JP2008224265A - Monitoring protection device for battery pack - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a monitoring protection device for a battery pack capable of detecting disconnection without requiring an additional step for detecting the disconnection. <P>SOLUTION: This monitoring protection device for the battery pack is provided with a measuring part for measuring an output voltage for one cell and the output voltage for the two cells, by switching volt measuring lines 12 of a battery pack 11 connected in series with the plurality of cells Batt1-Battn, and a protection operation part 15 for executing a protection operation for the battery pack 11 when the output voltage for the one cell or the output voltage for the two cells measured by the measuring part 13 runs out of a prescribed range, and for releasing the protection operation when returned within a normal range. <P>COPYRIGHT: (C)2008,JPO&INPIT

Description

  The present invention relates to a battery pack monitoring and protection device for monitoring and protecting a battery pack in which a plurality of cells are connected in series.

  For example, in a battery pack of a lithium ion secondary battery, in order to protect the lithium ion secondary battery from overcharge and overdischarge, cell voltage is measured and monitoring protection is performed. Moreover, since the lithium secondary battery cannot be protected when the voltage measurement line for measuring each cell voltage is disconnected, the disconnection of the voltage measurement line is also monitored.

Connect multiple voltage sensors between multiple voltage input terminals to which the output voltage of the secondary battery is input via the voltage measurement line, and connect to the connected voltage input terminal when the voltage measurement line is not disconnected. There is one in which a plurality of constant current sources that supply a predetermined current are connected to voltage input terminals, respectively, and the disconnection of the voltage measurement line of the secondary battery is monitored (for example, see Patent Document 1). In addition, it is possible to monitor the disconnection of the voltage measurement line using a discharge circuit for each cell (for example, refer to Patent Document 2), or to change the impedance of the cell short circuit to perform impedance measurement. (For example, refer to Patent Document 3).
JP 2006-275928 A JP 2005-168118 A JP 2006-50784 A

  However, in the voltage measurement line disconnection detection method disclosed in Patent Documents 1 to 3, a step for detecting disconnection of the voltage measurement line is required, and during this step, the voltage of each cell cannot be measured. For this reason, there has been a problem that the protection operation is delayed when the cell voltage changes rapidly due to rapid charging and discharging.

  An object of the present invention is to provide a battery pack monitoring and protection device that can detect disconnection without requiring an additional step for disconnection detection.

  The battery pack monitoring and protection device of the present invention switches a voltage measurement line of a battery pack in which a plurality of cells are connected in series, and alternately measures an output voltage for one cell and an output voltage for two cells. When the output voltage for one cell or the output voltage for two cells measured by the measuring unit deviates from a predetermined range, the protection operation is performed when the battery pack is returned to the normal range. And an operation unit.

  According to the present invention, since it is possible to detect disconnection without requiring an additional step for detecting disconnection, even if the voltage of the cell changes rapidly due to rapid charging or discharging, the protective operation can be performed. It is possible to provide a monitoring and protection device for a battery pack that is not delayed.

  FIG. 1 is a configuration diagram of a battery pack monitoring and protection apparatus according to an embodiment of the present invention. The battery pack 11 is configured by connecting a plurality of cells Batt1 to Battn in series, and a voltage measurement line 12 is drawn from each of the cells Batt1 to Battn and connected to the measurement unit 13. The measurement unit 13 includes changeover switches S11H to S1nH connected to the positive terminals of the cells Batt1 to Battn, and changeover switches S11L to S1nL connected to the negative terminals of the cells Batt1 to Battn. A capacitor C is connected between the changeover switches S11H to S1nH connected in parallel and the changeover switches S11L to S1nL connected in parallel. An output voltage for one cell or an output voltage for two cells is applied to the capacitor C by switching the changeover switches S11H to S1nH and the changeover switches S11L to S1nL.

  Further, on the output side of the measurement unit 13, output-side change-over switches S21H and S22H connected to the change-over switches S11H to S1nH connected in parallel, and S21L and S22L connected to the change-over switches S11L to S1nL connected in parallel, Is provided. Then, based on the amount of charge charged in the capacitor C, it is determined whether or not one cell or two cells are in the overcharge / discharge state. When one cell is in the overdischarge state, the operational amplifiers 14d1 to 1 An overdischarge detection signal Od1 for one cell is output to the protection operation unit 15, and when one cell is in an overcharged state, an overcharge detection signal Oc1 for one cell is output to the protection operation unit 15 from the operational amplifier 14c1. . Similarly, when two cells are in an overdischarged state, an overdischarge detection signal Od2 for two cells is output from the operational amplifier 14d2 to the protection operation unit 15, and when two cells are in an overcharged state, the operational amplifier 14c2 is output. From this, an overcharge detection signal Oc2 for two cells is output to the protection operation unit 15.

  The protection operation unit 15 performs a monitoring protection operation of the battery pack 11 based on the overdischarge detection signal Od1, the overcharge detection signal Oc1, the overdischarge detection signal Od2, and the overcharge detection signal Oc2. When it is determined that any one of the voltage measurement lines 12 is disconnected from each of the cells Batt1 to Battn, an alarm is output to the alarm output device 16. The alarm output device 16 has a display 17 and an audio output device 18, and outputs a notification that the voltage measurement line 12 is disconnected to one or both of them.

  Here, the measurement unit 13 switches the changeover switches S11H to S1nH and the changeover switches S11L to S1nL to alternately measure the output voltage for one cell and the output voltage for two cells. First, measurement of the output voltage for one cell will be described. The change-over switches S11L and S11H are closed, and the output voltage of the cell Batt1 is applied to the capacitor C so that the capacitor C is charged. Thereafter, the respective change-over switches S11L and S11H are opened, the output-side change-over switches S21L and S21H are closed, and the voltage of the cell Batt1 (for one cell) is measured. The protection operation shown in FIG. 2 is performed by the voltage measured at this time.

  When the measured voltage exceeds the discharge protection voltage for one cell and is less than the charge protection voltage for one cell, the voltage of Batt1 (for one cell) is in the normal range. Accordingly, the overdischarge detection signal Od1 for one cell from the operational amplifier 14d1 and the overcharge detection signal Oc1 for one cell from the operational amplifier 14c1 are not output to the protection operation unit 15, and the protection operation by the protection operation unit 15 is performed. I will not.

  Next, when the measured voltage is equal to or higher than the charge protection voltage for one cell and equal to or lower than the discharge protection voltage for two cells, charging is cut off as a charge protection operation. When the measured voltage becomes smaller than a predetermined specific voltage smaller than the charge protection voltage for one cell, the charge protection operation is canceled and charging can be performed. When the measured voltage is equal to or lower than the discharge protection voltage for one cell, the discharge is interrupted as a discharge protection operation. When the measured voltage becomes larger than a predetermined specific voltage that is higher than the discharge protection voltage for one cell, the discharge protection operation is canceled and the discharge can be performed.

  On the other hand, the protection operation unit 15 determines that the voltmeter side line 12 is disconnected when a voltage in a normal range of 2 cells is measured by measuring the voltage of 1 cell. This is because when the change-over switches S11L and S11H are closed, if the voltage measurement line 12 is normal, the capacitor C should be charged to the voltage of the cell Batt1, but the voltage in the normal range for two cells is measured. This means that the capacitor C is not charged by the voltage of the cell Batt1, and the voltage measured for the last two cells is considered to be charged in the capacitor C, so that it is determined that the voltage measurement line 12 is disconnected. .

  If the measured voltage is equal to or higher than the discharge protection voltage for two cells, it may be determined that the voltage measuring line 12 for measuring the voltage of the cell Batt1 is disconnected as shown in FIG. . In this case as well, if the voltage measurement line 12 is normal, the capacitor C should be charged to the voltage of the cell Batt1, but the fact that the voltage exceeds the discharge protection voltage for two cells means that the capacitor C is in the cell Batt1. This is because it is considered that the voltage of the two cells measured immediately before is charged in the capacitor C without being charged with the voltage.

  When it is determined that the voltage measurement line 12 is disconnected, there is a cell Batti that cannot measure the voltage. Therefore, it is necessary to prevent the battery pack 11 from being charged or discharged. Both charge protection operations are performed. Further, since the disconnection of the voltage measuring line 12 is not repaired unless repaired, the charge protection operation and the release of the charge protection operation are prohibited. When the voltage measuring line 12 is broken, it is necessary to notify the operator that the repair is necessary. Therefore, the broken line is displayed on the display unit 17 of the alarm output device 16 or a voice output is made. The device 18 notifies the disconnection.

  Next, measurement of the output voltage for two cells will be described. After the measurement of the output voltage of the cell Batt1, the case of measuring the output voltage of two cells, that is, the output voltage of the cell Batt2 and the output voltage of the cell Batt3 is described. The change-over switches S12L and S13H are closed, and an output voltage corresponding to two cells of the output voltage of the cell Batt2 and the output voltage of the cell Batt3 is applied to the capacitor C to charge the electric charge. After charging the electric charge, the respective change-over switches S12L and S13H are opened, the output-side change-over switches S22L and S22H are closed, and the voltage for two cells is measured. The protection operation shown in FIG. 4 is performed by the voltage measured at this time.

  When the measured voltage exceeds the discharge protection voltage for 2 cells and is less than the charge protection voltage for 2 cells, the voltage for 2 cells is in the normal range. Accordingly, the two-cell overdischarge detection signal Od2 from the operational amplifier 14d2 and the two-cell overcharge detection signal Oc2 from the operational amplifier 14c2 are not output to the protection operation unit 15, and the protection operation by the protection operation unit 15 is performed. I will not.

  Next, when the measured voltage is equal to or higher than the charge protection voltage for two cells, charging is cut off as a charge protection operation. When the measured voltage becomes lower than a predetermined specific voltage that is smaller than the charge protection voltage for two cells, the charge protection operation is canceled and charging can be performed. Further, when the measured voltage is equal to or lower than the discharge protection voltage for two cells and exceeds the charge protection voltage for one cell, the discharge is interrupted as a discharge protection operation. When the measured voltage becomes larger than a predetermined specific voltage that is larger than the discharge protection voltage for two cells, the discharge protection operation is canceled and the discharge can be performed.

  On the other hand, the protection operation unit 15 determines that the voltmeter side line 12 is disconnected when the voltage in the normal range for one cell is measured by measuring the voltage for two cells. In this state, when the change-over switches S12L and S13H are closed, if the voltage measurement line 12 is normal, the capacitor C should be charged to the voltage for two cells, but the voltage in the normal range for one cell is measured. This means that the capacitor C is not charged by the voltage of two cells, and the voltage measured for the last one cell is considered to be charged to the capacitor C, so the voltage measurement line 12 is disconnected. Judge.

  Further, when the measured voltage is equal to or lower than the discharge protection voltage for one cell, it may be determined that the voltage measuring line 12 is disconnected as shown in FIG. In this case as well, if the voltage measuring line 12 is normal, the capacitor C should be charged to a voltage of 2 cells. This is because it is considered that the voltage of one cell measured immediately before is charged in the capacitor C without being charged to the voltage of the minute.

  As described above, measurement for one cell and two cells are alternately performed, and when measurement of output voltages of all the cells Batt1 to Battn is completed, measurement is started again from the cell Batt1. In this case, if the previous cell Batt1 was measured for one cell, the next measurement object is not the cell Batt2 voltage and the cell Batt3, but the cell Batt1 voltage and the cell Batt2. It is desirable to measure the voltage of 2 cells. This is because in the measurement for two cells, even if one cell voltage is a voltage to be protected, the other cell voltage may not be a voltage to be protected as a measurement for two cells. That is, this is because all the cells Batt1 to Battn are always measured as one cell.

  In addition, depending on the number of cells, when attempting to start measurement from the cell Batt1 again, measurement for two cells may not be performed. In that case, the voltage for one cell of the cell Batt2 may be measured first, and then two cells of the cell Batt1 voltage and the cell Batt2 voltage may be measured.

  According to the embodiment of the present invention, since the disconnection of the voltage measurement line 12 can be detected by measuring the cell voltage, it is not necessary to provide a special step for disconnecting the voltage measurement line 12. In the above description, in the voltage measurement for one cell, the voltage that is determined to be a disconnection is the discharge protection voltage for two cells, but may be a specific voltage that is higher than the charge protection voltage for one cell. In the voltage measurement for two cells, the voltage determined to be a disconnection is the charge protection voltage for one cell, but it can also be a specific voltage smaller than the discharge protection voltage for two cells.

The block diagram of the monitoring protection apparatus of the battery pack concerning embodiment of this invention. Explanatory drawing which shows an example of the protection operation in the case of measurement of the output voltage for 1 cell in embodiment of this invention. Explanatory drawing which shows another example of the protection operation in the case of measurement of the output voltage for 1 cell in embodiment of this invention. Explanatory drawing which shows an example of the protection operation in the case of the measurement of the output voltage for 2 cells in embodiment of this invention. Explanatory drawing which shows another example of the protection operation | movement in the case of the measurement of the output voltage for 2 cells in embodiment of this invention.

Explanation of symbols

DESCRIPTION OF SYMBOLS 11 ... Battery pack, 12 ... Voltage measurement line, 13 ... Measurement part, 14 ... Operational amplifier, 15 ... Protection operation part, 16 ... Alarm output device, 17 ... Display, 18 ... Audio | voice output device

Claims (6)

A measurement unit that alternately measures an output voltage for one cell and an output voltage for two cells by switching a voltage measurement line of a battery pack in which a plurality of cells are connected in series, and one cell measured by the measurement unit When the output voltage for one cell or the output voltage for two cells deviates from a predetermined range, a protection operation unit is provided that performs a protection operation of the battery pack and releases the protection operation when the output voltage returns to the normal range. Battery pack monitoring and protection device. When the voltage in the normal range for one cell is measured by measuring the voltage for two cells, or when the voltage in the normal range for two cells is measured by measuring the voltage for one cell The battery pack monitoring and protection device according to claim 1, wherein it is determined that the voltmeter side line is disconnected. The protection operation unit measures a voltage that is equal to or lower than the charge protection voltage for one cell by measuring voltage for two cells, or measures a voltage that is equal to or higher than the discharge protection voltage for two cells by measuring voltage for one cell. The battery pack monitoring and protection device according to claim 1, wherein if it is determined, the voltage measurement line is determined to be disconnected. 4. The battery pack monitoring protection according to claim 2, wherein the protection operation unit performs both the charge protection operation and the discharge protection operation when it is determined that the voltage measurement line is disconnected. 5. apparatus. 5. The battery pack monitoring and protection device according to claim 4, wherein the protection operation unit prohibits release of the charge protection operation and the discharge protection operation. 6. The battery pack monitoring and protection device according to claim 4 or 5, wherein, when it is determined that the voltage measurement line is disconnected, the protection operation unit outputs an alarm to that effect.

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