KR19990048636A - Inverter protection circuit of washing machine motor - Google Patents

Abstract

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an inverter protection circuit of a washing machine motor. In the related art, various factors are considered in order to ensure stable operation of an inverter circuit required for a washing machine motor, among which switching driving voltage when switching in a low voltage environment. The switching device is destroyed due to the error of the switching waveform and the loss of the switching device caused by the reduction and the reduction of the voltage at both ends of the DC link rectifier.

Accordingly, the present invention has been made to solve the above-mentioned conventional problems, the device is provided with a low voltage detection unit to detect when a low voltage is supplied to stop the driving of the washing machine motor to protect the switching element of the inverter circuit By providing a, there is an effect of preventing the destruction of the switching element to improve the efficiency of the inverter circuit to ensure the reliability of the product.

Description

Inverter protection circuit of washing machine motor

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an inverter protection circuit of a motor for a washing machine. In particular, a switching element generated when the base driving voltage of the switching element and the inverter DC supply voltage are low when the motor of the washing machine is rotated using an inverter composed of several switching elements. The inverter protection circuit of the washing machine motor to prevent the destruction of.

1 is a block diagram showing the configuration of a conventional washing machine motor, Figure 2 is a circuit diagram showing the configuration of the inverter circuit in Figure 1, as shown therein commercial power (AC) is a high voltage bridge diode (BD) and smoothing capacitor When the DC voltage of the high voltage generated at both ends (P, N) of the DC link rectifying unit 10 composed of (C1, C2) is made, the switching driver 21 of the inverter circuit 20 is switched to the stepwise switching mode. The switching elements Q31 to Q36 are switched to obtain a resonant sine inverter waveform required for driving the washing motor.

The control drive (digital signal) output from the control unit 30, the desired washing process is set by the switching drive signal generator 40 generates a switching drive signal required for washing, the switching driver receiving the generated signal ( The emitter 21 of the upper phase switches Q31, Q33, and Q35 generates enough switch gate current for the switching elements Q31 to Q36 to switch, and also makes inverter waveforms necessary for driving the motor with the stepwise switching drive signal. Isolation of the power supply, and switching elements Q31 to Q36 of the inverter circuit unit 20 converts the DC voltage input through the DC link rectifying unit 10 back into a three-phase AC voltage to achieve a BLDC motor. It is composed of switching transistors T1 to T6 and freewheeling diodes I1 to I6 for driving (not shown), and several switches required for driving a washing motor according to the switching driving signal. Switch to the ching mode.

The DC power supply unit 50 generates a voltage required by the control unit 30 and the switching driver 21 and supplies the voltage to each unit. The power required for the switching driver 21 is between 12V to 15V DC, and switching elements Q31 to Q36. The voltage at both ends of the DC link current portion 10 supplied to the DC is about 320V DC.

As mentioned above, in the related art, various factors are considered in order to secure stable operation of an inverter circuit required for a washing machine motor. Among them, the switching driving voltage and the voltage at both ends of the DC link rectifier are reduced when switching in a low voltage environment. There was a problem in that the switching device is destroyed by the error of the switching waveform and the loss of the switching device to reduce the reliability of the product.

Accordingly, the present invention has been made to solve the above-mentioned conventional problems, the device is provided with a low voltage detection unit to detect when a low voltage is supplied to stop the driving of the washing machine motor to protect the switching element of the inverter circuit To provide for that purpose.

1 is a block diagram showing the configuration of a conventional washing machine motor.

2 is a circuit diagram showing the configuration of an inverter circuit in FIG.

Figure 3 is a block diagram showing the configuration of a washing machine motor to which the present invention is applied.

4 is a circuit diagram illustrating a configuration of a low voltage detector in FIG. 3.

FIG. 5 is a circuit diagram illustrating another exemplary embodiment of the low voltage detector of FIG. 3. FIG.

*** Description of the symbols for the main parts of the drawings ***

10 DC link rectifier 20 inverter circuit

21: switching driver 30: control unit

40: switching drive signal generator 50: DC power supply

60: low voltage detection unit BD: bridge diode

C1, 2: Capacitors Q31 to Q36: Switching element

R1 to R8: resistors I1 to I6: diodes

T1 to T6: transistor NP1: n-Pen transistor

PP1,2: PNP transistor ZD: Zener diode

In order to achieve the above object, a configuration of the present invention includes a motor for a washing machine, which detects a case in which a voltage output from a DC power supply unit or a DC link rectifying unit is equal to or less than a set voltage level, and sends a detected signal to a controller. It characterized in that it comprises a low voltage detection unit to stop the operation of.

The low voltage detection unit has a first resistor connected to one side of the DC power supply, the other side 'node 1'; A second resistor having one side connected to the 'node 1' and the other side connected to the ground; One side is connected to the 'node 2' is connected to the 'node 1', the other side and the capacitor is connected to the ground; A third resistor having one side connected to a 'node 3' connected through a zener diode connected to the 'node 2', and the other side connected to a ground; A base connected to 'node 3', an emitter connected to ground, and a collector connected to 'node 4'; A fourth resistor having one side connected to a power supply voltage and the other side connected to the 'node 4'; The base is connected to the 'node 4', the emitter is connected to the power supply voltage through the fifth resistor, the collector is characterized by consisting of a PNP transistor connected to the ground through the control unit and the sixth resistor. .

The low voltage detection unit is connected in series with each other, one side is connected to the DC link rectifier, the other side is connected to the 'node 1' first and second resistors; A third resistor having one side connected to the 'node 1' and the other side connected to the ground; A fourth resistor having one side connected to the 'node 1' and the other side connected to the 'node 2'; A fifth resistor having one side connected to a power supply voltage and the other side connected to the 'node 2'; The base is connected to the 'node 2', the emitter is connected to the ground through the sixth resistor, the collector is characterized in that the NPP transistor is connected to the control unit through the power supply voltage and the seventh resistor .

Hereinafter, described in detail with reference to the accompanying drawings another embodiment of the present invention.

3 is a block diagram showing a configuration of a washing machine motor to which the present invention is applied. As shown in FIG. 1, the voltage level output from the DC power supply unit 50 or the DC link rectifying unit 10 is shown in the conventional configuration shown in FIG. 1. The low voltage detection unit 60 is configured to add a low voltage detection unit 60 that detects a case below the level of the set voltage and transmits the detected signal to the control unit 30 to stop driving of the washing machine motor.

Referring to Figures 4 and 5 attached to the operation of the embodiment according to the present invention configured as described above are as follows.

The DC power supply unit 50 outputs a voltage required by the switching driver 21 and the control unit 30. The switching driving voltage required to switch the switching element of the inverter circuit 20 is DC 12V to 15V, and the control unit 30 ), The voltage required for DC is 5V, and the voltage output from the DC link rectifier 10, which is a switching power required for driving the motor, is 320V DC. The low voltage (switching drive voltage is 12V or less, and the output voltage of the DC link rectifier is 250V or less) In this case, the low voltage detection unit 60 detects the low voltage detection unit 60 and inputs a detection signal to the control unit 30 to stop driving of the motor. The operation and configuration of the low voltage detection unit detecting low voltage are as follows.

The low voltage detection unit 60 is divided into two configurations for detecting low voltage at the output of the DC power supply unit 50 or the output of the DC link rectifier 10. First, FIG. 4 illustrates the configuration of the low voltage detection unit in FIG. As shown, a first resistor (R1) is connected to the DC power supply unit 50, one side is connected to the 'node 1' as shown therein; A second resistor R2 having one side connected to the 'node 1' and the other side connected to the ground Vss; One side is connected to the 'node 2' is connected to the 'node 1', the other side is a capacitor (C1) connected to the ground (Vss); One side is connected to the 'node 3' is connected through the zener diode (ZD) connected to the 'node 2', the other side and the third resistor (R3) is connected to the ground (Vss); A base connected to 'node 3', an emitter connected to ground (Vss), and a collector connected to 'node 4'; A fourth resistor R4 having one side connected to a power supply voltage Vcc and the other side connected to the 'node 4'; The base is connected to the 'node 4', the emitter is connected to the power supply voltage (Vcc) through the fifth resistor (R5), the collector is connected to the ground (Vss) through the control unit 30 and the sixth resistor (R6) And the input voltage Vdd ≒ 15V to sense the voltage output from the DC power supply unit 50 to the first and second resistors R1 and R2. If the voltage at the normal power supply is Va and the voltage at the low voltage is Vb (ie, Va> Vb), the Zener diode (ZD) selects a device with a voltage lower than Va so that only the normal voltage Va can pass. The normal voltage Va passes through the zener diode ZD and is applied to the base of the NP transistor NP1 to turn on the transistor, and the power supply voltage Vcc applied to the collector is grounded to the emitter. Flows to Vss to turn on the PNP transistor PP1, and thus the control unit 30 The output of the high voltage, but the low voltage Vb does not pass through the zener diode (ZD), the PNP transistor PP1 is turned off, the power supply voltage (Vcc) to the base of the PNP transistor PP1. When the level of the input voltage changes from the high voltage to the low voltage, the controller 30 recognizes the low voltage environment to drive the motor. Outputs the signal to stop.

In addition, the second is connected to each other in series as shown in Figure 5, one side is connected to the DC link rectifier 10, the other side is connected to 'node 1', the first and second resistors (R1, R2) and; A third resistor (R3) having one side connected to the 'node 1' and the other side connected to the ground (Vss); A fourth resistor (R4) having one side connected to the 'node 1' and the other side connected to the 'node 2'; A fifth resistor R5 having one side connected to a power supply voltage Vcc and the other side connected to the 'node 2'; The base is connected to the 'node 2', the emitter is connected to the ground (Vss) through the sixth resistor (R6), the collector is the control unit 30 through the power supply voltage (Vcc) and the seventh resistor (R7) And the voltage output from the DC link rectifier 10 through the first, second, and third resistors R1, R2, and R3, respectively. If the voltage is Vc and the voltage at the low voltage is Vd (that is, Vc > Vd), the steady voltage Vc is applied to the base of the PNP transistor PP2 through the fourth resistor R4, and the transistor is turned-on. The power supply voltage Vcc is turned off and output to the controller 30. The low voltage Vd is applied to the base of the PNP transistor PP2 through the fourth resistor R4, and the transistor is turned on so that the power supply voltage is turned on. (Vcc) flows to the ground (Vss) through the emitter by the seventh resistor (R7) to output a low voltage to the controller 30, When operation of the control section 30 are the same as one described above.

As described above, the inverter protection circuit of the motor for a washing machine of the present invention senses a low voltage and stops driving the motor, thereby preventing the destruction of the switching element, thereby improving the efficiency of the inverter circuit, thereby ensuring the reliability of the product.

Claims (3)

The washing machine motor includes a low voltage detecting unit for detecting a case where the level of the voltage output from the DC power supply unit or the DC link rectifying unit is equal to or lower than the set voltage level, and sending a detected signal to the control unit to stop driving the washing machine motor. Inverter protection circuit of washing machine motor. The low voltage sensing unit of claim 1, wherein the low voltage sensing unit comprises: a first resistor having one side connected to a DC power supply and the other side connected to 'node 1'; A second resistor having one side connected to the 'node 1' and the other side connected to the ground; One side is connected to the 'node 2' is connected to the 'node 1', the other side and the capacitor is connected to the ground; A third resistor having one side connected to a 'node 3' connected through a zener diode connected to the 'node 2', and the other side connected to a ground; A base connected to 'node 3', an emitter connected to ground, and a collector connected to 'node 4'; A fourth resistor having one side connected to a power supply voltage and the other side connected to the 'node 4'; The base is connected to the 'node 4', the emitter is connected to the power supply voltage through the fifth resistor, and the collector is composed of a PNP transistor connected to the ground through the control unit and the sixth resistor Inverter protection circuit of the washing machine motor. According to claim 1, wherein the low voltage detection unit is connected in series with each other, one side is connected to the DC link rectifier, the other side is connected to 'node 1'; A third resistor having one side connected to the 'node 1' and the other side connected to the ground; A fourth resistor having one side connected to the 'node 1' and the other side connected to the 'node 2'; A fifth resistor having one side connected to a power supply voltage and the other side connected to the 'node 2'; The base is connected to the 'node 2', the emitter is connected to the ground through a sixth resistor, the collector comprises a PNP transistor connected to the control unit through the power supply voltage and the seventh resistor Inverter protection circuit of the washing machine motor.