TWM461198U - Electronic transport module - Google Patents

Description

Electronic signal transmission module (2)

The present invention provides an electronic signal transmission module (2), especially a transmission module for electronic signal distribution and transmission between electronic products, using a positive power supply isolation portion and a separation guide to reduce capacitive coupling and impedance phase. Match and increase the stability of signal transmission.

According to the advancement of electronic technology, many electronic and electrical products bring people The comfort and convenience of work and life have also led people to rely more and more on the use of electronic and electrical products. Through the application and operation of various electronic signals, they control the operation and execution of electronic and electrical products. Electrical products are constantly being improved and created. The functions of various electronic and electrical products must be continuously updated and replaced. The operation of electronic signals, the operation and execution capabilities of electronic and electrical products, and the transmission of electronic signals are controlled by the application of electronic signals. The speed is also constantly increasing. It is necessary to pass a high-speed transmission interface to meet a large number of electronic signal transmission speeds. The interface of the electronic signal transmission is also constantly improved and innovated to change the interface type and quantity of the transmission signal, thereby improving the high speed. The speed at which electronic signals are transmitted, and thus the size of the interface for transmitting electronic signals, has become a lack of space, affecting the layout of circuits, and the interface between various electronic and electrical products for transmitting electronic signals. The development of computers or notebook computers has made the interior of various computers Transmission interface also will be substantially reduced, with the high-speed transmission The transmission speed of the interface is greatly improved, and the number of conductive metal conductors is increased and the distribution is dense. However, the current universal bus interface is quite close in spatial arrangement by the nine conductive metal conductors, so the signal transmission is bound to increase the capacitive coupling. Phenomenon, thereby increasing the interference condition during signal transmission, thereby reducing the stability of signal transmission, and the circuit impedance (Z) of the high-speed transmission interface and the system board interface must match, and the interference can be effectively reduced under the condition that the condition is met. The signal transmission between the high-speed transmission interface and the system board interface is correctly performed. Otherwise, the signal transmission between the high-speed transmission interface and the system board interface will cause signal reflection and cause loss, distortion and distortion of the electronic signal, resulting in frequency. The quality of wide and electronic signals is not up to standard, and affects the normal operation of electronic devices such as desktop computers, notebook computers or tablets.

Therefore, how to solve the current high-speed signal interface between electronic and electrical products, it will increase the capacitive coupling and interfere with the signal transmission, thereby reducing the stability of signal transmission, and the impedance mismatch will interfere with the signal transmission and synchronously reduce the stability of signal transmission. This will result in the deterioration of the use quality of electronic and electrical products, the lack of signal, etc., which is the direction for the relevant manufacturers engaged in this industry to research and improve.

Therefore, in view of the above-mentioned problems and deficiencies, the inventors have collected relevant information, and through multi-party evaluation and consideration, and through years of experience in the industry, through continuous trial and modification, this design can reduce the capacitive coupling and A new type of patent for electronic signal transmission module (2) that meets impedance matching for electronic and electrical products during operation, is not susceptible to external signal interference, and is not susceptible to surrounding signal interference during operation of electrical products. The birther.

The main purpose of the creation is to provide an insulating socket for the transport module, and to utilize the internal bearing space for the positive power supply isolation portion, the second signal distribution guide group, and the first signal distribution guide of the electronic signal distribution unit. The group, the noise grounding guide, the third signal distribution guide group and the noise processing grounding guide, etc., are accommodated in the receiving space, and then the outer cover of the insulating socket and the electronic signal distribution part are assembled and covered. Forming a function of blocking external interference signals and supplying at least three or more separation guides through the positive power supply isolation portion, the power supply guide member, the first engagement guide member, the third engagement guide member, and the first separation guide member The second partitioning space is formed by the closed frame body, and the second partitioning guide, the third partitioning guide, the second connecting guide and the fourth connecting guide form a closed frame to form the first isolation space, and form at least two The above isolation space is used in each of the lead groups of the electronic signal distribution unit to reduce the capacitive coupling and the impedance by using the separate guiding members between the adjacent two isolated spaces for electronic signal distribution. Matching, increase the stability of signal transmission.

The secondary purpose of the creation is to provide a positive power supply isolation portion of the transport module, which can further define power supply guides, signal distribution guide sets, noise grounding guides, and noise processing grounding guides, respectively. Limiting functions are formed in each isolation space, and blocking and isolation functions are formed in each isolation space to avoid mutual interference.

1‧‧‧Electronic Signal Distribution Department

101‧‧‧First isolation space

102‧‧‧Second isolation space

103‧‧‧ third isolation space

11‧‧‧ Positive Power Supply Isolation Department

111‧‧‧Power supply guide

1110‧‧‧First bend

1111‧‧‧Power guide butt joint

112‧‧‧Power guide positioning joint

113‧‧‧First partition guide

1130‧‧‧second bend

114‧‧‧Second separation guide

1140‧‧‧ Third bend

115‧‧‧ Third partition guide

1150‧‧‧4th bend

116‧‧‧First connecting guide

117‧‧‧Second connecting guide

118‧‧‧ Third connecting guide

119‧‧‧fourth connecting guide

12‧‧‧First Signal Distribution Guide Group

120‧‧‧ fifth connecting guide

121‧‧‧First electronic signal distribution guide

1211‧‧‧ first docking surface

1212‧‧‧First positioning junction

122‧‧‧Second electronic signal distribution guide

1221‧‧‧ second docking surface

1222‧‧‧Second positioning junction

13‧‧‧ Noise Processing Grounding Guide

131‧‧‧First noise grounding interface

132‧‧‧ Third positioning junction

14‧‧‧Second Signal Distribution Guide Group

141‧‧‧First differential signal distribution guide

1411‧‧‧First differential interface

1412‧‧‧Four positioning joint

142‧‧‧Second differential signal distribution guide

1421‧‧‧Second differential interface

1422‧‧‧Fixed positioning joint

15‧‧‧ Noise Grounding Guide

151‧‧‧Second noise grounding interface

152‧‧‧ sixth positioning junction

16‧‧‧The third signal distribution guide group

161‧‧‧ Third differential signal distribution guide

1611‧‧‧ third differential interface

1612‧‧‧ seventh positioning junction

162‧‧‧fourth differential signal distribution guide

1621‧‧‧ fourth differential interface

1622‧‧‧8th positioning junction

2‧‧‧Insulation support

21‧‧‧ base

211‧‧‧ Fixed Department

22‧‧‧Flanking

23‧‧‧ tongue plate

230‧‧‧ 承 承

231‧‧‧ positioning channel

232‧‧‧Docking Department

2321‧‧‧ card slot

3‧‧‧Shading outer casing

30‧‧‧ docking space

The first picture is a three-dimensional appearance of the creation.

The second picture is a three-dimensional exploded view of the creation.

The third picture is a three-dimensional exploded view of the other direction of the creation.

The fourth picture is a three-dimensional appearance of the creative electronic signal distribution department.

The fifth figure is a top view of the creative electronic signal distribution department.

The sixth diagram is a side cross-sectional view of the creation.

In order to achieve the above objectives and effects, the technical means and its construction, and the method of implementation adopted by the present invention are described in detail in the preferred embodiment of the present creation, and the features and functions are as follows.

Please refer to the first, second, third, fourth and fifth figures, which are the three-dimensional appearance drawing, the three-dimensional exploded view, the three-dimensional exploded view of the other direction, the three-dimensional appearance of the electronic signal distribution department, and the electronic signal distribution department. As shown in the figure, it can be clearly seen from the figure that the electronic signal distribution unit 1 of the present invention includes a positive power supply isolation unit 11, a second signal distribution guide group 14, a first signal distribution guide group 12, and a noise. The grounding guide 15, the third signal distribution guide set 16 and the noise processing grounding guide 13 are:

The positive power supply isolation portion 11 of the electronic signal distribution unit 1 is provided with a power supply guide 111 on one side, and the power supply guide 111 has a power guide docking interface 1111 on one side and a power guide on the other side. The positioning guide 112 and the parallel power supply guide 111 are sequentially provided with a first separation guide 113, a second separation guide 114 and a third separation guide 115, and the power supply guide 111 and the first separation guide 113, the second dividing guide 114 and the third dividing guide 115, and bending into a vertical direction to form a first bending section 1110, a second bending section 1130, a third bending section 1140 and a fourth bending The segment 1150 is further extended from the side of the power supply guiding member 112 on the side of the power supply guiding member 111, and is respectively connected to the first dividing guide 113, the first connecting guide 116 and the third connecting guide 118, and second Separate guide 114 and third partition guide 115 on both sides, respectively The second connecting guide 117 is connected to the fourth connecting guide 119, and the fifth connecting guide 120 is connected between the first connecting guide 116 and the fourth connecting guide 119, and at least two or more are formed inside. The isolated space, such as the first isolation space 101, the second isolation space 102, and the third isolation space 103, is located in the second isolation space 102 for the positive power supply isolation portion 11.

The second signal distribution guide group 14 includes a first differential signal distribution guide 141 and a second differential signal distribution guide 142, and the first differential signal distribution guide 141 has a first differential interface 1411, and further A fourth positioning interface 1412 is disposed on the side, and the second differential signal distribution guide 142 has a second differential abutting surface 1421 and a fifth positioning interface 1422 extending to the other side.

The first signal distribution guide group 12 includes a first electronic signal distribution guide 121 and a second electronic signal distribution guide 122, and the first electronic signal distribution guide 121 has a first mating surface 1211 and another side. The first positioning surface 1212 is formed to extend outwardly, and the second electronic signal distribution guide 122 has a second abutting surface 1221, and the other side extends outward to form a second positioning surface 1222.

The noise grounding guide 15 has a second noise grounding interface 151 And a sixth positioning joint 152 is extended to the other side.

The third signal distribution guide group 16 includes a third differential signal distribution guide 161 and a fourth differential signal distribution guide 162, and the third differential signal distribution guide 161 has a third differential interface 1611. The seventh positioning contact surface 1612 is extended on the other side, and the fourth differential signal distribution guide 162 is provided with a fourth differential abutting surface 1621, and an eighth positioning connecting surface 1622 is further extended to the other side.

The noise processing grounding guide 13 has a first noise ground abutting surface 131 on one side and a third positioning joint 132 on the other side.

When the components are disposed and positioned, the isolation portion 11 is supplied by the positive power supply of the electronic signal distribution unit 1. The power supply guide of the power supply guide 111 positions the joint 112, and the outer side extends outward and then turns to the two sides. Extending, and respectively connected to the first connecting guide 116, the third connecting guide 118 and the first dividing guide 113 form a closed second isolation space 102, and the second separating guide 114 and the third separating guide 115 The second connecting member 117 and the fourth connecting guide 119 are respectively connected to form a closed first isolation space 101, and at least two isolation spaces are formed in the positive power supply isolation portion 11 (this creation The three isolation spaces: the first isolation space 101, the second isolation space 102, and the third isolation space 103 are application examples of the preferred embodiment, but are not limited to the application scope of the creation, and the positive power supply isolation portion is utilized. 11 is formed at least two or more isolation spaces, which are included in the technical field of the creation; and the positive power supply isolation portion 11 and the second signal are received in the second isolation space 102 of the positive power supply isolation portion 11 The feeding member set 14 is disposed on the rear side of the first differential abutting surface 1411 and the second differential abutting surface 1421; and the third isolated space 103 of the positive power supply isolating portion 11 is provided for storage. The first electronic signal distribution guide 121 and the second electronic signal distribution guide 122 of the signal distribution guide group 12 are disposed between the first electronic signal distribution guide 121 and the second electronic signal distribution guide 122. The grounding guide 15 and the second noise grounding interface 151 of the noise grounding guide 15 are located at the first mating surface 1211 of the first electronic signal distribution guide 121 and the second electronic signal distributing guide 122. The first isolation space on the other side of the second butt joint 1221 and on the other side away from the power guide docking interface 1111 In the 101, the noise processing grounding guide 13 and the third signal distribution guiding group 16 are disposed near the third separating guide 115, and the first noise grounding butt is provided on the side of the noise processing grounding guide 13 The third surface of the surface of the third differential signal distribution guide 161 is provided with a third positioning interface 1321, and a fourth differential interface 1621 of the fourth differential signal distribution guide 162. The third differential signal distribution guide 161 is located in front of the first noise grounding interface 131, and the third differential signal distribution guide 161 is disposed on the other side of the seventh positioning interface 1612 and the fourth differential signal distribution guide 162 on the other side. The inner side of the third positioning surface 132 is disposed, and the power guiding interface 1011 and the first abutting surface 1211, the second abutting surface 1221 and the first noise grounding interface 131 are disposed in a coplanar manner and are maintained at the same horizontal plane. The third differential abutting surface 1611, the fourth differential abutting surface 1621 and the second noise ground abutting surface 151, the first differential abutting surface 1411, and the second differential abutting surface 1421 are respectively extended to be connected to the power guiding member. Interface 1111 and first docking surface 1211 The second abutting surface 1221 and the first noise grounding abutting surface 131 are located in front of each other, and form a coplanar arrangement and are located at the same horizontal plane; further, the power supply guiding portion 112 on the other side of the positive power supply isolation portion 11 The first positioning joint 1212, the second positioning joint 1222, the fourth positioning joint 1412, the fifth positioning joint 1422, the sixth positioning joint 152, the seventh positioning joint 1612, and the eighth positioning joint are respectively provided. 1622. The third positioning joints 132 are respectively at a predetermined angle (which may be 45 degrees, 60 degrees, or 75 degrees, etc., and the angles may be changed according to actual design and application, and the creation is not limited to a specific angle of inclination) It extends obliquely to form a high and low drop, and can be arranged in a coplanar manner for stable fixation on a corresponding transmission guide on a predetermined electronic circuit substrate. The electronic circuit substrate can be a circuit board or a wire. , by the positive power supply isolation unit 11, the first signal distribution The set of the guide member 12, the noise processing grounding guide 13, the second signal distribution guide group 14, the noise grounding guide 15, and the third signal distribution guide group 16 constitute an electronic signal distribution unit 1.

The positive power supply isolation unit 11, the second signal distribution guide group 14, the first signal distribution guide group 12, the noise grounding guide 15, the third signal distribution guide group 16 and the noise of the electronic signal distribution unit 1 The grounding conductors 13 and the like are respectively made of a metal material having a conductive function, and may be made of a copper material, a nickel material, or an aluminum material or an alloy material, and are used for transmitting an electronic signal, a power signal, or a ground signal, and the like. The first docking surface 1211 and the second docking surface 1221 of the first signal distribution guide group 12 can be electrically contacted with an external preset electronic signal contact surface for electronic signal transmission; the second signal distribution guide The first differential abutting surface 1411, the second differential abutting surface 1421 of the group 14 and the third differential abutting surface 1611 and the fourth differential abutting surface 1621 of the third signal distributing guide group 16 are respectively in contact with an external preset electronic signal. Electrical contact for electronic signal transmission; and the first noise grounding interface 131 of the noise processing grounding conductor 13 and the second noise grounding interface 151 of the noise grounding conductor 15 are respectively externally pre-planned Ground signal contact It was electrically contacted to the interference signal except for vent.

Please refer to the second, fourth, fifth and sixth figures, which are the three-dimensional exploded view of the creation, the three-dimensional appearance of the electronic signal distribution department, the top view of the electronic signal distribution department, and the side cross-sectional view, as shown in the figures. It can be clearly seen that the electronic signal transmission module (2) may further include an electronic signal distribution unit 1, an insulation socket 2 and a shielding outer casing 3, and the electronic signal distribution unit 1 includes a positive power supply isolation portion 11, The second signal distribution guide group 14 , the first electronic signal distribution guide 121 of the first signal distribution guide group 12 , the second electronic signal distribution guide 122 , the noise grounding guide 15 , and the third signal distribution guide group 16 and noise processing grounding guide 1 3.

The insulating socket 2 is made of an insulating material such as plastic, rubber or silicone rubber of an insulating material, and has a fixing portion 211 on the side of the flat base portion 21, and is provided on the other side of the base portion 21 away from the fixing portion 211. There are two opposite side flaps 22, and a tongue plate 23 is protruded from above the outer side surface of the two side flaps 22, and has a receiving space 230 inside the tongue panel 23, and is arranged in the receiving space 230 according to the preset. The plurality of positioning channels 231 of the electronic transmission interface form an abutting portion 232 on the side of the plurality of positioning channels 231, and the base portion 21 and the tongue plate 23 of the insulating socket 2 are at a predetermined height (may be 5 cm, 7 cm or The height of 8cm is the height and low drop that can be defined according to the design of the actual application, and the creation is not limited.

The shielding outer casing 3 is made of metal, iron, copper, aluminum, zinc or an alloy material, and has abutting space 30 penetrating inside.

When the components are assembled, the guides of the electronic signal distribution unit 1 are respectively assembled to the housing space 20 of the insulating socket 2, and the guides are respectively fixed and fixed in the positioning grooves 21, respectively. Providing a first positioning joint 1212, a second positioning joint 1222, a fourth positioning joint 1412, a fifth positioning joint 1422, a sixth positioning joint 152, a seventh positioning joint 1612 and an eighth positioning joint 1622, The inner side of the fixing portion 211 of each positioning channel 21 is adjacent to the base portion 21, and the first differential abutting surface 1411, the second differential abutting surface 1421, the second noise ground abutting surface 151, the third differential abutting surface 1611 and the fourth One side of the differential abutting surface 1621 is inserted into the fixing groove 2321 outside the abutting portion 232 after the vertical bending, so that the first connecting guide 116, the fourth connecting guide 119 and the fifth connecting guide 120 are fixed on the side. In the slot 2321, and below the ground for the first noise ground The surface 131, the first abutting surface 1211, the second abutting surface 1221, and the power guiding member docking interface 1111, etc., the plane of each guiding member does not affect the insertion and extraction of the relative connection between the respective guiding members and the external opposing type guiding members, and is fixed. The inner side of the portion 211 respectively houses the power guide positioning surface 112, the first positioning surface 1212, the second positioning surface 1222, and the third positioning surface 132, and then the tongue 23 of the insulating socket 2 The abutting portion 232 is formed by two sets of guide members that are separated from each other (which can conform to the general-purpose serial bus interface mode, etc.), and is covered by the shielded outer cover 3 on the outside of the electronic signal distributing portion 1 and the insulating receiving base 2, Shielded to form another form of electronic signal transmission module.

Furthermore, in the actual application, the electronic signal distribution unit 1 of the present invention supplies the isolation portion 11 around the positive power supply by using the positive power supply 接收 received by the positive power supply isolation unit 11 to form a wraparound barrier function, respectively An isolation space 101, a second isolation space 102 and a third isolation space 103 are separated into three mutually non-interfering spaces, and the first signal distribution guide group 12 and the noise grounding guide 15 are located in the third isolation. In the space 103, the power supply guide 111 and the second signal distribution guide group 14 are located in the second isolation space 102, and the third signal distribution guide group 16 and the noise processing grounding guide 13 are located in the first isolation space 101. During the transmission of the electronic signal, the guides are isolated from the periphery of the positive power supply isolation portion 11 and the first separation guide 113, the second separation guide 114, and the third separation guide 115 to reduce capacitive coupling. And impedance matching, can also prevent mutual interference between the guides, effectively reduce the interference of the guides, and improve the stability of the electronic signal transmission, and through the power supply guide 111, noise ground 15, all kinds of interference signals outside the carriage, electrical signal delivery to reduce instability in the transmission unit 1 is the signal interference, and increase the stability of the electronic signal transmission.

Therefore, the above description is only a preferred embodiment of the present invention, and thus does not limit the scope of the patent of the creation. The electronic signal transmission module (2) of the present invention is used for isolating the positive power supply of the electronic signal distribution unit 1. The portion 11 has at least two or more isolation spaces 101, 102, and 103 formed therein, and accommodates and houses the first signal distribution guide group 12 and the noise processing grounding guide in different isolation spaces 101, 102, and 103, respectively. The first signal distribution guide 14, the noise grounding guide 15 and the third signal distribution guide 16 are formed by using the positive power supply isolation portion and the interior of each of the separation guides to form at least two isolation spaces. The isolation function can achieve the purpose of mutual interference when the electronic signal distribution unit 1 transmits the electronic signal, the power source, etc., and can be matched with the insulating socket 2 and the shielding outer casing 3, and the power supply of the isolation portion 11 by the positive power supply. The isolation method is adopted, which can stably transmit electronic signals and reduce the mutual interference of electronic signals. Therefore, the structures and devices that can achieve the aforementioned effects should be covered by this creation. Equivalent structural changes should Similarly included within the scope of the creation of the patent, together to Chen.

Therefore, the design is mainly for the transmission module of the electronic signal, and the at least two isolation spaces are formed by the positive power supply isolation portion of the electronic signal distribution unit and the interior of each separation guide, and are respectively accommodated by the respective isolation spaces. The first signal distribution guide group, the noise processing grounding guide, the second signal distribution guide group, the noise grounding guide and the third signal distribution guide group, and the power supply guide, the first connecting guide The third connecting guide and the first separating guide form a closed frame to form a second isolation space, and the second dividing guide, the third separating guide, the second connecting guiding member and the fourth connecting guiding member form a closed The first isolation space is formed by the frame body, and the isolation of the positive power source is formed by the positive power supply isolation portion to reduce the capacitive coupling and the impedance matching, which is the main protection focus for the stable signal transmission of the guide members. Only make electronics The signal transmission module can reduce the mutual interference between the guides when transmitting the signal, and the grounding guide and the noise grounding guide can assist the electromagnetic wave and the noise to be discharged outward through the noise processing. To improve the stable quality of the electronic signal transmission, the above description is only a preferred embodiment of the present invention, and thus does not limit the scope of the patent of the creation, so the simple modification and use of the creation specification and the graphic content are The equivalent structural changes shall be included in the scope of the patent of this creation and shall be combined with Chen Ming.

In summary, the above-mentioned electronic signal transmission module (2) is capable of achieving its efficacy and purpose when implemented and used. Therefore, this creation is a practical and excellent research and development, and is in line with the application of the new patent. The requirements, 提出 提出 提出 提出 提出 盼 盼 盼 盼 盼 盼 盼 盼 盼 盼 盼 盼 盼 盼 盼 盼 盼 盼 盼 盼 盼 盼 盼 盼 盼 盼 盼 盼 审 审 审 审 审 审 审 审 审 审 审 审 审 审 审 审 审 审 审 审 审 审 审 审 审 审

1‧‧‧Electronic Signal Distribution Department

101‧‧‧First isolation space

102‧‧‧Second isolation space

103‧‧‧ third isolation space

11‧‧‧ Positive Power Supply Isolation Department

111‧‧‧Power supply guide

112‧‧‧Power guide positioning joint

113‧‧‧First partition guide

114‧‧‧Second separation guide

115‧‧‧ Third partition guide

116‧‧‧First connecting guide

117‧‧‧Second connecting guide

118‧‧‧ Third connecting guide

119‧‧‧fourth connecting guide

12‧‧‧First Signal Distribution Guide Group

120‧‧‧ fifth connecting guide

122‧‧‧Second electronic signal distribution guide

13‧‧‧ Noise Processing Grounding Guide

131‧‧‧First noise grounding interface

132‧‧‧ Third positioning junction

14‧‧‧Second Signal Distribution Guide Group

141‧‧‧First differential signal distribution guide

142‧‧‧Second differential signal distribution guide

15‧‧‧ Noise Grounding Guide

16‧‧‧The third signal distribution guide group

161‧‧‧ Third differential signal distribution guide

162‧‧‧fourth differential signal distribution guide

2‧‧‧Insulation support

21‧‧‧ base

211‧‧‧ Fixed Department

22‧‧‧Flanking

23‧‧‧ tongue plate

230‧‧‧ 承 承

231‧‧‧ positioning channel

232‧‧‧Docking Department

2321‧‧‧ card slot

3‧‧‧Shading outer casing

30‧‧‧ docking space

Claims (7)

An electronic signal transmission module (2) comprising a positive power supply isolation unit, a first differential signal distribution guide, a second differential signal distribution guide, a first electronic signal distribution guide, a second electronic signal distribution guide, a noise grounding guide, a third differential signal distribution guide, a fourth differential signaling guide, and a noise processing grounding guide, wherein: the positive power supply isolation portion is provided on the side of the power supply guide The power supply interface of the power supply contact surface of the power contact surface is preset, and the other side is provided with a power supply guide positioning surface fixed on the external electronic circuit substrate, and the power guide is positioned to the side and outward. Extending around the power supply guide, respectively connected to the first connecting guide, the third connecting guide and the first separating guide to form a closed second isolation space, and the second separating guide and the third separating guiding member are respectively And connecting the second connecting guide and the fourth connecting guide respectively to form a closed first isolation space, and the fifth connecting guide and the first connecting guiding member are connected with the fifth connecting guide, and Power supply isolation Forming at least two or more isolation spaces; the first differential signal distribution guide is installed in an isolation space adjacent to the power supply guide of the positive power supply isolation portion, and one side is located outside the docking interface of the power supply guide a differential abutting surface, and a fourth positioning interface adjacent to a side of the power guiding member positioning interface; the second differential signal distribution guiding member is installed adjacent to the positive power supply isolation portion In the isolated space of the differential signal distribution guide, one side has a second differential abutting surface adjacent to the first differential abutting surface, and the other side is provided with a fifth positioning connecting surface adjacent to a side of the fourth positioning connecting surface; The first electronic signal distribution guide is disposed in another isolation space of the adjacent third differential signal distribution guide disposed in the positive power supply isolation portion, and has a parallel power supply guide docking interface on one side and external preset electronic The first mating surface of the electrical contact of the signal contact surface is provided on the other side a first positioning interface fixed to the external electronic circuit substrate; the second electronic signal distribution guide is disposed in an isolated space of the adjacent first electronic signal distribution guide disposed in the positive power supply isolation portion The second docking surface having electrical contact with the external preset electronic signal contact surface, and the other side is provided with an adjacent first positioning joint surface for fixing the second positioning joint surface of the external preset electronic circuit substrate; The noise grounding guide is disposed in an isolation space opposite to the inner side of the adjacent first and second electronic signal distribution guides, and has a second noise grounding interface on the one side of the first and second abutting surfaces, and another a sixth positioning interface on the opposite side of the first positioning joint and the second positioning joint is further extended on the side; the fourth differential signal distribution guide is installed in the positive power supply isolation portion and adjacent noise In the isolated space for processing the grounding guide, one side has a fourth differential abutting surface extending to the outside of the mating surface of the noise processing grounding guide, and the other side is provided with an eighth positioning connecting surface of the adjacent first noise grounding abutting surface; The third differential signal distribution guide The fourth differential signal distribution guide is disposed in the isolated space of the positive power supply isolation portion, and has a third differential abutting surface on the adjacent fourth differential abutting surface on one side and an adjacent eighth side on the other side. The seventh positioning junction of the positioning junction; and the noise processing grounding conductor is installed in an isolated space of the positive power supply isolation portion, and one side has an electrical contact with the external preset grounding signal contact surface The first noise grounding abutting surface is provided with an adjacent seventh positioning joint surface and an eighth positioning joint surface for assembling and positioning the third positioning joint surface of the external preset electronic circuit substrate. An electronic signal transmission module (2) comprising an insulation bearing seat and an electronic signal distribution unit And a shielding shell, wherein: the insulating socket has a bearing space therein; the electronic signal distributing portion is assembled in the bearing space of the insulating socket, and comprises a positive power supply isolation portion and a first differential signal distribution guide a second differential signal distribution guide, a first electronic signal distribution guide, a second electronic signal distribution guide, a noise grounding guide, a third differential signal distribution guide, a fourth differential signal distribution guide, and a noise processing a grounding guide, wherein the positive power supply is provided with a power supply connector interface on the side of the power supply guide and electrically connected to the external power contact surface, and the other side is provided on the external electronic circuit substrate The power guiding member positioning the connecting surface, and the power guiding member positioning connecting surface extends to the side edge and outwardly around the power supply guiding member, and is respectively connected to the first connecting guide member, the third connecting guide member and the first separating guide member Forming a closed second isolation space, and the second separation guide and the third separation guide are respectively connected by the second connecting guide and the fourth connecting guide to form a closed first isolation space, and the first Four title A fifth connecting guide is connected between the guiding member and the first connecting guide, and at least two or more isolated spaces are formed inside the positive power supply isolation portion; the first differential signal distributing guide is installed at the positive power supply In the isolation space of the adjacent power supply guide of the supply isolation portion, one side has a first differential abutting surface on the outer side of the power guiding member docking interface, and the other side is provided with a fourth side adjacent to the power guiding member positioning connecting side Positioning the junction; the second differential signal distribution guide is disposed in the isolation space adjacent to the first differential signal distribution guide of the positive power supply isolation portion, and has a second difference between the adjacent first differential interface surfaces on one side a fifth positioning interface adjacent to a side of the fourth positioning interface; the first electronic signal distribution guide is an adjacent third differential signal installed in the positive power supply isolation portion In another isolation space of the distribution guide, one side has parallel power supply guide docking interface And a first docking surface for electrically contacting the external preset electronic signal contact surface, and a first positioning interface fixed on the external electronic circuit substrate on the other side; the second electronic signal distribution guide is mounted Provided in the isolated space of the adjacent first electronic signal distribution guide of the positive power supply isolation portion, one side has a second abutting surface electrically contacting the external preset electronic signal contact surface, and the other side is provided with an adjacent side a positioning contact surface for fixing to a second positioning interface of the external preset electronic circuit substrate; the noise grounding guide is disposed adjacent to the first power supply and the second electronic signal distribution of the positive power supply isolation portion In the isolated space of the inner side of the guiding member, one side has a second noise grounding abutting surface on the outer side of the first and second abutting surfaces, and the other side extends outwardly to be located on the inner side of the first positioning joint surface and the second positioning joint surface. a sixth positioning contact surface; the fourth differential signal distribution guide is installed in the isolated space of the positive power supply isolation portion and the adjacent noise processing grounding guide, and one side has the extension to the first noise ground connection Fourth differential abutment on the outside of the face The other side is provided with an eighth positioning interface of the adjacent third positioning interface; the third differential signal distribution guide is installed in the isolation space of the positive power supply isolation portion, and adjacent to the fourth differential signal distribution guide One side has a third differential abutting surface on the adjacent fourth differential abutting surface, and the other side is a seventh positioning connecting surface provided with an adjacent eighth positioning joint; the noise processing grounding guide is installed In an isolated space of the positive power supply isolation portion, one side has a first noise ground abutting surface for electrically contacting the external external preset ground signal contact surface, and the other side is provided with an adjacent seventh positioning joint surface, The eighth positioning joint is configured to be assembled and positioned on the third positioning joint surface of the external preset electronic circuit substrate; and the shielding outer cover shell is assembled and covered on the outside of the insulating socket and the electronic signal distribution portion, and the inside is accommodated Insulation holder and electronic signal distribution unit become external preset electronic signals The docking space of the contact interface relative to the electrical plug. An electronic signal transmission module (2) includes an insulating socket, an electronic signal distribution portion, and a shielding outer casing, wherein: the insulating socket has a bearing space therein; and the electronic signal distribution portion is assembled in an insulation bearing The seating space of the seat includes a positive power supply isolation frame, a second signal distribution guide group, a first signal distribution guide group, a noise grounding guide, a third signal distribution guide group, and a noise processing grounding guide. The positive power supply isolation portion is provided with a power supply connector docking interface electrically contacting the external power supply contact surface on the power supply guide side, and the other side is fixed on the external electronic circuit substrate. The power guiding member positions the connecting surface, and the power guiding member positioning connecting surface extends to the side and outwardly around the power supply guiding member, and is respectively connected to the first connecting guide, the third connecting guide and the first separating guide. a closed second isolation space, and the second separation guide and the third separation guide are respectively connected by the second connecting guide and the fourth connecting guide to form a closed first isolation space, and the fourth Connecting guide A fifth connecting guide is connected between the first connecting guides, and at least two isolation spaces are formed inside the positive power supply isolation portion; the second signal distribution guide group is assembled in the positive power supply isolation portion at the power supply The isolation space on the side of the supply guide includes a first differential signal distribution guide and a second differential signal distribution guide, and the first differential signal distribution guide is installed in the positive power supply isolation portion adjacent power supply. In the isolated space of the supply guide, one side has a first differential abutting surface on the outer side of the mating interface of the power guiding member, and the other side is provided with a fourth positioning connecting surface adjacent to the side of the positioning surface of the power guiding member; The second differential signal distribution guide is installed in the positive power supply isolation section adjacent to the first difference In the isolated space of the signal distribution guide, one side has a second differential abutting surface adjacent to the first differential abutting surface, and the other side is provided with a fifth positioning connecting surface adjacent to a side of the fourth positioning connecting surface; a signal distribution guide group is assembled in another isolation space adjacent to the power supply guide of the positive power supply isolation portion, and includes a first electronic signal distribution guide and a second electronic signal distribution guide, and the The first electronic signal distribution guide is disposed in another isolation space of the adjacent third differential signal distribution guide disposed in the positive power supply isolation frame, and has a parallel power supply connector docking interface on one side and external preset electronic The first mating surface of the electrical contact of the signal contact surface is provided with a first positioning interface fixed on the external electronic circuit substrate; the second electronic signal distribution guide is installed in the positive power supply isolation portion In the isolated space of the adjacent first electronic signal distribution guide, one side has a second abutting surface electrically contacting the external preset electronic signal contact surface, and the other side is provided with an adjacent first positioning joint surface for providing Fixed to external preset electronic power a second positioning interface of the substrate; the noise grounding guide is disposed in an isolation space opposite to the inner side of the adjacent first and second electronic signal distribution guides of the positive power supply isolation portion, and the first side is located at the first side a second noise grounding abutting surface on the outer side of the two mating faces, and a sixth positioning connecting surface on the opposite side of the first positioning joint surface and the second positioning joint surface extending from the other side; the third signal distribution guide group The fourth differential signal distribution guide and the third differential signal distribution guide are disposed in the isolation space inside the adjacent first signal distribution guide group of the positive power supply isolation portion, and the fourth differential signal is The distribution guide is installed in the isolated space of the positive power supply isolation portion and the adjacent noise processing grounding guide, and has a fourth differential abutting surface extending to the outside of the first noise grounding butting surface on one side, and the other side Providing an eighth positioning joint of the adjacent third positioning joint; The third differential signal distribution guide is disposed in the isolation space of the positive power supply isolation portion and adjacent to the fourth differential signal distribution guide, and has a third differential interface on the adjacent fourth differential interface. The seventh side of the surface is provided with a seventh positioning joint adjacent to the eighth positioning joint; the noise processing grounding guide is installed in an isolated space of the positive power supply isolation portion, and the side has a butt outer portion The first noise grounding abutting surface of the electrical contact surface of the preset grounding signal contact surface is provided with an adjacent seventh positioning joint surface and an eighth positioning joint surface for assembly and positioning on an external preset electronic circuit substrate. The third positioning joint is assembled and covered on the outside of the insulating socket and the electronic signal distribution portion, and has an inner insulating socket and an electronic signal distribution portion to be opposite to the external preset electronic signal contact interface. The mating space of the electrical plug-in; and the shielded outer cover is assembled and covered on the outside of the insulating socket and the electronic signal distribution part, and has an internal insulating socket and an electronic signal distribution part to be externally preset Space docking interface relative signal contacts electrical plug it. An electronic signal transmission module (2) includes an insulation bearing seat, an electronic signal distribution part, and a shielding outer cover, wherein: the insulating bearing seat is provided with a bearing space with a plurality of positioning grooves; the electronic signal distribution The part is assembled in the bearing space of the insulating socket, and comprises a positive power supply isolation portion, a second signal distribution guide group and a first signal distribution guide respectively assembled and positioned in each positioning channel of the receiving space. The group, the noise grounding guide, the third signal distribution guide group and the noise processing grounding guide, and the positive power supply isolation portion is provided with electrical contact with the external power supply contact surface on the side of the power supply guide The power guiding member docking interface and the other side are positioning guides of the power guiding member fixed on the external electronic circuit substrate, and are positioned by the power guiding member The junction faces the side and extends outwardly around the power supply guide, and is respectively connected to the first connecting guide, the third connecting guide and the first separating guide to form a closed second isolation space, and the second separating guide And the third connecting guides are respectively connected to the fourth connecting guides by using the second connecting guides to form a closed first isolation space, and the fourth connecting guides are connected with the first connecting guides. The fifth connecting guides form at least two or more isolation spaces of the flow inside the positive power supply isolation portion; the second signal distribution guide group is assembled in the positive power supply isolation portion on the side of the power supply guide The space includes a first differential signal distribution guide and a second differential signal distribution guide, and the first differential signal distribution guide is installed in an isolation space adjacent to the power supply guide of the positive power supply isolation portion. One side has a first differential abutting surface on the outer side of the power guiding member docking interface, and the other side is provided with a fourth positioning connecting surface adjacent to the side of the power guiding member positioning connecting surface; the second differential signal distributing guide, Tie In the isolated space of the first differential signal distribution guide adjacent to the positive power supply isolation portion, one side has a second differential abutting surface adjacent to the first differential abutting surface, and the other side is adjacent to the fourth positioning connecting surface a fifth positioning joint on the side; the first signal distribution guide group is assembled in another isolation space adjacent to the power supply guide of the positive power supply isolation portion, and includes the first electronic signal distribution guide a second electronic signal distribution guide, and the first electronic signal distribution guide is disposed in another isolation space of the adjacent third differential signal distribution guide disposed in the positive power supply isolation portion, and has a parallel power supply on one side a first docking surface of the guiding component docking interface and electrically contacting the external preset electronic signal contact surface, and a first positioning interface fixed on the external electronic circuit substrate on the other side; the second electronic signal distribution guide Piece, which is adjacent to the first power installed in the positive power supply isolation section In the isolated space of the sub-signal distribution guide, one side has a second mating surface electrically contacting the external preset electronic signal contact surface, and the other side is provided with an adjacent first positioning joint surface for fixing to the external pre-preparation a second positioning interface of the electronic circuit substrate; the noise grounding guide is disposed in an isolated space opposite to the inner side of the adjacent first and second electronic signal distribution guides of the positive power supply isolation portion, and has one side a second noise grounding abutting surface on the outer side of the first and second mating faces, and a sixth positioning connecting surface on the opposite side of the first positioning connecting surface and the second positioning connecting surface on the other side; the third signal distribution The guide group is disposed in an isolated space inside the adjacent first signal distribution guide group of the positive power supply isolation portion, and includes a fourth differential signal distribution guide and a third differential signal distribution guide. The four differential signal distribution guides are installed in the isolated space of the positive power supply isolation portion and adjacent noise processing grounding guides, and one side has a fourth differential abutting surface extending to the outside of the first noise grounding interface. On the other side The eighth positioning junction of the positioning junction; the third differential signal distribution guide is installed in the isolation space of the positive power supply isolation portion, and adjacent to the fourth differential signal distribution guide, one side has adjacent a third differential abutting surface of the fourth differential abutting surface, and a seventh positioning connecting surface provided with an adjacent eighth positioning connecting surface on the other side; the noise processing grounding guide is a first installed in the positive power supply isolation portion In the isolated space, one side has a first noise grounding abutting surface that is electrically connected to an external preset grounding signal contact surface, and the other side is provided with an adjacent seventh positioning joint surface and an eighth positioning joint surface for assembly. The third positioning joint is disposed on the external preset electronic circuit substrate; the shielding outer cover is assembled and covered on the outside of the insulating socket and the electronic signal distribution portion, and has an inner insulating socket and an electronic signal distribution portion therein. Become an external preset electronic signal The interface of the contact interface is electrically connected to the electrical interface; and the shielding cover is assembled and covered on the outside of the insulating socket and the electronic signal distribution portion, and the inside is provided with an insulating socket and an electronic signal distribution unit to be externally pre- The docking space for the electronic signal contact interface is electrically connected. The electronic signal transmitting module (2) according to claim 4, wherein the insulating carrier is made of insulating plastic, rubber or silicone material; and the base of the opposite side flaps is provided on both sides. Further, a tongue-shaped tongue plate is protruded outwardly from the other side of the opposite side flaps, and a bearing space having a plurality of positioning grooves is provided in the tongue plate, and a pair is arranged on the outer side of the plurality of positioning grooves. And a height difference between the tongue plate and the base is formed at a predetermined height. The electronic signal transmitting module (2) according to claim 4, wherein the first differential abutting surface, the second differential abutting surface, the second noise ground abutting surface, the third differential abutting surface, and the fourth difference The mating surfaces are in a coplanar manner, and are flat in the isolated spaces of the positive power supply isolation portion; and the power supply guide interface of the power supply guide, the first interface of the first electronic signal distribution guide, and the second The second mating surface of the electronic signal distribution guide and the first noise grounding interface of the noise processing grounding guide are respectively disposed in the respective isolation spaces of the positive power supply isolation portion, and are respectively located in the first plane in a coplanar manner. The rear of the differential abutting surface, the second differential abutting surface, the second noise grounding abutting surface, the third differential abutting surface, and the fourth differential abutting surface. The electronic signal transmitting module (2) according to claim 4, wherein the shielding outer cover is made of metal, iron, copper, aluminum or nickel or alloy material.