Power supply system for electrically powered vehicle and method for controlling the same
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
B60L-011/00
출원번호
US-0125755
(2008-10-31)
등록번호
US-8571734
(2013-10-29)
국제출원번호
PCT/JP2008/069862
(2008-10-31)
§371/§102 date
20110629
(20110629)
국제공개번호
WO2010/050040
(2010-05-06)
발명자
/ 주소
Yamamoto, Masaya
Kato, Norihiko
Sato, Haruki
출원인 / 주소
Toyota Jidosha Kabushiki Kaisha
대리인 / 주소
Sughrue Mion, PLLC
인용정보
피인용 횟수 :
16인용 특허 :
1
초록▼
A power supply system includes a main power storage device and a plurality of sub power storage devices. A converter is connected to selected one of the sub power storage devices to convert voltage between the selected sub power storage device and an electric power feeding line bidirectionally. In t
A power supply system includes a main power storage device and a plurality of sub power storage devices. A converter is connected to selected one of the sub power storage devices to convert voltage between the selected sub power storage device and an electric power feeding line bidirectionally. In the case of a switching-forced region where the SOC of the selected sub power storage device in use is lower than a lower limit reference value, the sub power storage device is forced to be switched regardless of the vehicle's state. In contrast, in the case of a switching-permitted region where the SOC is higher than that in the switching-forced region, a switch request is generated based on the vehicle's state under the condition that does not influence the vehicle's drivability.
대표청구항▼
1. A power supply system for an electrically powered vehicle equipped with a motor generating power to drive the vehicle, comprising: a main power storage device;an electric power feeding line supplying electric power to an inverter that controls and drives said motor;a first voltage converter provi
1. A power supply system for an electrically powered vehicle equipped with a motor generating power to drive the vehicle, comprising: a main power storage device;an electric power feeding line supplying electric power to an inverter that controls and drives said motor;a first voltage converter provided between said electric power feeding line and said main power storage device, and configured to convert voltage therebetween bidirectionally;a plurality of sub power storage devices provided in parallel to each other;a second voltage converter provided between said plurality of sub power storage devices and said electric power feeding line, and configured to convert voltage between one of said plurality of sub power storage devices and said electric power feeding line bidirectionally;a connection unit provided between said plurality of sub power storage devices and said second voltage converter, and configured to selectively connect a selected sub power storage device selected from said plurality of sub power storage devices to said second voltage converter; anda switching control device configured to control selective connection between said plurality of sub power storage devices and said second voltage converter,said switching control device including: a first determination unit configured to detect whether a remaining capacity of the selected sub power storage device in use has become lower than a first reference value that is set in advance;a second determination unit configured to generate, when said remaining capacity has become lower than said first reference value, a switch request to switch said selected sub power storage device in accordance with a vehicle state of said electrically powered vehicle; anda third determination unit configured to generate, when said remaining capacity of said selected sub power storage device has become lower than a second reference value lower than said first reference value, said switch request regardless of said vehicle state. 2. The power supply system for an electrically powered vehicle according to claim 1, wherein said second determination unit is configured to generate said switch request when said remaining capacity has become lower than said first reference value and a total required power for said electrically powered vehicle is lower than a third reference value that is set based on an upper limit on electric power output from said main power storage device. 3. The power supply system for an electrically powered vehicle according to claim 1, wherein said electrically powered vehicle further includes: an internal combustion engine configured to be capable of outputting power to drive the vehicle independently of said motor; anda traveling control unit for dividing and assigning a total required power for said electrically powered vehicle to power output from said motor and power output from said internal combustion engine, andsaid second determination unit is configured to generate said switch request when said remaining capacity has become lower than said first reference value and said internal combustion engine is operating. 4. The power supply system for an electrically powered vehicle according to claim 1, wherein said switching control device further includes a standby power storage device determination unit configured to inhibit generation of said switch request when a charge capacity of each standby power storage device is lower than a predetermined value, wherein said each standby power storage device is a sub power storage device except for said selected sub power storage device among said plurality of sub power storage devices. 5. The power supply system for an electrically powered vehicle according to claim 1, wherein said switching control device further includes: a step-up-voltage instruction unit configured to instruct said first voltage converter to boost a voltage on said electric power feeding line to a first voltage which is higher than a voltage output from said main power storage device and higher than a voltage output from a sub power storage device to be connected to said second voltage converter after switching, when said switch request is generated;a first electric power limiter unit configured to decrease values of upper limits on electric power input and output to and from said selected sub power storage device gradually to zero after said voltage on said electric power feeding line has reached said first voltage;a connection switching control unit configured to switch connection between said plurality of sub power storage devices and said second voltage converter, when said first electric power limiter unit sets said values of said upper limits on electric power input and output to zero; anda second electric power limiter unit configured to increase said values of said upper limits on electric power input and output gradually to values corresponding to a state of charge of a sub power storage device newly connected to said second voltage converter after said connection switching control unit switches connection between said plurality of sub power storage devices and said second voltage converter. 6. A method for controlling a power supply system for an electrically powered vehicle equipped with a motor generating power to drive the vehicle, said power supply system including: a main power storage device;an electric power feeding line supplying electric power to an inverter that controls and drives said motor;a first voltage converter provided between said electric power feeding line and said main power storage device, and configured to convert voltage therebetween bidirectionally;a plurality of sub power storage devices provided in parallel to each other;a second voltage converter provided between said plurality of sub power storage devices and said electric power feeding line, and configured to convert voltage between one of said plurality of sub power storage devices and said electric power feeding line bidirectionally;a connection unit provided between said plurality of sub power storage devices and said second voltage converter, and configured to selectively connect a selected sub power storage device selected from said plurality of sub power storage devices to said second voltage converter; anda switching control device configured to control selective connection between said plurality of sub power storage devices and said second voltage converter,said method for controlling comprising the steps of:determining whether a remaining capacity of the selected sub power storage device in use has become lower than a first reference value that is set in advance;generating, when said remaining capacity has become lower than said first reference value, a switch request to switch said selected sub power storage device in accordance with a vehicle state of said electrically powered vehicle; andforcing, when said remaining capacity of said selected sub power storage device has become lower than a second reference value lower than said first reference value, said switch request to be generated regardless of said vehicle state. 7. The method for controlling a power supply system for an electrically powered vehicle according to claim 6, wherein said step of generating the switch request generates said switch request when said remaining capacity has become lower than said first reference value and a total required power for said electrically powered vehicle is lower than a reference value that is set based on an upper limit on electric power output from said main power storage device. 8. The method for controlling a power supply system for an electrically powered vehicle according to claim 6, wherein said electrically powered vehicle is further equipped with an internal combustion engine configured to be capable of outputting power to drive the vehicle independently of said motor, andsaid step of generating the switch request generates said switch request when said remaining capacity has become lower than said first reference value and said internal combustion engine is operating. 9. The method for controlling a power supply system for an electrically powered vehicle according to claim 6, further comprising the step of inhibiting generation of said switch request when a charge capacity of each standby power storage device is lower than a predetermined value, wherein said each standby power storage device is a sub power storage device except for said selected sub power storage device among said plurality of sub power storage devices. 10. The method for controlling a power supply system for an electrically powered vehicle according to claim 6, further comprising the steps of: instructing said first voltage converter to boost a voltage on said electric power feeding line to a first voltage which is higher than a voltage output from said main power storage device and higher than a voltage output from a sub power storage device to be connected to said second voltage converter after switching, when said switch request is generated;decreasing values of upper limits on electric power input and output to and from said selected sub power storage device gradually to zero after said voltage on said electric power feeding line has reached said first voltage;switching connection between said plurality of sub power storage devices and said second voltage converter, when said step of decreasing sets said values of said upper limits on electric power input and output to zero; andincreasing said values of said upper limits on electric power input and output gradually to values corresponding to a state of charge of a sub power storage device newly connected to said second voltage converter after said step of switching switches connection between said plurality of sub power storage devices and said second voltage converter.
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이 특허에 인용된 특허 (1)
Tabata Atsushi,JPX ; Taga Yutaka,JPX ; Ibaraki Ryuji,JPX ; Mikami Tsuyoshi,JPX ; Hata Hiroshi,JPX, Hybrid vehicle drive system having a drive mode using both engine and electric motor.
Djenguerian, Alex B.; Balakrishnan, Balu, Method and apparatus for sensing multiple voltage values from a single terminal of a power converter controller.
Djenguerian, Alex B.; Balakrishnan, Balu, Method and apparatus for sensing multiple voltage values from a single terminal of a power converter controller.
Djenguerian, Alex B.; Balakrishnan, Balu, Method and apparatus for sensing multiple voltage values from a single terminal of a power converter controller.
Djenguerian, Alex B.; Balakrishnan, Balu, Method and apparatus for sensing multiple voltage values from a single terminal of a power converter controller.
Djenguerian, Alex B.; Balakrishnan, Balu, Method and apparatus for sensing multiple voltage values from a single terminal of a power converter controller.
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