Device and method for measuring insulation resistance of battery pack by using negative electrode relay

Abstract

An apparatus and a method for measuring insulation resistance of a battery pack using an insulation resistance meter (IRM) circuit where only a negative relay is electrically conducted, thereby decreasing a risk of electric shock when insulation resistance is measured in a state where an external insulation resistor of the battery pack is broken.

Claims

1. An apparatus for measuring insulation resistance of a battery pack using a negative main relay, the apparatus comprising: a measuring unit configured to measure resistance values of an internal positive insulation resistor and an internal negative insulation resistor, the measuring unit being connected to both ends of the battery pack; and a calculating unit configured to calculate, when the negative main relay is electrically conducted, resistance values of an external positive insulation resistor and an external negative insulation resistor, based on: the resistance values of the internal positive insulation resistor and the internal negative insulation resistor measured by the measuring unit in an open state before the negative main relay is electrically conducted, and a parallel resistance value of the external positive insulation resistor and the external negative insulation resistor measured by the measurement unit after the negative main relay is electrically conducted, wherein the external positive insulation resistor and the external negative insulation resistor are connected in parallel with the internal negative insulation resistor after the negative main relay is electrically conducted, wherein the negative main relay is connected at one side with the external positive insulation resistor and is connected at another side with the measuring unit, wherein a link capacitor is connected to the external positive insulation resistor and to the external negative insulation resistor, and wherein the insulation resistance of the battery pack is measured only when the negative main relay is electrically conducted, and not when a positive main relay is electrically conducted.

2. The apparatus of claim 1, wherein when the resistance values of the internal positive insulation resistor and the internal negative insulation resistor are further measured by the measuring unit when the negative main relay is electrically conducted, and wherein the parallel resistance value of the external positive insulation resistor and the external negative insulation resistor is measured together.

3. A method of measuring insulation resistance of a battery pack using a negative main relay, the method comprising: measuring, by a measuring unit connected to an internal positive insulation resistor and an internal negative insulation resistor and connected to both ends of a battery pack, resistance values of the internal positive insulation resistor and the internal negative insulation resistor in an open state before the negative main relay is electrically conducted; electrically conducting a negative main relay, wherein the negative main relay is connected at one side with an external positive insulation resistor and is connected at another side with the measuring unit, and wherein a link capacitor is connected to the external positive insulation resistor and to an external negative insulation resistor; and calculating, by a calculating unit, resistance values of the external positive insulation resistor and the external negative insulation resistor, based on: the resistance values of the internal positive insulation resistor and the internal negative insulation resistor measured by the measuring unit in the open state before the negative main relay is electrically conducted, and a parallel resistance value of the external positive insulation resistor and the external negative insulation resistor measured by the measurement unit after the negative main relay is electrically conducted, wherein the external positive insulation resistor and the external negative insulation resistor are connected in parallel with the internal negative insulation resistor after the negative main relay is electrically conducted, and wherein the insulation resistance of the battery pack is measured only when the negative main relay is electrically conducted, and not when a positive main relay is electrically conducted.

4. The method of claim 3, wherein the electrically conducting the negative main relay includes measuring the parallel resistance value of the external positive insulation resistor and the external negative insulation resistor when the negative main relay is electrically conducted.

5. The method of claim 4, wherein the measuring of the resistance values of the external positive insulation resistor and the external negative insulation resistor when the negative main relay is electrically conducted includes measuring the parallel resistance value of the external positive insulation resistor and the external negative insulation resistor together when the resistance values of the internal positive insulation resistor and the internal negative insulation resistor are measured by the measuring unit.

Description

BRIEF DESCRIPTION OF DRAWINGS

(1) FIG. 1 is a diagram schematically illustrating a general process of measuring insulation resistance of a battery pack.

(2) FIG. 2 is a diagram schematically illustrating a process of measuring insulation resistance (internal insulation resistance and external insulation resistance) of a battery pack in the related art.

(3) FIG. 3 is a diagram schematically illustrating a process of measuring insulation resistance (internal insulation resistance and external insulation resistance) of a battery pack through an apparatus 100 for measuring insulation resistance of a battery pack by using a negative relay according to an exemplary embodiment of the present invention.

(4) FIG. 4 is a flowchart sequentially illustrating a process of measuring insulation resistance of a battery pack through the apparatus 100 for measuring insulation resistance of a battery pack by using a negative relay according to the exemplary embodiment of the present invention.

MODE FOR CARRYING OUT THE INVENTION

(5) Hereinafter, an exemplary embodiment is presented for helping understanding of the present invention. However, the exemplary embodiment below is simply provided for easier understanding of the present invention, and the contents of the present invention are not limited by the exemplary embodiment.

(6) FIG. 1 is a diagram schematically illustrating a general process of measuring insulation resistance of a battery pack, and FIG. 2 is a diagram schematically illustrating a process of measuring insulation resistance (internal insulation resistance and external insulation resistance) of a battery pack in the related art.

(7) First, referring to FIG. 1A, insulation resistance R.sub.P and R.sub.N are connected to a positive electrode HV+ and a negative electrode HV of a battery pack in which one or more battery modules are combined, respectively.

(8) In this case, in order to measure a resistance value of each insulation resistance, a method of connecting test resistance Z.sub.TP and Z.sub.TN through switches is used as illustrated in FIG. 1B, and in this case, the method includes two operations.

(9) Referring to FIG. 1B, FIG. 1B illustrates an operation of measuring a positive side voltage, and a switch is connected between the insulation resistance R.sub.P and the test resistance Z.sub.TP connected to the positive electrode of the battery pack, and a voltage applied after the connection of the test resistance Z.sub.TP is scaled down and measured.

(10) Referring to FIG. 1C, FIG. 1C illustrates an operation of measuring a negative side voltage, and a switch is connected between the insulation resistance R.sub.n and the test resistance Z.sub.TN connected to the negative electrode of the battery pack, and a voltage applied after the connection of the test resistance Z.sub.TN is scaled down and measured. In this case, a voltage reference (V reference) value is used so that the measured voltage value has a positive number.

(11) Then, resistance values of the insulation resistance R.sub.P and R.sub.N are calculated by using the measured positive side and negative side voltage values.

(12) Next, referring to FIG. 2, FIG. 2 is a diagram illustrating a process of measuring insulation resistance (internal insulation resistance and external insulation resistance) of a battery pack in the related art, and a battery pack 1 is provided at a left side of a circuit, a link capacitor 2 is provided at a right side of the circuit, an internal positive insulation resistor 3 and an internal negative insulation resistor 4 are connected to both ends of the battery pack 1 positioned at the left side, and the internal positive insulation resistor 3 and the internal negative insulation resistor 4 are serially connected to each other.

(13) Further, the link capacitor 2 at the right side is connected to an external positive insulation resistor 5 and an external negative insulation resistor 6, and the external positive insulation resistor 5 and the external negative insulation resistor 6 are serially connected to each other.

(14) It can be seen that a positive main relay 7 and a negative main relay 8 are positioned between the internal positive insulation resistor 3 and the internal negative insulation resistor 4, and between the external positive insulation resistor 5 and the external negative insulation resistor 6.

(15) Further, a precharge resistor and a precharge relay are connected to both ends of the positive main relay 7 in parallel.

(16) The positive main relay 7 and the negative main relay 8 are simultaneously electrically conducted (close), so that the battery pack 1 may be connected with the external positive insulation resistor 5 and the external negative insulation resistor 6 provided outside the battery pack.

(17) In this case, a circuit connected from a terminal of each of the internal positive insulation resistor 3 and the internal negative insulation resistor 4 is connected with an insulation resistance meter circuit 9, and the insulation resistance meter circuit 8 serves to measure insulation resistance values of the internal positive insulation resistor 3, the internal negative insulation resistor 4, the external positive insulation resistor 5, and the external negative insulation resistor 6.

(18) Accordingly, before the positive main relay 7 and the negative main relay 8 are electrically conducted, that is, in an open state, insulation resistance values of the internal positive insulation resistor 3 and the internal negative insulation resistor 4 are measured, and when the positive main relay 7 and the negative main relay 8 are electrically conducted (close), insulation resistance values of the external positive insulation resistor 5 and the external negative insulation resistor 6 are measured.

(19) That is, in order to measure insulation resistance values of the external positive insulation resistor 5 and the external negative insulation resistor 6 by using the method in the related art, both the positive main relay 7 and the negative main relay 8 need to be electrically conducted, so that when both the positive main relay 7 and the negative main relay 8 are electrically conducted in the state where the external positive insulation resistor 5 and the external negative insulation resistor 6 are broken, a risk of electric shock may be generated due to the generation of a leakage current.

(20) Accordingly, an apparatus 100 for measuring insulation resistance of a battery pack by using a negative relay, which is capable of measuring an insulation resistance value of a battery pack by using only a negative relay, of the present invention will be described with reference to FIG. 3.

(21) FIG. 3 a diagram schematically illustrating a process of measuring insulation resistance (internal insulation resistance and external insulation resistance) of a battery pack through an apparatus 100 for measuring insulation resistance of a battery pack by using a negative relay according to an exemplary embodiment of the present invention.

(22) Referring to FIG. 3, the apparatus 100 for measuring insulation resistance of a battery pack by using a negative relay according to the present invention may be connected with an internal positive insulation resistor 3 and an internal negative insulation resistor 4 connected to both ends of a battery pack 1, and a negative main relay 8 connected with the internal positive insulation resistor 5 and the internal negative insulation resistor 6.

(23) In the meantime, it is noted that a circuit configuration adopting the apparatus 100 for measuring insulation resistance of a battery pack by using a negative relay according to the present invention may correspond to the circuit configuration of measuring insulation resistance of a battery pack in the related art illustrated in FIG. 2.

(24) A measurement unit 110 connected with the internal positive insulation resistor 3 and the internal negative insulation resistor 4 measures resistance values of the internal positive insulation resistor 3 and the internal negative insulation resistor 4 in an initial state (the state where a positive main relay 7 and the negative main relay 8 are not electrically conducted) in advance, and a calculating unit 120 calculates a resistance value of each of an external positive insulation resistor 5 and an external negative insulation resistor 6 in the state where the negative main relay 8 is electrically conducted.

(25) Further, when the resistance values of the internal positive insulation resistor 3 and the internal negative insulation resistor 4 are measured through the measurement unit 110 in the state where the negative main relay 8 is electrically conducted, parallel resistance values of the external positive insulation resistor 5 and the external negative insulation resistor 6 are also measured.

(26) In the meantime, since the link capacitor 2 positioned at the output terminal in the state where the negative main relay 8 is electrically conducted is in a completely discharged state, and has large capacitance, a potential difference between both ends of the link capacitor 2 maintains 0.

(27) Further, the resistance value of the internal negative insulation resistor 4 has been already measured before the negative main relay 8 is electrically conducted, so that it is possible to calculate a resistance value of each of the external positive insulation resistor 5 and the external negative insulation resistor 6 based on the previously measured resistance value of the internal negative insulation resistor 4 and the parallel resistance value of the external positive insulation resistor 5 and the external negative insulation resistor 6, which is possible because the external positive insulation resistor 5 and the external negative insulation resistor 6 are connected to the internal negative insulation resistor 4 in parallel.

(28) The process of measuring insulation resistance of the battery pack described with reference to FIG. 3 will be sequentially described with reference to FIG. 4.

(29) FIG. 4 is a flowchart sequentially illustrating a process of measuring insulation resistance of a battery pack through the apparatus 100 for measuring insulation resistance of a battery pack by using a negative relay according to the exemplary embodiment of the present invention.

(30) Referring to FIG. 4, first, in an initial state in which the negative main relay is not electrically conducted, the measuring unit measures resistance values of the internal positive insulation resistor and the internal negative insulation resistor (S401).

(31) Next, after the negative main relay is electrically conducted (S402), when the resistance values of the internal positive insulation resistor and the internal negative insulation resistor are measured by the measuring unit in the state where the negative main relay is electrically conducted, a parallel resistance value of the external positive insulation resistor and the external negative insulation resistor, which are connected to the internal negative insulation resistor in parallel, is measured together (S403).

(32) Next, the calculating unit calculates a resistance value of each of the external positive insulation resistor and the external negative insulation resistor, which are connected to the internal negative insulation resistor in parallel, based on the resistance value of the internal negative insulation resistor measured before the negative main relay is electrically conducted and the parallel resistance value measured after the negative main relay is electrically conducted (S404).

(33) In the forgoing, the present invention has been described with reference to the exemplary embodiment of the present invention, but those skilled in the art may appreciate that the present invention may be variously corrected and changed within the range without departing from the spirit and the area of the present invention described in the appending claims.