that allows the microcomputer to exercise the power-generation control while the microcomputer is operating normally and maintains the power-generation process performed by the motor generator, in an autonomous manner independently of the microcomputer when an abnormality occurs in the microcomputer, whereinthe power-generation maintaining unit, independent of the microcomputer, monitors fluctuations in a load based on a stator bus voltage and blocks a rotor current in the motor generator based on a result of monitored fluctuations in the load. 2. The electric power converting apparatus according to claim 1, wherein the power-generation maintaining unit monitors itself, andin a case where an abnormality has occurred in the power-generation maintaining unit, the power-generation maintaining unit allows the microcomputer to exercise the power-generation control. 3. The electric power converting apparatus according to claim 1, wherein the power-generation maintaining unit includes: a rotor rotation detecting unit that, based on a result of monitoring on a stator phase voltage, detects rotations of a rotor included in the motor generator; anda rotation detection duty generating unit that, based on a result of the detection of the rotations of the rotor, maintains the rotations of the rotor. 4. The electric power converting apparatus according to claim 1, wherein the power-generation maintaining unit includes a serial communication interface that transmits information indicating an operation state of the rotor to the microcomputer. 5. An electric power converting apparatus, comprising: a microcomputer that, based on a rotor current and stator phase voltages of a motor generator, exercises driving control and power-generation control over the motor generator; anda power generation maintaining unit that, separately from the power-generation control exercised by the microcomputer, maintains a power-generation process performed by the motor generator, wherein the power-generation maintaining unit includes: a power-generation maintaining circuit that monitors a power-generation state of the motor generator based on the stator phase voltages of the motor generator; anda power-generation maintaining duty generating unit that, based on a result of the monitoring on the power-generation state performed by the power-generation maintaining circuit, controls a duty so that the power-generation process performed by the motor generator is maintained. 6. The electric power converting apparatus according to claim 5, wherein in a case where an overvoltage has been detected during the power-generation process performed by the motor generator, the power-generation maintaining duty generating unit controls the duty so that rotations of the motor generator are maintained. 7. The electric power converting apparatus according to claim 5, wherein the power-generation maintaining circuit includes: an overcurrent detecting unit that detects an overcurrent based on a result of monitoring on the rotor current;a power-generation detecting unit that detects the power-generation process performed by the motor generator, based on results of monitoring on the rotor current, the stator bus voltage, and the stator phase voltages;an undervoltage detecting unit that detects an undervoltage, based on a result of monitoring on the stator bus voltage; andan overvoltage detecting unit that detects an overvoltage, based on a result of monitoring on the stator bus voltage, andin a case where an undervoltage has been detected, the power-generation maintaining circuit raises the duty so that the power-generation process performed by the motor generator is maintained, whereas in a case where an overvoltage has been detected, the power-generation maintaining circuit lowers the duty so that rotations of the motor generator are maintained, and in a case where an overcurrent has been detected, the power-generation maintaining circuit turns off a switching element that drives a rotor. 8. The electric power converting apparatus according to claim 5, wherein the microcomputer exercises driving control over a stator, based on a result of detecting an angular position of a rotor. 9. The electric power converting apparatus according to claim 5, further comprising a stator controlling unit that exercises driving control over a stator, based on a result of detecting an angular position of a rotor. 10. The electric power converting apparatus according to claim 9, wherein the microcomputer performs communication with the power-generation maintaining unit and the stator controlling unit so as to detect an operation state of the motor generator. 11. An electric power converting apparatus, comprising: a microcomputer that, based on a rotor current and stator phase voltages of a motor generator, exercises driving control and power-generation control over the motor generator; anda power generation maintaining unit that, separately from the power-generation control exercised by the microcomputer, maintains a power-generation process performed by the motor generator, whereinthe power-generation maintaining unit includes a load dump detecting unit that, based on a stator bus voltage, monitors fluctuations in a load, independently of the microcomputer, andthe power-generation maintaining unit blocks the rotor current of the motor generator, based on a result of the monitoring on the fluctuations in the load performed by the load dump detecting unit. 12. An electric power converting apparatus, comprising: a microcomputer that, based on a rotor current and stator phase voltages of a motor generator, exercises driving control and power-generation control over the motor generator; anda power generation maintaining unit that, separately from the power-generation control exercised by the microcomputer, maintains a power-generation process performed by the motor generator, wherein the power-generation maintaining unit includes: a microcomputer monitoring unit that monitors operations of the microcomputer;a rotor clock monitoring unit that monitors a clock used for an operation performed by the power-generation maintaining unit; anda selector unit that switches signals so that, in a case where an abnormality has occurred in the microcomputer monitored by the microcomputer monitoring unit, a rotor included in the motor generator is controlled by the power-generation maintaining unit, whereas in a case where an abnormality has occurred in the clock monitored by the clock monitoring unit, the rotor included in the motor generator is controlled by the microcomputer. 13. An electric power converting apparatus, comprising: a microcomputer that, based on a rotor current and stator phase voltages of a motor generator, exercises driving control and power-generation control over the motor generator;a power generation maintaining unit that, separately from the power-generation control exercised by the microcomputer, maintains a power-generation process performed by the motor generator;and a stator controlling unit that exercises driving control over a stator, based on a result of detecting an angular position of a rotor, whereinthe microcomputer performs communication with the power-generation maintaining unit and the stator controlling unit so as to detect an operation state of the motor generator, andin a case where normal communication has never been established with the microcomputer after a power-on reset is performed, if no abnormality is detected in the microcomputer, the power-generation maintaining unit switches a setting so that driving control or power-generation control is exercised over the motor generator by the microcomputer and the power-generation maintaining unit. 14. An electric power converting apparatus, comprising: a microcomputer that, based on a rotor current and stator phase voltages of a motor generator, exercises driving control and power-generation control over the motor generator;a power generation maintaining unit that, separately from the power-generation control exercised by the microcomputer, maintains a power-generation process performed by the motor generator;and a stator controlling unit that exercises driving control over a stator, based on a result of detecting an angular position of a rotor, whereinthe microcomputer performs communication with the power-generation maintaining unit and the stator controlling unit so as to detect an operation state of the motor generator, andin a case where, when a communication failure has been detected in communication with the microcomputer and normal communication has been established with the microcomputer after a power-on reset is performed, the power-generation maintaining unit switches a setting so that the power-generation maintaining unit exercises power-generation control over the motor generator. 15. An electric power converting apparatus, comprising: a microcomputer that, based on a rotor current and stator phase voltages of a motor generator, exercises driving control and power-generation control over the motor generator;a power generation maintaining unit that, separately from the power-generation control exercised by the microcomputer, maintains a power-generation process performed by the motor generator;and a stator controlling unit that exercises driving control over a stator, based on a result of detecting an angular position of a rotor, whereinthe stator controlling unit includes: a rotor angular position detecting unit that detects an angular position of the rotor;a stator abnormality detecting unit that detects abnormalities in the stator based on a result of monitoring on stator phase voltages;a stator control logic unit that exercises driving control over the stator, based on a result of the detection of the angular position of the rotor and a result of the detection of the abnormalities in the stator; anda first serial communication interface that receives an operation instruction from the microcomputer and transmits information indicating an operation state of the stator to the microcomputer. 16. The electric power converting apparatus according to claim 15, wherein the stator controlling unit includes a stator clock monitoring unit that monitors a clock used for an operation performed by the stator controlling unit, andin a case where an abnormality has occurred in the clock monitored by the stator clock monitoring unit, the stator control logic unit stops the driving control exercised over the stator. 17. An electric power converting apparatus, comprising: a microcomputer that, based on a rotor current and stator phase voltages of a motor generator, exercises driving control and power-generation control over the motor generator;a power generation maintaining unit that, separately from the power-generation control exercised by the microcomputer, maintains a power-generation process performed by the motor generator,wherein when a setting has been switched so that driving control is exercised over the motor generator by the microcomputer, the power-generation maintaining unit allows the microcomputer to exercise the driving control, whereas when a setting has been switched so that power-generation control is exercised over the motor generator by the microcomputer, the power-generation maintaining unit either allows the microcomputer to exercise the power-generation control or allows the power-generation maintaining unit itself to maintain the power-generation process performed by the motor generator. 18. An electric power converting apparatus comprising: a microcomputer that, based on a rotor current and stator phase voltages of a motor generator, exercises driving control and power-generation control over the motor generator;a load dump detecting unit that, based on a stator bus voltage, monitors fluctuations in a load, independently of the microcomputer; anda selector unit that, based on a result of the monitoring on the fluctuations in the load performed by the load dump detecting unit, blocks a rotor gate command signal that controls the rotor current. 19. An electric power converting apparatus comprising: a microcomputer that, based on a rotor current and stator phase voltages of a motor generator, exercises driving control and power-generation control over the motor generator; anda rotor control logic unit that allows the microcomputer to control rotations of the motor generator while the microcomputer is operation normally and maintains rotations of the motor generator, in an autonomous manner independently of the microcomputer when an abnormality occurs in the microcomputer, whereinthe rotor control unit blocks, independently of the microcomputer, a rotor current in the motor generator based on fluctuations in a load, which are obtained by monitoring a stator bus voltage.
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