JPH052008B2 - - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION [Technical Field of the Invention] The present invention relates to a line filter that reduces so-called normal mode noise and common mode noise that occur when a switching power supply device is used.

[Technical Background of the Invention and Problems Therewith] Generally, when a switching power supply is used as a power supply device of an electronic device, so-called conduction noise is generated, and this conduction noise causes malfunction of the device.

Conduction noise can be roughly divided into common mode noise (common mode noise) and normal mode noise (differential noise). Normal mode noise can be easily removed using known techniques, but common mode noise cannot be removed. It's extremely difficult.

In order to effectively reduce such common mode noise and to provide a low-cost line filter, the present inventor published Japanese Patent Application No. 59-277716 entitled "Line Filter".
proposed.

The proposed line filter has a circuit shown in FIG.

In the same figure, _L1 is a chiyoke coil (hereinafter simply referred to as a baln) consisting of a baln whose distributed capacitance is reduced by suppressing inductance;
L ₂ is a balun with larger inductance than baln L ₁ , C× ₁ and C× ₂ are X capacitors connected between L and N, and C ₁ , C ₂ and C ₃ and C ₄ are between L/N and G. The figure shows a Y capacitor inserted in the figure. In addition,
The sum of the capacitance of Y capacitor _C1 and _C2 is Y capacitor
It is larger than the sum of the capacitances of C ₃ and C ₄ .

This allows the capacitance of the Y capacitor to be kept within the upper limit value for safety measures, and moreover, common mode noise can be effectively removed without increasing the dimensions of the balloons L ₁ and L ₂ .

By the way, when this line filter is mounted in an actual device, it is arranged as shown in FIG. 9, for example.

In the figure, 1 is a housing of the device, 2 is a power cord having a plug at one end and a cord connector 2a at the other end, 3 is an inlet to be connected to the connector cord 2a, 4 is an AC input unit, 5a, 5b ，
Reference numeral 7 designates internal wiring for connecting the units, 6 a switching power supply unit, and 8 a data processing unit. Note that the AC input unit 4 is usually provided close to the inlet 3 of the power cord 2 through the housing. In addition, the line filter mentioned above is
It is mounted on the AC input unit 4.

However, in such a device, since the switching power supply unit 6 and the AC input unit 4 are installed at separate locations via the internal wiring 5b, the common mode noise current generated from the switching power supply unit 6 is connected to the switching power supply unit 6. The leakage magnetic flux generated by circulating through the network circuit consisting of Y capacitors C ₃ and C ₄ increases,
Balloons L ₁ and Y located close to the network circuit
An induced voltage is generated in the network circuit consisting of capacitors C ₁ and C ₂ , and the common mode noise current generated by this induced voltage causes strain capacitance on the input side, which may cause common mode noise to leak to the outside. Ta.

In addition, since balun _L1 and balun _L2 are arranged close to each other in the line filter, the common mode noise current generated from switching power supply unit 6 flows to balun _L2 , and this balun
Magnetic flux is induced from L ₂ and flows through the air into the balloon.
Combines with L ₁ , an induced voltage is generated in this balloon L ₁ ,
The common mode noise current generated by this induced voltage causes straight capacitance on the input side, and common mode noise sometimes leaks to the outside.

[Object of the Invention] The present invention has been made in response to such circumstances, and an object thereof is to provide a line filter that can effectively prevent common mode noise input from the load side from leaking from the input side. The purpose is

[Summary of the Invention] That is, the line filter of the present invention includes a first chiyoke coil inserted between lines on the input side;
A second Y-type capacitor inserted between the lines on the load side, a first Y capacitor inserted between the line on the output side of the first Y-type coil and the ground, and a first Y capacitor inserted between the lines on the output side of the first Y-type coil. a first X capacitor, a second Y capacitor inserted between the line and ground on the output side of the second choke coil, and a second X capacitor inserted between the lines. The line filter is divided into a first unit including the first chain coil and a second unit including the second chain coil and the second Y capacitor, and each of these units is divided into a predetermined unit. Place them at intervals of
This makes it possible to effectively prevent common mode noise input from the load side from leaking from the input side.

[Embodiments of the Invention] Hereinafter, details of embodiments of the present invention will be described based on the drawings.

FIG. 1 is a diagram showing the arrangement of units within a device in which the line filter of this embodiment is mounted.

In the figure, parts that are the same as those in the conventional example are given the same reference numerals.

In the figure, 1 is the housing of the device, 2 is a power cord having a plug at one end and a cord connector 2a at the other end, 3 is an inlet to which the cord connector 2a is connected, 4 is an AC input unit, 5, 7 6 is a switching power supply unit, and 8 is a data processing unit.

Further, the AC input unit 4 is provided close to the inlet 3 of the power cord 2 through the housing. That is, the AC input unit 4 is provided apart from the switching power supply unit 6, and these are connected by the internal wiring 5.

In the device configured in this way, the line filter of this embodiment divides the circuit shown in FIG. It was stored in.

The above-mentioned first stage portion will be explained with reference to the circuit diagram shown in FIG.

In the figure, L ₁ is a chiyoke coil consisting of a balloon with two coils wound in phase around one circular core, Cx ₁ is a capacitor inserted between the lines, and C ₁ and C ₂ are two coils between the line and ground. A capacitor is inserted between the lines, and R is a resistor inserted between the lines.
S ₁ and S ₂ are each inserted into the line and are interlocked.
ON-OFF switches F ₁ and F ₂ indicate fuses inserted in the respective lines.

Further, the latter part described above will be explained with reference to the circuit diagram shown in FIG.

In the figure, L ₂ is a chiyoke coil consisting of a balloon with two coils wound in phase around one circular core, Cx ₂ is a capacitor inserted between the lines, and C ₃ and C ₄ are two capacitors between the lines and ground. The inserted capacitor is shown.

Furthermore, this latter part is in the same circuit as the switching power supply.

In other words, Rect is a rectifier that rectifies alternating current to direct current, C _F1 is a smoothing capacitor, Q _P is a switching transistor inserted between the emitter and collector on one line, T is a converter transformer, and D ₁
is a rectifying diode that rectifies the switching AC voltage induced on the secondary side of the converter transformer T to convert it into DC, and C _F2 is a smoothing capacitor. Then, the switching transistor Q _P is turned on and off by a control circuit (not shown), so that the DC output voltage V ₀ is taken out from the + and - terminals.

The function of a line filter can be obtained by connecting the front-stage part and the rear-stage part constructed in this way by internal wiring.The operation of the line filter of this embodiment will be explained based on the circuit diagram of FIG. 4.

The common mode noise generated by the switching operation of the switching transistor _QP is generated on the secondary side of the converter transformer T as a common mode noise current through the stray capacitance _CC of the switching transformer T. This common mode noise current flows to the ground connection point E ₁ , and then flows into this circuit from the ground connection points E ₂ , E ₃ , and E ₄ on the primary side of the converter transformer T via the ground metal of the chassis, the ground wiring, etc. Inflow.

The common mode noise current flowing from the ground connection point E ₂ is i _C1 , the one flowing from the ground connection point E ₃ is i _C2 , and the one flowing from the ground connection point E ₄ is i _C3 . i _C1 returns into the switching power supply circuit via Y capacitors C ₃ and C ₄ , i _C2 returns into the line filter via Y capacitors C ₁ and C ₂ , and i _C3 returns via power cord 2. It flows out to the outside and returns to the inside of the line filter via stray capacitances C _S1 and C _S2 . The stray capacitance is formed between the power cord 2, indoor wiring, etc., and the ground.

By the way, it is clear that the switching noise current becomes |i _C1 |>i _C2 |>|i _C3 | due to the noise attenuation effect of the line filter.

On the other hand, in this embodiment, the path through which i _C1 , which has the largest switching noise current, flows (the network circuit consisting of the switching power supply circuit and Y capacitors C ₃ and C ₄ ) is shortened, and this network circuit and the balun L ₁
Since they are arranged at a predetermined interval, the leakage magnetic flux due to this i _C1 is reduced, and as a result, the generation of common mode noise is eliminated.

Furthermore, since balun L ₁ and balun L ₂ are arranged at a predetermined interval, the magnetic flux generated in balun L 2 and balun _{L 1 will} not be coupled due to i _C2 , and the generation of common mode noise will be prevented. It disappears.

In the embodiment described above, the switching S ₁ and the fuses F ₁ and F ₂ in the front stage shown in FIG.
is inserted between the resistor R and the output side of this pre-stage section, but the present invention is not limited to this. For example, as shown in FIG. It may be inserted between ₁ and 1.

Furthermore, as shown in Fig. 3, the latter part of the line filter is inserted between the input side of this latter part and the rectifier Rect, but the invention is not limited to this, and as shown in Fig. 6, the rectifier It may also be inserted between Rect and the switching power supply.

Furthermore, as shown in Figure 3, the Y capacitor
C ₃ , C ₄ and X capacitor Cx ₂ are chiyoke coils
Although it was inserted between the line between L ₂ and the rectifier Rect, the present invention is not limited to this, and as shown in FIG. Also good.

[Effects of the Invention] As described above, according to the line filter of the present invention, the line filter can be divided into the first unit including the first choke coil and the second capacitor including the second choke coil and the second Y capacitor. However, by arranging these units at predetermined intervals, it is possible to effectively prevent common mode noise input from the load side from leaking from the input side.

[Brief explanation of the drawing]

FIG. 1 is a diagram showing the configuration of a unit of an apparatus according to an embodiment of the present invention, FIGS. 2, 3, and 4 are diagrams showing the circuit configuration of this embodiment, FIGS. 5, 6,
7 is a diagram showing a circuit configuration of a modified example of the present invention, and FIGS. 8 and 9 are diagrams for explaining a conventional line filter. L ₁ , L ₂ ...Chiyoke coil, Cx ₁ , Cx ₂ ...X
Capacitor, C ₁ , C ₂ , C ₃ , C ₄ ...Y capacitor.

Claims (1)

[Scope of Claims] 1. A first Yoke coil inserted between lines on the input side, and a first Y capacitor inserted between the line on the output side of the first Yoke coil and the ground; A line filter on the input side consisting of a first X capacitor inserted between the same lines, a second CHI Yoke coil inserted between the lines on the load side, and an output side of the second CHI Yoke coil. A line filter on the load side consisting of a second Y capacitor inserted between the line and the ground and a second X capacitor inserted between the line, and an inductance of the second choke coil. is larger than the inductance of the first Y-yoke coil; and among the components of the line filter on the load side, at least the second Y capacitor and the line filter on the input side are arranged at a predetermined interval. and a line filter for arranging the line filter. 2. The line filter according to claim 1, wherein each of the first and second choke coils is constituted by a balloon.