KR200198503Y1 - D-sub connector wintin ferrite core - Google Patents

Abstract

The present invention is equipped with a ferrite core that can prevent unnecessary electromagnetic waves from flowing from the outside by embedding a ferrite core in the D-SUB-CONNECROR in a computer signal cable (COMMPUTER SIGNAL CABLE). One desubconnector, the main feature of the present invention is that the conventional cable is hanging around the ferrite core is unsightly and occupies a large space, whereas the cable according to the present invention is inside the desubconnector Since the ferrite core is built in a very simple shape, it can be used for all monitors, and in the case of LCD monitors that are growing rapidly in accordance with the times, it is a design that can be used optimally.

In addition, the ferrite core embedded in the discontinued connector of the present invention penetrates the pinholes related to the video color signal RG B among the plurality of pinholes formed in the ferrite core to each other, thereby reducing the inductance value generated when the connecting pin passes through the ferrite core. By setting it to 0, it is possible to obtain the EMI effect without affecting the resolution of the monitor at all.

Description

D-Sub Connector wintin ferrite core with ferrite core

The present invention relates to a desub connector equipped with a ferrite core that can prevent unnecessary electromagnetic waves from flowing from the outside by embedding a ferrite core in a D-SUB-CONNECROR in a computer signal cable. Conventionally used computer cables have a cylindrical ferrite core 30 inserted outside the cable as shown in FIGS. 1 and 2 as a countermeasure against electromagnetic interference, and the outer shell is molded with a synthetic resin so that the core is suspended. In addition, when the computer is installed, the cable is connected to the back of the computer, so the cable is not bent smoothly due to the ferrite core attached to the cable.

Therefore, in order to solve these disadvantages and not affect the resolution at all, the ferrite core having a plurality of pinholes is embedded in the de-sub connector, and the common pins are selected to be grounded by selecting the required pinhole among the plurality of pinholes formed in the ferrite core. This is a sub-connector grounded with).

The present invention, in the insulator (3) that is embedded with a ferrite core (4) inside the sub-connector, connects the ground pinhole formed in the insulator (3) with a metal material (7) which is electrically conductive, The connection part is to be grounded in advance to the metal shell (1). The conventional common method is to cut the lead wire and overlap the pins and pins so that workability is very difficult. However, the present method is a pinhole formed in the insulator, and a metal material between the pinhole and the pinhole to be grounded. If the connection part is grounded with a metal shell after being connected, the connection pin is brought into contact with the connection part when the connecting pin is inserted, and the ground can be grounded. The workability is greatly improved.

1 is a perspective view of a cable equipped with a conventional ferrite core.

Figure 2 is a perspective view of a conventional ferrite core.

3 is a perspective view of a ferrite core of the present invention.

Figure 4 is a perspective view of the insulator (Insulator) of the present invention.

5 is an exploded perspective view of the disconnect connector of the present invention;

Figure 6 is a longitudinal cross-sectional view of the sub connector of the present invention.

7 is a cross-sectional view taken along the line A-A of FIG.

8 is a cross-sectional view taken along the line B-B in FIG.

9 is an inductance cancellation diagram when a connecting pin passes through a ferrite core of the present invention.

The present invention incorporates a fixed plate (5), a ferrite core (4), and an insulator (3) having a plurality of pinholes (8) formed therein so as to insert a plurality of connecting pins (6) inside the subshell (1) (2). In one sub-connector, the ferrite core 4 has formed at least three insertion grooves 9 in which two pinholes of the plurality of pinholes 8 formed in the ferrite core 4 are integrated with each other. The insulator 3 is a metal material 7 having good conductivity so that the pin holes to be grounded among the plurality of pin holes 8 formed in the insulator 3 are commonly connected to each other. It is a disconnect connector with a ferrite core.

The sub-connector configured as described above will be described in more detail as follows.

First, the ferrite core 4 inserted into the sub-connector includes a plurality of pin holes into which the connecting pin 6 is inserted, and the pin holes pass through the pin holes 8 and the plurality of pins (2 pins) through which the singular pin passes. The insertion groove 9 is a pinhole, which is a pinhole. The insertion groove 9, which is a pinhole, through which the plurality of pins pass, is a pinhole for passing an RG B signal, which is a video color signal signal of a signal. The chromaticity signal RG B signal of the original computer is transmitted to the coaxial line, and the coaxial line is composed of a signal line and a ground line so that the inductance generated when the line is inserted into each pinhole is doubled and the time Of delay occurs. In the case of color CRTs, this time delay results in color staggering of the electrons passing through the shadow mask, so that an accurate signal cannot be reproduced.

However, when the pinholes are connected to each other to allow the plurality of pins to pass through like the ferrite core of the present invention, the inductance is canceled magnetically in the round trip, so that the inductance becomes zero and no time delay occurs. This will be described in more detail with reference to the accompanying drawings.

FIG. 9 shows the canceling effect of the inductance of the connecting pin passing through the ferrite core, and two connecting pins pass through the pinhole portion of the ferrite core in parallel. When a signal current flows through this connection pin, it flows in the direction of the arrow of A, and conversely, the signal of another direction flows in the direction of the arrow of B.

Therefore, magnetic lines of force are generated around the connecting pins as shown in 48 and 49. If the magnetic field lines indicated at 48 are rotated in the right direction, the magnetic field lines are reversed as in 49. In addition, the portion of the distance L portion surrounded by the magnetic material of the ferrite core is canceled in the positive (+) and negative (-) portions and becomes zero. Therefore, the inductance is erased from each other in the pinhole through which the plurality of pins pass, and becomes zero. Due to this, there is no inductance component, so that no time delay of the signal occurs and high frequency signal noise can be prevented.

Therefore, when the image is reproduced on the CRT with less time delay, the color shift does not occur so that a clear image having no effect on the resolution may be reflected on the CRT. In other words, by integrating the red hole and the red ground hole, the green hole and the green ground hole, the blue hole and the blue hole hole in the ferrite core part together, the component of the inductance value due to the influence of the ferrite core becomes zero, and the monitor The time delay of the rise time and fall time of the video color signal, which dominate the resolution, does not affect the resolution of the monitor and the EMI effect is also great.

Hereinafter, the insulator 3 which connects between a pinhole and a pinhole by the metal material with high conductivity is demonstrated.

The insulator 3 is composed of 15 pinholes to match the pinholes formed in the ferrite core 4, and selects the ground pinhole to be grounded from the pinholes so as to be connected with a metal having good conductivity. In the above, the pinhole connected to the metal material 7 is a red ground hole 6, a green ground hole 7, a blue 8 ground hole, a ground hole of 4 holes, 10 holes, and 11 holes.

The method of connecting the metal material having good conductivity to the ground hole can be performed very easily by a conventional method since the insulator material is a general synthetic resin material.

When the insulator 3 connected as described above is inserted and inserted into the sub-connector together with the ferrite core 4, the connection portion of the metal material 7 can be assembled to be grounded to the metal shell 1 as much as possible. The ground is easily made through the metal shell.

That is, when the ground connecting pin is inserted into the ground hole, the engaging portion 6 'of the connecting pin 6 comes into contact with the connection portion of the metal material 7, and the connection part is grounded to the metal shell 1. The ground is made. On the other hand, the metal material used in the connection portion may be any one as long as the conductivity is good, such as copper, brass, silver, aluminum.

The conventional cable is very ugly in appearance since the ferrite core is suspended. However, if the ferrite core is embedded in the deserve connector as in the present invention, the shape is very simple and can be used for all monitors. Especially, it can be used for LCD monitors that are growing rapidly in accordance with the times. In particular, since the ferrite core is installed in the cable itself, there is no need to mold with synthetic resin, thereby simplifying the production process and operation, and mass production is possible, thereby obtaining a process profit. In addition, the ferrite core of the present invention is about 3mm-5mm in thickness, about 1cm in height, and about 1.7cm in length, so it is only about 1/10 of the conventional cylindrical ferrite core, thus saving considerable production cost. You can do it. In addition, when the ferrite core is mounted in the cable itself as in the prior art, since the molding is made of synthetic resin, if the ferrite core is defective or there is an abnormality during the molding operation, the entire cable cannot be used. However, in the present invention, only the ferrite core is a defective product. It is possible to prevent such a closed end in the past, and in terms of efficacy, each connection pin passes through the ferrite core pinhole, so that the electromagnetic interference effect can be improved compared to the conventional method, and not only the deserve connector but also the circular connector It is applicable. Furthermore, the red hole, green hole, and blue hole formed in the ferrite core are penetrated through the red ground hole, green ground hole, and blue ground hole, respectively, so that the inductance component value of the video color signal passes through the ferrite core. It's a breakthrough that doesn't affect the monitor at all. In addition, it is a sub-connector that maximizes workability by connecting six holes corresponding to ground holes among the 15 holes formed in the insulator by using a metal having good conductivity and by allowing the connection part to be grounded to the metal shell.

Claims (3)

De-sub connector with built-in fixing plate 5, ferrite core 4, and insulator 3 having a plurality of pinholes 8 formed therein so as to insert a plurality of connecting pins 6 inside the metal shell 1, 2. In the ferrite core (4) formed at least three insertion grooves (9) in which two pinholes of the plurality of pinholes (8) formed in the ferrite core (4) are integral with each other, the insulator (3) ) Is a sub-sub with embedded ferrite core, characterized in that the pinholes 8 of the plurality of pinholes 8 formed in the insulator 3 are connected and coated with a metal material having good conductivity so that the pinholes to be grounded are common. Connector. 2. The sub-connector with a ferrite core according to claim 1, wherein the metal material (7) connected to the insulator (3) is selected from copper, brass, silver and aluminum. The pinhole of claim 1 or 2, wherein the pinhole to be connected to the metal material (7) comprises six holes, seven holes, eight holes, four holes, ten holes, and eleven holes. A desub connector with a ferrite core, characterized in that the connection portion of the metal material (7) is grounded to the metal shell (1).