KR101897522B1 - Internal Resistance Measuring Device - Google Patents

Abstract

The present invention relates to a device for measuring internal resistance of a battery, and more particularly, to a device for measuring internal resistance of a battery for a mobile phone, which can improve the reliability and accuracy of a test by eliminating inaccuracies caused by resistance of a pin block or a circuit board .

Description

[0001] Internal Resistance Measuring Device [

The present invention relates to an apparatus for measuring internal resistance of a battery, and more particularly, to a battery internal resistance measuring apparatus capable of improving the reliability and accuracy of a test by eliminating inaccuracies caused by resistance of a pin block or a circuit board (PCB or FPCB) And an internal resistance measuring apparatus.

As cell phones become more versatile, battery capacity is also increasing, and accuracy and reliability in performance testing of battery capacity is also becoming important.

To accurately understand the battery status, it is necessary to measure the battery capacity and the internal resistance value, and the capacity and condition of the battery can be checked by measuring the internal resistance value of the battery.

When the internal resistance value becomes large, battery capacity decrease occurs. Therefore, since the state of the battery can be checked by measuring the internal resistance value of the battery, the internal resistance measurement test is used when the battery is inspected.

FIG. 1 (a) is a block diagram schematically showing an apparatus for measuring internal resistance of a battery in the form of a conventional pin block, and FIG. 1 (b) is an internal circuit diagram thereof.

Referring to FIG. 1A, a conventional pin block type battery internal resistance measuring apparatus includes a pin block 20 on which a tab 110 of a battery cell 10 to be inspected is mounted, and a connector 210 And an internal resistance measuring unit 30 that is electrically coupled to the battery 30 and measures the internal resistance of the mounted battery.

1B, a conventional pin-block type battery internal resistance measuring apparatus is configured such that a tab 110 of a battery cell 10 is connected to an internal resistance measuring unit through a connector 210 of a pin block 20, When electrically connected, the constant current source and the voltmeter commonly form a common loop connected to the battery, and the internal resistance is measured by taking two terminals of the common loop.

Here, the internal resistance R _b of the battery is calculated by E = IR _b in accordance with Ohm's law, and in principle, the measurement resistance R _B should be equal to the internal resistance R _b .

However, in the actual calculation, by means of a pin block resistance (R1, R2) generated in the pin block as 2, E = I and the (R1 + R2 + R _b), measuring the resistance (RB) is the internal resistance of the battery (Rb And the pin resistances R1 and R2. Therefore, the electromotive force E of the battery decreases, and the internal resistance R _b is calculated to be larger than the actual value, and the battery capacity can not be calculated.

Therefore, the pin resistances R1 and R2 in the pin block and the internal resistance value of the battery are greatly influenced, and the accuracy and reliability of the internal resistance measurement of the battery are deteriorated.

It is an object of the present invention to provide a device for measuring internal resistance of a battery for a mobile phone which can improve the reliability and accuracy of a test by eliminating inaccuracies due to the influence of resistance generated in a pin block have.

In order to achieve the above object, an apparatus for measuring internal resistance of a battery for a mobile phone according to the present invention includes an internal resistance measuring device including a connecting connector to which a battery is mounted and an internal resistance measuring unit electrically connected to the connecting connector, The connector electrically connecting the four terminals of the battery tab to be fastened and the internal resistance measuring unit; The internal resistance measuring unit may include a first loop electrically connected to the four terminals and connected to the battery from a constant current source and a second loop branched from the first loop and connected to the battery from the voltmeter .

The connecting connector is composed of a pin block or a circuit board; And the pin block includes a connector for electrically connecting the four terminals of the battery tab to be coupled with the internal resistance measuring unit.

Wherein the pin block includes a tab accommodating portion including a tab having four terminals to which an input / output terminal of a battery to be tested is electrically connected, and a connector for electrically connecting the four terminals to the internal resistance measuring unit; And an elastic pressing portion for elastically pressing and electrically connecting the tab accommodating portion.

The internal resistance measuring unit is connected to the first input / output terminals A and B, which are the input and output terminals of the battery, and the second input / output terminals C and D, which are the input and output terminals of the battery, B) The internal resistance of the battery is measured through the voltage value of D.

As described above, the internal resistance measuring apparatus according to the present invention has an excellent effect of improving the reliability and accuracy of the test by eliminating the inaccuracy due to the influence of the resistance generated in the pin block.

FIG. 1 (a) is a block diagram schematically showing an apparatus for measuring internal resistance of a battery in the form of a conventional pin block, and FIG. 1 (b) is an internal circuit diagram thereof.
2 schematically shows a circuit diagram in which a pin block resistance of a conventional pin block type battery internal resistance measuring apparatus is considered.
3 is a circuit diagram schematically showing an internal resistance measuring unit of an internal battery resistance measuring apparatus according to a preferred embodiment of the present invention,
Fig. 4 schematically shows a circuit diagram considering the pin block resistance according to Fig.
5 is a graph showing changes in internal resistance values according to Table 1.

Hereinafter, specific embodiments of the present invention will be described in detail with reference to the drawings.

FIG. 3 is a circuit diagram schematically showing an internal resistance measuring unit of an internal resistance measuring apparatus for a battery according to a preferred embodiment of the present invention, and FIG. 4 is a circuit diagram schematically showing a PIN block resistance according to FIG. will be.

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3, an apparatus for measuring internal resistance of a battery according to the present invention includes an internal resistor (not shown) electrically connected through a pin block 20 on which a tab 110 of a battery cell 10 is mounted and a connector 211 of the pin block, The internal resistance measuring apparatus according to claim 1, wherein the pin block (20) comprises a connector (211) electrically connected to four terminals connected by a battery to be fastened, and the internal resistance measuring unit 30 are electrically connected to the four terminals; A first loop connected to the battery from a constant current source and a second loop branched from the first loop and connected to the battery from the voltmeter.

That is, in the case of a loop connected between the constant current source and the battery, resistance interference due to the pin block is large, so that a loop is branched from the loop and connected between the voltmeter and the battery to minimize resistance interference by the pin block. do.

The four terminals are connected to the first and second input / output terminals A and B, which are the input and output terminals of the battery, and the second input / output terminals C and D, which are the input and output terminals of the battery, D).

The pin block 20 includes a tab receiving portion 210 for receiving a tab electrically connected to an input / output terminal of a battery requiring testing, and an elastic pressing portion 220 for elastically pressing and electrically connecting the tab accommodating portion. .

The tap accommodating portion 210 includes a connector 211 electrically connected to the internal resistance measuring unit and having four terminals connected to the battery.

When the tab 110 of the battery cell is mounted on the tab receiving part 210, the elastic pressing part 220 presses the tab 110 so that the four terminals can be measured through the connector 211 Unit 30 to be electrically connected to each other.

Since the pin block 20 is electrically connected using elastic force, the resistance generated in the pin block is very large, which may affect the accuracy of measurement of the internal resistance of the battery.

Therefore, when a loop is formed so that the constant current source and the voltmeter are connected in common with the two-terminal connection of the pin block as shown in FIG. 1 (B), the resistance in the pin block adversely affects the internal resistance measurement of the battery.

The present invention forms two loops including a loop in which four terminals are electrically connected to the measurement circuit unit and connected between the constant current source and the battery and a loop branched from the loop and connected between the voltmeter and the battery, .

The four terminals include a first input / output terminal (A, B) connected to a battery input / output terminal connected to the constant current source and a battery to form a first loop, and a voltmeter and a battery are connected to form a second loop And a second input / output terminal (C, D) connected to the battery input / output terminal.

The loop that greatly affects the pin block resistance of the first loop and the second loop according to the present invention is the first loop and the resistance of the second loop is negligibly small as compared with the resistance of the first loop.

More specifically, the first loop is a loop connected between a constant current source and a battery, and the constant current source is a power supply that supplies a constant current to the load. If the load resistance changes, the resistance at both ends of the load also changes Since the amount of the current flowing through the resistors R1 and R2 in the first loop is large, the resistance generated in the contact by the pin block is directly reflected in the resistance of the pin block, so that the resistances R1 and R2 of the first loop Because of its large size, it has a large effect on the measurement resistance (RB) of the battery, and the accuracy of the voltage across the battery is degraded.

However, since the second loop is a loop connected between the voltmeter and the battery and the amount of the current flowing through the resistors Rs1 and Rs2 of the second loop is very small as compared with the current flowing through the internal resistance Rb of the battery, It is possible to accurately measure the voltage across the battery without being affected by the resistance of the loop (R1, R2).

More specifically, the current flowing in R1 is equal to the sum of the current flowing in the battery internal resistance Rb and the current flowing in the resistor Rs1 of the second loop, and most of the current supplied by the constant current source flows through the battery internal resistor Rb, The current flowing through the resistor Rs1 of the second loop is very small, so that the voltage measured at both ends of the voltmeter of the second loop can be measured very accurately and the internal resistance Rb of the battery can be accurately measured.

Table 1 below is a table showing the relationship between the resistance values of the three pin blocks # 1 to # 3 measured by the conventional two-terminal internal resistance measuring apparatus and the four-terminal internal resistance measuring apparatus according to the present invention, FIG. 4 is a graph showing changes in the internal resistance value according to Table 1. FIG.

As can be seen from Table 1 and FIG. 4, in the case of the conventional 2-terminal internal resistance measuring device, the internal resistance of the battery is very large and the deviation (100 to 214 mm?) Is large, .

However, in the case of the 4-terminal internal resistance measuring device according to the present invention, not only the internal resistance of the battery is small, but also the deviation (57.6 to 57.84 mm?) Is very small, and the accuracy and reliability of the internal resistance measurement are remarkably improved have.

The above embodiment relates to a structure in which a pin block is used as a connection connector and the battery and the internal resistance measurement unit are electrically connected by the pin block. However, the connection connector may be replaced with a circuit board (PCB, FPCB) So that the battery and the internal resistance measuring unit can be electrically connected.

While the present invention has been described in connection with what is presently considered to be practical exemplary embodiments, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention.

10: battery cell 20: pin block
30: Internal resistance measuring unit

Claims (4)

1. An internal resistance measuring apparatus comprising a pin block on which a battery is mounted and an internal resistance measuring unit electrically connected to the pin block,
The pin block electrically connecting the four terminals of the battery tab to be coupled with the internal resistance measuring unit;
The internal resistance measuring unit is formed of a first loop electrically connected to the four terminals and connected to the battery from a constant current source and a second loop branched from the first loop and connected to the battery from the voltmeter ;
The first loop is a loop connected between a constant current source and a battery. The resistance of the pin block reflects the voltage of both ends of the battery. However, the second loop is a loop connected between the voltmeter and the battery. And the amount of current flowing through the resistors Rs1 and Rs2 of the second loop is very small compared to the current flowing through the internal resistance Rb of the battery so that it is not affected by the resistances R1 and R2 of the first loop Using the point that the voltage across the battery can be accurately measured;
The internal resistance measuring unit
The voltage values of the first and second input / output terminals A and B and the second input / output terminals C and D, which are the input and output terminals of the battery constituting the second loop, Wherein the internal resistance of the battery is measured by the internal resistance measuring device.
The method according to claim 1,
The pin block
And a connector for electrically connecting the four terminals of the battery tab to be coupled with the internal resistance measuring unit.
3. The method of claim 2,
The pin block
A tab accommodating portion accommodating a tab having four terminals electrically connected to each other at an input / output end of a battery requiring a test, and a connector electrically connecting the four terminals to the internal resistance measuring unit;
And an elastic pressing portion for elastically pressing the tab accommodating portion to electrically connect the four terminals and the internal resistance measuring unit.
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