TWM419204U - Transmission device - Google Patents

Description

V. New Description: [New Technology Field] [0001] The present invention relates to a transmission device, and more particularly to a transmission device having a combination of a complex signal transmission line and a plurality of power lines. [Prior Art] [0002] Solar energy converts sunlight into electricity; solar energy is a good source of energy in the case of limited energy sources of the earth; solar energy has become a kind of energy shortage and environmental awareness. An important alternative energy source. [0003] The conversion of sunlight into electrical energy requires appropriate electronic equipment, and between these electronic devices, signal transmission lines and power lines are required to transmit signals and power. In the conventional technology, the signal transmission line and the power line are separately wired, that is, the wiring of the signal transmission line has a dedicated cable, and the power line has a dedicated line, so that it will waste the cost of the line and the cost of the human wiring. . [0004] Especially when it is used in an outdoor environment, the signal transmission line and the power line are separately wired, which will make the design of the waterproof and dustproof mechanism of the machine complicated and expensive. However, if power line commu-nication (PLC) is used, the communication circuit hardware is complicated and expensive. In order to save the signal transmission line wiring and use wireless communication technology ( wireless communication, you such as ZigBee), Bay 1 greatly reduces the reliability of communication. [New Content] [0005] In order to improve the above-mentioned shortcomings of the prior art, the purpose of the present invention is to provide a form number A0101, page 3 of 17 M419204 transmission devices, in combination with a plurality of signal transmission lines and a plurality of power lines. [0006] To achieve the above objects of the present invention, the transmission device of the present invention comprises a cable and at least one connector. The cable includes an insulating outer layer, a differential signal line group, an alternating current power line group and a metal shielding layer; the insulating outer layer encloses the differential signal line group, the alternating current power line group and the metal shielding layer; the differential signal The line group includes a plurality of signal transmission lines; the AC power line group includes a plurality of power lines; the metal shielding layer is used to isolate the differential signal line group and the AC power line group. The connector includes an insulative housing and a plurality of conductive terminals; the insulative housing encloses the conductive terminals; each of the conductive terminals includes a pin; the pins are respectively associated with the signal transmission lines, the power lines, and the metal shield Layer electrical connection. [0007] The effect of this creation is that it can combine a complex signal transmission line and a complex power line. [Embodiment] [0008] Please refer to the first figure, which is an external view of the transmission device of the present invention; please refer to the second figure, which is a perspective view of the cable of the present invention; please refer to the third figure, which is A cable cutaway view of the creation. [0009] The transmission device 10 of the present invention comprises a cable 100 and at least one connector 200. [0010] The cable 100 includes an insulating outer layer 102, a differential signal line group 104, an AC power line group 106, and a metal. The shielding layer 108, a metal shielding layer connecting line 110, an insulating coating layer 112 and a filler 114. [0011] The insulating outer layer 102 encloses the differential signal line group 104, the alternating current power line group 106, the metal shielding layer 108, the metal shield layer connecting line 110, and the form number A0101. The cladding layer 112 and the filler 114. The differential signal line group 104 includes a plurality of signal transmission lines 116. The signal transmission line 116 includes an insulating layer 118 and a wire 120. The insulating layer 118 covers the wire 120. [0013] The AC power line set 106 includes a plurality of power lines 122; the power line 122 includes an insulating layer 124 and a wire 126; the insulating layer 124 covers the wire 126. [0014] The power lines 122 can be all fire lines (Hot) Line); or, the power lines 122 may be part of the live line, and the rest are Neutral lines; or 'the power lines 122 may be part of the line of fire, and the rest are ground lines; or The power lines 122 may be partially part of the live line, and the rest are ground lines. [0015] The metal shielding layer 108 is configured to isolate the differential signal line group 104 and the AC power line group 1 0 6 to avoid crosstalk between the differential signal line group 1 〇 4 and the AC power line group 106. (crosstalk), improving the electromagnetic compatibility (EMC) of the wire wound 100. [0016] In an embodiment, the metal shielding layer 1 包裹 8 encloses the differential signal line group 104 or the alternating current power line group 1 〇 6 (in the second and third figures, the metal shielding layer 108 wraps the The differential signal line group 1〇4); in another embodiment, the metal shielding layer 108 does not wrap the differential signal line group 104 or the alternating current power line group 106 but the differential signal line group 1〇4 and the AC power line group 1 0 6 isolation. [00Π] The insulating coating layer 112 is used to cover the metal shielding layer 108 and the metal shielding layer connecting line 110, such that the metal shielding layer connecting line 110 and the gold form number A0101 page 5 / a total of 17 pages M419204 The shielding layer 108 is in electrical contact. [0018] The filler 114 is comprised of a plurality of insulated wires 128 to reduce friction (avoiding the differential signal line set 104 being torn by the alternating current power line set 106 during manufacture of the transmission device 10). The insulated wire 128 can be a reel or a glass ribbon. [0019] if the metal shielding layer 108 encloses the differential signal line group 104 (as shown in the second and third figures), the filler 114 is used to fill the insulating coating layer 112 and the AC power line group. The gap between 106. [0020] If the metal shield layer 108 encloses the AC power line group 1〇6, the filler 114 is used to fill the gap between the insulating coating layer 112 and the differential signal line group 104. [0021] In addition, in an embodiment, if the transmission device 1 does not include the metal shield connection line 110 and the insulation coating layer 112 and the metal shielding layer 108 wraps the differential signal line group 104, the The filler 114 is used to fill the gap between the AC power line group 106 and the metal shield layer 1〇8. [0022] In another embodiment, if the transmission device 1 does not include the metal shield connection line 110 and the insulating coating layer 112 and the metal shielding layer 1 〇 8 wraps the AC power line group 106 ′, the filling The object 114 is used to fill the gap between the differential signal line group 104 and the metal shield layer 1〇8. [0023] In another embodiment, if the transmission device 10 does not include the metal shield connection line 110 and the insulation coating layer 112, the filler 114 is used to fill the differential signal line group 104. The gap between the alternating current power line group 1〇6 and the metal shield layer 108. [0024] The connector 200 includes an insulative housing 202, a socket 204, and a plurality of form numbers Α0101 笫6 pages/17 pages of electrical terminals 206. The insulative housing 202 encloses the conductive terminals 206; the socket 204 is disposed on one side of the insulative housing 202. Each of the conductive terminals 206 includes a pin 208 (the pin 208 is shown in the fifth figure); the pins 208 are electrically connected to the signal transmission lines 116, the power lines 122, and the metal shielding layer 108, respectively. Sexual connection. The metal shield connection line 110 is in electrical contact with the metal shield 108 and is coupled to the pin 208 of the conductive terminal 206.

The signal transmission lines 116 are entangled with each other to increase the electromagnetic resistance (EMS) of the signal transmission lines 116; the power lines 122 are entangled with each other to reduce electromagnetic interference (EMI) of the power lines 122. [0028] Please refer to the fourth figure, which is another perspective view of the transmission device of the present invention; the number of the connectors 202 is one (or may be multiple); the cable 100 is soldered or electrically connected. On a printed circuit board 300. [0029] In another specific embodiment, the number of the connectors 202 is two, and one is a male head of the conductive terminals 206, and the other is a female head of the conductive terminals 206. As shown in the first figure, the number of the signal transmission lines 116 is two; the number of the power lines 122 is four; the number of the conductive terminals 206 is seven, and the conductive terminals 206 are electrically connected to Two of the signal transmission lines 116, four of the power lines 122, and the metal shielding layer 108. [0030] After the metal shield layer connection line 110 is electrically contacted with the metal shield layer 108, the metal shield layer connection line 110 is reconnected to the pin 208 of the conductive terminal 206 (eg, fifth). As shown in the figure), this creation form number A0101 page 7 / page 17 M419204 is not limited to this. [0031] Please refer to the sixth drawing, which is a cross-sectional view of another embodiment of the transmission device of the present invention. The metal shield 108 is a wrap-extension section 130; the extension 130 is coupled to the pin 208 so the metal shield connection line 110 is not required. [0032] The effect of this creation is that it can combine multiple signal transmission lines and multiple power lines to reduce cable cost and labor wiring costs, and to save the high cost of using power line communication technology. [0033] In summary, when the knowledge of the creation has industrial utilization, novelty and progress, and the structure of the creation has not been seen in similar products and public use, fully comply with the requirements of the new patent application, according to the patent law Application. BRIEF DESCRIPTION OF THE DRAWINGS [0034] The first figure is an external view of the transmission device of the present invention. [0035] The second figure is a perspective view of the cable of the creation. [0036] The third figure is a cross-sectional view of the cable of the creation. [0037] The fourth figure is another perspective view of another embodiment of the transmission device of the present invention. [0038] The fifth figure is a cross-sectional view of the transmission device of the present invention. [0039] FIG. 6 is a cross-sectional view showing another embodiment of the transmission device of the present invention. [Main Component Symbol Description] [0040] Transmission Device 10 [0041] Cable 100 [0042] Connector 200 Form No. A0101 Page 8 of 17 M419204

[0044] Printed Circuit Board 300 [0044] Insulating Outer Layer 102 [0045] Differential Signal Line Set 104 [0046] Parental Power Line Set 1 0 6 [0047] Metal Shield Layer 108 [0048] Metal Shield Connection Line 110 [0049] Insulation Coating 112 [0050] Filler 114 [0051] Signal Transmission Line 116 [0052] Insulation Layer [0053] Conductor 120 [0054] Power Line 122 [0055] Insulation Layer 124 [0056] Conductor 126 [0057] Insulated Wire 128 [0058] Extension 130 [0059] Insulation Housing 202 [0060] Socket 204 [0061] Conductive Terminal 206 Form Number A0101 Page 9 of 17

Claims (1)

M419204 VI. Patent application scope: 1. A transmission device comprising: a line slow, a package-insulating outer layer, a differential signal line group, an alternating current power line group and a metal shielding layer, the insulating outer layer wrapping the differential signal line group The alternating power line group and the metal shielding layer, the differential signal line group includes a plurality of signal transmission lines, the alternating current power line group includes a plurality of power lines, the metal shielding layer is used for isolating the differential signal line group and the alternating current power line And the at least one connector includes an insulative housing and a plurality of conductive terminals, the insulative housing encasing the conductive terminals, each of the conductive terminals including a pin, the pins respectively associated with the signal transmission lines, and the The power line and the metal shielding layer are electrically connected. 2. The transmission device of claim 1, wherein the metal shielding layer wraps the differential signal line group or the alternating current power line group. 3. The transmission device of claim 2, wherein the cable further comprises a metal shield connection line, the insulating outer layer encasing the metal shield connection line, the metal shield connection line and the metal shielding layer Electrically contacting and connecting to the pin of the conductive terminal. 4. The transmission device of claim 3, wherein the cable further comprises an insulating coating covering the metal shielding layer and the metal shielding layer connection. 5. The transfer device of claim 2, wherein the metal shield comprises an extension connected to the pin. 6. The transmission device of claim 1, wherein the cable further comprises a filler for filling the differential signal line group, the alternating current power line group, and the metal shielding layer. The gap. 100214115 Form No. A0101 Page 10 of 17 1002046050-0 M419204 f. The transmission device of claim 1, wherein the signal transmission lines are intertwined with each other. 8. The transmission device of claim 1, wherein the power lines are intertwined with each other. [beta] 9. The transmission device of claim 6, wherein the number of the signal transmission lines is two The number of the power lines is four; the number of the conductive terminals is seven; the conductive terminals are electrically connected to the two signal transmission lines, the four power lines and the metal shielding layer. 10. The transmission device of claim i, wherein the number of the connectors is two 'and one is a male head of the conductive terminals, and the other is a female female recessed by the conductive terminals. . 11. The transmission device of claim 2, wherein the power lines are all fire lines. The transmission device of claim 1, wherein the power lines are part of a live line and the rest are neutral. 13. The transmission device of claim i, wherein the power line portion is a live line, and the rest is a ground line. [14] The transmission device of claim 1, wherein the power line portions For the fire line, the part is the neutral line and the rest is the ground line. 100214115 Form No. A0101 Page 11 of 17 1002046050-0