KR19990032543U - Power supply system - Google Patents

Abstract

A power supply system is disclosed. DC power supply for supplying power through the first output terminal and the second output terminal, power conversion unit and power conversion unit for converting the power received through the first input terminal and the second input terminal to the DC voltage level required by the load And an example of an EMI filter unit connected between a DC power supply and a first inductor connected between a first output terminal and a first input terminal, a second inductor connected between a second output terminal and a second input terminal, and a first output terminal and a first output terminal. A first capacitor connected between two output terminals, a second capacitor and a third capacitor connected in series between the first output terminal and the second output terminal in front of the first inductor, and connecting the second capacitor and the third capacitor The connecting part is connected to the frame ground. According to such a power supply system, the electromagnetic interference signal generation can be suppressed within a desired regulatory range by employing an EMI filter unit having an appropriate filtering function according to the applied power converter and its load.

Description

Power supply system

The present invention relates to a power supply system, and more particularly, a power conversion device for performing power conversion to a voltage level required by a target device to be loaded from a commercially available power supply and electromagnetic interference generated from the target device. interference) relates to an improved power supply system having an EMI filter unit for suppressing noise emitted to the outside.

In general, an electronic device is used in connection with a power converter that converts and supplies commercial power such as a household AC power or a vehicle battery into a DC voltage necessary for driving and operating a system. The power conversion method of the power conversion device that converts the power supplied from the power source in accordance with the voltage level required by the electronic device has been made in various ways, and recently, the voltage by the pulse width modulation method, which is one of the good power conversion efficiency method The conversion is mainly adopted.

In a power converter that performs power conversion by such a pulse width modulation method, high frequency noise is generated by switching. Such high frequency noise is classified into radiation noise and conduction noise. If such noise is leaked to the outside, it may cause malfunction of other electronic equipment that shares power input line or is located adjacent. The law states that only noise emission below a certain level is allowed.

In particular, in a power supply system employing a DC / DC converter, which is a power conversion device that converts a DC voltage of 24 Vdc to 28 Vdc supplied from a vehicle power source (battery and generator) to a predetermined DC voltage level required by military electronic devices applied as a load. DC / DC converters and military electronics are required to meet the EMI requirements specified by MIL102, RE102 of MIL-STD-461D.

The present invention has an EMI filter capable of suppressing the emission of noise generated from a power converter and military electronic devices connected to the output of the power converter to the outside so as to satisfy the EMI requirements specified by the military standard. The purpose is to provide a power supply system.

1 is a block diagram showing a power supply system to which the present invention is applied,

FIG. 2 is a circuit diagram illustrating an EMI filter unit according to an embodiment of the power supply system of FIG. 1.

3 is a circuit diagram illustrating an EMI filter unit according to a second embodiment of the power supply system of FIG. 1.

<Description of Symbols for Major Parts of Drawings>

10: power source 11: first output terminal

12: second output stage 20: EMI filter unit

30: power conversion unit 31: the first input terminal

32: second input terminal 33 to 36: DC / DC converter

40: load

In order to achieve the above object, a power supply system according to the present invention includes a direct current power supply for supplying power through a first output terminal and a second output terminal, and a direct current that requires power supplied through the first input terminal and the second input terminal. A first power converter and a second power converter for converting electric power according to a voltage level, and the first and second power supplies of the DC power source for the purpose of blocking the external emission of electromagnetic interference signals generated by the driving of the power converter and the load and the inflow into the interior thereof. A power supply system including an EMI filter unit connected between an output terminal and first and second input terminals of the power conversion unit, wherein the EMI filter unit has a different filtering structure according to a load target and a power conversion unit to be applied, thereby providing appropriate filtering efficiency. The following two embodiments apply to accomplish this.

The EMI filter unit of the power supply system according to the first embodiment is a first inductor connected between the first output terminal and the first input terminal, a second inductor connected between the second output terminal and the second input terminal; A first capacitor connected between the first output terminal and the second output terminal; a second capacitor and a third capacitor connected in series between the first output terminal and the second output terminal in front of the first inductor; The connecting portion connecting between the second capacitor and the third capacitor is characterized in that connected to the frame ground.

According to a second embodiment, the EMI filter unit includes: a first inductor, a second inductor, and a third inductor connected in series between the first output terminal and the first input terminal; and between the second output terminal and the second input terminal. A fourth inductor, a fifth inductor, and a sixth inductor connected in series; the coils are wound in common such that the first inductor and the fourth inductor are mutually induced in a pair; A first winding having a common winding such that the fifth inductor mutually interferes with each other in a pair, and connected between the first output terminal and the second output terminal in front of the first inductor; and the first inductor A second capacitor and a third capacitor connected in series between the interval between the second inductor and the interval between the fourth inductor and the fifth inductor; And a fourth capacitor connected between the section between the second inductor and the third inductor, and the section between the fifth inductor and the sixth inductor. And a fifth capacitor connected between the first input terminal and the second input terminal, and a connecting portion connecting the second capacitor and the third capacitor is connected to the frame ground.

Hereinafter, the power supply system according to the present invention will be described in detail with reference to the accompanying drawings.

1 is a block diagram showing a power supply system to which the present invention is applied.

Referring to the drawings, the power supply system includes a power conversion unit including a EMI filter unit 20 and a plurality of DC / DC converters 33 to 36 which are power conversion devices between a power supply 10 and a load 40 serving as a supply source ( 30) is connected.

The power supply 10 is a DC power supply for supplying power through the first output terminal 11 and the second output terminal 12, and a vehicle battery for supplying a DC voltage in the range of 28Vdc to 24Vdc is applied.

The power supply 10 converts the power supplied from the power supply 10 through the first and second input terminals 31 and 32 at both ends thereof, thereby providing +24 Vdc, +15 Vdc, +5 Vdc, and -15 Vdc voltages, respectively. EMI for the case where the DC / DC converters 33 to 36 to output and the load 40 are applied to a PCB board of a coal-fired controller in which a plurality of IC integrated modules and a CPU are integrated to drive a predetermined driving target. The configuration of the filter part 20 is shown in FIG.

As the subscripts to the voltage levels in the figure, the zero HOT and the RTN are respectively referred to the positive potential negative potential.

Referring to the drawings, the EMI filter unit 20 has a first inductor 21 between the first output terminal 11 and the first input terminal 31 to have an impedance that suppresses the passage of noise by the inductance value for the high frequency component. Is provided, and a second inductor 22 is provided between the second output terminal 12 and the second input terminal 32, respectively. The first inductor 21 and the second inductor 22 are responsible for suppressing external leakage of normal mode noise, respectively.

On the other hand, the first capacitor between the first inductor 21 and the second inductor 22 so as to be a conduction path by the bypass between the two first and second output terminals 11, 12 for the high frequency component (23) is connected.

In addition, a second capacitor 24 and a third capacitor 25 which are connected in series between the first output terminal 11 and the second output terminal 12 are provided. The connecting portion, which is a connecting lead between the second capacitor 24 and the third capacitor 25, is connected to the frame ground 50 by a lead. Here, the frame ground 50 is a chassis (not shown) in which the entire apparatus is installed.

FIG. 3 is a circuit diagram of an EMI filter unit 20 applied according to the second embodiment for the purpose of reinforcing a large noise leakage suppression relative to a load controller different from the load applied in FIG. 2.

Referring to the drawings, the EMI filter unit 20 has a first inductor 41a between the first output terminal 11 and the first input terminal 31 to have an impedance that suppresses the passage of noise by the inductance value of the high frequency component. And a second inductor 42a and a third inductor 43 are provided in series, and between the second output terminal 12 and the second input terminal 32, the fourth inductor 41b and the fifth inductor 42b. And a sixth inductor 44 are provided in series.

In this case, the common mode noise of the first output terminal 11 and the second output terminal 12 is a first common winding of the coils to form a common filter 41 so that mutual interference occurs. The second inductor 42a and the fifth inductor 42b serving as the inductor 41a and the fourth inductor 41b and the other common filter 42 are suppressed.

For the normal mode noise, the third inductor 43 and the sixth inductor 44 are responsible for each line.

On the other hand, the first output terminal 11 and the second output terminal in front of the first inductor (41a) to be a conductive path by the bypass between the two first and second output terminals (11, 12) for the high frequency component ( The first capacitor 45 is connected between 12). A fourth capacitor 25 is also connected between the section between the second inductor 42a and the third inductor 43 and the section between the fifth inductor 42b and the sixth inductor 44. A fifth capacitor 49 is also connected between the first input terminal 31 and the second input terminal 32 which are the rear ends of the three inductors 43.

The first, third and fourth capacitors 24 and 25 for this purpose are called X capacitors.

Further, the second capacitor 46 and the third capacitor in series between the interval between the first inductor 41a and the second inductor 42a and the interval between the fourth inductor 41b and the fifth inductor 42b. 47 is provided.

The connecting portion, which is a connecting lead between the second capacitor 46 and the third capacitor 47, is connected to the frame ground 50 by a lead. The second capacitor 46 and the third capacitor 47 are called Y capacitors.

Each EMI filter unit 20 is structurally enumerated according to the noise elimination function, and the structure is different for each example because the noise generation characteristics vary depending on the power conversion characteristics of the applied DC / DC converters 33 to 36 themselves. This is because it is considered that the desired noise suppression effect can be obtained while suppressing the use part due to the superposition of noise generated differently for each of the connected loads 40.

By inserting the EMI filter unit 20 having such a filtering structure, the noise level generated in the 10KHz to 200MHz band fell below the specification.

As described so far, according to the power supply system according to the present invention, by employing an EMI filter unit having an appropriate filtering function according to the applied power converter and its load, it was possible to suppress the electromagnetic interference signal generation within the target regulatory range.

Claims (2)

DC power supply for supplying power through the first output terminal and the second output terminal, power conversion unit for converting the power supplied through the first input terminal and the second input terminal to the DC voltage level required by the load and the power conversion Connection between the first and second output terminals of the DC power supply and the first and second input terminals of the power conversion unit for the purpose of blocking external emission and inflow into the interior of electromagnetic interference signals generated by the driving of the unit and the load. In the power supply system having an EMI filter unit, The EMI filter unit A first inductor connected between the first output terminal and the first input terminal; A second inductor connected between the second output terminal and the second input terminal; A first capacitor connected between the first output terminal and the second output terminal; And a second capacitor and a third capacitor connected in series between the first output terminal and the second output terminal in front of the first inductor, and a connection portion connecting the second capacitor and the third capacitor to the frame ground. A power supply system, characterized in that connected. DC power supply for supplying power through the first output terminal and the second output terminal, power conversion unit for converting the power supplied through the first input terminal and the second input terminal to the DC voltage level required by the load and the power conversion Connection between the first and second output terminals of the DC power supply and the first and second input terminals of the power conversion unit for the purpose of blocking external emission and inflow into the interior of electromagnetic interference signals generated by the driving of the unit and the load. In the power supply system having an EMI filter unit, The EMI filter unit A first inductor, a second inductor, and a third inductor connected in series between the first output terminal and the first input terminal; and And a fourth inductor, a fifth inductor, and a sixth inductor connected in series between the second output terminal and the second input terminal. The coil is commonly wound so that mutual organic interference occurs in a pair between the first inductor and the fourth inductor, and the coil is commonly wound so that mutual organic interference occurs in a pair between the second inductor and the fifth inductor. There is, A first capacitor connected between the first output terminal and the second output terminal in front of the first inductor; A second capacitor and a third capacitor connected in series between the interval between the first inductor and the second inductor and the interval between the fourth inductor and the fifth inductor; And A fourth capacitor connected between the section between the second inductor and the third inductor, and the section between the fifth inductor and the sixth inductor; And a fifth capacitor connected between the first input terminal and the second input terminal, wherein a connection portion connecting the second capacitor and the third capacitor is connected to the frame ground.