JP2001093344A - Coaxial mixed flexible flat cable - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a flat cable and a coaxial cable, conventionally requiring separate wirings and connections depending on the types of transfer signals, or a twisted pair cable, requiring shielding, in the form of one axial mixed flat cable. SOLUTION: A coaxial mixed flexible flat cable 10 is formed by mixing two fine coaxial wires 4 having an internal insulator 6, an external conductor 7 and a sheath 8 provided on the outer periphery of a center conductor 5 in sequence, in thirteen straight angle conductors 2, arranging them in parallel at a certain clearance between two insulating films 1, 1, fusing the fine coaxial wires 4 and the straight angle conductors 2 at their ends exposed at a fixed length, and bonding reinforcing films 3 to the single sides of the exposed ends.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a flexible flat cable. More specifically, the present invention relates to a coaxial mixed flexible flat cable in which coaxial lines are mixed in a plurality of rectangular conductors of a flexible flat cable.

[0002]

2. Description of the Related Art Flexible flat cables are used for wiring between printed circuit boards of various electronic devices for the purpose of saving space and easy connection of wiring materials, and a fixed distance between two insulating films. A plurality of rectangular conductors are arranged in parallel with each other and fused, and both ends of the conductor are exposed over a certain length, and a reinforcing film is bonded to one side of the both ends or one end. A wiring method in which a flexible flat cable (hereinafter, abbreviated as a flat cable) and an insertion connector are combined has been widely used.

[0003]

In recent years, transmission signals which cannot be handled by a rectangular conductor used in a standard flat cable have been increasing due to a higher speed of a signal in an electronic device having a higher function and a higher frequency of a reception signal. I have. To cope with such transmission signals, coaxial cables will be used,
With the trend toward miniaturization of equipment, there is no room in space for wiring and connection of a coaxial cable alone and connection to a substrate, and work is becoming difficult. Further, twisted pair cables required for differential signals are also used as internal wiring, but EMI countermeasures have been required because signal speeds have been increasing. The present invention has been made in order to solve the various problems of the above-described conventional technology.
An object of the present invention is to provide a flat cable and a coaxial cable, which require separate wiring and connection depending on the type of a transmission signal, or a twisted pair cable that requires shielding, in the form of a single coaxial mixed flat cable.

[0004]

According to a first aspect of the present invention, an inner insulator (6), an outer conductor (7) and a jacket (8) are sequentially provided on the outer periphery of a center conductor (5). One or more micro coaxial wires (4) are mixed with a plurality of rectangular conductors (2),
The two insulating films (1, 1) are arranged in parallel with a certain distance, and both ends of the micro coaxial wire (4) and the rectangular conductor (2) are exposed and fused over a certain length, and exposed. Reinforcing film (3) on one side of both ends or exposed one end
Coaxial mixed flexible flat cable
(10). In the coaxial mixed flat cable (10) according to the first aspect, one or more coaxial flat cables are required for high-frequency signal transmission that cannot be handled only by a plurality of rectangular conductors of a conventional flat cable or differential signal transmission that requires EMI measures. Although technology that can be used with multiple micro coaxial cables has been generalized, this micro coaxial cable is mixed with a general-purpose flat cable,
One coaxial mixed flat cable is formed by fusing between two insulating films in a state where one or a plurality of parallel conductors are arranged in parallel with a rectangular conductor. With this technology, even in devices that are becoming smaller in size, signals that were not transmitted by the conventional flat cable can be processed together with power and other signals by one coaxial mixed flat cable, Wiring and connection work can be performed efficiently.

According to a second aspect, the present invention relates to a coaxial mixed flat cable (10) according to the first aspect, wherein a part of the jacket (8) extends from the micro coaxial cable (4) at both exposed ends or exposed one end. In the coaxial mixed flexible flat cable (20), which is peeled and provided with the outer conductor exposed portion (7 '). In the coaxial mixed flat cable (20) according to the second aspect, the external conductor exposed portion
Since (7 ') is provided, the adjacent rectangular conductor (2) and the outer conductor (7) can be connected by an appropriate means.

As a third aspect, the present invention relates to a flat rectangular conductor arranged in parallel with the outer conductor exposed portion (7 ') of the micro coaxial line (4) of the coaxial mixed flat cable (20) according to the second aspect.
(2) is the coaxial mixed flexible flat cable (30) connected by the connecting conductor (f). In the coaxial mixed flat cable (30) according to the third aspect, the outer conductor exposed portion (7 ') and the rectangular conductor (2) arranged in parallel are connected by the connecting conductor (f). Therefore, in order to use the mixed micro coaxial cable (4) for high frequency transmission,
It is possible to perform terminal treatment separately for the center conductor (5) and the outer conductor (7). In addition, the outer conductor (7) can be grounded for use as a shielded twisted pair cable. Further, it is easy to divide the signal into the flat conductor (2) of the flat cable or to ground the flat cable (2). As the connection conductor (f), a rectangular conductor such as a tin-plated rectangular conductor is preferably used.
It may be a round conductor and is not particularly limited. As a connection method, for example, soldering, welding, a conductive adhesive, or the like is used.

[0007] As a fourth aspect, the present invention relates to the third aspect.
Micro coaxial line of coaxial mixed flat cable (30)
From (4), the jacket (8) on the terminal side than the connection conductor (f)
And the coaxial mixed flat cable (40) with the outer conductor (7) removed and the inner insulator (6) exposed. In the coaxial mixed flat cable (40) according to the fourth aspect, since the internal insulator (6) is exposed, the flat cable (40) can be preferably used in a connector adopting a press-contact structure at a portion corresponding to a coaxial line.

According to a fifth aspect of the present invention, a predetermined length of the internal insulator (6) is peeled from the exposed internal insulator (6) of the coaxial mixed flat cable (40) of the fourth aspect. And the coaxial mixed flexible flat cable (50) where the center conductor (5) is exposed. In the coaxial mixed flat cable (50) according to the fifth aspect, since the center conductor (5) is exposed, it can be preferably used in a connector provided with a coaxial line corresponding portion.

[0009]

DESCRIPTION OF THE PREFERRED EMBODIMENTS The contents of the present invention will be described below in more detail with reference to an embodiment shown in the drawings. Note that the present invention is not limited by this. FIG. 1 is a schematic view showing a first embodiment of a coaxial mixed flat cable according to the present invention. FIG. 2 shows a second coaxial mixed flat cable according to the present invention.
3 is a schematic diagram showing an embodiment of the present invention. FIG. 3 is a schematic view showing a third embodiment of the coaxial mixed flat cable of the present invention.
FIG. 4 is a schematic view showing a fourth embodiment of the coaxial mixed flat cable of the present invention. FIG. 5 is a schematic view showing a fifth embodiment of the coaxial mixed flat cable of the present invention. FIG. 6 is a schematic view showing an embodiment of a micro coaxial cable used for the coaxial mixed flat cable of the present invention. FIGS. 1 to 5 show only the vicinity of one end of the coaxial mixed flat cable. In these figures, 1 is an insulating film, 2
Is a rectangular conductor, 3 is a reinforcing film, 4 is a micro coaxial wire, 5
Is a central conductor, 6 is an inner insulator, 7 is an outer conductor, 7 'is an exposed portion of the outer conductor, 7a is a horizontal shield layer, and 7b is Al-PE.
T tape wound layer, 8 is a jacket, 10, 20, 30, 40,
50 is a coaxial mixed flat cable, and f is a connecting conductor.

Embodiment 1 A coaxial mixed flat cable according to Embodiment 1 of the present invention will be described with reference to FIGS. As the rectangular conductor (2) used in the present invention, a tin-plated rectangular conductor of 0.03 mm × 0.3 mm was used. In addition, the plurality of rectangular conductors
The micro coaxial line mixed in (2) (4) is the center conductor
(5) Seven tin-plated copper alloy wires having a conductor diameter of 0.03 mm were used, and the outer periphery of the wire was formed to a thickness of 0.06 mm as an internal insulator (6).
mm of fluororesin, and outer conductor (7)
First, a horizontally wound shield layer (7a) is provided by horizontally winding a tin-plated copper alloy wire having a strand diameter of 0.03 mm, and then an aluminum-polyethylene terephthalate resin laminated tape (hereinafter abbreviated as Al-PET tape) is provided on the outer periphery of the shield layer (7a). Is wound with the aluminum surface facing inward to form an Al-PET tape winding layer (7b), and a colored polyester tape is wound around the outer periphery of the layer as an outer coat (8) to form an outer diameter of 0.33 m.
An ultrafine coaxial line (4) was used. 13 (cores) of the rectangular conductor (2) and 2 (cores) of the horizontal micro coaxial cable (4)
Are arranged in parallel at a pitch of 0.5 mm between two polyester laminated films (1, 1) each having a heat-fusible adhesive layer (not shown) on one side of each film, and the rectangular conductor (2)
In addition, heat welding was performed with both ends of the micro coaxial cable (4) exposed over a certain length. Further, a coaxial mixed flat cable (10) was manufactured by bonding a reinforcing polyester film (3) to one side of both exposed ends.

Embodiment 2 A coaxial mixed flat cable according to Embodiment 2 of the present invention will be described with reference to FIG. A predetermined portion of the two micro coaxial wires (4) at the exposed one end of the coaxial mixed flat cable (10) of the first embodiment is irradiated with a laser, a part of the jacket (8) is peeled off, and A coaxial mixed flat cable (20) was manufactured with the exposed conductor (7 ').

Embodiment 3 A coaxial mixed flat cable according to Embodiment 3 of the present invention will be described with reference to FIG. The outer conductor exposed portions (7 ') of the two micro coaxial wires (4) of the coaxial mixed flat cable (20) of the second embodiment, and the rectangular conductor adjacent to the micro coaxial wires (4)
A tin-plated rectangular conductor as a connecting conductor (f) is vertically arranged over the upper part of (2) and soldered, and the adjacent rectangular conductor (2) and the outer conductor (7) are connected with the connecting conductor (f). f) to produce a coaxial mixed flat cable (30). This flat cable (30) can easily perform processing for dividing a signal into a rectangular conductor of a normal flat cable or ground from the rectangular conductor.

Embodiment 4 A coaxial mixed flat cable according to Embodiment 4 of the present invention will be described with reference to FIG. From the two microscopic coaxial wires (4) of the coaxial mixed flat cable (30) of the third embodiment, the outer conductor (8) and the outer conductor on the terminal side with respect to the connection conductor (f)
After removing (7), the inner insulator (6) was exposed to produce a coaxial mixed flat cable (40). In addition, micro coaxial cable
The rectangular conductor (2) adjacent to (4) is used as a rectangular conductor for grounding.

Embodiment 5 A coaxial mixed flat cable according to Embodiment 5 of the present invention will be described with reference to FIG. A certain length of the internal insulator (6) is removed from the exposed internal insulator (6) of the two micro coaxial wires (4) of the coaxial mixed flat cable (40) of the fourth embodiment, and the center conductor (5) is removed. The exposed coaxial mixed flat cable (50) was manufactured.

[0015]

According to the present invention, the coaxial mixed flat cable is
Since it can be handled in the form of a generally used flat cable, there is no need to separately wire one or more coaxial cables. In addition, the bending resistance has been improved compared to the case where the micro coaxial cable is used alone. Furthermore, micro coaxial cable
As in the case of the rectangular conductor in the flat cable, it is fixed at a predetermined pitch with high precision and uniform length, so that the effect of easily matching characteristics can be obtained even as a substitute for a twisted pair cable. Therefore, the present invention has an extremely large effect of contributing to industry.

[Brief description of the drawings]

FIG. 1 is a schematic view showing a first embodiment of a coaxial mixed flat cable according to the present invention.

FIG. 2 is a schematic view showing a second embodiment of a coaxial mixed flat cable according to the present invention.

FIG. 3 is a schematic view showing a third embodiment of a coaxial mixed flat cable according to the present invention.

FIG. 4 is a schematic view showing a fourth embodiment of a coaxial mixed flat cable according to the present invention.

FIG. 5 is a schematic view showing a fifth embodiment of a coaxial mixed flat cable according to the present invention.

FIG. 6 is a schematic view showing an embodiment of a micro coaxial cable used for the coaxial mixed flat cable of the present invention.

[Explanation of symbols]

DESCRIPTION OF SYMBOLS 1 Insulating film 2 Rectangular conductor 3 Reinforcement film 4 Micro coaxial line 5 Center conductor 6 Inner insulator 7 External conductor 7 'External conductor exposed part 7a Horizontally wound shield layer 7b Al-PET tape winding layer 8 Jacket 10, 20, 30, 40, 50 Coaxial mixed flat cable f Connection conductor

Claims (5)

[Claims] An inner insulator is sequentially provided on the outer periphery of the center conductor (5).
(6) One or more micro coaxial wires (4) provided with an outer conductor (7) and a jacket (8) are connected to a plurality of rectangular conductors (2).
And the two insulating films (1, 1) are arranged in parallel with a certain distance, and the both ends of the micro coaxial wire (4) and the rectangular conductor (2) are exposed and fused over a certain length. A coaxial mixed flexible flat cable (10), characterized in that a reinforcing film (3) is adhered to one end of the exposed both ends or one exposed end. 2. An ultra-fine coaxial line at both exposed ends or exposed one end of the coaxial mixed flat cable (10) according to claim 1.
Part of the jacket (8) is peeled off from (4), and the exposed part of the outer conductor
(7) The coaxial mixed flexible flat cable (20) characterized by being provided with (7 '). 3. An outer conductor exposed portion (7 ′) of a micro coaxial line (4) of the coaxial mixed flat cable (20) according to claim 2,
A coaxial mixed flexible flat cable (30), wherein the rectangular conductors (2) arranged in parallel are connected by a connecting conductor (f). 4. The connecting conductor (f) from the micro coaxial line (4) of the coaxial mixed flat cable (30) according to claim 3.
The outer jacket (8) and outer conductor (7) on the terminal side are removed,
A coaxial mixed flexible flat cable (40), characterized in that the inner insulator (6) is exposed. 5. A predetermined length of the inner insulator is peeled off from the exposed inner insulator (6) of the coaxial mixed flat cable (40) according to claim 4, and the center conductor (5) is exposed. A coaxial mixed flexible flat cable (50).