JP2000217247A - Current-protecting circuit - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a current-protecting circuit that protects a driving circuit which drives a given electric apparatus with respect to overcurrent and that is suitable for the drive gear of a motor-driven compressor of an air conditioner, particularly for an automobile. SOLUTION: A current-protecting circuit 20 is made up of a current interrupt part 17, which interrupts a current I flowing in a drive circuit which drives a motor-driven compressor 31, a current-detecting part 19 which detects the current I flowing in the drive circuit, a limiting current determining part 23 which determines a limiting current value I1 which serves as a criterion for the determination of overcurrent, and a current control device 21, which compares the detected current value I with the determined limiting current value I1 and controls the current interrupt part 17, in such a way that if the detected current value I exceeds the limiting current value I1, the current flowing in the drive circuit is interrupted.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

The present invention relates to a current protection circuit for protecting a circuit from an abnormal current.

[0002]

2. Description of the Related Art FIG. 4 shows a configuration of a drive circuit for driving an electric compressor used in an air conditioner for performing air conditioning (cooling and heating) in a passenger compartment of a conventional automobile. In the figure, the drive circuit includes a compressor drive unit 13 and a current protection circuit 20 '. The current protection circuit 20 'includes a current control unit 15, a current cutoff unit 17, and a current detection unit 19.

[0003] The compressor drive unit 13 is provided with a DC power supply 11.
Is converted into an AC voltage having a desired voltage and frequency and supplied to an electric compressor 31 that compresses a refrigerant as a heat medium. At this time, the compressor drive unit 13 controls the frequency and the voltage of the voltage output to the electric compressor 31 to thereby control the electric compressor 3.
1 is driven.

In the compressor drive unit 13, an abnormal current, that is, an overcurrent which is much larger than a normal current, may occur for some reason. This overcurrent causes breakage and malfunction of the circuit in the compressor drive unit 13 and the electric compressor 31. For this reason, the current protection circuit 20 'detects the current I flowing in the circuit, and cuts off the circuit when it is an overcurrent. Specifically, in the current protection circuit 20 ', the current detection unit 19 detects a current I flowing in the circuit. The current interrupting unit 17 electrically disconnects the circuit to interrupt the current flowing in the circuit. Current control unit 1
5, when the current value detected by the current detection unit 19 exceeds a predetermined limit current value, the current interruption unit 17
Outputs a control signal to cut off the circuit. The current interrupting unit 17 interrupts the circuit when receiving a control signal for interrupting from the current control unit 15. In this way, the circuit is protected from overcurrent.

[0005]

In such a conventional current protection circuit 20 ', the current limit value, which is a criterion for judging whether or not the current flowing in the circuit is an overcurrent, is set to a constant value. I was

[0006] The AC voltage V output from the compressor drive unit 13 fluctuates greatly depending on the load of the electric compressor 31, that is, the driving state, and accordingly, the current flowing through the circuit also fluctuates. For example, when cooling / heating is rapidly performed, that is, when the electric compressor 31 is rapidly accelerated, a large current of, for example, about 80 A flows, and when the electric compressor 31 such as a dehumidifying operation is operating relatively stably, A small current of about 10 A flows. in this way,
The current flowing through the circuit in a normal state varies over a wide range depending on the driving state (load) of the electric compressor 31.

Therefore, as described above, the current control unit 21
In this case, if the current limit value is kept constant, there is a problem that sufficient protection cannot be provided for a current that fluctuates over a wide range due to the driving state of the electric compressor.

For example, the current limit value is
When set to 20A in accordance with the stable operating condition of 1,
Overcurrent protection is possible in the stable state, but the protection function is activated when the load on the electric compressor 31 increases rapidly (for example, when cooling is rapid) and a large current of about 80 A is required. However, the circuit is interrupted even though it is not abnormal. On the other hand, if the current limit value is set to, for example, 100 A in accordance with the large load of the electric compressor 31 so that such a protection function does not operate, 1
In a stable operation state in which a current of about 0 A flows, there is a problem that a low abnormal current (overcurrent) of about 30 A, which occurs when a part of the winding in the motor of the electric compressor 31 is short-circuited, cannot be detected.

That is, as described above, the current in the normal state varies widely according to the drive state of the electric equipment to be driven (here, the electric compressor 31), and the current value determined to be abnormal varies accordingly. For such a circuit, there is a problem that the conventional current protection circuit cannot sufficiently protect against abnormal current.

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems, and is a current protection circuit for protecting a circuit from an abnormal current. It is an object of the present invention to provide a current protection circuit suitable for a circuit that changes over a wide range according to the driving state of the electric device.

[0011]

SUMMARY OF THE INVENTION A current protection circuit according to the present invention is provided in a circuit for driving a predetermined electric device, and cuts off a current flowing through the circuit when the current is an abnormal current. Circuit. The current protection circuit includes a current detection unit configured to detect a current flowing through the circuit, a blocking unit configured to block a current flowing through the circuit, a driving state detection unit configured to detect a driving state of the electric device, and associating the driving state with a reference value. Reference value storage means for storing the reference value stored in the reference value storage means based on the drive state detected by the drive state detection means, and limit value determination means for determining a limit value for determining an abnormal current from the reference value stored in the reference value storage means. Comparing the current value detected by the current detection means with the limit value determined by the limit value determination means, and interrupting the current flowing through the circuit when the detected current value exceeds the limit value. Current control means for controlling the

In the current protection circuit, the operating state detecting means may detect the operating state based on the number of rotations of the electric motor and the driving voltage. Alternatively, the operating state detecting means may detect the operating state based on the number of rotations of the electric motor, the driving voltage, and the heat load.

Further, in the current protection circuit, the electric device may be an electric compressor for compressing a refrigerant for performing air conditioning in the automobile.

[0014]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS The embodiments of the current protection circuit according to the present invention will be described below with reference to the accompanying drawings. The current protection circuit described below sets a reference value for determining whether or not a current flowing in a drive circuit for driving a predetermined electric device is an overcurrent is a driving state of the electric device. To change based on This enables overcurrent protection according to the driving state of the electric device.

FIG. 1 shows a configuration of a drive circuit for driving an electric compressor used in an air conditioner for a vehicle. In the drawing, the same components as those in FIG. 4 are denoted by the same reference numerals. As shown in the figure, the drive circuit of the electric compressor includes a DC power supply 11 and a compressor drive unit 13.
And a current protection circuit 20.

The compressor drive unit 13 includes a DC power supply 11
Is converted into an AC voltage having a desired voltage and frequency and supplied to an electric compressor 31 that compresses a refrigerant as a heat medium. The compressor drive unit 13 includes a plurality of switching elements. The inverter unit 13a converts a DC voltage into an AC voltage, and the switching elements of the inverter unit 13a change the voltage value and frequency of the voltage output to the electric compressor 31. 13 for PWM (Pulse Width Modulation) control of ON / OFF of the
b. The compressor drive unit 13 controls the frequency of the voltage output to the electric compressor 31 and the voltage value V in order to control the rotation speed N of the electric compressor 31, thereby driving the electric compressor 31.

The current protection circuit 20 includes a current interrupting unit 17 and
A current detection unit 19, a current control unit 21, and a limited current determination unit 23 are provided. The current detector 19 detects a current I flowing in the circuit. The current interrupting unit 17 electrically interrupts the circuit based on a control signal from the current control unit 21.

The limit current determination unit 23, a reference value for determining whether the current flowing in the circuit I is abnormal current or overcurrent (hereinafter referred to as "limit current value".) Motorized I _t compressor 31 Is set based on the driving state of. That is, limit current value I _t is set to an appropriate value according to the drive state.

[0019] and the current value I detected by the current control unit 15 current detector 19, compares the limited current value I _t from the limit current determination unit 23, the detected current value I is the limited current value I _t When it exceeds, a control signal for interrupting the circuit is output to the current interrupting unit 17. The current interrupting unit 17
When this control signal is received from the current control unit 15, the circuit is cut off to interrupt the flow of current.

As described above, the current protection circuit 20 detects an overcurrent in the circuit based on the driving state of the electric compressor 31, and cuts off the circuit when the overcurrent is detected, so that the current protection circuit 20 operates normally according to the driving state. Even if the current range changes, an appropriate overcurrent protection function can always be realized.

[0021] Hereinafter, the limit current value I _t is a criterion of the overcurrent, details of limit current determination unit 23 for determining based on the driving state of the electric compressor 31.

The limiting current determining unit 23 determines the driving state of the electric compressor 31 by the driving voltage of the electric compressor 31 (ie, the output voltage from the compressor driving unit 13).
And the rotation speed N of the electric compressor 31. For this purpose, the limiting current determining unit 23 inputs information on the driving voltage V and the rotation speed N of the compressor 31 from the control unit 13b of the compressor driving unit 13. These pieces of information are obtained from the duty ratio at the time of performing PWM control on the switching element of the inverter unit 13a in the compressor drive unit 13.

The limiting current determining section 23 has a reference value table 23a therein as shown in FIG. This reference value table 23a is information that associates with the rotational speed N and the limit current value I _t is stored when changing the output voltage V determined by pre-experiment or the like. In other words, in advance I _t
= F (V, N), and the reference value table 23a stores a predetermined number of data satisfying the function f. FIG. 2 shows information stored in the reference value table 23a. That is, FIG. 2 shows the relationship between the rotational speed N and the limit current value I _t when changing the output voltage V. As shown in this figure, limiting current value I _t is determined by two factors between the rotational speed N and the output voltage V. In FIG. 2, only shows the relationship between the limit current value I _t and rotational speed N are three kinds of output voltage V, and in fact,
Over the entire region of the output voltage V can assume, the limited current value I _t
And information on the relationship between the rotation speed N and the reference value table 23a
To be stored.

The limiting current determining unit 23 obtains the driving voltage of the electric compressor 31, that is, the output voltage V to the electric compressor 31 and the information about the rotation speed N of the electric compressor 31 from the compressor driving unit 13, and based on these information, with reference to the reference value table 23a to determine the limiting current value I _t.

The load on the electric compressor 31 varies depending on the heat load, which is the sum of the amount of heat flowing into the vehicle and the amount of heat flowing out of the vehicle. For this reason, the driving state of the electric compressor 31 can be grasped more accurately by considering the heat load Q in the vehicle in addition to the output voltage V and the rotation speed N to the electric compressor 31. Therefore,
Limit current determination unit 23 for determining the limit current value I _t,
In addition to the output voltage V and the rotation speed N to the electric compressor 31, the heat load Q in the vehicle may be considered.

Therefore, as shown by the broken line in FIG. 1, the limiting current determining unit 23 may input the value of the thermal load from the thermal load detecting unit 25 that detects the thermal load Q in the vehicle. Here, the heat load detecting unit 25 determines the temperature in the vehicle from the outside air temperature, the temperature in the vehicle interior, the amount of solar radiation in the vehicle interior or the temperature of the refrigeration cycle, the temperature in the electric compressor 31, the pressure in the refrigeration cycle, the pressure in the electric compressor 31, and the like. Of the heat load Q is determined.
Limit current determination unit 23, the heat load Q, the output voltage V, enter information about the rotational speed N, to determine the limit current current I _t from the reference value table 23 based on the information. In this case, the heat load Q as shown in Figure 3, the output voltage V, the rotational speed N, limited relationship current current _{I t (I t = f (} V, N, Q)) is determined in advance, relate these The information is stored in the reference value table 23.

As described above, the overcurrent protection circuit 20 of the present embodiment determines the reference value for detecting the overcurrent based on the driving state of the electric compressor 31. Therefore, even if the current I flowing through the circuit varies widely according to the drive state of the electric compressor 31, the reference value for determining overcurrent is set to an appropriate value according to the drive state, and It is possible to accurately detect the overcurrent according to the drive state of the drive 31, and to more reliably protect from the overcurrent.
The safety of the electric compressor 31 and the drive circuit for driving the electric compressor 31 is improved.

In the above description, the current protection circuit has been described as a circuit for protecting the drive circuit of the electric compressor from overcurrent. However, the current protection circuit according to the present invention is not limited to this. Can be applied to a protection circuit that protects the power supply from overcurrent. That is, if the current limit value is changed based on the driving state of another electric device, the same protection function as described above can be realized, and the same effect can be obtained.

[0029]

According to the present invention, a reference value for detecting whether or not a current flowing in a circuit for driving an electric device is an overcurrent is determined based on a driving state of the electric device.
Therefore, even when the current flowing through the circuit varies widely according to the driving state of the electric device, the reference value for overcurrent determination is set to an appropriate value according to the driving state. This makes it possible to accurately detect overcurrent in accordance with the driving state of the electric device, more reliably protect the device from overcurrent, and improve the safety of the electric device and a circuit that drives the electric device.

[Brief description of the drawings]

FIG. 1 is a diagram showing a configuration of an overcurrent protection circuit according to the present invention.

FIG. 2 shows the rotational speed N of the electric compressor and the limited current value I when the output voltage V of the compressor drive unit is changed.
FIG described relationship _{(I t = f (V,} N)) of _t.

FIG. 3 shows the thermal load Q and the output voltage V of the compressor drive unit.
FIG described relationship _{(I t = f (V,} N, Q)) of the rotational speed N and limit current current value I _t of the electric compressor when changing and.

FIG. 4 is a diagram showing a configuration of a conventional overcurrent protection circuit.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 11 DC power supply 13 Compressor drive part 17 Current cutoff part 19 Current detection part 20 Current protection circuit 21 Current control part 23 Limited current determination part 23a Reference value table 25 Thermal load detection part 31 Electric compressor

 ──────────────────────────────────────────────────続 き Continued on the front page F-term (reference) MM02

Claims (4)

[Claims] 1. A current protection circuit provided in a circuit for driving a predetermined electric device, wherein the current protection circuit cuts off the current flowing in the circuit when the current is an abnormal current. Means, interrupting means for interrupting a current flowing in the circuit, drive state detecting means for detecting a drive state of the electric device, reference value storage means for storing a drive state in association with a reference value, and the drive state Limit value determination means for determining a limit value for determining an abnormal current from the reference value stored in the reference value storage means based on the drive state detected by the detection means; and a current detected by the current detection means. Value and a limit value determined by the limit value determination means, and the current flowing through the circuit is cut off when the detected current value exceeds the limit value. A current protection circuit, comprising: current control means for controlling a cutoff means. 2. The current protection circuit according to claim 1, wherein said operating state detecting means detects an operating state based on a rotation speed of said electric motor and a driving voltage. 3. The current protection circuit according to claim 2, wherein said operating state detecting means detects an operating state based on a rotation speed of said electric motor, a driving voltage, and a heat load. 4. The current protection circuit according to claim 1, wherein the electric device is an electric compressor that compresses a refrigerant for performing air conditioning in the automobile.