JPH062947U - Discharge device in storage battery driven equipment - Google Patents

Abstract

(57) [Summary] [Purpose] To facilitate the recovery of the performance of a storage battery when a memory effect occurs in the built-in storage battery of the storage battery drive device. [Structure] A / D of the power supply voltage value of the storage battery drive power supply circuit 1
Input to the CPU 7 via the converter 6. When the detected voltage drops below the discharge end voltage set in the memory 9, the CPU 7 turns off the power supply control circuit 4 to cut off the power supply. The power cutoff voltage level of the CPU 7 can be selected by operating the keyboard 8. When the low discharge end voltage for deep depth discharge is selected, the CPU 7 turns on the power supply control circuit 4 and the discharge circuit 10 to cause the storage battery 3 to deep discharge to the selected discharge end voltage. This discharge eliminates the memory effect of the storage battery 3 and restores the discharge performance.

Description

[Detailed description of the device]

[0001]

[Industrial applications]

 The present invention relates to a discharge device in a storage battery drive device, and more particularly to a discharge device for eliminating the deterioration of the function of a storage battery.

[0002]

[Prior art]

 A storage battery such as a nickel-cadmium battery has a memory effect when the discharge and charging at a shallow depth of discharge are repeated, and the normal discharge characteristic shown by the solid line in Fig. 6 shows that the voltage has two levels as shown by the chain line. The discharge characteristics change. When the end-of-discharge voltage of the storage battery driving device is set to, for example, 1.2 V, the apparent battery capacity decreases when the memory effect occurs, and the time until the end of discharge is shortened.

For example, when a pattern of charging a storage battery by using an electronic device that can be used for one hour with full charge for 20 minutes is repeated, a memory effect occurs in the storage battery, and the usable time after full charge is several tens of percent. May be shortened. This memory effect can be eliminated by completely discharging the storage battery having the memory effect once or several times.

[0004]

[Problems to be solved by the device]

 The function of the storage battery with the memory effect can be restored by performing deep discharge, but some built-in storage batteries cannot be removed, for example, in portable word processors and laptop computers. In order to prevent malfunction of the storage battery built-in device, the control unit interrupts the operation and performs power-off processing when the storage battery voltage drops to the set discharge end voltage. Therefore, the built-in storage battery cannot be deeply discharged below the set discharge end voltage, and if charging and discharging are repeated as the device is used, a memory effect occurs, and the continuous usable time is shortened. This leads to a decrease in efficiency.

Therefore, an object of the present invention is to provide a memory effect eliminating means for a storage battery to eliminate the possibility that the function of the storage battery driving device is lowered and the work efficiency is lowered.

[0006]

[Means for Solving the Problems]

 This invention is proposed in order to achieve the above-mentioned object, and controls voltage on / off of a power supply control circuit according to a voltage comparison means for comparing a preset discharge end voltage with the voltage of a storage battery and the comparison result. In a storage battery drive device equipped with a control means for setting the discharge end voltage during normal operation and the discharge end voltage for deep depth discharge in the voltage comparison means, the two discharge end voltages are alternatively selected. When the discharge end voltage for the deep discharge is selected and the power supply voltage is equal to or higher than the discharge cutoff voltage, the control means turns on the discharge means. The present invention provides a discharge device in a storage battery driven device configured as described above.

[0007]

[Action]

 The voltage of the storage battery is compared with the end-of-discharge voltage by the voltage comparison means, and when the voltage reaches the end-of-discharge voltage, the control means cuts off the power supply from the storage battery. The discharge end voltage is set to two levels, high and low. During normal operation, a high discharge end voltage is selected to prevent malfunction of the system.

When a low discharge end voltage is selected by a designation means such as a keyboard, the control means turns on the discharge circuit and the power supply control circuit to discharge until the voltage of the storage battery reaches the low discharge end voltage. If the storage battery has a memory effect, this deep discharge can eliminate the memory effect and restore the usable time of the storage battery.

[0009]

【Example】

 An embodiment of the present invention will be described below with reference to the drawings. FIG. 1 shows a power supply circuit 1 such as a word processor. An AC-DC adapter (not shown) connected to a DC power supply jack 2 or a built-in nickel-cadmium storage battery 3 (hereinafter simply referred to as a storage battery) is a power supply control circuit. Power is supplied to the main power supply line 5 via 4. When the AC-DC adapter is not connected, the power of the storage battery 3 is the diode D.₂Through the main power line 5. When the AC-DC adapter is connected to the DC power supply jack 2, the external power supply from the AC-DC adapter is supplied to the main power supply line 5, and the break contact 2a of the DC power supply jack 2 opens to allow the diode D to be discharged from the storage battery 3.₂The circuit to the main power supply line 5 via the ₁ And diode D₁A charging current is supplied to the storage battery 3 via the.

The voltage of the main power supply line 5 is A / D converted by an A / D converter 6 as a voltage detecting means, and the digital conversion value is input to the CPU 7. The CPU 7 switches the reference voltage to be applied to the integrator of the A / D converter 6 in two stages in accordance with the discharge end voltage designation command input by the keyboard 8 as the discharge end voltage selection means, and sets the storage battery voltage in two levels. Can be detected with. Then, the reference voltage stored in the memory 9 is compared with the detection voltage, and when the detection voltage falls below the reference voltage, the power supply control circuit 4 is turned off to cut off the power supply to the main power supply line 5. .

When a low end-of-discharge voltage for deep depth discharge is specified and the storage battery voltage is equal to or higher than the selected end-of-discharge voltage, the discharge circuit 10 is turned on until the storage battery voltage drops below the end-of-discharge voltage. The main power line 5 is discharged to the ground 11. Here, for example, assuming that a storage battery having a rated voltage of 9.6 V is used and the discharge end voltages are set to 8.8 V (V _CO1 ) and 6.4 V (V _CO2 ) as shown in FIG. In the case of normal input operations such as document creation and printing, a high discharge end voltage is set. When 8V (V _CO1 ) is selected and the storage battery voltage V drops to 8.8 V (V _CO1 ) or less, the CPU 7 executes power-off processing to turn off the power control circuit 4 to prevent malfunction of the CPU 7 and the like. . When the power is automatically cut off, if the user connects the AC-DC adapter to the DC power supply jack 2 and charges it for a predetermined time, the voltage and capacity of the storage battery 3 are restored and the device is a storage battery. It becomes possible to drive.

On the other hand, when the number of times of charging reaches a large number and it can be determined that the usable time after full charge is shortened and the memory effect is generated, a discharge command is input from the keyboard 8 to the CPU 7 by a specific input operation. , The CPU 7 controls the conversion level of the A / D converter 6 so that the detected voltage value of the A / D converter 6 matches the reference voltage of the memory 9 when the storage battery voltage is 6.4 V (V _CO2 ). ing. When the storage battery voltage is 6.4 V or higher, the power supply control circuit 4 and the discharge circuit 10 are turned on to discharge the storage battery 3. The discharging is performed by a discharging circuit 10 using a resistor or a means for supplying a hold current to a stepping motor. When a discharge command is input, commands such as document input are suspended by the interrupt mask.

When the storage battery voltage drops below the discharge end voltage of 6.4 V (V _CO2 ), the CPU 7 turns off the power supply control circuit 4 and the discharge circuit 10 according to the detection value of the A / D converter 6. This deep discharge eliminates the memory effect of the storage battery 3, restores the discharge characteristics shown by the solid line in FIG. 2, and restores the usable time after full charge.

The voltage detecting means and the voltage comparing means of the storage battery may use a comparator as shown in FIGS. 3 to 5 in addition to the method using the A / D converter 6 and the CPU 7 of the above-described embodiment. Good. In the circuit shown in FIG. 3, the switching circuit 12 controlled by the CPU 7 switches the voltage dividing resistor 13 of the main power supply line 5 to switch the comparison input voltage to the comparator 14 between high and low stages.

Further, FIG. 4 shows that the voltage control circuit 15 controlled by the CPU 7 switches the reference voltage of the comparator 16, and FIG. 5 shows that comparators having different reference voltages are set. Two CPUs 17 and 18 are used, and the CPU 7 selectively selects them via the selector 19. Thus, the present invention can be modified in various ways without departing from the spirit of the invention, and it goes without saying that the invention covers those modifications.

[0016]

[Effect of device]

 The present invention is configured as described in detail in the above-mentioned one embodiment. Therefore, when the discharge end voltage for deep depth discharge is selected by a designating means such as a keyboard or a switch, the voltage of the internal storage battery is the selected discharge end voltage. It is discharged until it drops to. Therefore, when a certain discharge end voltage is reached, the discharge device of the present invention is provided in a device with a built-in storage battery that is configured to shut off the power supply, thereby performing deep discharge and eliminating the memory effect of the storage battery. This is a device with practical value that enables the recovery of battery functions easily.

[Brief description of drawings]

FIG. 1 is a block diagram of a power supply circuit provided with a discharge device of the present invention.

FIG. 2 is a discharge characteristic diagram of a storage battery showing a discharge end voltage set in the discharge device of the present invention.

FIG. 3 is an explanatory view showing another embodiment of the voltage comparison means.

FIG. 4 is an explanatory view showing another embodiment of the voltage comparison means.

FIG. 5 is an explanatory view showing another embodiment of the voltage comparison means.

FIG. 6 is a discharge characteristic diagram illustrating a memory effect of a storage battery.

[Explanation of symbols]

 1 Power Supply Circuit 3 Storage Battery 4 Power Supply Control Circuit 5 Main Power Supply Line 6 A / D Converter 7 CPU 8 Keyboard 9 Memory 10 Discharge Circuit

Claims (1)

[Scope of utility model registration request] 1. A storage battery driving device comprising: a voltage comparison means for comparing a preset discharge end voltage with a storage battery voltage; and a control means for controlling ON / OFF of a power supply control circuit according to the comparison result. A designating unit that sets a discharge end voltage during normal operation and a discharge end voltage for deep depth discharge in the voltage comparison unit, and selectively selects the two discharge end voltages.
A storage battery driving device provided with a discharging means for a power supply current, wherein the control means turns on the discharging means when the discharge end voltage for deep discharge is selected and the power supply voltage is equal to or higher than the discharge end voltage. Discharge device.