KR200404687Y1 - An equipment for restraining the inner resistance of the secondary battery - Google Patents

Abstract

The present invention relates to a device for suppressing the internal resistance of a secondary battery and reducing the increased internal resistance during use, comprising: a constant voltage circuit unit converting a power source of a secondary battery into a driving voltage; PWM generator for changing the pulse width according to the frequency; By applying a PWM pulse signal to configure a DC pulse generator for supplying energy to the secondary battery in accordance with the on / off operation of the switch, there is an effect to increase the charging efficiency of the secondary battery, extend the life and improve the performance.

Description

Secondary battery internal resistance suppression device {An equipment for restraining the inner resistance of the secondary battery}

The present invention relates to a device for improving the performance and life span of a secondary battery by suppressing an increase in the internal resistance of the secondary battery, and in particular, by applying a DC pulse current to the secondary battery to suppress or increase the internal resistance of the secondary battery. A device for improving the performance of a secondary battery by reducing the resistance.

The secondary battery supplies DC power by converting chemical energy into electrical energy. During discharge, the crystallization phenomenon occurs on the electrode plate due to a chemical reaction, thereby increasing the internal resistance, and conversely, during charging, the internal resistance decreases by restoring to the state before discharge.

However, if the charge and discharge is continued for a long time, the internal resistance of the secondary battery continues to increase because the chemical crystallized in the electrode plate is not restored to the initial state at the time of discharge. In this case, the electrode plate is corroded or the secondary battery is eventually discarded due to an increase in internal resistance.

The technical problem to be achieved by the present invention is to suppress the increase in the internal resistance of the secondary battery to provide an increase in the charging efficiency of the secondary battery and to extend the life and to improve the performance.

The present invention is to suppress the internal resistance of the secondary battery, and to reduce the increased internal resistance during use, the device comprising: a constant voltage circuit unit for converting the power source of the secondary battery into a drive voltage; PWM generator for changing the pulse width according to the frequency; DC pulse generating unit for supplying energy to the secondary battery according to the on / off operation of the switch by receiving a PWM pulse signal; providing a device for increasing the charging efficiency and life extension and performance improvement of the secondary battery do.

Hereinafter, the present invention will be described in more detail with reference to the accompanying drawings.

1 is a circuit diagram according to an embodiment of the present invention. Referring to FIG. 1, in the drawing, a DC pulse generator 3 connected to the secondary battery 1, a PWM generator 2 connected to the DC pulse generator, and a constant voltage circuit unit supplying power to the PWM generator It consists of (4).

The constant voltage circuit unit 4 includes a resistor R2 having one end connected to a collector of the transistor Q2, the other end of the resistor R2, and the transistor Q2 to supply a constant DC power supply to the PWM generator 2. Zener diode (D2) connected between the base and the ground of the capacitor and the capacitor (C2) connected between the transistor and the ground of the transistor (Q2), the capacitor (C2) is a filter circuit for removing the noise signal included in the input voltage The zener diode D2 is a circuit for keeping the voltage level constant. Transistor Q2 is also a circuit used to supply a constant voltage even if current is consumed in the next stage of the transistor.

The PWM generator 2 generates a frequency of 10KHz and is programmed to vary the frequency and the pulse width according to the capacity of the secondary battery, and is composed of a microprocessor or a PWM dedicated generation IC. The base of the transistor Q1 of the DC pulse generator 3 is connected.

The DC pulse generator 3 is a transistor Q1, an N-MOS FET device that performs a switching operation in response to a PWM pulse signal of the PWM generator 2, a secondary battery (+) terminal, and an output terminal of the transistor. The DC pulse current is generated by the counter electromotive force of the coil generated by the switching operation of the transistor Q1. The transistor Q1 is an N-MOS FET whose source is grounded, its gate is connected to the PWM pulse signal output of the PWM generator 2, and its drain is connected to the inductor coil L1 and the diode D1. The DC pulse generator 3 has a resistor R1 and a diode D1 connected to a secondary battery (+) terminal, and a drain of the transistor Q1 is connected to a diode D1 and an inductor coil L1. And a capacitor C1 connected between the resistor R1 and the inductor coil L1 and ground. In addition, the gate of the transistor Q1 is connected to the PWM pulse signal output of the PWM generator 2.

In the operation of the DC pulse generator 3, when the PWM pulse signal output of the PWM generator 2 is high, the drain-source of the transistor Q1 is turned on, and current flows through the inductor coil L1. During this period, energy is accumulated in the inductor coil L1, and after the appropriate amount of current is established in the inductor coil L1, the PWM pulse signal output of the PWM generator 2 becomes LOW so that the transistor Q1 is turned off (OFF). ) State.

The energy accumulated in the inductor coil L1 in the state where the transistor is cut off causes a current in the form of a direct current pulse to the secondary battery through the diode D1. In this case, in order to prevent a part of the energy stored in the inductor coil L1 from being returned to the circuit, a resistor R1 is added to the flow so that a constant pulse current flows.

Although described in detail according to the embodiment of the present invention as described above, for example, various changes and modifications are possible within the scope without departing from the technical idea of the present invention, depending on the matter. It is clear that the frequency and pulse width of the PWM generator can be changed in different cases.

As can be seen from the above description, according to the present invention, it is possible to suppress the generation of internal resistance of the secondary battery by flowing a DC pulse current to the positive terminal of the secondary battery, and also to increase the internal resistance due to charge and discharge for a long time. By reducing the effect of increasing the charging efficiency of the secondary battery, extending the life and performance.

1 is a circuit diagram according to an embodiment of the present invention.

Explanation of symbols on main parts of drawing

1: secondary battery 2: PWM generator

3: DC pulse generating unit 4: constant voltage circuit unit

Claims (4)

An internal resistance inhibiting device connectable to a secondary battery; A constant voltage circuit unit converting the power of the secondary battery into a driving voltage; A PWM generator for changing a pulse width according to the frequency; And a DC pulse generator for supplying energy to the secondary battery according to the on / off operation of the switch by receiving the PWM pulse signal. According to claim 1, wherein the constant voltage circuit portion Secondary battery internal resistance suppression device characterized in that the supply of a constant voltage even if the current is consumed in the next stage of the transistor (Q2) by receiving the DC power. The method of claim 1, wherein the PWM generator Generating a frequency of 10KHz by receiving the power supply of the constant voltage circuit unit is programmed to vary the generation frequency and pulse width according to the capacity of the secondary battery, characterized in that consisting of a microprocessor or PWM dedicated generation IC Battery internal resistance suppression device. The method of claim 1, wherein the DC pulse generator A transistor (Q1) for receiving an PWM pulse signal generated by the PWM generator to perform an on / off operation; An inductor coil (L1) for accumulating energy when a current flows when the transistor is in an ON state and emitting accumulated energy when the transistor is in an OFF state; The DC pulse generator 3 has a resistor R1 and a diode D1 connected to a secondary battery (+) terminal, and a drain of the transistor Q1 is connected to a diode D1 and an inductor coil L1. A capacitor C1 connected between the resistor R1 and the inductor coil L1 and ground; And a resistor (R1) for preventing a part of the energy stored in the inductor coil (L1) from being returned to the circuit.