Multiple battery charger and method for controlling the same
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
H02J-007/00
H02J-007/04
H01M-010/44
H02J-007/02
출원번호
US-0767571
(2014-08-14)
등록번호
US-9876376
(2018-01-23)
우선권정보
KR-10-2013-0138061 (2013-11-14)
국제출원번호
PCT/KR2014/007599
(2014-08-14)
국제공개번호
WO2015/072652
(2015-05-21)
발명자
/ 주소
Choi, Woojin
Tran Van, Long
출원인 / 주소
FOUNDATION OF SOONGSIL UNIVERSITY-INDUSTRY COOPERATION
대리인 / 주소
Novick, Kim & Lee, PLLC
인용정보
피인용 횟수 :
0인용 특허 :
4
초록▼
A multiple battery charger is provided. The multiple battery charger includes an input unit configured to receive or block power from a power supply unit, an output unit including a plurality of output terminals, wherein the plurality of output terminals are commonly connected to the input unit and
A multiple battery charger is provided. The multiple battery charger includes an input unit configured to receive or block power from a power supply unit, an output unit including a plurality of output terminals, wherein the plurality of output terminals are commonly connected to the input unit and charge a plurality of batteries, and wherein each of the plurality of output terminals includes at least one of a plurality of second switches for a selective receipt of the power from the input unit and the plurality of output terminals are controlled in a time division multiple control manner, and a switching control unit configured to transmit a pulse width modulation signal to the input unit and the output unit so as to independently control the power applied to the plurality of batteries. Accordingly, a plurality of different kinds of batteries and the same kind of batteries in which charge states are different can be simultaneously charged.
대표청구항▼
1. A multiple battery charger comprising: an input unit configured to receive or block power from a power supply unit;an output unit including a plurality of output terminals, wherein the plurality of output terminals are commonly connected to the input unit and charge a plurality of batteries, and
1. A multiple battery charger comprising: an input unit configured to receive or block power from a power supply unit;an output unit including a plurality of output terminals, wherein the plurality of output terminals are commonly connected to the input unit and charge a plurality of batteries, and wherein each of the plurality of output terminals includes at least one of a plurality of second switches for a selective receipt of the power from the input unit and the plurality of output terminals are controlled in a time division multiple control manner; anda switching control unit configured to transmit a pulse width modulation (PWM) signal to the input unit and the output unit so as to independently control the power applied to the plurality of batteries,wherein a first pulse of the PWM signal is simultaneously sent to the input unit and to an upper second switch in the output unit, andwherein a second pulse of the PWM signal is simultaneously sent to the input unit and to a lower second switch in the output unit,wherein the output unit comprises:a first upper rectifier connecting an upper output of a transformer to a left side of the upper second switch;a second upper rectifier connecting a right side of the upper second switch to a lower output of the transformer;an upper inductor connecting the right side of the upper second switch to an upper part of an upper resistor and to an upper part of an upper battery;an upper capacitor connecting a lower part of the upper resistor to the lower output of the transformer;a first lower rectifier connecting the upper output of the transformer to a left side of the lower second switch;a second lower rectifier connecting a right side of the lower second switch to the lower output of the transformer;a lower inductor connecting the right side of the lower second switch to an upper part of a lower resistor and to an upper part of a lower battery; anda lower capacitor connecting a lower part of the lower resistor to the lower output of the transformer. 2. The multiple battery charger of claim 1, wherein the multiple battery charger further comprises a feedback circuit unit configured to detect a level of voltages of the plurality of output terminals and transmit an information of the level of the voltages to the switching control unit for performing an independent feedback control on the plurality of output terminals in the output unit. 3. The multiple battery charger of claim 2, wherein the input unit includes at least one first switch, and upon receipt of the information of the level of the voltages from the feedback circuit unit, the switching control unit independently compensates for the power on a corresponding output terminal by controlling the at least one first switch and the plurality of second switches in the time division multiple control manner based on the information of the level of the voltages. 4. The multiple battery charger of claim 3, wherein the switching control unit is configured to synchronize the at least one first switch and the plurality of second switches over one sampling time for a time division multiple control. 5. The multiple battery charger of claim 3, wherein the switching control unit is configured to operate the at least one first switch at a frequency fs, and wherein each of the plurality of second switches, having N-number switches, is operated at a frequency fs/n so that the switching control unit controls all of the powers of the plurality of output terminals in the plurality of second switches over N-time period. 6. The multiple battery charger of claim 1, wherein the plurality of second switches has N-number switches and the switching control unit is configured to control each of the plurality of second switches in a sequential order over a time period Ts, and to independently control each and every one of the plurality of second switches over a N time period nTs. 7. A multiple battery charger comprising: an input unit having at least one first switch;a transformer unit configured to convert a magnitude of power received from the input unit; andan output unit having a plurality of output terminals which are configured to receive the power from the transformer unit,wherein each of the plurality of output terminals includes at least one of a plurality of second switches,wherein each of the plurality of second switches is separately operable, andwherein the plurality of output terminals are connected to a plurality of batteries, andwherein the first switch and the second switches are controlled by a time division multiple control by applying a pulse width modulation (PWM) signal so that powers charged to the plurality of batteries are independently controlled per each of the plurality of output terminals,wherein a first pulse of the PWM signal is simultaneously sent to the input unit and to an upper second switch in the output unit, andwherein a second pulse of the PWM signal is simultaneously sent to the input unit and to a lower second switch in the output unit,wherein the output unit comprises:a first upper rectifier connecting an upper output of a transformer to a left side of the upper second switch;a second upper rectifier connecting a right side of the upper second switch to a lower output of the transformer;an upper inductor connecting the right side of the upper second switch to an upper part of an upper resistor and to an upper part of an upper battery;an upper capacitor connecting a lower part of the upper resistor to the lower output of the transformer;a first lower rectifier connecting the upper output of the transformer to a left side of the lower second switch;a second lower rectifier connecting a right side of the lower second switch to the lower output of the transformer;a lower inductor connecting the right side of the lower second switch to an upper part of a lower resistor and to an upper part of a lower battery; anda lower capacitor connecting a lower part of the lower resistor to the lower output of the transformer. 8. The multiple battery charger of claim 7, wherein the plurality of output terminals in the output unit are jointly connected to the transformer unit, and an operation of the plurality of second switches determines at least one of the plurality of output terminals to receive the power from the transformer unit. 9. The multiple battery charger of claim 7, wherein the multiple battery charger further comprises a feedback circuit unit configured to detect a level of power of each of the plurality of output terminals for independently controlling magnitudes of powers charged in the plurality of batteries connected to the plurality of output terminals. 10. A method for controlling a multiple battery charger including an input unit including at least one first switch, a transformer unit configured to convert a magnitude of power from the input unit, and a plurality of second switches which receive the power from the transformer unit and include the plurality of second switches installed in a plurality of output terminals, the method comprising:sequentially constructing a closed circuit of the output terminal and the transformer unit by controlling the plurality of second switches in a time division multiple control manner; andwhen controlling the plurality of second switches in the time division multiple control manner, performing an interlock control to the at least one first switch, for an independent power control to a plurality of batteries, which are connected to the plurality of output terminals,wherein a first pulse of the PWM signal is simultaneously sent to the input unit and to an upper second switch in the output unit, andwherein a second pulse of the PWM signal is simultaneously sent to the input unit and to a lower second switch in the output unit,wherein the output unit comprises:a first upper rectifier connecting an upper output of a transformer to a left side of the upper second switch;a second upper rectifier connecting a right side of the upper second switch to a lower output of the transformer;an upper inductor connecting the right side of the upper second switch to an upper part of an upper resistor and to an upper part of an upper battery;an upper capacitor connecting a lower part of the upper resistor to the lower output of the transformer;a first lower rectifier connecting the upper output of the transformer to a left side of the lower second switch;a second lower rectifier connecting a right side of the lower second switch to the lower output of the transformer;a lower inductor connecting the right side of the lower second switch to an upper part of a lower resistor and to an upper part of a lower battery; and a lower capacitor connecting a lower part of the lower resistor to the lower output of the transformer.
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이 특허에 인용된 특허 (4)
Fiebig Arnim (Leinfelden-Echterdingen DEX), Charging device for charging a plurality of batteries based on parameter priority.
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