KR100539881B1 - Battery discharge state monitoring circuit - Google Patents

Abstract

The present invention relates to a battery discharge state monitoring circuit for accurately detecting a battery voltage and current to check a battery's remaining life.

The present invention is provided in a predetermined system that receives an AC power to solve a problem that it is difficult to determine the exact state of the battery only by measuring the voltage when the voltage is almost normal and the current capacity is insufficient due to the characteristics of the battery. A circuit for monitoring a discharge state of a battery supplying power so that a part of the system can be normally performed, wherein the voltage state of the battery is periodically detected to display or replace an alarm so as to replace the battery. With the controller. A load circuit for dividing the voltage of the battery by driving the load with an amount of load current supplied by the battery during a power failure so as to accurately detect a discharge state in which the current capacity of the battery is insufficient by a periodic load signal of the controller; A battery voltage detector for dividing the voltage of the battery and outputting the divided voltage when the load circuit drives the load; and comparing the voltage output from the battery voltage detector with a reference voltage Vref to output a discharge state detection signal of the battery to the controller; It consists of a comparator.

Description

Battery discharge state monitoring circuit

The present invention relates to a discharge state monitoring circuit of a battery, and more particularly to a battery discharge state monitoring circuit for detecting the remaining life of the battery by accurately detecting the voltage and current of the battery.

Typically, a battery is used for backup so that AC functions can be normally performed in a state where AC power is not applied due to a power failure. However, these batteries have a limited lifespan, and if the discharge capacity is exceeded, the backup power supply cannot be supplied. Therefore, the battery is periodically checked and the user is notified of the replacement time so that the battery can be replaced.

The circuit for checking a conventional battery compares the voltage of the battery with the voltage divided by the resistors R1 and R2 and the reference voltage Vref by the zener diode ZD1 at the comparator OP1 as shown in FIG. At this time, if the state is higher than the reference voltage Vref, the CPU judges normally. If the state is lower than the reference voltage Vref, the CPU determines that the battery is in an unusable discharge state and displays a warning or an alarm to replace the battery.

However, such a battery state monitoring circuit, since the voltage is almost normal even if the melt is insufficient due to the characteristics of the battery, it is difficult to determine the exact state of the battery only by measuring the voltage.

Accordingly, an object of the present invention to provide a battery discharge state monitoring circuit that can accurately detect the discharge state of the battery by measuring the voltage and current of the battery.

Another object of the present invention is to provide a battery discharge state monitoring circuit that can detect a discharge state in which the capacity of the battery is insufficient in a normal voltage state.

The present invention for achieving the above object is provided in a predetermined system receiving an AC power, in a circuit for monitoring the discharge state of the battery for supplying power to perform a normal function of the system during the power failure, And a control unit which periodically detects a voltage state of the battery and displays the battery for replacement or sounds an alarm. A load circuit for dividing the voltage of the battery by driving the load with an amount of load current supplied by the battery during a power failure so as to accurately detect a discharge state in which the current capacity of the battery is insufficient by a periodic load signal of the controller; A battery voltage detector for dividing the voltage of the battery and outputting the divided voltage when the load circuit drives the load; and comparing the voltage output from the battery voltage detector with a reference voltage Vref to output a discharge state detection signal of the battery to the controller; Characterized in that it consists of a comparison unit.

2 is a battery state monitoring circuit diagram according to an embodiment of the present invention.

The CPU 10 periodically detects the voltage state of the battery bat and displays a battery bat or replaces an alarm. The load circuit 20 is configured such that the resistor R4 is connected to the battery Bat and is connected to the collector of the transistor, is connected to the control port of the CPU 10 at the base of the transistor Q1, and the emitter of the transistor Q1 is grounded so that the periodic The voltage of the battery bat is divided by the load signal so as to accurately detect a discharge state in which the battery bat has insufficient current capacity. The battery voltage detector 30 is connected to the resistor R3 by a resistor R2 connected to the battery bat, and the resistor R3 is grounded to divide and output the voltage of the battery bat. The comparator 40 is connected to the resistor R1 of the power supply terminal Vcc and connected to the cathode of the zener diode ZD1 to output the reference voltage Vref to one terminal of the comparator OP1, and the comparator OP1 outputs the voltage and the reference voltage Vref output from the battery voltage detector 30. Compare and output discharge signal of battery bat.

The operation of the preferred embodiment of the present invention will be described in detail with reference to FIG. 2 described above.

While the system is operating normally under AC power, the CPU 10 periodically checks the status of the battery bat. To do this, the CPU 10 periodically outputs a high pulse to turn on transistor Q1. When the transistor Q1 is turned on, the voltage divided by the resistors R2 to R3 is applied to one terminal of the comparator OP1 to output the voltage sensing signal of the battery Bat to the CPU 10 in comparison with the reference voltage of the zener diode ZD1. At this time, the CPU 10 receives the voltage detection signal and accurately detects the discharge state of the battery bat. The output voltage of the battery bat is significantly lower than the no-load voltage because the current capacity is insufficient when the discharge is in progress. The state can be detected accurately. When the transistor Q1 is periodically turned on, the battery bat is discharged. Therefore, if the cycle for measuring the voltage of the battery bat is too short, the life span is not shortened. Therefore, it is desirable to have a proper cycle that does not affect the life span. In addition, in the load circuit 20, when the CPU 10 outputs a high pulse signal, it is preferable to determine the load resistance R4 such that the load of the load current supplied by the battery Bat when the system is out of power.

As described above, the present invention periodically checks the current capacity of the battery by driving the load with the amount of load current supplied by the battery, so as to accurately detect the state of the battery without losing time to replace the battery due to the virtual voltage. This has the effect of allowing the battery to be replaced.

In addition, the present invention accurately detects the state of the battery so that the battery can be replaced at an appropriate time, there is an advantage that can prevent the loss of valuable data to be stored through the battery.

1 is a conventional battery state monitoring circuit diagram

2 is a battery state monitoring circuit according to an embodiment of the present invention

Claims (3)

In a circuit that is provided in a predetermined system receiving AC power, and monitoring the discharge state of the battery for supplying power so that it can perform some functions of the system normally in case of power failure, A control unit which periodically detects the voltage state of the battery and displays the battery so that the battery can be replaced or sounds an alarm. A load circuit for dividing the voltage of the battery by driving the load with an amount of load current supplied by the battery during a power failure so as to accurately detect a discharge state in which the current capacity of the battery is insufficient by a periodic load signal of the controller; A battery voltage detector for dividing and outputting a voltage of the battery when the load circuit drives a load; And a comparator for comparing the voltage output from the battery voltage detector with a reference voltage Vref to output a discharge state detection signal of the battery to the controller. The method of claim 1, wherein the load circuit, A battery discharge state monitoring circuit is configured such that a resistor R4 is connected to the battery, is connected to a collector of transistor Q1, is connected to a control port of CPU 10 at a base of the transistor Q1, and the emitter of the transistor Q1 is grounded. . The method of claim 2, wherein the battery voltage detector, Resistor R2 is connected to the battery and is connected to one end of resistor R3, the other end of resistor R3 is grounded, and a connection node of resistors R2 and R3 is connected to one terminal of the comparator.

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