JP2013110836A - Power supply device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To permit selecting component other than component having high withstand voltage performance and preventing cost up and size increase of a common-mode compensation circuit by lowering withstand voltage of component constituting a common mode noise compensation circuit.SOLUTION: A power supply device includes: a rectification circuit 2 for converting three-phase AC voltage from three-phase AC power source 300 into DC voltage; a smoothing circuit 3 for smoothing the DC voltage outputted from the rectification circuit 2; an inverter circuit 4 for converting the DC voltage smoothed by the smoothing circuit 3 into three-phase AC voltage and outputting to a motor 200; and a common mode noise compensation circuit 5 for removing common mode noise flowing between the three-phase AC power source 300 and the motor 200, where power source of the common mode noise compensation circuit 5 connects a neutral point N of the three-phase AC power source 300 and R phase, S phase or T phase of the three-phase AC power source 300.

Description

  The present invention relates to a power supply apparatus having a common mode noise compensation circuit.

  As a conventional power supply device having a common mode noise compensation circuit, for example, as shown in Patent Document 1, it is controlled by a voltage detection means for detecting a common mode voltage and a common mode voltage detected by the voltage detection means. A control voltage source (switching element) that generates a reverse polarity voltage having the same magnitude as the common mode voltage, and a voltage superimposing unit that superimposes the voltage generated by the control voltage source on the common mode and cancels the common mode voltage There is a power supply device having a (transformer). A DC voltage output from the rectifier circuit is applied to the control voltage source to serve as a power source for the common mode noise compensation circuit.

  However, in the common mode noise compensation circuit configured as described above, the withstand voltage performance of the switching elements constituting the control voltage source must be increased as the voltage of the three-phase AC power supply increases. For example, if the AC voltage of a three-phase AC power supply is 200V, the DC voltage after rectification by the rectifier circuit is 280V, and the withstand voltage of the components constituting the common mode noise compensation circuit is about 600V including the design margin. is there. On the other hand, if the AC voltage of the three-phase AC power supply is 380 V or more, the DC voltage after rectification by the rectifier circuit is 537 V or more, and the withstand voltage of the components constituting the common mode noise compensation circuit is 1200 V including the design margin. It is necessary to do more. Thus, when the withstand voltage performance of the components constituting the common mode noise compensation circuit is set to 1200 V or more, the room for selecting the components is narrowed and the cost of the components is increased. Also, the circuit board constituting the common mode noise compensation circuit needs to be designed with an insulation distance against a high voltage of 1200 V or more, which increases the size of the circuit board and increases the cost.

JP-A-10-94244

  Accordingly, the present invention has been made to solve the above problems all at once, and by selecting a component other than a component having a high withstand voltage performance by lowering the withstand voltage of the components constituting the common mode noise compensation circuit. In addition to preventing the cost of the common mode compensation circuit from being increased, the main objective is to prevent an increase in size.

  That is, a power supply device according to the present invention is a power supply device that supplies three-phase AC power to an electric motor, and includes a rectifier circuit that converts a three-phase AC voltage from a three-phase AC power source into a DC voltage, and the rectifier circuit. A smoothing circuit for smoothing the output DC voltage, an inverter circuit for converting the DC voltage smoothed by the smoothing circuit into a three-phase AC voltage and outputting the same to the motor, and between the three-phase AC power source and the motor A common mode noise compensation circuit that removes the common mode noise flowing through the common mode noise compensation circuit, and the power source of the common mode noise compensation circuit includes a neutral point of the three-phase AC power source and any one phase of the three-phase AC power source. It is configured by connecting.

  In such a case, since the power source of the common mode noise compensation circuit is configured by connecting the neutral point of the three-phase AC power source and any one phase of the three-phase AC power source, the common mode The voltage applied to the components that make up the noise compensation circuit can be lowered, the specifications such as the withstand voltage performance of the relevant components can be lowered, and not only components with high withstand voltage performance can be selected, but also the cost Can prevent up. Further, also in the circuit board constituting the common mode noise compensation circuit, the insulation distance can be shortened, and the circuit board can be prevented from being enlarged and the cost can be prevented from being increased.

  Specifically, the common mode noise compensation circuit is connected to any one of the neutral point of the three-phase AC power source and the three-phase AC power source, and converts the AC voltage into a DC voltage. A smoothing capacitor that smoothes the DC voltage output from the rectifier circuit unit, and a switching element that converts the DC voltage smoothed by the smoothing capacitor into an AC voltage for common mode compensation, from the switching element It is preferable that the output AC voltage for common mode compensation is supplied to the ground line of the motor.

  A noise detection circuit provided between the smoothing circuit and the inverter circuit for detecting the common mode noise, wherein the compensation switching element is based on the common mode noise obtained by the noise detection circuit; It is desirable to output an AC voltage for use. In this case, the configuration of the noise detection circuit can be simplified.

  Provided on the output side of the inverter circuit, provided with a noise detection circuit for detecting the common mode noise, wherein the compensation switching element is AC for common mode compensation based on the common mode noise obtained by the noise detection circuit It is desirable to output a voltage. In this case, it can also be used as a normal mode filter.

  In particular, when the three-phase AC power supply has an interphase voltage of 380V or higher, the DC voltage after rectification by the rectifier circuit is 537V or higher, and the withstand voltage performance of the components of the common mode noise compensation circuit is designed. It is necessary to use a voltage of 1200V or more including a margin. On the other hand, as in the present invention, the power source of the common mode noise compensation circuit is configured by connecting the neutral point of the three-phase AC power source and any one phase of the three-phase AC power source. The DC voltage after rectification by the rectifier circuit section is 280 V or higher, and the common mode noise compensation circuit components having a withstand voltage performance of about 600 V including the design margin can be used. Also, the design of the printed circuit board constituting the common mode noise compensation circuit can be supported by securing a conventional insulation distance for 1/2 voltage, thereby preventing an increase in the size of the printed circuit board.

  According to the present invention configured as described above, it is possible to select a component other than a component having a high withstand voltage performance by lowering the withstand voltage of the components constituting the common mode compensation circuit. Cost increase can be prevented. In addition, according to the present invention, by reducing the withstand voltage of the components constituting the common mode noise compensation circuit, the insulation distance of the circuit board constituting the common mode noise compensation circuit can be shortened, resulting in a large circuit board. As a result, an increase in size of the common mode noise compensation circuit can be prevented.

It is a figure which shows the circuit structure of the electric power supply apparatus which concerns on this embodiment. It is a figure which shows the circuit structure of the electric power supply apparatus which concerns on deformation | transformation embodiment.

  An embodiment of the present invention will be described below with reference to the drawings.

  As shown in FIG. 1, the power supply apparatus 100 according to the present embodiment is connected to a three-phase AC power source 300 that is a three-phase four-wire power source (interphase voltage is 380 V or more). The three-phase AC power is supplied to the electric motor 200 such as a compressor motor.

  Specifically, the power supply device 100 is connected to the R phase, S phase, and T phase of the three-phase AC power source 300 and converts the three-phase AC voltage into a DC voltage, and is output from the rectifier circuit 2. The smoothing circuit 3 for smoothing the direct current voltage, the inverter circuit 4 for converting the direct current voltage smoothed by the smoothing circuit 3 into a three-phase alternating current voltage and outputting it to the electric motor 200, the three-phase alternating current power supply 300, and the electric motor 200 And a common mode noise compensation circuit 5 for removing common mode noise flowing therebetween. In the present embodiment, the reactor 6 is provided for each of the R phase, the S phase, and the T phase between the three-phase AC power supply 300 and the rectifier circuit 2. The smoothing circuit 3 includes a smoothing capacitor 31 and a bleeder resistor 32.

  The common mode noise compensation circuit 5 is connected to any one of the neutral point N of the three-phase AC power source 300 and the R-phase, S-phase, or T-phase of the three-phase AC power source 300. The neutral point N and any one of the R phase, the S phase, and the T phase are used as a power source. That is, the power supply voltage of the common mode noise compensation circuit 5 is a voltage between the neutral point N of the three-phase AC power supply 300 and any of the R phase, S phase, and T phase, and is 1/2 of AC380V (≈AC200V). ). In this embodiment, the neutral point N and the T phase of the three-phase AC power source 300 are connected to form a power source, but the present invention is not limited to this.

  Specifically, the common mode noise compensation circuit 5 is connected to any one of the neutral point N and the R phase, S phase, or T phase of the three-phase AC power supply 300 to convert the AC voltage (AC200V) to the DC voltage (DC280V). A rectifying circuit unit 51 for converting to DC, a smoothing capacitor 52 for smoothing a DC voltage output from the rectifying circuit unit 51, and a DC voltage smoothed by the smoothing capacitor 52 for converting to a common mode compensating AC voltage. And a switching element 53. The switching element 53 is connected to a zero phase current detection circuit 7 for driving the common mode noise compensation circuit 5. The zero-phase current detection circuit 7 of the present embodiment detects zero-phase current (common mode noise) by a transformer 71 provided between the smoothing circuit 3 and the inverter circuit 4.

  Then, the switching element 53 is driven so as to cancel the zero-phase current (common mode noise) detected by the zero-phase current detection circuit 7 in this way, and the ground line GL of the electric motor 200 is passed through the resistor 54 and the capacitor 55. Is supplied with an AC current for common mode compensation. Here, the AC current for common mode compensation supplied to the ground line GL of the electric motor 200 is a current having the same current value of the detected zero-phase current and having an opposite phase. Thereby, the common mode noise which arises between the three-phase alternating current power supply 300 and the electric motor 200 can be removed.

  According to the power supply device 100 configured as described above, the power source of the common mode noise compensation circuit 5 connects the neutral point N of the three-phase AC power source 300 and any one phase of the three-phase AC power source 300. Therefore, the voltage applied to the components constituting the common mode noise compensation circuit 5 can be reduced, specifications such as the withstand voltage performance of the components can be reduced, and cost increase can be prevented. it can.

  Specifically, according to the power supply apparatus 100 of the present embodiment, the power supply of the common mode noise compensation circuit 5 is the neutral point N of the three-phase AC power supply 300 when the three-phase AC power supply 300 of AC380V or higher is connected. And the R phase, S phase, or T phase of the three-phase AC power supply 300 are connected to each other, so that the DC voltage after rectification by the rectifier circuit unit 51 becomes 280 V or more, and the common mode noise compensation As the components of the circuit 5 (for example, the switching element 53), those having a withstand voltage performance of about 600 V including a design margin can be used. In addition, the circuit board constituting the common mode noise compensation circuit 6 can be designed by securing the conventional insulation distance for 1/2 voltage, and as a result of preventing the circuit board from becoming large, common mode noise can be prevented. An increase in the size of the compensation circuit 5 can be prevented.

The present invention is not limited to the above embodiment.
For example, as shown in FIG. 2, a transformer 71 of a zero-phase current detection circuit 7 for driving the switching element 53 in the common mode noise compensation circuit 5 may be provided on the output side of the inverter circuit 4. In this case, it can also be used as a normal mode filter.

  Further, in the embodiment, the AC current for compensating the common mode noise is output to the ground line of the electric motor. However, the AC voltage for compensating the common mode noise is applied to the output voltage of the inverter circuit. A compensation transformer that cancels out common mode noise may be provided.

  In addition, it goes without saying that the present invention is not limited to the above-described embodiment, and various modifications can be made without departing from the spirit of the present invention.

DESCRIPTION OF SYMBOLS 100 ... Electric power supply apparatus 200 ... Electric motor 300 ... Three-phase alternating current power supply N ... Three-phase alternating current power supply neutral point 2 ... Rectification circuit 3 ... Smoothing circuit 4 ... Inverter circuit 5 ... Common mode noise compensation circuit 51 ... Rectifier circuit unit 52 ... Smoothing capacitor 53 ... Switching element 54 ... Transformer

Claims (6)

A power supply device for supplying three-phase AC power to an electric motor,
A rectifier circuit that converts a three-phase AC voltage from a three-phase AC power source into a DC voltage;
A smoothing circuit for smoothing a DC voltage output from the rectifier circuit;
An inverter circuit that converts the DC voltage smoothed by the smoothing circuit into a three-phase AC voltage and outputs the same to the motor;
A common mode noise compensation circuit for removing common mode noise flowing between the three-phase AC power source and the electric motor;
A power supply device configured such that a power source of the common mode noise compensation circuit connects a neutral point of the three-phase AC power source and any one phase of the three-phase AC power source. The common mode noise compensation circuit is
A rectifier circuit unit connected to any one of the neutral point of the three-phase AC power source and the phase of the three-phase AC power source to convert an AC voltage into a DC voltage;
A smoothing capacitor for smoothing the DC voltage output from the rectifier circuit unit;
A compensation switching element for converting the DC voltage smoothed by the smoothing capacitor into an AC voltage for common mode compensation;
2. The power supply apparatus according to claim 1, wherein an AC voltage for common mode compensation output from the compensation switching element is supplied to a ground line of the motor. A noise detection circuit provided between the smoothing circuit and the inverter circuit for detecting the common mode noise;
3. The power supply apparatus according to claim 2, wherein the compensation switching element outputs an AC voltage for common mode compensation based on the common mode noise obtained by the noise detection circuit. Provided on the output side of the inverter circuit, comprising a noise detection circuit for detecting the common mode noise,
3. The power supply apparatus according to claim 2, wherein the compensation switching element outputs an AC voltage for common mode compensation based on the common mode noise obtained by the noise detection circuit.   The power supply device according to any one of claims 1 to 4, wherein the three-phase AC power source is a three-phase four-wire power source.   The power supply apparatus according to claim 5, wherein the three-phase AC power supply has an interphase voltage of 380 V or more.