JPH03246709A - Information processing apparatus - Google Patents

Abstract

PURPOSE:To reduce the radiation noise of an electromagnetic interference without being influenced by a surface state of a connecting part and variance of contact pressure by using a freely bendable band-like conductor having conductivity as an earth cable and connecting the earth cable and a unit like a band. CONSTITUTION:Cloth 4 to which nickel plating is performed is a freely bendable band-like cable having conductivity, and the earth cable 4 and a unit are con nected like a band by holding plates 5a, 5b. Subsequently, the holding plates 5a, 5b are fixed to the unit with screws 6a-6d, and the cloth to which nickel plating is performed, being under the holding plates 5a, 5b is connected to a metallic plate 8 to which insulation painting is performed through a film of insulation painting without peeling off an insulation painting film. That is, since a band-like conductor having conductivity is used as an earth cable, impedance in a high frequency drops, and a reflection generated due to mismatching of impedance between the earth cable and a connecting part of a main unit also decreases. In such a way, a radiation noise of an electromag netic interference from a moved part unit is reduced.

Description

DETAILED DESCRIPTION OF THE INVENTION Field of the Invention The present invention relates to an information processing device consisting of a plurality of units mounted on a movable mechanism.

Conventional technology In information processing equipment that consists of multiple units attached by a movable mechanism, the unit with the lowest impedance is called the main unit, and the lJS type unit attached to the main unit by the movable mechanism is called the movable part. I call them Uni and To.

Conventionally, as a measure to reduce the radiation noise of electromagnetic interference from the moving unit, an insulated copper wire or braided wire with a crimp terminal was used as a ground cable and connected to the conductive part of the main unit. Furthermore, the conductive surface of each unit and l- connection portion was exposed in order to establish direct current continuity.

The structure of a conventional ground cable and connection will be explained below.

FIG. 7 shows the structure of a conventional ground cable and connection. 21 is a metal casing with insulation coating, 22
23 is a metal frame, and 23 is a punched metal plate.

The movable unit has a metal frame 22 and a punched metal plate 23, and contains therein a mechanism and an electric circuit for realizing functions specific to the unit. 251L
, 25b is a hinged movable mechanism for the main unit and the movable unit. 26 is a part of the metal casing 21, and is a metal plate coated with insulation.

27 is a signal cable that connects the electric circuit included in the main unit and the electric circuit included in the movable unit to 281.
The connection is made through the connector L, 28b.

201L and 20b are braided wires with crimp terminals, and 24&, 24b serve as ground cables.

It is connected to a metal plate 26 coated with insulation using screws 24C and 24d. Braided wire with crimp terminal 20&, 20b
The insulation coating is removed from the connection between the crimp terminal and the metal plate 26 coated with insulation.

Further, FIG. 8 shows an information processing device in which the ground cable and the connecting portion have the structure shown in FIG. 7. Hereinafter, this will be referred to as a conventional device. In FIG. 8, 29 is a metal housing coated with an insulating coating, 30 is a display unit having a cable and connection structure that is upside down as shown in FIG.
is the display surface of the display unit. 32 is a floppy disk unit having the cable and connection structure shown in FIG. 7; 33 is a floppy disk insertion slot; 34
For example, the keyboard section is shown.

Using the ground cable and connection structure configured as described above, the conductive part of the movable unit is electrically connected to the conductive part of the main unit, as a measure to reduce radiation noise of electromagnetic interference.

FIG. 9 shows the results of measuring the amount of electromagnetic interference radiation noise of the conventional device.

Problems to be Solved by the Invention However, with the above-mentioned conventional configuration, it is difficult to obtain a sufficient effect in reducing the radiation noise of electromagnetic interference. Multiple ground cables were used. If this configuration were to achieve the desired effect, the amount of conductor used in the grounding cable would increase, resulting in increased weight and
Also, a ground cable that is too thick has the disadvantage of causing problems with mobility.

In addition, if each unit and unit are painted with insulating material,
I had to remove the paint from the connections.

Furthermore, due to variations in the surface condition of the connection part and contact pressure,
This has the disadvantage that the amount of radiation noise fluctuates.

The present invention solves the above-mentioned conventional problems, suppresses the disadvantages of increased weight and impediments to mobility, and eliminates electromagnetic interference while being almost unaffected by variations in the surface condition and contact pressure of the connection part. The purpose is to reduce radiation noise.

Means for Solving the Problems In order to achieve this object, the present invention has a structure in which a bendable electrically conductive strip conductor is used as a ground cable, and the ground cable and units are connected in a strip shape. There is.

Function: By using this structure, disadvantages such as increased weight and problems with mobility can be suppressed, and there is almost no influence from variations in the surface condition of the connection parts or contact pressure, and electromagnetic interference from the moving parts is suppressed. Radiation noise can be reduced.

By changing the shape of the conductor from a line to a strip and increasing the width of the strip, the surface area of the conductor increases, the skin effect increases, and the impedance of the conductor at high frequencies decreases.

Therefore, by using a conductive band-shaped conductor as the ground cable, the impedance at high frequencies is reduced, and reflections caused by impedance misalignment and tinkling between the ground cable and the connection between the main unit and the main unit are also reduced. This reduces radiation noise of electromagnetic interference from the movable unit compared to conventional methods.

Furthermore, since the connecting portion is band-shaped, there is little change in the impedance of the connecting portion due to variations in the surface condition or contact pressure of the connecting portion, which provides a stable measure for reducing electromagnetic interference radiation noise.

Furthermore, even if an insulating film is present between the ground cable and the ground cable, there is no need to expose the conductive surface to establish direct current continuity due to the capacitance between the two.

EXAMPLE Hereinafter, an example of the present invention will be described with reference to the drawings.

FIG. 1 shows the structure of the ground cable and connection of the present invention. In FIG. 1, numeral 1 denotes a metal casing coated with insulation, which is one of the main components of the main unit. 2 is a metal frame, and 3 is a punched metal plate. The movable unit has a metal frame 2 and a punched metal plate 3, and includes therein a mechanism and an electric circuit for realizing functions specific to the unit. 4 is a nickel-plated cloth, which corresponds to the conductive and bendable belt-shaped cable of the present invention. 51L and 5b connect the ground cable of 4 and the unit in a belt shape using a holding plate. 6u, 6b, 6c, 6 (1 fixes the holding plate to the unit with screws. The nickel-plated cloth under the holding plates sa and sb is attached to the insulating coated metal plate 8. The paint film is connected via the insulating paint film without being removed.7
2L and 7b are hinged movable mechanisms for the main unit and the movable unit. 8 is a part of the metal casing 1, and is a metal plate coated with insulation. 9 is a signal cable, and 10a is an electric circuit included in the main unit and an electric circuit included in the movable unit.

The connection is made through the connector 10b.

FIG. 2 shows an information processing device in which a display unit, a display unit, a disk unit, and a disk unit are configured as mutually independent movable units having the structure of the present invention.

In FIG. 2, 11 is a metal casing with insulation coating;
12 is a display unit having a cable and connection structure with the top and bottom of FIG. 1 reversed; 13 is a display surface of the display unit; 14 is a floppy disk unit having the cable and connection structure shown in FIG. 1; Reference numeral 15 indicates an insertion slot for a Fronby disk, and reference numeral 16 indicates a keyboard section.

FIG. 3 shows the results of measuring the amount of electromagnetic interference radiation noise for the information processing equipment configured as described above. As can be seen by comparing Fig. 3 with Fig. 9, the device of this embodiment has a power consumption of 150 Mflz to 230 Mflz compared to the conventional device.
It has a radiation noise reduction effect of electromagnetic interference of about 1 odB from esdB.

The results of measuring 10 devices showed that the variation was less than 10 dB for the conventional device, but for the device of the present invention,
It was reduced to 2 (IB or less).

The above measurement results were taken in an electromagnetic interference countermeasure room with electromagnetic wave absorbers on the entire surface, with an antenna height of 1.4 meters, a distance of 3 meters from the device under test, and the device under test rotated once.
This was done using a spectrum analyzer. However, the measurement results were not corrected by the characteristics of the antenna and the measurement room.

Incidentally, as a method of attaching the connecting portion shown in FIG. 1, an auxiliary metal fitting may be attached to the unit and the unit as shown in FIG. 4.

FIG. 4 shows a method for attaching the connection part using an auxiliary metal fitting.

In FIG. 4, 17 is an auxiliary metal fitting 6e.

6f fixes the auxiliary metal fitting 17 to the metal plate 8. Auxiliary metal fittings 1
7 and a metal plate 8 coated with an insulating coating are connected in a band shape. The auxiliary fitting 17 and the nickel-plated cloth 4 are also connected in a band-like manner.

Note that instead of the connecting portion shown in FIG. 1, adhesives 19 & 18 b may be used as shown in FIG. 6.

A cloth 4 coated with Ni-Kel plating and a metal plate 8 coated with insulation are connected in a band shape using adhesives IBa and 1sb.

When signal transmission between units and units is performed using a flat cable, as shown in FIG. It may also function as both a flat cable shield conductor and a flat cable shield conductor.

Examples of the band-shaped conductor include tape made of copper foil or aluminum foil, cloth woven with conductive fibers, and paper or cloth subjected to conductive treatment.

Although the movable mechanism is a simple hinge with one degree of freedom, it may be a complex structure with two or more degrees of freedom.

Further, the metal casing may be an insulating casing coated with conductive plating, and the metal plate may be an insulating plate coated with conductive plating.

Effects of the Invention As described above, the present invention has a structure in which a bendable electrically conductive band-shaped conductor is used as a ground cable to connect the cable and the units in a band-like manner between units attached by a movable mechanism. As a result, it is possible to suppress the disadvantages of increased weight and problems with mobility, and to achieve excellent effects as a measure to reduce the radiation noise of electromagnetic interference without being affected by variations in the surface condition of the connection part or contact pressure. be.

Furthermore, even if there is an insulating film between the ground cable and the unit, there is an effect that there is no need to expose the conductive surface to establish direct current continuity due to the capacitance between the two.

[Brief explanation of drawings]

FIG. 1 is a perspective view showing the main parts of an information processing device according to an embodiment of the present invention, FIG. 2 is an external perspective view of the same embodiment, and FIG.
The figure is a characteristic curve diagram of the radiation noise of electromagnetic interference in the same example.
Figure 5 is a perspective view showing the main parts of another embodiment of the present invention.
The figure is a perspective view of still another embodiment, FIG. 6 is a perspective view of still another embodiment, FIG. 7 is a perspective view showing the main parts of the conventional example, and FIG. 8 is the conventional example shown in FIG. 7. FIG. 9 is a characteristic curve diagram of radiation noise of electromagnetic interference in the conventional device shown in FIG. 8. 1 - Metal casing with insulation coating, 2...
・Metal frame, 3...Punching metal plate, 4
...Nickel plated cloth, 5a, sb...
・・Press plate, e51L, 6b, 6C, 6d, 66.6f
, 6g. 6h... Screw, 71L, 7b... Hinge, 8... Metal plate with insulation coating, 9...
...Nickel plated cloth, 10a, 10b...
・Connector, 11...Metal casing with insulation coating, 12
...Display unit, 13...Display surface,
17...Auxiliary metal fittings, 182L, 18b...
...adhesive, 19...nickel-plated cloth.

Claims (1)

[Claims] Between the housings of units connected by a movable mechanism,
An information processing device characterized by being connected by a flexible band-shaped conductor having conductivity.