TWI644327B - Electrical cable - Google Patents

Abstract

The invention relates to an electrical connection line, wherein a first transmission line insulating colloid is provided with a transmission conductor set and the transmission conductor set comprises first, second, third, fourth, fifth, sixth, seventh and Eight power loop transmission conductors and first, second, third, fourth, fifth, sixth, seventh and eighth high frequency differential signal transmission conductors and first, second, third and fourth other signal conductors And the first, second, third and fourth low-frequency differential signal transmission conductors, thereby, through the design of the above structure, the use of the coplanar waveguide to achieve optimized high-frequency characteristics and the interference of the noise to the radio frequency can be alleviated, etc. Advantages, in addition, because the areas of the first, second, third, fourth, fifth, sixth, seventh and eighth power circuit transmission conductors are thickened, so that they can satisfy the large current sectional area.

Description

Electrical cable

The invention provides an electrical connection line, in particular to an electrical connection line which can optimize the high frequency characteristics and the interference of the noise to the radio frequency can be alleviated, and can satisfy the large current.

According to the connector, the connector is widely used, including the connector of USB, HDMI or soft-line FFC, etc., and the USB connector is continuously improved and improved, and at the same time increases its transmission speed.

However, crosstalk (CROSS TALK) affects the high frequency transmission of the differential signal, especially when the differential signal pair and the differential signal pair or the differential signal pair and the signal pair are subject to crosstalk interference during the high frequency signal transmission of the connector. Unstable transmission problems. Therefore, some of the terminals of the electronic connector use the ground terminal to isolate crosstalk interference to block crosstalk interference generated between the signal terminals and prevent the transmission speed and high frequency signals including the electronic connector itself from being affected. Especially for the FFC flexible row connector, there is no such thing as being able to effectively alleviate the interference of the noise to the radio frequency, which causes the signal interference to be serious in the process of signal transmission.

Therefore, how to solve the above problems and deficiencies in the above-mentioned applications, that is, the inventors of the present invention and those involved in the industry are eager to study the direction of improvement.

Therefore, in view of the above-mentioned deficiencies, the inventors of the present invention have collected relevant information, and have evaluated and considered these high-frequency characteristics through continuous trial and modification through continuous evaluation and modification through multi-party evaluation and consideration. The interference of the noise to the radio frequency can be alleviated, and the patent holder of the electric current connecting the high current can be satisfied.

The main purpose of the present invention is to transmit conductors through the first, second, third, fourth, fifth, sixth, seventh and eighth power circuit loops with the first, second, third, fourth, fifth , sixth, seventh and eighth high frequency differential signal transmission conductors and first, second, third and fourth other signal conductors and first The arrangement of the second, third and fourth low-frequency differential signal transmission conductors enables excellent high-frequency characteristics, and suppresses interference of the radio frequency to the radio frequency, and can satisfy the large current cross-sectional area.

The main structure of the present invention capable of achieving the above object comprises a first line of insulating glue, the first line of insulating glue is provided with a transmission conductor set, and the transmission conductor set sequentially comprises a first power circuit transmission conductor and a first high frequency. a differential signal transmission conductor, a second high frequency differential signal transmission conductor, a second power supply loop transmission conductor, a third high frequency differential signal transmission conductor, a fourth high frequency differential signal transmission conductor, a third power supply loop transmission conductor, and a fourth power supply loop a transmission conductor, a first other signal conductor, a first low frequency differential signal transmission conductor, a second low frequency differential signal transmission conductor, a second other signal conductor, a third other signal conductor, a third low frequency differential signal transmission conductor, and a fourth low frequency differential signal Transmission conductor, fourth other signal conductor, fifth power loop transmission conductor, sixth power loop transmission conductor, fifth high frequency differential signal transmission conductor, sixth high frequency differential signal transmission conductor, seventh power supply loop transmission conductor, seventh High frequency differential signal transmission conductor, eighth high frequency differential signal transmission conductor, and eighth power supply back Transmission conductor, wherein the first, second, third, fourth, fifth, sixth, seventh and eighth power circuit transmission conductors have an area larger than the first, second, third, fourth, 5. The sixth, seventh and eighth high frequency differential signal transmission conductors and the first, second, third and fourth other signal conductors and the first, second, third and fourth low frequency differential signal transmission conductors are larger In order to produce a large current effect, and through the special arrangement of the foregoing sequence, the wired electrical connector of the present invention has better high frequency characteristics and the noise can be alleviated by radio frequency interference.

With the above technology, there is no so-called interference with the radio frequency of the conventional FFC flexible row connector, which can effectively alleviate the interference of the radio frequency to the radio frequency, resulting in a breakthrough in the signal transmission process, which often causes serious signal interference. The present invention is as practical as the above advantages.

1‧‧‧First line of insulating colloid

10‧‧‧ Fixed Department

2‧‧‧Transmission conductor set

20‧‧‧First power loop transmission conductor

201‧‧‧First power circuit transmission conductor contact

202‧‧‧First power circuit transmission conductor guide

21‧‧‧First high frequency differential signal transmission conductor

211‧‧‧First high-frequency differential signal transmission conductor contact

212‧‧‧First high-frequency differential signal transmission conductor guide

22‧‧‧Second high frequency differential signal transmission conductor

221‧‧‧Second high frequency differential signal transmission conductor contact

222‧‧‧Second high-frequency differential signal transmission conductor guide

23‧‧‧Second power loop transmission conductor

231‧‧‧Second power circuit transmission conductor contact

232‧‧‧Second power circuit transmission conductor guide

24‧‧‧ Third high frequency differential signal transmission conductor

241‧‧‧ Third high frequency differential signal transmission conductor contact

242‧‧‧ Third High Frequency Differential Signal Transmission Conductor Guide

25‧‧‧4th high frequency differential signal transmission conductor

251‧‧‧4th high frequency differential signal transmission conductor contact

252‧‧‧4th high frequency differential signal transmission conductor guide

26‧‧‧ Third power loop transmission conductor

261‧‧‧ Third power circuit transmission conductor contact

262‧‧‧ Third power circuit transmission conductor guide

27‧‧‧fourth power loop transmission conductor

271‧‧‧fourth power circuit transmission conductor contact

272‧‧‧fourth power circuit transmission conductor guide

28‧‧‧First other signal conductor

281‧‧‧First other signal conductor contact

282‧‧‧First Other Signal Conductor Guide

29‧‧‧First low frequency differential signal transmission conductor

291‧‧‧First low frequency differential signal transmission conductor contact

292‧‧‧First low frequency differential signal transmission conductor guide

30‧‧‧Second low frequency differential signal transmission conductor

301‧‧‧Second low frequency differential signal transmission conductor contact

302‧‧‧Second low frequency differential signal transmission conductor guide

31‧‧‧Second other signal conductors

311‧‧‧Second other signal conductor contact

312‧‧‧Second other signal conductors

32‧‧‧ third other signal conductor

321‧‧‧ Third other signal conductor contact

322‧‧‧ Third Other Signal Conductor Guide

33‧‧‧ Third low frequency differential signal transmission conductor

331‧‧‧ Third low frequency differential signal transmission conductor contact

332‧‧‧ Third low frequency differential signal transmission conductor guide

34‧‧‧4th low frequency differential signal transmission conductor

341‧‧‧4th low frequency differential signal transmission conductor contact

342‧‧‧4th low frequency differential signal transmission conductor guide

35‧‧‧fourth other signal conductor

351‧‧‧Fourth other signal conductor contact

352‧‧‧Fourth other signal conductors

36‧‧‧ Fifth power loop transmission conductor

361‧‧‧ fifth power loop transmission conductor contact

362‧‧‧ Fifth power circuit transmission conductor guide

37‧‧‧ sixth power loop transmission conductor

371‧‧‧ sixth power circuit transmission conductor contact

372‧‧‧The sixth power circuit transmission conductor guide

38‧‧‧ Fifth high frequency differential signal transmission conductor

381‧‧‧ fifth high frequency differential signal transmission conductor contact

382‧‧‧ Fifth high-frequency differential signal transmission conductor guide

39‧‧‧6th high frequency differential signal transmission conductor

391‧‧‧6th high frequency differential signal transmission conductor contact

392‧‧‧6th high frequency differential signal transmission conductor guide

40‧‧‧ seventh power loop transmission conductor

401‧‧‧ seventh power circuit transmission conductor contact

402‧‧‧ seventh power circuit transmission conductor guide

41‧‧‧ seventh high frequency differential signal transmission conductor

411‧‧‧ seventh high frequency differential signal transmission conductor contact

412‧‧‧ seventh high-frequency differential signal transmission conductor guide

42‧‧‧8th high frequency differential signal transmission conductor

421‧‧‧8th high frequency differential signal transmission conductor contact

422‧‧‧8th high frequency differential signal transmission conductor guide

43‧‧‧ eighth power loop transmission conductor

431‧‧‧ eighth power circuit transmission conductor contact

432‧‧‧ eighth power circuit transmission conductor guide

5‧‧‧Second line of insulating colloid

6‧‧‧First metal spacer

7‧‧‧ Third line insulation colloid

8‧‧‧Second metal spacer

9‧‧‧USB C-TYPE connector

The first figure is a perspective view of a preferred embodiment of the invention.

The second drawing is a top view of a preferred embodiment of the invention.

The second A is a top view of the preferred embodiment of the present invention.

The third drawing is a partially enlarged side view of a preferred embodiment of the invention.

The fourth figure is a schematic diagram of a USB in combination with a preferred embodiment of the present invention.

In order to achieve the above objects and effects, the technical means and the structure of the present invention will be described in detail with reference to the preferred embodiments of the present invention.

Please refer to the first, second, second and third figures, which are perspective views, top view 1, top view 2 and partial enlarged side views of a preferred embodiment of the present invention, as can be clearly seen from the figure The present invention comprises: a first wire insulation rubber 1 having a plurality of fixing portions 10 on the first wire insulating rubber 1; and a transmission conductor group 2 disposed on the first wire insulating rubber 1 The group 2 includes: a first power circuit transmission conductor 20 disposed on the first wire insulation compound 1 , a first power circuit transmission conductor contact portion 201 is defined at one end of the first power circuit transmission conductor 20, and the other end is defined a first power circuit transmission conductor guiding portion 202; a first high frequency differential signal transmission conductor 21 disposed on the first power line insulating rubber 1 and located on the side of the first power circuit transmission conductor 20, the first high A first high frequency differential signal transmission conductor contact portion 211 is defined at one end of the frequency differential signal transmission conductor 21, and a first high frequency differential signal transmission conductor guiding portion 212 is defined at the other end; 1 and located at A high frequency differential signal transmission conductor 21 is disposed away from the second high frequency differential signal transmission conductor 22 on the side of the first power circuit transmission conductor 20, and a second high frequency differential signal transmission is defined at one end of the second high frequency differential signal transmission conductor 22. a second high-frequency differential signal transmission conductor guiding portion 222 is defined at the other end of the conductor contact portion 221; a second high-frequency differential signal transmission conductor 22 is disposed on the first high-frequency differential signal transmission conductor 22 and is located away from the first high-frequency differential signal transmission conductor a second power supply loop transmission conductor 23 on one side of the high frequency differential signal transmission conductor 21, a second power supply loop transmission conductor contact portion 231 is defined at one end of the second power supply loop transmission conductor 23, and a second power supply loop transmission is defined at the other end. a conductor guiding portion 232; a third high frequency differential signal transmission conductor disposed on the first wiring insulating rubber 1 and located on a side of the second power circuit transmission conductor 23 facing away from the second high frequency differential signal transmission conductor 22 24. The third high frequency differential signal transmission conductor 24 defines a third high frequency differential signal transmission conductor contact portion 241 at one end and a third high frequency differential signal at the other end. The transmission conductor guiding portion 242 is disposed on the first wiring insulating rubber 1 and located on the third high frequency differential signal transmission conductor 24 a fourth high-frequency differential signal transmission conductor 25 on the side of the second power-supply transmission conductor 23, a fourth high-frequency differential signal transmission conductor contact portion 251 is defined at one end of the fourth high-frequency differential signal transmission conductor 25, and the other end is A fourth high frequency differential signal transmission conductor guiding portion 252 is defined; a first high frequency differential signal transmission conductor 25 is disposed on the first high frequency differential signal transmission conductor 25 and is disposed away from the third high frequency differential signal transmission conductor 24 a third power circuit transmission conductor 26 on one side, a third power circuit transmission conductor contact portion 261 is defined at one end of the third power circuit transmission conductor 26, and a third power circuit transmission conductor guiding portion 262 is defined at the other end; a fourth power circuit transmission conductor 27 on the first line insulating rubber 1 and on a side of the third power circuit transmission conductor 26 facing away from the fourth high frequency differential signal transmission conductor 25, and a fourth power circuit transmission conductor 27 A fourth power circuit transmission conductor contact portion 271 is defined, and a fourth power circuit transmission conductor guiding portion 272 is defined at the other end; a first line insulation rubber is disposed on the first line a first other signal conductor 28 on the side of the fourth power circuit transmission conductor 27 facing away from the third power circuit transmission conductor 26, and a first other signal conductor contact portion 281 is defined at one end of the first other signal conductor 28, A first other signal conductor guiding portion 282 is defined at the other end; a first portion disposed on the first wiring insulating rubber 1 and located at a side of the first other signal conductor 28 facing away from the fourth power circuit transmission conductor 27 a low-frequency differential signal transmission conductor 29, a first low-frequency differential signal transmission conductor contact portion 291 is defined at one end of the first low-frequency differential signal transmission conductor 29, and a first low-frequency differential signal transmission conductor guiding portion 292 is defined at the other end; a second low frequency differential signal transmission conductor 30 on the side of the first low frequency differential signal transmission conductor 29 facing away from the first other signal conductor 28, and at one end of the second low frequency differential signal transmission conductor 30 Defining a second low frequency differential signal transmission conductor contact portion 301, and defining a second low frequency differential signal transmission conductor guiding portion 302 at the other end; a second other signal conductor 31 on the side of the first low-frequency differential signal transmission conductor 30 facing away from the first low-frequency differential signal transmission conductor 29, and a second other signal conductor 31 defined at one end a second other signal conductor contact portion 311 defining a second other signal conductor guiding portion 312 at the other end; a second insulating conductor 1 disposed on the first wiring conductor 1 and located at the second lower signal conductor 31 away from the second low frequency a third other signal conductor 32 on one side of the differential signal transmission conductor 30, a third other signal conductor contact portion 321 is defined at one end of the third other signal conductor 32, and a third portion is defined at the other end And a third low frequency differential signal transmission conductor 33 disposed on the side of the first other signal conductor 32 and facing away from the second other signal conductor 31, A third low frequency differential signal transmission conductor contact portion 331 is defined at one end of the third low frequency differential signal transmission conductor 33, and a third low frequency differential signal transmission conductor guiding portion 332 is defined at the other end; a fourth low frequency differential signal transmission conductor 34 on the side of the third low frequency differential signal transmission conductor 33 facing away from the third other signal conductor 32, and a fourth low frequency differential signal defined at one end of the fourth low frequency differential signal transmission conductor 34 a transmission conductor contact portion 341 having a fourth low-frequency differential signal transmission conductor guiding portion 342 defined at the other end; a first low-frequency differential signal transmission conductor 34 disposed on the first low-frequency differential transmission conductor 34 and facing away from the third a fourth other signal conductor 35 on one side of the low frequency differential signal transmission conductor 33, and a fourth other signal conductor contact portion 3 at one end of the fourth other signal conductor 35 51, a fourth other signal conductor guiding portion 352 is defined at the other end; one is disposed on the first wire insulating rubber 1 and located at a side of the fourth other signal conductor 35 facing away from the fourth low frequency differential signal transmitting conductor 34 a fifth power circuit transmission conductor 36, a fifth power circuit transmission conductor contact portion 361 is defined at one end of the fifth power circuit transmission conductor 36, and a fifth power circuit transmission conductor guiding portion 362 is defined at the other end; a sixth power-supply loop transmission conductor 37 on the first-line insulating rubber 1 and on a side of the fifth power-supply transmission conductor 36 facing away from the fourth other signal conductor 35. The sixth power-supply loop transmission conductor 37 defines a sixth end at one end. The power circuit transmits the conductor contact portion 371, and has a sixth power circuit transmission conductor guiding portion 372 at the other end; one is disposed on the first wire insulating rubber 1 and located at the sixth power circuit transmission conductor 37 away from the fifth A fifth high frequency differential signal transmission conductor 38 on one side of the power circuit transmission conductor 36, and a fifth high frequency differential signal transmission at one end of the fifth high frequency differential signal transmission conductor 38 The body contact portion 381 defines a fifth high-frequency differential signal transmission conductor guiding portion 382 at the other end; a first high-frequency differential signal transmission conductor 38 is disposed on the first high-frequency differential signal transmission conductor 38 and is away from the first a sixth high-frequency differential signal transmission conductor 39 on one side of the six-way power transmission conductor 37, a sixth high-frequency differential signal transmission conductor contact portion 391 is defined at one end of the sixth high-frequency differential signal transmission conductor 39, and a first portion is defined at the other end a six-high frequency differential signal transmission conductor guiding portion 392; a first high-frequency differential signal transmission conductor 39 disposed on the first wiring insulating material 1 a seventh power supply loop transmission conductor 40 facing away from the fifth high frequency differential signal transmission conductor 38. The seventh power supply loop transmission conductor 40 defines a seventh power supply loop transmission conductor contact portion 401 at one end and a seventh end at the other end. a power circuit transmission conductor guiding portion 402; a seventh high frequency difference disposed on the first wiring insulating rubber 1 and located on a side of the seventh power circuit transmission conductor 40 facing away from the sixth high frequency differential signal transmission conductor 39 a signal transmission conductor 41, a seventh high-frequency differential signal transmission conductor contact portion 411 is defined at one end of the seventh high-frequency differential signal transmission conductor 41, and a seventh high-frequency differential signal transmission conductor guiding portion 412 is defined at the other end; The eighth high-frequency differential signal transmission conductor 42 on the first-line insulating rubber 1 and on the side of the seventh high-frequency differential signal transmission conductor 41 facing away from the seventh power-circuit transmission conductor 40, the eighth high-frequency differential signal An eighth high-frequency differential signal transmission conductor contact portion 421 is defined at one end of the transmission conductor 42 and an eighth high-frequency differential signal transmission conductor guiding portion 422 is defined at the other end; The eighth power line transmission conductor 43 on the first line of the insulating paste 1 and on the side of the eighth high frequency differential signal transmission conductor 42 facing away from the seventh high frequency differential signal transmission conductor 41, and the end of the eighth power circuit transmission conductor 43 An eighth power supply loop transmission conductor contact portion 431 is defined, and an eighth power supply loop transmission conductor guiding portion 432 is defined at the other end; a second wiring insulation rubber 5 disposed on the first wiring insulation rubber 1 is disposed. The transmission conductor group 2 is not covered at one side; the first metal spacer 6 disposed on the side of the second insulation rubber 5 facing away from the first insulation rubber 1; one of the first cables a third line of insulating glue 7 on the side of the insulating rubber body 1 facing away from the second line of insulating rubber 5; a second metal spacer disposed on the side of the third line insulating layer 7 facing away from the insulating layer 1 of the first line Item 8.

Please refer to the first, second, third and fourth figures, which are perspective views, top view one, top view two, partial enlarged side view and USB schematic diagram of the preferred embodiment of the present invention. It can be clearly seen that the present invention can utilize the fixing portion 10 to incorporate a USB C-TYPE connector 9, so that the cable of the present invention can be used to be connected to the USB C-TYPE connector 9, so that when the USB C-TYPE is used When the connector 9 is plugged and operated, the first power supply loop transmission conductor 20, the second power supply loop transmission conductor 23, the third power supply loop transmission conductor 26, the fourth power supply loop transmission conductor 27, and the fifth power supply loop transmission conductor 36 are transmitted. , the sixth power circuit transmission conductor 37, the seventh power circuit transmission The transmission conductor 40 and the eighth power supply loop transmission conductor 43 connect the first high frequency differential signal transmission conductor 21, the second high frequency differential signal transmission conductor 22, the third high frequency differential signal transmission conductor 24, and the fourth high frequency differential signal transmission conductor 25. The fifth high frequency differential signal transmission conductor 38, the sixth high frequency differential signal transmission conductor 39, the seventh high frequency differential signal transmission conductor 41, and the eighth high frequency differential signal transmission conductor 42 and the first other signal conductor 28, 2. The other signal conductor 31, the third other signal conductor 32 and the fourth other signal conductor 35 and the first low frequency differential signal transmission conductor 29, the second low frequency differential signal transmission conductor 30, the third low frequency differential signal transmission conductor 33 and the fourth low frequency The differential signal transmission conductors 34 are isolated, so that the noise generated by the operation of the high-frequency differential signal transmission conductors and the low-frequency differential signal transmission conductors can be effectively alleviated, and the first power supply loop transmits the conductor 20 and the second power source. The loop transmission conductor 23, the third power source loop transmission conductor 26, the fourth power source loop transmission conductor 27, the fifth power source loop transmission conductor 36, and the sixth power source loop The area of the conductor 37, the seventh power loop transmission conductor 40 and the eighth power loop transmission conductor 43 is larger than each of the high frequency differential signal transmission conductors and the low frequency differential signal transmission conductors, so that the present invention has the advantage of large current.

Therefore, the key to the improvement of the electrical connection line of the present invention is that the first, second, third, fourth, fifth, sixth, seventh and eighth power circuit transmission conductors 20, 23 are 26, 27, 36, 37, 40, 43 and first, second, third, fourth, fifth, sixth, seventh and eighth high frequency differential signal transmission conductors 21, 22, 24, 25, 38 , 39, 41, 42 and first, second, third and fourth other signal conductors 28, 31, 32, 35 and first, second, third and fourth low frequency differential signal transmission conductors 29, 30, 33 The 34-arranged design allows it to have excellent high-frequency characteristics and to suppress the interference of noise to the radio frequency, and to meet the large current cross-sectional area.

However, the above description is only the preferred embodiment of the present invention, and thus it is not intended to limit the scope of the present invention. Therefore, the simple modification and equivalent structural changes of the present specification and the drawings should be treated similarly. It is included in the scope of the patent of the present invention and is combined with Chen Ming.

In summary, the electrical connection line of the present invention can achieve its efficacy and purpose when it is used. Therefore, the present invention is an invention with excellent practicability, and is an application for conforming to the invention patent, and submits an application according to law. The trial committee will grant the invention as soon as possible to protect the inventor's hard work. If there is any doubt in the trial committee, please do not hesitate to give instructions, the inventor will try his best to cooperate and feel punished.

Claims (10)

An electrical connection line, comprising: a first line of insulating glue; a transmission conductor set disposed on the first line of insulating glue, the transmission conductor set comprising: a first insulating layer disposed on the first line a first power circuit transmission conductor; a first high frequency differential signal transmission conductor disposed on the first power line insulating paste and located on a side of the first power circuit transmission conductor; and a first power line insulating resin disposed on the first power line a second high-frequency differential signal transmission conductor disposed on a side of the first high-frequency differential signal transmission conductor facing away from the first power-supply loop transmission conductor; a second high-frequency differential signal transmission conductor disposed on the first wiring insulation layer and located at the second high-frequency a differential signal transmission conductor facing away from the second power circuit transmission conductor on the side of the first high frequency differential signal transmission conductor; one disposed on the first wiring insulation colloid and located at the second power supply transmission conductor facing away from the second high frequency a third high frequency differential signal transmission conductor on one side of the differential signal transmission conductor; one disposed on the first line of insulating glue and located on the third high frequency differential signal transmission conductor away from the second power supply loop a fourth high frequency differential signal transmission conductor on one side of the conductor; one disposed on the first line of insulating glue and located on the side of the fourth high frequency differential signal transmission conductor facing away from the third high frequency differential signal transmission conductor a power circuit transmission conductor; a fourth power circuit transmission conductor disposed on the first power line insulating paste and located on a side of the third power circuit transmission conductor facing away from the fourth high frequency differential signal transmission conductor; a first line of the signal conductor on the side of the fourth power circuit transmission conductor facing away from the third power circuit transmission conductor; one of the first line insulation particles and the first other signal a first low-frequency differential signal transmission conductor on a side of the fourth power-supply loop transmission conductor; a first low-frequency differential signal transmission conductor disposed on the first low-frequency differential transmission conductor and away from the first other signal conductor a second low frequency differential signal transmission conductor; a first low frequency differential signal transmission conductor disposed on the first low frequency differential dielectric and facing away from the first low frequency differential a second other signal conductor on one side of the transmission conductor; a third other signal conductor disposed on the first line of insulating glue and located on a side of the second other signal conductor facing away from the second low frequency differential signal transmission conductor; Provided on the first line of insulating glue and located at the third other signal conductor away from the second a third low frequency differential signal transmission conductor on one side of the signal conductor; a fourth low frequency differential signal disposed on the first line of insulating glue and located on a side of the third low frequency differential signal transmission conductor facing away from the third other signal conductor a transmission conductor; a fourth other signal conductor disposed on the first line of insulating glue and located on a side of the fourth low frequency differential signal transmission conductor facing away from the third low frequency differential signal transmission conductor; one disposed on the first line a fifth power circuit transmission conductor on the insulating colloid and located on a side of the fourth low-frequency differential signal transmission conductor; a first power supply conductor disposed on the first wiring insulation layer and located in the fifth power supply transmission conductor a sixth power circuit transmission conductor facing away from the fourth other signal conductor; a fifth conductor insulating body disposed on the first power line insulating conductor and located on a side of the sixth power circuit transmission conductor facing away from the fifth power circuit transmission conductor a high frequency differential signal transmission conductor; one disposed on the first line of insulating glue and located on the fifth high frequency differential signal transmission conductor facing away from the sixth power circuit a sixth high-frequency differential signal transmission conductor on one side of the conductor; one disposed on the first line of insulating glue and located on a side of the sixth high-frequency differential signal transmission conductor facing away from the fifth high-frequency differential signal transmission conductor a seventh power circuit transmission conductor; a seventh high frequency differential signal transmission conductor disposed on the first power line insulating glue and located on a side of the seventh power circuit transmission conductor facing away from the sixth high frequency differential signal transmission conductor; An eighth high-frequency differential signal transmission conductor disposed on the first line of insulating glue and located on a side of the seventh high-frequency differential signal transmission conductor facing away from the seventh power-supply loop transmission conductor; and a first line insulation And an eighth power-supply loop transmission conductor on the colloid and located on a side of the eighth high-frequency differential signal transmission conductor facing away from the seventh high-frequency differential signal transmission conductor. The electrical connection cable of claim 1, wherein the first cable insulation gel has a plurality of fixing portions for holding with a USB C-TYPE connector. The electrical connection line of claim 1, wherein a first power circuit transmission conductor contact portion is defined at one end of the first power circuit transmission conductor, and a first high frequency difference is defined at one end of the first high frequency differential signal transmission conductor. a signal transmission conductor contact portion, a second high-frequency differential signal transmission conductor contact portion is defined at one end of the second high-frequency differential signal transmission conductor, and a second power supply loop transmission conductor contact portion is defined at one end of the second power supply loop transmission conductor. A third high-frequency differential signal transmission conductor contact portion is defined at one end of the third high-frequency differential signal transmission conductor, and a fourth high-frequency differential signal transmission conductor contact portion is defined at one end of the fourth high-frequency differential signal transmission conductor. Three power loop A third power circuit transmission conductor contact portion is defined at one end of the transmission conductor, and a fourth power circuit transmission conductor contact portion is defined at one end of the fourth power circuit transmission conductor, and a first other signal conductor is defined at one end of the first other signal conductor a first low-frequency differential signal transmission conductor contact portion is defined at one end of the first low-frequency differential signal transmission conductor, and a second low-frequency differential signal transmission conductor contact portion is defined at one end of the second low-frequency differential signal transmission conductor, the second A second other signal conductor contact portion is defined at one end of the other signal conductor, and a third other signal conductor contact portion is defined at one end of the third other signal conductor, and a third low frequency differential signal is defined at one end of the third low frequency differential signal transmission conductor. a fourth low-frequency differential signal transmission conductor contact portion is defined at one end of the fourth low-frequency differential signal transmission conductor, and a fourth other signal conductor contact portion is defined at one end of the fourth other signal conductor, the fifth power supply loop a fifth electric power is defined at one end of the transmission conductor a loop transmission conductor contact portion, a sixth power loop transmission conductor contact portion is defined at one end of the sixth power loop transmission conductor, and a fifth high frequency differential signal transmission conductor contact portion is defined at one end of the fifth high frequency differential signal transmission conductor A sixth high frequency differential signal transmission conductor contact portion is defined at one end of the sixth high frequency differential signal transmission conductor, and a seventh power supply loop transmission conductor contact portion is defined at one end of the seventh power supply loop transmission conductor, the seventh high frequency differential A seventh high-frequency differential signal transmission conductor contact portion is defined at one end of the signal transmission conductor, and an eighth high-frequency differential signal transmission conductor contact portion is defined at one end of the eighth high-frequency differential signal transmission conductor, and the eighth power supply loop transmission conductor end is An eighth power loop transmission conductor contact is defined. An electrical connection line mainly comprises: a first line of insulating glue; a transmission conductor set disposed on one side of the first line of insulating glue; and a second line of insulation disposed on the first line of insulating glue a colloid, and one side of the transmission conductor set is not covered; a first metal spacer disposed on a side of the second line of insulating rubber facing away from the first line of insulating glue; and a first line of insulating glue disposed on the first line a third line of insulating glue facing away from the side of the second line of insulating glue; and a second metal spacer disposed on a side of the third line of insulating glue facing away from the first line of insulating glue. The electrical connection cable of claim 4, wherein the first cable insulation gel has a plurality of fixing portions for holding with a USB C-TYPE connector. The electrical connection line of claim 4, wherein the transmission conductor set is not insulated by the second insulation layer The shielding portion defines a first power circuit transmission conductor contact portion, a first high frequency differential signal transmission conductor contact portion, a second high frequency differential signal transmission conductor contact portion, and a second power supply circuit which are sequentially arranged in parallel with each other. a transmission conductor contact portion, a third high frequency differential signal transmission conductor contact portion, a fourth high frequency differential signal transmission conductor contact portion, a third power supply loop transmission conductor contact portion, a fourth power supply loop transmission conductor contact portion, and a a first other signal conductor contact portion, a first low frequency differential signal transmission conductor contact portion, a second low frequency differential signal transmission conductor contact portion, a second other signal conductor contact portion, a third other signal conductor contact portion, a first a three-low frequency differential signal transmission conductor contact portion, a fourth low frequency differential signal transmission conductor contact portion, a fourth other signal conductor contact portion, a fifth power supply loop transmission conductor contact portion, a sixth power supply loop transmission conductor contact portion, and a a fifth high frequency differential signal transmission conductor contact portion, a sixth high frequency differential signal transmission conductor contact portion, and a seventh power supply Transmission path conductor contact portion, a seventh frequency differential signal transmission conductor contact portion, an eighth frequency differential signal transmission conductor contact portion, and an eighth power transmission circuit conductor contact portion. An electrical connection line, comprising: a first line of insulating glue; a transmission conductor set disposed on one side of the first line of insulating glue, the transmission conductor set comprising: a first line of insulating glue disposed on the first line a first power circuit transmission conductor; a first high frequency differential signal transmission conductor disposed on the first power line insulating paste and located on a side of the first power circuit transmission conductor; and a first power line insulation disposed on the first power line a second high-frequency differential signal transmission conductor on the side of the first high-frequency differential signal transmission conductor facing away from the first power-supply transmission conductor; one disposed on the first-line insulation rubber and located at the second high The second differential power transmission conductor is disposed on the side of the first high frequency differential signal transmission conductor; the second power supply transmission conductor is disposed on the first power insulation conductor and the second power supply transmission conductor is away from the second high a third high frequency differential signal transmission conductor on one side of the frequency differential signal transmission conductor; one disposed on the first line of insulating glue and located on the third high frequency differential signal transmission conductor facing away from the second power supply circuit a fourth high frequency differential signal transmission conductor on one side of the conductor; one disposed on the first line of insulating glue and located on a side of the fourth high frequency differential signal transmission conductor facing away from the third high frequency differential signal transmission conductor a third power circuit transmission conductor; a fourth power circuit transmission conductor disposed on the first power line insulating paste and located on a side of the third power circuit transmission conductor facing away from the fourth high frequency differential signal transmission conductor; a first other signal conductor disposed on the first line of insulating glue and located on a side of the fourth power circuit transmission conductor facing away from the third power circuit transmission conductor; one disposed on the first line of insulating glue and located The first low-frequency differential signal transmission conductor of the first power-signal conductor is disposed away from the first low-frequency differential signal transmission conductor; the first low-frequency differential signal transmission conductor is disposed away from the first low-frequency differential signal transmission conductor a second low frequency differential signal transmission conductor on one side of the other signal conductor; a second other on the first line insulation layer and on the side of the second low frequency differential signal transmission conductor facing away from the first low frequency differential signal transmission conductor a signal conductor; a third other signal conductor disposed on the first line of insulating glue and located on a side of the second other signal conductor facing away from the second low frequency differential signal transmission conductor; and a first line of insulating glue disposed on the first line a third low frequency differential signal transmission conductor located on a side of the third other signal conductor facing away from the second other signal conductor; a first line insulation rubber disposed on the first line And a fourth low-frequency differential signal transmission conductor disposed on a side of the third low-frequency differential signal transmission conductor facing away from the third other signal conductor; a first low-frequency differential signal transmission conductor disposed on the first wiring insulation layer a fourth other signal conductor facing away from the side of the third low frequency differential signal transmission conductor; one disposed on the first line of insulating glue and located on the side of the fourth other signal conductor facing away from the fourth low frequency differential signal transmission conductor a power loop transmission conductor; a sixth power loop transmission conductor disposed on the first line insulation colloid and located on a side of the fifth power loop transmission conductor facing away from the fourth other signal conductor; one disposed in the first row a fifth high-frequency differential signal transmission conductor on the line insulating colloid and located on a side of the sixth power-supply loop transmission conductor facing away from the fifth power-supply loop transmission conductor; one disposed on the first-line insulation gel and located at the fifth highest The sixth differential high-frequency differential signal transmission conductor of the frequency differential signal transmission conductor facing away from the transmission conductor of the sixth power supply loop; And a seventh power circuit transmission conductor on a side of the sixth high-frequency differential signal transmission conductor facing away from the fifth high-frequency differential signal transmission conductor; one disposed on the first-line insulation rubber and located in the seventh power supply loop a seventh high-frequency differential signal transmission conductor on a side of the sixth high-frequency differential signal transmission conductor; a first high-frequency differential signal transmission conductor disposed on the first high-frequency differential signal transmission conductor and away from the seventh power supply An eighth high frequency differential signal transmission conductor on one side of the loop transmission conductor; An eighth power circuit transmission conductor disposed on the first line of insulating glue and located on a side of the eighth high frequency differential signal transmission conductor facing away from the seventh high frequency differential signal transmission conductor; one disposed on the first line a second line of insulating glue on the insulating colloid, and one side of the insulating conductor set is not covered; a first metal spacer disposed on a side of the second line of insulating colloid facing away from the first line of insulating colloid; a third line of insulating glue disposed on a side of the first line of insulating rubber facing away from the second line of insulating rubber; and a first line disposed on a side of the third line of insulating layer facing away from the insulating layer of the first line of insulating Two metal partitions. The electrical connection cable of claim 7, wherein the first cable insulation gel has a plurality of fixing portions for holding with a USB C-TYPE connector. The electrical connection line of claim 7, wherein a first power circuit transmission conductor contact portion is defined at one end of the first power circuit transmission conductor, and a first high frequency difference is defined at one end of the first high frequency differential signal transmission conductor. a signal transmission conductor contact portion, a second high-frequency differential signal transmission conductor contact portion is defined at one end of the second high-frequency differential signal transmission conductor, and a second power supply loop transmission conductor contact portion is defined at one end of the second power supply loop transmission conductor. A third high-frequency differential signal transmission conductor contact portion is defined at one end of the third high-frequency differential signal transmission conductor, and a fourth high-frequency differential signal transmission conductor contact portion is defined at one end of the fourth high-frequency differential signal transmission conductor. A third power circuit transmission conductor contact portion is defined at one end of the three power circuit transmission conductor, and a fourth power circuit transmission conductor contact portion is defined at one end of the fourth power circuit transmission conductor, and the first other signal conductor defines a first end at one end thereof The other signal conductor contact portion is defined at one end of the first low frequency differential signal transmission conductor a first low frequency differential signal transmission conductor contact portion, a second low frequency differential signal transmission conductor contact portion is defined at one end of the second low frequency differential signal transmission conductor, and a second other signal conductor contact portion is defined at one end of the second other signal conductor a third other signal conductor contact portion is defined at one end of the third other signal conductor, and a third low frequency differential signal transmission conductor contact portion is defined at one end of the third low frequency differential signal transmission conductor, and the fourth low frequency differential signal transmission conductor end is defined at one end a fourth low frequency differential signal transmission conductor contact portion is defined, and a fourth other signal conductor contact portion is defined at one end of the fourth other signal conductor, and a fifth power supply loop transmission conductor contact portion is defined at one end of the fifth power supply loop transmission conductor a sixth power circuit transmission conductor contact portion is defined at one end of the sixth power circuit transmission conductor, and a fifth high frequency differential signal transmission conductor contact portion is defined at one end of the fifth high frequency differential signal transmission conductor, the sixth high frequency One end of the differential signal transmission conductor a sixth high frequency differential signal transmission conductor contact portion is defined, and a seventh power supply loop transmission conductor contact portion is defined at one end of the seventh power supply loop transmission conductor, and a seventh high frequency is defined at one end of the seventh high frequency differential signal transmission conductor a differential signal transmission conductor contact portion, the eighth high frequency differential signal transmission conductor defines an eighth high frequency differential signal transmission conductor contact portion at one end thereof, and an eighth power supply loop transmission conductor contact portion is defined at one end of the eighth power supply loop transmission conductor . The electrical connection line of claim 9, wherein the other end of the first power circuit transmission conductor defines a first power circuit transmission conductor guiding portion, and the first high frequency differential signal transmission conductor defines a first height at the other end a frequency difference signal transmission conductor guiding portion, the second high frequency differential signal transmission conductor defines a second high frequency differential signal transmission conductor guiding portion at the other end, and a second power source is defined at the other end of the second power circuit transmission conductor a loop transmission conductor guiding portion, the third high frequency differential signal transmission conductor defines a third high frequency differential signal transmission conductor guiding portion at the other end, and the fourth high frequency differential signal transmission conductor defines a fourth height at the other end a frequency difference signal transmission conductor guiding portion, the third power circuit transmission conductor defines a third power circuit transmission conductor guiding portion at the other end, and a fourth power circuit transmission conductor guide is defined at the other end of the fourth power circuit transmission conductor a first other signal conductor guiding portion defined at the other end of the first other signal conductor, the first low frequency differential signal transmission A first low frequency differential signal transmission conductor guiding portion is defined at the other end of the conductor, and a second low frequency differential signal transmission conductor guiding portion is defined at the other end of the second low frequency differential signal transmission conductor, and the other other signal conductor is at the other end. a second other signal conductor guiding portion is defined, and a third other signal conductor guiding portion is defined at the other end of the third other signal conductor, and a third low frequency differential signal transmission is defined at the other end of the third low frequency differential signal transmission conductor. a fourth low-frequency differential signal transmission conductor guiding portion is defined at the other end of the fourth low-frequency differential signal transmission conductor, and a fourth other signal conductor guiding portion is defined at the other end of the fourth low-frequency differential signal conductor. A fifth power circuit transmission conductor guiding portion is defined at the other end of the fifth power circuit transmission conductor, and a sixth power circuit transmission conductor guiding portion is defined at the other end of the sixth power circuit transmission conductor, the fifth high frequency differential signal The fifth high frequency differential signal transmission conductor guiding portion is defined at the other end of the transmission conductor, and the sixth high frequency difference is A sixth high frequency differential signal transmission conductor guiding portion is defined at the other end of the signal transmission conductor, and a seventh power circuit transmission conductor guiding portion is defined at the other end of the seventh power circuit transmission conductor, and the seventh high frequency differential signal transmission is performed. The seventh high-frequency differential signal transmission conductor guiding portion is defined at the other end of the conductor, and the eighth high-frequency differential signal transmission conductor guiding portion is defined at the other end of the eighth high-frequency differential signal transmission conductor, and the eighth power supply loop is transmitted. The other end of the conductor There is an eighth power supply loop transmission conductor guide.