JPH0532986Y2 - - Google Patents

Description

[Detailed Description of the Invention] A. Field of Industrial Application The present invention relates to an interference wave prevention transformer, and particularly relates to a transformer having both a Faraday shield and an earth shield.

B. Summary of the invention The present invention is an interference wave prevention transformer that has both a Faraday shield and an earth shield. This makes it possible to effectively prevent normal mode noise appearing between lines from being transmitted to the secondary.

C. Prior Art An interference wave prevention transformer normally has a primary winding 1 and a secondary winding 2 separated in the axial direction as shown in FIG.
An earth shield 3 is interposed between the primary and secondary windings 1 and 2 to electrostatically shield them. On the other hand, the fourth
As shown in the figure, the surfaces of the primary winding 1 and the secondary winding 2 are all box-shielded with a Faraday shield 4, and this Faraday shield 4
is connected to the primary terminal 5 by the wiring 6 connected to the primary terminal 5.
The slits 7, 7 are provided on the primary terminal 5 side and on the opposite side thereof so as not to form a turn. Also, earth shield 3
A slit 8 is provided so as not to form a turn. Although omitted in Figure 4, the secondary winding is provided with the same Faraday shield as the primary winding.
It is located symmetrically to the primary winding with the earth shield 3 in FIG. 4 in between.

Here, the function of Faraday Shield will be explained. A normal shielded transformer only has an electrostatic shielding plate (corresponding to earth shield 3 in Figure 3) between the primary winding and the secondary winding.
There is no Faraday shield that covers the next winding. Therefore, distributed capacitance exists between each winding and the primary-secondary electrostatic shielding plate (hereinafter referred to as an earth shield). Therefore, when an interference wave with a high frequency component (hereinafter referred to as noise) enters the primary terminal of a transformer from the outside, the high frequency component of the noise passes through the distributed capacitance between the primary winding and the earth shield. Flows towards the earth shield. In other words, noise current flows toward the earth shield even from the middle of the primary winding, which is wound many turns.
As a result, the noise current flows so as to be linked to the magnetic circuit created by the iron core, and due to electromagnetic induction, 2
Noise appears in the next winding. In other words, since noise is transferred from the primary to the secondary of the transformer, the noise prevention effect of a shield transformer provided with only a simple earth shield is small.

The Faraday shield eliminates the distributed capacitance between the winding and the earth shield, thereby compensating for the above drawback. In other words, a Faraday shield is applied by covering the surface of the primary winding with a metal shielding plate, the potential of the primary terminal is applied to this, and an earth shield is provided between the primary winding and the secondary winding. In this interference wave prevention transformer, the noise current that has entered the primary terminal flows directly from the Faraday shield to the earth shield. The winding is shielded with Faraday shield,
Since there is no distributed capacitance with the earth shield, no noise current flows toward the winding. In this way, it is possible to prevent noise from moving from the primary to the secondary due to electromagnetic induction.

Further, the reason why the secondary winding is provided with a Faraday shield similar to that of the primary winding is to prevent noise from transferring from the secondary side to the primary side.

D. Problems to be Solved by the Invention The circuit diagram of the above-mentioned conventional interference wave prevention transformer is shown in FIG. 5. The normal mode noise En appearing between the lines flows through the path shown by the dotted line in the figure via the capacitance Cfe between the earth shield 3 and the earth shield 4. This noise current in
When flowing through the earth shield 3, it flows so as to be linked to the iron core as shown in the figure, so this noise current acts to induce a noise voltage in the secondary winding 2. Therefore, there is a problem that the noise blocking effect in the normal mode is not good.

E. Means for Solving the Problems In order to solve the above problems, the present invention, in the above-mentioned interference wave prevention transformer, forms a slit so that the Faraday shield and the earth shield do not form one turn. In this case, the slit positions of the Faraday shield and the earth shield are shifted by 90 degrees from each other, and slits are provided at two locations in each.

F Effect According to the present invention, the noise current in normal mode
Since in flows in directions that magnetically cancel each other out on any side of the earth shield, the magnetic coupling to the secondary winding disappears, and normal mode noise is not transmitted to the secondary winding.

G. Example An example of the present invention will be described below based on the drawings. FIG. 1 is a partial perspective exploded view and circuit configuration diagram corresponding to FIG. 4 and FIG. 2 to FIG. 5, respectively.

In the figure, the same reference numerals as those in the prior art diagram indicate the same parts, and redundant explanations thereof will be omitted.

The characteristic structure of the present invention is that the earth shield 3 is divided into an earth shield 3a on the primary terminal 5 side and an earth shield 3b on the secondary terminal 5a side by two slits 8, 8 as shown in FIG. In addition, each earth shield 3a, 3b is individually grounded. On the other hand, Faraday shield 4 is the same as the conventional one, and has slits 7 and 7.
and the slits 8, 8 are arranged 90 degrees apart from each other. Therefore, both Faraday shield 4 and earth shield 3 have two slits.

With such a configuration, the normal mode noise current flows through any side of the earth shield 3 in a direction that magnetically cancels each other out, as shown in FIG. The magnetic coupling with the secondary side disappears, and normal mode noise is not transmitted to the secondary side.

H. Effects of the invention According to the invention explained above, two slits are formed in the earth shield that are displaced by 90 degrees from the slit of the Faraday shield, resulting in a two-part structure, and each of the two divided earth shields is divided into two slits. Because they are individually grounded, the normal mode noise is reduced to 2.
Effectively prevents transmission to the next winding.

[Brief explanation of the drawing]

Fig. 1 is an exploded perspective view of a main part of an embodiment of the present invention, Fig. 2 is a circuit diagram thereof, Fig. 3 is a vertical sectional view of a conventional example, and Fig. 4 is an exploded perspective view of a main part of Fig. 3. ,
FIG. 5 is a circuit diagram of this conventional example. 1...Primary winding, 2...Secondary winding, 3a, 3b
...Earth Shield, 4...Faraday Shield, 7, 8...Slit.

Claims (1)

[Scope of utility model registration request] An electric wire insulated with enamel coating, heat-resistant paper coating, etc. is wound the required number of times and formed into a pancake shape.The surface of the primary winding and secondary winding is formed with an opening and a slit provided so as not to form a turn. The primary winding and the secondary winding are separated in the axial direction of the core and are provided with a Faraday shield, which is made by covering the entire winding with copper foil or aluminum foil to insulate the winding. However, in the interference wave prevention transformer in which an earth shield having a ground potential is arranged between the primary winding and the secondary winding, the Faraday shield and the earth shield each do not form one turn. When forming the slits in this way, make sure to connect the Faraday shield slits to the earth shield.
An interference wave prevention transformer characterized by having an earth shield divided into two parts by forming two slits displaced by 90 degrees.