JPH10125144A - Shield cable - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a shield cable capable of making the whole part including a connector part thin and small, obtaining a plurality of transmission lines at a time, hardly varying the distance between a signal transmission conductor and a grounding conductor, and hardly generating noise even if the cable is bent. SOLUTION: Two or more layers of signal transmission conductor layers 5, 9 for transmitting electric signals and three or more layers of grounding conductor layers 3, 7, 11 for shielding are alternately stacked through insulating layers 4, 6, 8, 10. Insulating layers 2, 12 are arranged under the lowermost grounding conductor layer 3 and over the uppermost grounding layer 11 respectively.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a shielded cable in which a signal transmission conductor is shielded by a ground conductor so as not to receive interference from surroundings.

[0002]

2. Description of the Related Art In various types of electronic equipment, with the speeding up of transmission signals, the need for shielded cables in which signal transmission conductors are shielded by grounding conductors to prevent interference from surroundings is increasing.

Conventionally, coaxial cables have been widely used as shielded cables. The coaxial cable includes a signal transmission conductor, an insulator covering the periphery of the signal transmission conductor, and a ground conductor wound around the signal transmission conductor via the insulator. Then, the ground conductor wound around the signal transmission conductor is grounded, whereby
The signal transmission conductor is shielded by the ground conductor.

[0004]

However, conventional shielded cables, such as coaxial cables, are quite thick, and the connectors are very large. Therefore, the conventional shielded cable is not very suitable for a small electronic device. In particular, when the shielded cable is directly connected to the printed wiring board, the connector portion of the shielded cable is large, which places a heavy burden on the design and manufacture of the printed wiring board. Therefore, especially in the field of small electronic devices, there is an increasing need for small shielded cables that can be easily connected to a printed wiring board.

[0005] Conventional shielded cables such as coaxial cables are very thick, and their handling is very inconvenient. When a shielded cable is used in an electronic device, a very large space is required for the shielded cable, and this has been a factor that hinders downsizing of the electronic device. Therefore, there is a growing need for a shielded cable that is easier to handle.

Further, since the conventional shielded cable is expensive, using the shielded cable in an electronic device increases the cost. Moreover, in a conventional shielded cable such as a coaxial cable, a single shielded cable usually has only one signal transmission conductor. Therefore, as the number of transmission lines for which shielded cables must be used increases, the number of shielded cables becomes necessary. For this reason, if the number of transmission lines for which a shielded cable must be used increases, the cost will increase significantly. Therefore, there is a strong demand for a shielded cable that is cheaper and that can obtain a large number of transmission lines.

Further, in a conventional shielded cable such as a coaxial cable, when the cable is bent, the thickness of the insulating portion is apt to change, which changes the distance between the signal transmission conductor and the ground conductor. It is easier. If the interval changes, the impedance changes, and noise is added to the transmitted signal. That is, the conventional shielded cable has a problem in that when the cable is bent, the impedance of the cable changes due to a change in the thickness of the insulator portion, and noise is added to the signal.

The present invention has been proposed in view of the above-mentioned conventional circumstances, and can be formed small including a connector portion. Further, a plurality of transmission lines can be obtained at one time. It is an object of the present invention to provide a shielded cable in which a distance between a signal transmission conductor and a ground conductor is hard to change and noise is hard to be obtained even when the cable is bent.

[0009]

A shielded cable according to the present invention, which has been completed to achieve the above object, comprises two or more signal transmission conductor layers for transmitting electric signals, and a signal transmission conductor layer. Three or more grounding conductor layers to be shielded are alternately laminated via an insulating layer so that the lowermost layer and the uppermost layer become the grounding conductor layers. An insulating layer is provided on the upper ground conductor layer.

This shielded cable has a laminated structure in which a signal transmission conductor layer, a ground conductor layer, and an insulation layer are laminated, and can be manufactured by a thin film process. Therefore, this shielded cable can be very thin, such as a so-called flat cable. Therefore, this shielded cable can be formed small including the connector portion, and is very easy to handle.

Also, in this shielded cable, two or more signal transmission conductor layers and three or more ground conductor layers are laminated, so that a plurality of transmission lines can be obtained with one shielded cable. it can.

In this shielded cable, the conductor layers for the ground and the conductor layers for the signal transmission are alternately laminated via an insulating layer. However, with such a laminated structure, even if the cable is bent, The thickness of the insulating layer hardly changes. Therefore, in this shielded cable, even if the cable is bent, the impedance hardly changes, and noise does not appear on the signal.

In the shielded cable, the signal transmission conductor layer preferably includes a signal transmission conductor for transmitting an electric signal and a ground conductor for shielding the signal transmission conductor.

As described above, instead of using the entire signal transmission conductor layer as a transmission line, the signal transmission conductor layer is divided into a signal transmission conductor portion and a ground conductor portion.
Not only the upper and lower portions of the signal transmission conductor layer are shielded by the ground conductor layer, but also the left and right sides of the signal transmission conductor portion in the signal transmission conductor layer are shielded by the ground conductor portion. Therefore, by dividing the signal transmission conductor layer into the signal transmission conductor portion and the ground conductor portion, the shielding effect against interference from surroundings is improved. Moreover,
By providing a plurality of signal transmission conductors in the signal transmission conductor layer, more transmission lines can be obtained.

[0015]

Embodiments of the present invention will be described below in detail with reference to the drawings. Note that the present invention is not limited to the following examples, and it goes without saying that the shape, material, and the like can be arbitrarily changed without departing from the gist of the present invention.

FIGS. 1, 2 and 3 show a shielded cable according to the present embodiment. Here, FIG. 1 is a plan view of the shielded cable, FIG. 2 is a cross-sectional view taken along line AA of FIG. 1, and FIG. 3 is a cross-sectional view taken along line BB of FIG.

As shown in these figures, this shielded cable 1 is in the form of a so-called flat cable, and is formed over a first insulating layer 2 and over substantially the entire surface of the first insulating layer 2. First ground conductor layer 3
A second insulating layer 4 formed on the first grounding conductive layer 3, a first signal transmitting conductive layer 5 formed on the second insulating layer 4, and a first signal transmission A third insulating layer 6 formed on the conductor layer 5 for grounding, a second conductor layer 7 for grounding formed substantially over the entire surface of the third insulating layer 6,
Fourth insulating layer 8 formed on the ground conductor layer 7
A second conductor layer 9 for signal transmission formed on the fourth insulation layer 8, a fifth insulation layer 10 formed on the second conductor layer 9 for signal transmission, A third ground conductor layer 11 formed over substantially the entire surface of the layer 10;
Sixth insulating layer 1 formed on the ground conductor layer 11 of FIG.
And 2.

That is, the shielded cable 1 has two signal transmission conductor layers 5, 9 for transmitting electric signals, and three ground conductor layers 3, 7 for shielding the signal transmission conductor layers 5, 9. , 10 and the insulating layers 4, 6, 8, 1 so that the lowermost layer and the uppermost layer become the ground conductor layers 3, 10.
0 are alternately stacked, and further below the lowermost ground conductor layer 3 and the uppermost ground conductor layer 11.
The insulating layers 2 and 12 are disposed on and above.

Here, each of the insulating layers 2, 4, 6, 8, 10,
No. 12 is made of polyimide having a thickness of about 95 μm. The ground conductor layers 3, 7, 11 and the signal transmission conductor layers 5, 9 are each made of a copper thin film having a thickness of about 18 μm.

The first signal transmission conductor layer 5, the third insulation layer 6, the second ground conductor layer 7, the fourth insulation layer 8, and the second signal transmission conductor layer In the portion where the first insulating layer 9 and the second insulating layer 4 are stacked, the ends 13a and 13b of the portion where the first insulating layer 2, the first ground conductor layer 3 and the second insulating layer 4 are stacked, The fifth insulating layer 10, the third ground conductor layer 11, and the sixth insulating layer 12 are formed to be larger than the laminated portion. As a result, both ends of the first signal transmission conductor layer 5 and both ends of the second signal transmission conductor layer 9 are exposed, and these portions become external connection terminals.

The first signal transmission conductor layer 5 is formed as shown in FIG.
As shown in FIG. 5, the signal transmission conductor 5a includes a plurality of signal transmission conductors 5a for transmitting electric signals, and a plurality of ground conductors 5b for shielding the signal transmission conductor 5a. The conductor portions 5b are arranged so as to be alternately located. The signal transmission conductor 5a
And the ground conductor 5b are insulated. Here, each signal transmission conductor 5a and each ground conductor 5b are formed so as to be conductive from one end 13a to the other end 13b of the shielded cable 1, respectively. As described above, both ends are exposed, and these portions serve as terminals for external connection.

Similarly, as shown in FIGS. 1 and 3, the second signal transmission conductor layer 9 also includes a plurality of signal transmission conductor portions 9a for transmitting electric signals and a signal transmission conductor portion 9a. And a plurality of ground conductors 9b. The signal transmission conductors 9a and the ground conductors 9b are arranged alternately. The signal transmission conductor 9a and the ground conductor 9b are insulated. Here, each signal transmission conductor 9a and each ground conductor 9b are formed so as to be conductive from one end 13a to the other end 13b of the shielded cable 1, respectively. As described above, both ends are exposed, and these portions serve as terminals for external connection.

The shielded cable 1 includes a first conductor layer 3 for grounding and a first conductor layer 5 for signal transmission.
The ground conductor 5b, the second ground conductor 7, the ground conductor 9b in the second signal transmission conductor 9, and the third ground conductor 11 are electrically connected to each other. The through hole 14 is formed such that a part of the upper surface of the third ground conductor layer 11 is exposed. The first conductor layer 3 for ground, the conductor section 5b for ground in the first conductor layer 5 for signal transmission, the second conductor layer 7 for ground, And a third conductor layer 9b for grounding in the conductor layer 9 for signal transmission.
Is connected to the ground.

As a result, the lower portion of the signal transmission conductor 5a in the first signal transmission conductor layer 5 is shielded by the first ground conductor layer 3, and the upper portion thereof is shielded by the second ground conductor layer. 7 and the left and right sides thereof are shielded by the ground conductor 5b. Similarly,
Signal transmission conductor 9a in second signal transmission conductor layer 9
The lower part is shielded by the second ground conductor layer 7, the upper part is shielded by the third ground conductor layer 11, and the left and right sides thereof are shielded by the ground conductor part 9b.

The shielded cable 1 as described above can be manufactured at a very low cost because it can be manufactured by a thin film process. Moreover, the signal transmission conductor layer 5,
By changing the pattern at the time of forming 9, the wiring pattern of the cable can be freely changed.

Moreover, the shielded cable 1 is very thin and has a form like a so-called flat cable, and is very easy to handle. Particularly, since the shielded cable 1 is made of only the polyimide and the copper thin film, the degree of freedom of the shape is very high, and the shape can be arbitrarily changed according to a place where the shielded cable 1 is used.

Further, since the shielded cable 1 has a large number of signal transmission conductors 5a and 9a, it is possible to obtain a large number of transmission lines whose surroundings are shielded by conductors and which are resistant to noise, using only the shielded cable 1. Can be.

As shown in FIG. 4, when ground conductors 23a and 23b are arranged above and below a signal transmission conductor 21 via an insulation layer 22, the dielectric constant of the insulation layer 22 is ρ, and the signal transmission The thickness of the conductor 21 is h,
1 is w, and the distance between the upper ground conductor 23a and the lower ground conductor 23b is t, the signal transmission conductor 2
The impedance Z ₀ of 1 is represented by the following equation (1).

[0029]

(Equation 1)

As is apparent from the above equation (1), when the thickness of the insulating layer 22 changes and the interval t between the upper ground conductor 23a and the lower ground conductor 23b changes, the impedance Z ₀ changes. Therefore, the ground conductors 23 are provided above and below the signal transmission conductor 21 via the insulating layer 22.
When the signal transmission conductor 21 is shielded by providing the a and 23b, it is preferable that the thickness of the insulating layer 22 is constant.

In the shielded cable 1 according to the present embodiment, the conductor layers 3, 7, 11 for ground and the conductor layers 5, 9 for signal transmission are alternately provided via the insulating layers 4, 6, 8, 10. When the cable is bent, the insulating layers 4, 6, 8, 10
Hardly changes its film thickness. Therefore, in the shielded cable 1, even when bent cables, it is hardly as impedance Z ₀ is changed, there is no such thing as the signal to noise is ridden.

In the above description, two signal transmission conductor layers for transmitting electric signals, three ground conductor layers for shielding the signal transmission conductor layer, and five conductor portions are used. However, it goes without saying that three or more signal transmission conductor layers and four or more ground conductor layers may be used. When three or more signal transmission conductor layers and four or more ground conductor layers are used, the density of transmission lines can be further increased.

The above-described shielded cable to which the present invention is applied is a shielded cable suitable for a system that requires a high clock speed, a system that wants to reduce noise generated in a transmission signal, and the like. Is
It is suitable for a portable personal computer used as a communication terminal and a mobile communication terminal such as a mobile phone.

[0034]

As is apparent from the above description, according to the present invention, it is possible to form a small and thin film, to obtain a plurality of transmission lines at a time, and to further reduce the signal transmission conductor. It is possible to provide a shielded cable in which the distance between the conductors for the ground is hard to change and noise is hard to ride even when the cable is bent.

[Brief description of the drawings]

FIG. 1 is a plan view showing an example of a shielded cable to which the present invention is applied.

FIG. 2 is a sectional view taken along line AA of the shielded cable of FIG.

FIG. 3 is a sectional view taken along line BB of the shielded cable of FIG. 1;

FIG. 4 is a cross-sectional view showing a state in which ground conductors are arranged above and below a signal transmission conductor via an insulating layer.

[Explanation of symbols]

DESCRIPTION OF SYMBOLS 1 Shielded cable, 2 1st insulating layer, 3 1st conductor layer for grounds, 4 2nd insulating layer, 5 1st signal transmission conductor layer, 5a signal transmission conductor section,
5b ground conductor, 6 third insulating layer, 7
Second ground conductor layer, 8 Fourth insulating layer, 9
2nd conductor layer for signal transmission, 9a conductor section for signal transmission,
9b ground conductor, 10 fifth insulating layer 1
0, 11 Third ground conductor layer, 12 Sixth insulation layer

Claims (2)

[Claims] 1. A signal transmission system comprising two or more signal transmission conductor layers for transmitting an electric signal, and three or more ground conductor layers for shielding the signal transmission conductor layer, wherein a lowermost layer and an uppermost layer are grounding conductor layers. Wherein the insulating layers are alternately stacked with an insulating layer interposed therebetween, and the insulating layers are arranged below the lowermost grounding conductor layer and above the uppermost grounding conductor layer. cable. 2. The signal transmission conductor layer according to claim 1, further comprising: a signal transmission conductor for transmitting an electric signal; and a ground conductor for shielding the signal transmission conductor. The shielded cable described.