JP4709497B2 - Power backup device - Google Patents

Description

  The present invention relates to a power backup device that performs power backup of an electronic device or the like, and more particularly to a power backup device that can set the number of cells of a battery to an optimum value.

  In recent computer systems, a power backup device for performing power backup of an electronic device in preparation for a power failure is used. The backup system according to this prior art will be described with reference to FIG. 3. First, an electronic device 10 to be backed up is a power supply unit 11 including an AC / DC converter 12 and a DC / DC converter 13 of the electronic device 10, and When the power supply unit 11 includes the load unit 14 to which power is supplied, the power backup unit 20 is connected between the AC / DC converter 12 and the DC / DC converter 13 of the electronic device 10, and the AC / DC The AC / DC output voltage output from the converter 12 is used as the input voltage of the power backup device, and the battery 28 such as a nickel metal hydride battery is charged using the power, and the battery 28 is charged with a predetermined constant current. The circuit 21 and the DC / DC converter for charging the battery 28 and charging the battery 28 during a power failure 3 and a control circuit 23 for controlling the switch 22, and when the power supply from the charging circuit 21 to the control circuit 23 is stopped by a wiring (not shown), the control circuit 23 is turned off. It is configured that the switch 22 is switched to discharge when it is determined that the failure has occurred. The battery 28 is constituted by connecting a plurality of single-unit cells called cells.

  The charging circuit 21 detects a current value of a current output from the constant current driving circuit 24 and a constant current driving circuit 24 for keeping the AC / DC output voltage input via the diode D1 at a constant current. The current detection circuit 26 includes a current detection circuit 26 and a constant current control circuit 25 that feeds back a current value detected by the current detection circuit 26 and controls the output of the constant current drive circuit 24 to be constant.

The following Patent Document 1 is cited as a document describing a technique related to the power backup device.
JP 2003-309937 A JP 2003-309936 A JP 2003-309933 A

  The power backup device 20 according to the above-described prior art is a non-insulated type such as a chopper method or a dropper method, and the charging circuit 21 performs constant current charging of the battery 28 by feeding back current to the control circuit 23. This charging circuit 21 takes into account the voltage drop due to internal circuit elements and the like, in order to perform constant current control with high accuracy in the range from the lower limit value to the upper limit value of the voltage range of the battery 28, the AC / DC output voltage However, the maximum voltage value of the battery 28 has to be set low.

  To explain this, as shown in FIG. 4, the upper limit value of the battery voltage range must be set lower than the lower limit value of the AC / DC output voltage range within the upper and lower limit values of the DC / DC input voltage. For this reason, the power backup device 20 according to the prior art has a problem in that it is difficult to assemble an optimum configuration because it restricts the configuration of the battery cells constituting the battery.

  In other words, the power backup device according to the prior art is restricted by the upper limit of the voltage range of the battery, so that the maximum number of batteries in series is restricted, and the number of required battery cells is increased. There was a problem that it was difficult to construct a battery.

This will be specifically described. First, (1) battery conditions are set such that the minimum voltage V _BATmin per cell is 1.0 V, the maximum voltage V _BATmax per cell is 1.6 V, and the capacity C _BAT per cell is 1 _Ah. 2) As the DC / DC input voltage condition, the DC / DC input voltage upper limit value V _DCmax is set to 60V, and the DC / DC input voltage lower limit value V _DCmin is set to 30V. (3) The AC / DC output voltage condition is set to AC / DC It is assumed that the DC output voltage lower limit value V _ACmin is set as 49.6 V, and (4) the required capacity C _drv of the electronic device 10 is set as 35 Ah as a required condition of the electronic device 10.

In the case of the above conditions, the minimum series number of batteries to satisfy the DC / DC input voltage lower limit value is (V _DCmax ) / (V _BATmin ) = _30/1 = 30, which satisfies the AC / DC output voltage lower limit value. The maximum number of series of batteries to achieve (V _ACmin ) / (V _BATmax ) = 49.6 / 1.6 = 31, and the necessary series number for satisfying the capacity required by the electronic device 10 is (C _drv ) / ( _CBAT ) = _35/1 = 35.

As described above, the capacity required by the electronic device 10 cannot be satisfied depending on the series connection of all the battery cells. For this reason, in order to satisfy the voltage range, a minimum number of 30 cells in series must be connected in parallel. The required parallel number for satisfying the required capacity of the electronic device by the parallel connection of the cells is (C _drv ) / [(C _BAT ) × 30] = 35 / [(1 × 30)] = 1 .17 columns. Since this parallel number requires an integer, the battery configuration actually assembled requires 30 cells connected in series, and this cell group must be connected in two rows in parallel, so the number of battery cells used is 60 cells. As a result, excessive battery cells are required, and it is difficult to construct a battery with an optimal number of cells.

  An object of the present invention is to eliminate the inconveniences caused by the above-described prior art, and to provide a power backup device capable of setting an optimum number of battery cells.

The present invention provides a power back-up system to back up power source for electronic equipment, the charging circuit for charging the battery using the input voltage of the power backup device, for boosting an input voltage of the backup power supply to a predetermined voltage A booster circuit; a constant current drive circuit that converts the voltage output from the booster circuit into a constant current and outputs the current; a current detection circuit that detects a current value of the current output from the constant current drive circuit; and the current And a constant current control circuit that controls the output current of the constant current drive circuit to be a constant value based on the current value detected by the detection circuit. circuit boosts the input voltage of the power backup unit to a voltage higher than the input voltage to output to the constant current driving circuit, constant current drive circuit from said input voltage To carry out constant-current charging to the battery from the boosted predetermined voltage to the second feature.

  The power backup device according to the present invention can set the number of battery cells to an optimum value by boosting the input voltage of the power backup device.

  Hereinafter, a power backup apparatus according to an embodiment of the present invention will be described in detail with reference to the drawings. FIG. 1 is a diagram for explaining the power backup device according to the present embodiment, and FIG. 2 is a diagram showing the relationship between the voltages of the power backup device according to the present embodiment.

  As shown in FIG. 1, the power backup apparatus 20 according to the present embodiment is first connected between the AC / DC converter 12 and the DC / DC converter 13 of the electronic device 10 that is the power backup target, and outputs from the AC / DC converter 12. The charging circuit 21 that inputs a part of the AC / DC output voltage to be charged to the battery 28 with a predetermined constant current, and the power charged in the battery 28 at the time of charging the battery 28 or during a power failure, etc. When the power supply from the charging circuit 21 to the control circuit 23 is stopped, the control circuit 23 switches the switch 22 to the DC / DC converter 13 and the control circuit 23 that controls the switch 22. It is configured to switch from charging to discharging via the diode D2.

  In particular, the charging circuit 21 according to the present embodiment boosts the AC / DC output voltage input via the diode D1 to a predetermined voltage value, and keeps the voltage boosted by the boosting circuit 30 at a constant current. A constant current drive circuit 24 for detecting the current value of the current output from the constant current drive circuit 24, and a constant current drive circuit for feeding back the current value detected by the current detection circuit 26. And a constant current control circuit 25 for controlling the output of 24 to be constant.

  The booster circuit 30 according to the present embodiment is controlled by the chopper method, and as shown in FIG. 2, by boosting the AC / DC output voltage output from the AC / DC converter 12, the upper limit voltage value of the battery voltage range is increased. The step-up operation is performed so that constant current charging can be performed without depending on the lower limit value of the AC / DC output voltage range.

  In the power backup device 20 according to the present embodiment, the booster circuit 30 outputs the output voltage from the AC / DC converter 12 and sets the upper limit voltage value of the battery voltage range to the upper limit value and lower limit value of the AC / DC output voltage range. By boosting the voltage to an intermediate value, an optimal battery cell configuration can be performed without being influenced by the output voltage of the AC / DC converter 12.

Specifically, under the conditions described with reference to FIG. 4, the minimum number of batteries in order to satisfy the DC / DC input voltage lower limit value is (V _DCmax ) / (V _BATmin ) = _30/1 = 30, and the maximum series number of batteries to satisfy the DC / DC input voltage upper limit value is (V _ACmin ) / (V _BATmax ) = 60 / 1.6 = 37.5, The number of series connections can be set to 30-37. Therefore, the necessary series number for satisfying the capacity required by the electronic device 10 described above can be set to (C _drv ) / (C _BAT ) = _35/1 = 35. That is, the number of cells required in the prior art can be reduced to 35 cells.

  As described above, the power backup device 20 according to the present embodiment can set the number of battery cells to an optimum value by boosting the output voltage of the AC / DC converter 12 supplied from the electronic device.

  In the above-described embodiment, an example in which the output voltage of the AC / DC converter 12 of the power supply unit 11 used in the electronic device 10 is boosted using the input voltage of the power backup device has been described. The present invention is not limited to the embodiment, and the present invention can be applied to, for example, a DC / DC converter that supplies the input voltage of the power backup device.

The figure for demonstrating the power backup apparatus by one Embodiment of this invention. The figure which shows the relationship of each voltage of the power backup device by this embodiment. The figure for demonstrating the power backup device by a prior art. The figure which shows the relationship of each voltage of the power backup device by a prior art.

Explanation of symbols

DESCRIPTION OF SYMBOLS 10: Electronic device, 11: Power supply part, 12: AC / DC converter, 13: DC / DC converter, 14: Load part, 20: Power supply backup device, 21: Charging circuit, 22: Switch, 23: Control circuit, 24 : Constant current drive circuit, 25: constant current control circuit, 26: current detection circuit, 28: battery, 30: boosting circuit.

Claims (1)

In a power backup device having a plurality of battery cells for backing up the power of the electronic device and a charging circuit for performing constant current charging of the plurality of battery cells
The charging circuit includes a booster circuit Ru increases the input voltage to a voltage of a predetermined value,
A constant current driving circuit that converts the output current from the booster circuit into a constant current and outputs the constant current; and
A current detection circuit for detecting a current outputted from the constant current driving circuit,
Is configured to output current of the constant current driving circuit based on the detected current by said current detecting circuit from the constant current control circuit for controlling to a constant value,
A power backup apparatus , wherein the number of cells of the plurality of battery cells can be configured to an optimum value with a value (quotient) obtained by dividing the voltage of the predetermined value by the maximum voltage per battery cell as an upper limit .

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