Device and method for measuring individual cell voltages in a cell stack of an energy accumulator
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
G01N-027/416
H02J-007/00
출원번호
US-0575220
(2004-09-01)
등록번호
US-7492160
(2009-02-17)
우선권정보
DE-103 47 110(2003-10-10)
국제출원번호
PCT/EP04/051981
(2004-09-01)
§371/§102 date
20060410
(20060410)
국제공개번호
WO05/036191
(2005-04-21)
발명자
/ 주소
Bolz,Stephan
출원인 / 주소
Siemens Aktiengesellschaft
대리인 / 주소
Greenberg,Laurence A.
인용정보
피인용 횟수 :
2인용 특허 :
3
초록▼
A device and method enable measuring individual cell voltages of cells in a cell stack of an energy accumulator. To this end, a series circuit formed of two diodes is connected in parallel to each cell, the nodes between these diodes are connected to a changeover switch via a respective capacitor an
A device and method enable measuring individual cell voltages of cells in a cell stack of an energy accumulator. To this end, a series circuit formed of two diodes is connected in parallel to each cell, the nodes between these diodes are connected to a changeover switch via a respective capacitor and to a differential amplifier via the changeover switch, and an alternating current of a specified frequency and amplitude is fed into these capacitors while generating an alternating voltage corresponding to the cell voltage. This alternating voltage, after rectifying, becomes a direct voltage to ground value for the cell voltage.
대표청구항▼
The invention claimed is: 1. A device for measuring individual cell voltages of cells in a cell stack of an energy accumulator, comprising: a series circuit of two diodes connected in parallel with each cell of the cell stack and connected to conduct current in a direction from a minus pole to a pl
The invention claimed is: 1. A device for measuring individual cell voltages of cells in a cell stack of an energy accumulator, comprising: a series circuit of two diodes connected in parallel with each cell of the cell stack and connected to conduct current in a direction from a minus pole to a plus pole of the cell; a changeover switch having a number of terminals assigned to switch positions corresponding to a number of the cells of the cell stack, and a capacitor connecting each of said terminals to a respective node between said diodes assigned to the cells; a reference circuit having first and second diodes connected in series, said first diode having an anode connected to reference potential and to a cathode of said second diode; a differential amplifier having a non-inverted input connected to an output of said changeover switch, an inverted input connected via a capacitor to a node between said first and second diodes of said reference circuit, and an output; a controlled rectifier having an input connected to said output of said differential amplifier and an output carrying a direct current with a voltage, relative to reference potential, proportional to a cell voltage of the cell respectively selected with said changeover switch; a first controlled alternating current source connected between said non-inverting input of said differential amplifier and reference potential; a second controlled alternating current source connected between said inverting input of said differential amplifier and reference potential; and a clock control having an oscillator outputting an oscillator clock signal and a frequency divider outputting a divider signal, wherein said first and second alternating current sources and said rectifier are controlled by the oscillator clock and said changeover switch is controlled by the divider signal. 2. The device according to claim 1, configured to monitor an energy accumulator in a motor vehicle electrical system. 3. The device according to claim 1, wherein said rectifier is a synchronous demodulator controlled by the oscillator clock. 4. A method of measuring individual cell voltages of cells in a cell stack of an energy accumulator, the method which comprises: providing a device according to claim 1; for measuring a cell voltage of a given cell of the cell stack, feeding a first square-wave alternating current of a specific frequency and amplitude into the capacitor assigned to the given cell, to thereby produce a first alternating voltage corresponding to the cell voltage of the given cell, multiplied by the on-state voltages of the two diodes connected in parallel with the given cell; feeding an alternating current with a frequency and an amplitude corresponding to the first square-wave alternating current into the capacitor assigned to the reference circuit, to thereby produce a second alternating voltage, relative to ground, corresponding to the on-state current of the first and second diodes of the reference circuit; forming a difference between the first and second alternating voltages to generate an alternating voltage corresponding to the cell voltage of the given cell; and rectifying the alternating voltage corresponding to the cell voltage of the given cell to produce a direct voltage corresponding to the cell voltage of the given cell relative to ground. 5. The method according to claim 4, which comprises performing the method consecutively to all cells of the cell stack. 6. The method according to claim 4, which comprises setting a frequency the alternating currents injected into the capacitors high enough to avoid a significant charge or discharge of said capacitors during the oscillation period. 7. The method according to claim 4, which comprises setting the amplitudes of the alternating currents injected into the capacitors to a value within a μA range. 8. The method according to claim 4, which comprises subjecting the direct current voltage corresponding to the cell current of each cell relative to ground to a limit value comparison at an upper and a lower limit value, and, if the upper limit value is exceeded, deducing an overvoltage of the cell, and if the lower limit value is undershot, deducing a short-circuit of the cell. 9. The method according to claim 4, which comprises storing the direct current voltage values corresponding to the cell voltages of each cell relative to ground, to thereby enable a detection of a slow balancing behavior, during charge balancing, of individual cell voltages and to define a termination of the charging or discharging process and enable long-term monitoring of each individual cell for a drop in the capacitance or an increase in the self-discharge or the internal resistance.
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이 특허에 인용된 특허 (3)
Kalenowsky John A. (Palatine IL), Capacitive power supply having charge equalization circuit.
Froeschl, Joachim; Handschuh, Tobias; Reischl, Sebastian; Mai, Alexander, Method for determining the actual amount of energy available in an energy storage module.
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