TW201232957A - Electrical receptacle - Google Patents

Abstract

An electrical receptacle includes at least one processing units of optical signal or/and process units of electrical signal within a slot with or without tongue design. A plug may be normally or reversibly coupled with the electrical receptacle in case there is asymmetric signal terminals or structure for the plug.

Description

201232957 VI. Description of the Invention: [Technical Field] The present invention relates to an electrical receptacle, and more particularly to an electrical plug that can be inserted into and positioned in an electrical plug. Connection socket ° [Prior Art] As the functions of various electronic products are becoming more and more powerful, and the signal transmission requirements between various products or devices are increasing, how to set more in the products or devices with shrinking size The connection interface for signal transmission of different devices has become the goal of the industry's joint efforts. Among them, for example, the USB 2.0-compliant electrical connector has a foolproof design for its plug or socket. However, when it is desired that the size of the electrical connection socket is getting smaller and smaller, the anti-stay design of the socket is not conducive to user operation. May be damaged by improper force; it is 'how to propose an electrical connection socket without a foolproof design' so that the plug with the foolproof design is in any direction (such as 'arbitrary forward or reverse direction') with the socket When docking, it is easy to insert and complete the positioning action, which has become the design direction of the industry's continuous concern and improvement. On the other hand, we also know that the space inside the electrical connection socket is very limited. Therefore, the various interface signals disposed therein often generate some interference or external influences during operation, such as short circuit, over current / Overvoltage protection, power and ground protection, crosstalk (Cr<?sS-Talk), Electrostatic Discharge (ESD) or Electromagnetic Interference (EMI) 201232957, etc.; this phenomenon, at present The universal serial bus 2 〇 version (Universal Seria丨3us 2 〇, referred to as US3 2.〇), which is commonly used in electrical connection sockets, is already in existence, and is gradually developed for the current market. The general-purpose serial bus version 3.0 (Universal Seda丨 § 3...abbreviated usb 3 〇) and other more parallel docking signal interface, etc., the above problems are more and more serious. For example, since the transmission efficiency of the above-mentioned USB 3.0 docking signal interface can be as high as 5 GbpS, the short-circuit, the short-circuit, the short-circuit, the interface transmission is performed for the speedy transmission in the increasingly congested electrical connection socket. Overcurrent/overvoltage protection, power and ground protection, crosstalk, electrostatic discharge or electromagnetic interference, etc., will cause more trouble due to such high frequency transmission; therefore, how to connect to the electrical outlet It is more urgent and necessary to accommodate circuit mechanisms with different anti-jamming or safety protection functions, or even to include electronic components with various functions such as letter flow. (4) 'The increasing capacity of hard disk for CAYIN's electronic products' or the need to deal with the transmission of various huge data such as 3D images, how to further improve the transmission rate of the interface in the electrical and socket interface 3, will also be One of the hard work goals of the person in the middle. SUMMARY OF THE INVENTION The main object of the present invention is to provide an electrical connection socket for accommodating an optical signal processing component and/or an electrical signal processing component therein, and having a connector for the forward and reverse connection. The purpose of the spoon is to provide a kind of electrical connection socket β = case which can reduce the crosstalk, static electricity or electromagnetic interference caused by the interface between the docking signal interface and the circuit. The purpose is to provide an electrical connection socket with a high material transfer function and a light docking interface. The preferred embodiment of the present invention relates to an electrical connection socket for at least one of the connection and docking spaces to be docked in a nprmally and reversely manner, the electrical connection socket comprising: a body a first docking space and a second docking space; a first surface 'facing the first docking space; a second surface facing the second docking space; - a first docking signal interface 'to accommodate the first a second surface: a second interface: the interface is received to the second surface; and at least one of the optical signal processing component and the electrical signal processing 70 are exposed to the first docking space and According to the preferred implementation concept described above, the first docking signal interface and the second docking signal interface are all receiving the same protocol signal interface. According to the above preferred implementation concept, a tongue is positioned on a sidewall of the bottom of the base and extends forward between the first docking space and the second docking space, and the tongue provides the first surface And the second surface. Further, the tongue plate is a single plate body or a double-sheath plate body, and the single plate body is a plate body having at least a plastic material or a socket circuit board. According to the above preferred implementation concept, at least one of the first docking signal interface and the second docking signal interface is formed by a plurality of remaining contact elastic arms and a plurality of metal extensions electrically connected to the metal contact elastic arms. A segment or metal extension wire and a plurality of metal pin segments electrically connected to a distal metal extension or extension wire. Moreover, at least one of the first docking signal interface and the second docking signal interface is formed by a metal conductive terminal. Moreover, the first docking signal interface or the second pair of 201232957 signal interface is a docking signal interface for receiving the USB 2.Q protocol. According to the preferred implementation concept described above, the composite board package includes: a socket circuit board between a first plastic surface and a second plastic surface of a plastic board having a pure plastic material, or a plastic The board body and the socket circuit board are stacked. In addition, the electrical connection socket further includes a third docking signal interface and a fourth docking signal interface, wherein the third docking signal interface is received into the plastic board body and exposed to the first docking space, or is set On the socket circuit board and exposed to the first docking space, or disposed on the socket circuit board and adjacent to the first docking signal interface; and the code docking signal interface is received into the plastic board body and exposed The second docking space is disposed on the socket circuit board and exposed to the second docking space, or is disposed on the socket circuit board and adjacent to the second docking signal interface. According to the above preferred implementation concept, at least one of the first docking signal interface, the first docking interface interface, the third docking signal interface, or the fourth docking signal interface is connected by a plurality of remaining interfaces a point or metal contact spring arm, a plurality of metal extensions or metal extension wires electrically connected to the metal contacts or metal contact spring arms, and a plurality of metal pins electrically connected to the metal extensions or metal extension wires The segments are constructed, and wherein the metal contacts and the metal extension wires are provided by the socket circuit board. Moreover, at least one of the first docking signal interface, the second docking signal interface, the third docking signal interface, or the fourth docking signal interface is formed by a plurality of metal conductive terminals. According to the above preferred implementation concept, a socket circuit board is disposed opposite to another socket circuit board in two circuit board positioning slots at the top and bottom of the base body, wherein the socket circuit board provides the first surface. The other socket circuit board provides 6 201232957 the second surface, and the first docking space and the second docking space are the same docking space. Further, the socket circuit board and the other socket circuit board respectively have a plurality of conductive holes for respectively receiving the first docking signal interface and the plurality of metal pin segments of the second docking signal interface. According to the preferred implementation concept described above, the method further includes a third docking signal interface and a fourth docking signal interface, wherein the third docking signal interface and the first docking signal interface are combined to receive the interface interface of the protocol 3.0, and the The fourth pair of hard interface interfaces and the third docking signal interface are combined to receive a docking signal interface of the USB 3G protocol. And the first docking signal interface, the second docking signal interface, and the first. The three-way signal interface, or the fourth docking signal interface, is at least any of a plurality of metal contacts or metal contact spring arms, and a plurality of remaining extensions electrically connected to the metal contacts or the metal contact spring arms Or a metal extension wire, and a plurality of metal pin segments electrically connected to the metal extension or the metal extension wire, and wherein the metal contacts and the metal extension wires are used by the socket circuit board, the other At least one of the socket boards is provided. Moreover, at least one of the first docking signal interface, the second docking U'i plane, the third docking signal interface, or the fourth docking signal interface is formed by a plurality of metal conductive terminals. According to the preferred implementation concept described above, wherein the first surface and the second surface are opposite to each other on the top and bottom surfaces of the 6-foot body, and the first surface and the surface have a plurality of dockings The first interface space and the second docking space are the same docking space. The first interface space and the second docking space are the same docking space. According to the preferred implementation concept described above, further comprising a third docking signal interface and a fourth docking k interface, the two opposite 201232957 planes at the top and bottom of the body, and the first surface and the second surface Each of the plurality of docking signal interface receiving slots is configured to receive the third docking signal interface and the west docking signal interface respectively; wherein the third docking signal interface and the first docking signal interface are combined to receive the USB 3 The 0-matched docking signal interface, and the fourth docking signal interface and the second docking signal interface are combined to receive the 对; Β 3 · 〇 agreed docking signal interface. According to the above preferred implementation concept, at least one of the first docking signal interface, the second docking signal interface, the third docking signal interface, or the fourth docking signal interface is composed of a plurality of metal contacts or a metal contact spring arm, a plurality of metal extensions or metal extension wires electrically connected to the metal contacts or metal contact spring arms, and a plurality of metal pin segments electrically connected to the metal extensions or metal extension wires And wherein the metal contacts and the metal extension wires are provided by at least one of the socket circuit board and the other socket circuit board. Moreover, at least one of the first docking signal interface, the second docking signal interface, the third docking signal interface, or the fourth docking h interface is formed by a plurality of metal conductive terminals. According to the above preferred implementation concept, the first surface and the second surface are respectively located on opposite planes of the top and the bottom of the base, and the first surface and the first surface are respectively provided with a plurality of docking signal interfaces. And accommodating the second docking signal interface, wherein the first docking space and the second docking space are the same docking space. According to the preferred embodiment described above, the method further includes: a third docking signal interface and a fourth docking signal interface, respectively located at the top and bottom of the body: the face ~ and the 4th surface and the second surface An additional plurality of docking signals are disposed on the two sides of the slot for respectively receiving the third docking signal interface and the fourth docking signal "face' the towel H interface interface and the first docking signal interface group 8 201232957 Receives the docking signal interface of the USB 3.0 protocol, and the fourth docking signal interface and the second docking signal interface combine to receive the docking signal interface of the _3.0 protocol. In addition, at least one of the first docking signal interface, the second docking signal interface, the third docking signal interface, or the fourth docking interface is electrically connected to the plurality of metal contact spring arms The plurality of metal extensions of the metal contact spring arm and the plurality of metal pin segments electrically connected to the metal extensions. According to the above preferred embodiment, the first surface and the second surface are located on the two opposite continuous concave and convex surfaces of the top and bottom of the squat body, and respectively have a plurality of docking signal interface receiving grooves. The first docking signal interface and the second docking signal interface are respectively received for receiving the low voltage differential signal, and the first docking two is the same docking space as the first docking space. At least one of the docking signal interface and the second docking signal interface is a plurality of metal contact spring arms, a plurality of metal extensions electrically connected to the metal contact spring arms, and electrically connected to the metal extensions According to the above preferred implementation concept, at least one of the electrical signal processing component and the optical signal processing component is disposed on at least one socket circuit board of the socket. And at least one socket circuit board can be a printed circuit board, such as ^^(3)丨(10)^, %^. The processing component is disposed on the at least one socket circuit board and electrically connected to any of the docking signal interfaces on the at least one socket circuit board in a serial or bypass manner. The optical signal processing component is electrically Connected to the at least one socket circuit board, and exposed in the first docking space or/and the second docking space, and electrically connected to one of the outside of the electrical connection socket by an optical signal pin In addition, the optical signal pin portion may be a metal pin segment, one end of which is soldered to the 201232957-less socket circuit board or electrically connected to the optical signal processing component, and the other end is used for the _ portion circuit In addition, the electrical signal processing component (four) is electrically connected between the optical processing component and the external circuit board. According to the preferred implementation concept, the optical signal processing component includes a light having a lens structure. a signal docking device, which is a pair of signal interface of the optical grade signal transmission rate, and a plurality of docking rhyme fabrics including the first docking signal interface and the second docking interface The electrical signal processing component is disposed in a plurality of docking signal interfaces, and the electrical signal processing component is disposed on the plurality of docking signal interfaces (four) and the partial docking signal including the first docking signal interface and the second docking signal interface. In addition, at least the sub-interface L of the docking signal interfaces includes a front-to-back two-part docking signal interface, and the electrical L-processing component is electrically connected to the front/back two in series. Partially docked between the signal interfaces. Further, 'at least the docking signal interface forms at least a pre-breaking recess for contact with the electrical signal processing component and completes - the interface disconnection procedure becomes the separation of the front/back two Partially docked signal interface. i according to the above preferred implementation concept 'where the electrical signal processing component is at least with anti-crosstalk, or anti-electromagnetic interference, or anti-static discharge, or short-circuit proof, or anti-reverse current, or prevent Current/overvoltage protection circuit safety function of the semiconductor component, the 彳 彳 处理 processing component is at least has a rectification function or detection function S semiconductor element; Or, wherein the electrical signal processing system is a member - or at least detect the acoustic streaming functions and having a function of a microelectromechanical structure of a semiconductor device. According to the above preferred implementation concept, the base further includes a casing for fitting the outer circumference of the socket body. According to the above-mentioned 'this case provides __ kind of electrical connection socket, for the connection plug double 201232957 to the ground (bi-directi〇nally) inserted and positioned therein, and with an external circuit board located outside the electrical connection socket for electricity Connecting, the socket has a body, a pair of connection spaces, a first docking signal interface and a second docking signal interface, the electrical connection socket is characterized by: further comprising an optical signal processing component and an electrical signal processing component At least one of them, and at least one of them is housed between one of the interface signal input interfaces of the socket and an interface signal output interface. According to the preferred implementation concept, the interface signal input interface is configured to interface with a delta connection plug, the first connection interface, and the interface signal output interface is used for any signal interface in the socket or Either component is coupled to one of the second connection interfaces of the external circuit board. According to the above preferred implementation concept, any one of the at least two docking signal interfaces including the first docking signal interface and the second docking signal interface may be a USB2.0 docking signal interface and a USB3. 0: Docking signal interface, or a low-voltage differential signal docking signal interface, etc., or any of the docking signal interfaces of a single-level electrical level signal transmission rate, or a docking signal interface of a composite protocol electrical level signal transmission rate. According to the preferred implementation concept described above, the optical signal processing component includes an optical signal docker having a lens structure and is a docking signal interface of an optical grade signal transmission rate. Moreover, at least one of the electrical signal processing component and the optical signal processing component is disposed on at least one of the socket circuit boards further included in the socket, or is electrically connected to the at least one socket circuit board. According to the above preferred implementation concept, the at least one socket circuit board may be a printed circuit board (Printed Circuit B), and wherein the electrical signal processing component is disposed on the at least one socket circuit board. Above, and electrically connected to the at least one socket interface on the at least one socket circuit board by a serial or bypass side 201232957. Further, the optical signal processing component is electrically connected to the at least one core circuit board And in the first docking space or/and the second docking space, and electrically connected to an external circuit board located outside the electrical connection socket by an optical signal connection portion. Further, the light is pinned. The electrical system can be a metal pin segment, the end of which is soldered to the at least the socket board or electrically connected to the nickname processing component, and the other end is soldered to the external circuit board; and the electrical signal processing component is The connection mode is electrically connected between the optical signal processing component and the external circuit board. According to the preferred implementation concept described above, the electrical signal processing component is disposed to include the first butt signal interface and the second docking signal interface. It At least a part of the at least two docking signal interfaces are connected to the signal interface. Further, at least one of the docking signal interfaces is connected to the interface signal, and is divided into a front/back two-part docking signal interface, and the electrical signal processing is The device is electrically connected in series between the front/rear part of the docking signal φ. Further, the at least “docking signal interface” forms at least one pre-breaking recess for contacting the electrical signal processing component and completing an interface break. After the process is opened, the front/back two parts of the separated signal interface are separated. According to the preferred implementation concept described above, the connection plug includes an electrical connection plug and a - connection plug, and the electrical connection is connected to the first a docking space or/and the second docking space, wherein the optical connector plug is connected to one of the third docking spaces of the body; wherein the first docking space and the second docking space have a shared docking space, and both of them And the second docking space of the § hai is independent of each other and does not share the docking space. The 'interface signal input σ is set in the pedestal, and the interface signal input interface At least two sets of rims that can be used by different connection plugs. Further, the at least two sets of profiles have partially overlapping contour structures for use in the electrical connection plug or the optical connection 201232957 connector plug. According to the preferred implementation concept described above 'The electrical signal processing component is a semiconductor component having at least a protection circuit function for preventing crosstalk, or preventing electromagnetic interference, or preventing electrostatic discharge, or preventing short circuit, or preventing reverse current, or preventing overcurrent/overvoltage. According to the preferred implementation concept described above, the electrical signal processing component is a semiconductor component having at least a self-checking b or a detecting function; or wherein the electrical signal processing component is at least having a rectifying function or a fairy function A semiconductor device having a microelectromechanical structure. According to the preferred implementation concept described above, the body further includes a housing for receiving a peripheral edge of the outer side of the socket body. According to the preferred implementation concept described above, the at least two docking signal interfaces including the first docking signal interface and the second docking signal interface are all receiving the same agreed signal interface. [Embodiment] Firstly, it should be noted that, according to the invention or the creative implementation concept of the present invention, in addition to the electrical connection sockets which can be used for all kinds of main single signal coordination or multi-signal agreement without foolproof structure. It can also be applied to an electrical connection socket that can be used for two-way docking without a foolproof structure. In addition, the various seat bodies in the electrical connection sockets which do not have the foolproof structure in the present case may also have different variations or designs; for example, the seat body can be divided into three independent components such as the socket body, the rear seat and the casing. Or it can be divided into another three independent components such as a socket body, a cover body and a casing. Of course, the seat body can also be divided into two independent components such as a socket body and a rear seat, or can be divided into four independent components such as a socket body, a cover body, a rear seat 13 201232957, and a casing; and, not exemplified by the following description of the present case. The various preferred embodiments disclosed are limited. In addition, the various bases in the electrical connection socket to which the present invention is applied, except for the electrical connection plug (shown by reference numeral 2 in FIG. 24) or the optical connection plug (refer to the numeral 1 in FIG. 26) can be accommodated. The body of the one shown in FIG. 1 can also be used for accommodating a housing of a whole-type connection plug (not shown) capable of simultaneously transmitting optical signals and electrical signals. Of course, whether the above-mentioned socket body has extended sidewalls on the left/right sides, or whether it has a bottom (base), etc., can also be changed and designed depending on the actual application field. The tongue plate structure in the electrical connection socket to which the present invention is applicable may be a single socket circuit board, or a single tongue plate structure including a tongue plate of a plastic material and a metal material therein, or a pure plastic tongue plate and a socket. a circuit board, a tongue and socket circuit board comprising a plastic material and a metal material, or a composite tongue structure having two or more socket circuit boards; and the combination relationship with the above-mentioned seat body can also be integrally formed Formed as a part of the extension structure of the above-mentioned seat body, or formed with at least a part of the element by a separate element (four); of course, 'not limited to the various preferred embodiments disclosed in the following examples. Furthermore, any docking signal interface used in this case, whether it is to use a single metal conductive terminal, or a combination of metal contacts and metal wires to achieve 'according to the common understanding of the connector industry, is required The function provided by the four major interfaces of the metal contact spring arm section (metal joint), metal extension section (metal extension wire), metal fixing section, metal pin section (metal welding section), etc. Pass-through the purpose of the complete interface signal. When it is, the above-mentioned docking signal interface structure can have various definitions, different expressions and different ways of distinguishing (for example, changing the definition and distinguishing it into 201232957 with metal contacts and extensions (metal contacts and extension wires) and metal pin segments ( 2 major functions such as metal welding section), or division into three parts of the metal contact elastic arm section (metal joint), metal extension (metal extension wire), metal pin section (metal welding section) The interface structure) should not deviate from the conventional knowledge recognized by the above industry. In addition, the relationship between the above-mentioned docking signal interface structure and the above-mentioned seat or tongue plate or the spatial arrangement and arrangement relationship can also be regarded as an actual application field, or a plastic embedded incident (lnsert m<?lding) process, or a visual circuit. There may be different changes and designs in terms of board process and the like; and, not limited to the various preferred embodiments disclosed in the following examples. In the following, a preferred embodiment is illustrated to illustrate the present invention, which is well known to those skilled in the art and is not intended to limit the invention itself. Please refer to FIG. 1, FIG. 2 and FIG. 3, respectively, for a first preferred embodiment of the present invention, which is a front view of a three-dimensional partial decomposition and a partial three-dimensional structure assembly concept. In the first preferred embodiment, the 'electrical connection socket 丨 includes: a housing 19, first and first docking spaces 〇1, 丨02, a socket body u belonging to a plastic material, having a first and opposite second surface 12 122 and a plurality of docking signal interfaces accommodate the tongue 12 of the groove 123, and the tongue 12 is integrally formed on the side wall 1151' of the bottom 115 of the socket body 11 and extends forward; and is disposed or exposed The optical signal processing component 2G and the electrical signal processing component 2 in the socket body 11 are in the preferred embodiment, because the tongue plate 12 is a tongue plate of a plastic material (and is a fixed plate body), The first and second surfaces (2) and 122 of the tongue plate 12 are the first and second plastic surfaces, respectively. In addition, in the preferred embodiment, the docking signal interface receiving slots 123 can be 15 201232957 through the first and opposite slots; of course, the plurality of transparent spaces permeable to the air 19 4 It may be replaced by a plurality of vacancies having a grooved bottom structure, not shown in the actual implementation (for example, when the tongue is relatively sturdy); and 'this should be familiar to those skilled in the art. All 4 changes, will not be repeated in this case. In the first example, the tongue plate 12 is fixed to the side of the bottom 115 of the socket body 噔Α 51. The male horse extends from a part of the socket body 11 and The tongue plate 12 is broken into the body 19, so the first and first docking spaces 1 〇1 and 102 provided in the socket , are composed of M t t f ′ and the body 19 and the tongue plate 12 are formed together. The front section of the accommodating space provided by the corpuscle 19 is divided into a first subspace (10) such as a first docking space: a river and a second subspace (for example, a second docking space 1-2). The person's 121st faces the first docking space 1〇1, and the second surface faces the first

A 'docking space 102, such as Shibu-A-r-I, 'the tongue plate 12 is such that one end thereof is positioned at the rear area of the docking stations UH, 1Q2, and the other end is suspended at the dockings. The area before the space 101, 1Q2. Furthermore, in the first preferred embodiment, the first docking signal interface includes a plurality of conductive 4 sub-1'-conducting terminals 16G, which are sequentially included from the front and the rear, and the metal contact bouncing slaves 161 are electrically connected to the metal contact spring arm segments. The metal extensions 162, #f of 1 $1 are connected to the metal pin segments (6) of the metal extension (6). The second pair of contacts said: the I face 17 includes a plurality of conductive terminals 17A, and any of the conductive terminals ΐ7〇 includes, in order from the front and the rear, a metal contact spring arm segment 171, and a metal extension electrically connected to the metal contact spring arm segment 171. The segments 172 and - are electrically connected to the metal pin segments 173 of the metal extension 172. Furthermore, the two opposite faces of the tongue plate 12 provide the first surface ι 21 and the second surface 16 201232957 mu the contact (four) face 16 and the second docking signal interface i7 are respectively received into the docking of the first surface m α and the second watch from 122 The signal interface is accommodated in the slot 123. According to the above, the metal contact spring arm segment (6) and the metal contact spring arm segment (7) are respectively valleyd to the 纟Φ 121 0 and the second surface 122 of the docking signal interface receiving groove 123, so the metal contact spring arm segment (6) and the metal The contact elastic arm segments (7) are respectively exposed to the first docking space 101 and the second docking space 1〇2. In the preferred embodiment, the highest contact point of the metal contact spring arm segment 161 and the metal contact spring arm segment 171 is higher than the first surface 121 and the second surface 122. In this way, the plug 2 is electrically connected as shown in FIG. 24 (for example, it can be a USB 2. The 0-port male plug) is inserted in the second docking space 102 provided by the electrical connection socket and receives the USB2 protocol signal from the second docking signal interface 17, and the remaining contact arm segment 171 will be extended to the top. The input signal is received in the docking signal interface. Similarly, when the electrical connection plug 2 is reversely inserted into the first docking space 101 and the USB interface is received by the first docking signal interface 16, the metal contact arm segment 1 1 1 will also be extended. The docking signal interface accommodates the slot 23 . Of course, the conductive terminals i, at the corresponding positions on the opposite sides of the tongue 12; 7〇 The received signals need to be reversed in order. It should be understood that the descriptions of the above-mentioned forward, reverse, and received signals are merely used to illustrate the relationship between the plug and the socket, and are not intended to limit the docking form of the preferred embodiment. Next, a rear seat 114 can be disposed under the socket body u and has a plurality of slots 1146, 1147, 1141 for respectively inserting the metal pin segments 163, 173 and the optical signal pin portion 2Q1 of the optical signal processing component 20 Used for it. Of course, in the present embodiment, the definition of the base body covers the above-mentioned housing 19, the first and second docking spaces 1 (H, 102, the socket body η, the rear seat 114, and the like are constructed therein. 201232957 The first docking signal interface 16 and the second docking signal interface 17 in the preferred embodiment are respectively exposed in the same docking space 101, 102 with the two optical signal processing components 20, and the two optical signal processing components 20 are respectively disposed on The upper and lower hollow slots 1152 of the bottom portion 115 of the socket body 11 are electrically connected to one of the electrical connection sockets 1 by the plurality of optical signal pins 201 corresponding to the two optical signal processing elements 2Q. An external circuit board (refer to the one shown in FIG. 25 first); wherein any of the optical signal processing elements 20 can be an optical signal connector having a lens structure 202, and the lens structure 202 is used to expose the interfaces. Spaces 1〇1, 102, in order to receive the optical connection plug (for example, the appearance of this plug can be similar to the one shown in Figure 26, but the size of the two is slightly different from the length and width) or the integrated connection plug (not shown) Out) The optical signal pin 201 of the two optical signal processing components 2 in the preferred embodiment is a metal pin segment (one end of which can be electrically connected to The optical signal processing component 20 can be soldered to the external circuit board. The optical signal pin 201 in the preferred embodiment can be replaced by a fiber optic cable (not shown). In addition, an optical/electrical converter (not shown) may be disposed inside the optical signal processing component 20 to convert the received optical signal into an electrical signal, which is implemented from the above-mentioned metal pin segment. The optical signal processing unit 20 can be an optical signal adapter having various implementation structures. For example, the optical/electrical converter can be modified to be disposed on the external circuit board. In one case, the optical signal pins 201 implemented by the optical fiber wires are used to output the optical signals to the external circuit board without using the optical signal connection implemented by the metal pin segments. Foot 201; only, the case The implementation of the above-described optical signal processing unit 18 201232957 is not limited to the preferred embodiment. The other feature of the preferred embodiment is that the electrical signal processing component η is electrically connected to the first-to-dial signal interface. 16 and the second docking signal interface, and in the preferred implementation of the first - docking signal interface! " the second plurality of conductive terminals 17q' of the second interface signal interface 17 can be - interface disconnection program connection and electrical signal processing Two pieces of 21 are combined. The so-called interface disconnection procedure is to disconnect any of the docking signal interfaces when there is at least one pre-breaking K-picture, but can refer to the relevant description at 2〇11 below. It becomes the separated/back two-part docking signal interface. Of course, whether the at least one pre-breaking concave portion is formed in advance on the surface of the signal interface, or how to at least the implementation steps of the above-mentioned pre-section portion, or other forming: the pre-breaking concave portion of the same structure, etc. can be visually connected to the actual electrical connection socket. It depends on the assembly status and is not limited in this way. The electrical "processing component 21" can be connected between the metal extension segment 72 and the metal pin segment _73, that is, the metal extension can be electrically connected to the metal pin segment 163/173 through the electrical signal processing component 21. Alternatively, the electric L-processing 7L piece 21 can also be connected by way of bypass (by_pass) or other serial connection to the ten-digit L-face " face 1 ◊ or the second docking signal interface i 7, so that the electrical connection can be utilized The socket 1 optimizes the received signal quality. Moreover, since the two optical signal pins 201 of the optical signal processing component 20 in the preferred embodiment can be a metal pin segment, the metal pins are The segment 201 is formed thereon by forming at least a pre-breaking recess 2〇11 (as shown in FIG. 3) for contact with the other electrical processing component 21 and completing the interface disconnection procedure. 7 is separated from the β/the latter two parts of the signal interface; thus, another electrical signal processing component 210 is serially connected between the optical signal processing component and the external circuit board 19 201232957. Figure 4 Figure 5, Figure 6 The front view and the three-dimensional part of the second preferred embodiment of the present invention, respectively An example of a solution and a partial three-dimensional structure assembly concept. Similar to the first preferred embodiment, the electrical connection socket 3 includes: a housing 39, a first and second docking space 301, 302 socket body 3 having first and second surfaces The tongue plate 32 of the groove 323, 324 is received by the plurality of docking signal interfaces, and the tongue plate 32 is fixed to the side wall 3 (8) of the bottom portion 316 of the socket body 31 and extends forward; and is fixed to the socket body 31. The upper and lower two hollow lateral grooves 31$2 of the bottom portion 31$ are respectively exposed to the first butt joint and the second butt joint, and the two optical signal processing elements 22 are removed in the second preferred embodiment. The front end opening of the 39 has a guiding plate 392 to facilitate the forward and reverse of the male plug, except for the first signal interface interface % and the second docking signal interface 37. The second preferred embodiment further includes a third docking signal (4) and The four-to-dial signal interface 47. First, the first butt signal interface interface of the first butt signal interface 37 is composed of a plurality of conductive terminals, and the first wire 321 provided by the tongue plate 32 has a plurality of docking signal interfaces for accommodating the slot to accommodate the first Docking signal interface 3 The contact portion 36 of the conductive terminal of the sixth terminal, the second surface 322 of the tongue-and-groove portion provided with the plurality of docking signal interface receiving slots 324 can accommodate the conductive terminals of the second docking signal interface 37. According to the above, in the second preferred embodiment, the third docking signal (4) and the fourth docking signal interface 47 are also formed by a plurality of conductive terminals, and the conductive terminals are disposed on the tongue 32, the tongue. The front end of the board 32, that is, the docking signal interface receives the slot work, and the = end has a plurality of openings 325, 326 respectively to expose the contact portion of the third docking signal interface and the conductive terminals of the fourth pair of contact interfaces 47. That is, the metal pin segments 4^3, 473 of the conductive terminal 20 201232957 protrude from the rear end of the tongue 32 adjacent the side wall 3161. In addition, the electrical connection socket 3 further includes a rear seat 314 disposed under the socket body 31 to provide a plurality of slots having a plurality of rows, and the metal pin segments of the optical signal processing component 22 and the first docking signal interface 36 are sequentially provided from the front to the rear. And the metal pin segments 363 and 373 of the second docking signal interface 37, the third docking signal interface 46 and the metal pin segments of the metal pin segments 463 and 473 of the fourth docking signal interface 47 are inserted and fixed. It can be understood that the arrangement of the slots of the rear seat 314 is not limited to the above, and the arrangement and the number of slots in the rear seat can be changed by adjusting the length of each conductive terminal and the length of the terminal of the processing component. Furthermore, the socket body 31 is a plastic socket body, and the tongue plate 32 is also composed of a plastic plate body. The first docking signal interface 36 and the third docking signal interface 46 are combined to form a set of receiving interface interfaces for receiving the protocol, and the second docking signal & face 37 is combined with the fourth docking signal interface 47 to form another group of receiving USB 3. . 0 is the docking signal interface, so the electrical connection socket 3 can provide a 3. 0 male plugs are used in the opposite direction. In the present embodiment, the design and structure of the two optical signal processing elements 22 are similar to the two optical signal processing elements 20 in the first embodiment of the present invention, and thus will not be further described herein. In the meantime, the two optical signal processing elements 22 also have a plurality of optical signal pin portions 221 and are connected to an external circuit board located outside the 霄 connection socket 3 (please refer to FIG. 25 for privacy). The optical signal processing component 22 can be an optical signal connector having a lens structure 222, and the lens structure 222 is exposed to the four docking spaces 3 (H, 3Q2 for receiving the optical connector plug. Because the optical signal pin portions 221 (4) of the respective 21 201232957 of the two optical signal processing elements 22 in the preferred embodiment may be - metal pin segments, the metal pin segments first form the at least one pre-break. a recess (not shown) thereon for contacting the electro-destructive element 24 and completing the interface disconnection process, and forming the separated front/back two-part docking signal interface; thus, the electrical signal The processing element μ is connected in series between any of the optical processing elements 22 and the external material sheet. Fig. 7, Fig. 8, and Fig. 9 are two schematic views of the third preferred embodiment of the present invention. Schematic diagram of different perspectives. In the third preferred embodiment, the electrical connection socket 5 has a housing - 59, a socket body 51 and a body called a body; wherein the bottom 515 of the socket body 51 has a plurality of profiles, and the bottom μ has a forward The extended side wall 515 further includes a forwardly extending side wall 5 1 § 1 and corresponding to the side wall 5151 of the bottom portion 5 15 . Further, the 'electrical connection socket 5 further includes a tongue 52 . It is fixed between the side wall 5151 of the bottom portion 515 and the side wall 5181 of the cover 518. That is, the side wall 5i5i and the side wall 51 81 are used for pressing and clamping the fixing tongue 52. Secondly, the electrical connection socket 5 further includes The pair of signal interface interfaces is received on a first surface 521 of the tongue 52, and an optical signal processing component % and an electrical signal processing component 23 are fixed on the first surface 521 and exposed to the first docking space 50. Furthermore, the second docking signal interface 57 is received on a second surface 522 of the tongue 52, and an optical signal processing component 2β and an electrical signal processing component are fixed on the first surface 522 and exposed to the second surface. Docking space 5〇2. Of course, due to this implementation The first docking signal interface 56 and the second docking signal interface 57 are each composed of a plurality of metal conductive terminals. Therefore, the cover 518 can also be used to strengthen and stabilize the above metal conductive terminals. However, it can be understood that the present invention The cover 518 is not limited to the form shown in the drawings, and any suitable modification to achieve the reinforcement and the stable pressing and clamping function of 22 201232957 does not depart from the scope of the present invention. Also, in the third preferred embodiment, the tongue plate 52 is comprised of a socket circuit board such that optical signal processing components 2$, 28 and electrical signal processing components 23, 25 can be disposed directly on tongue 52, and optical signal processing components 26, 2$ or electrical signal processing components 23, 25 It can be directly electrically connected to the tongue 52. Next, the optical signal processing elements 26, 28 or the electrical signal processing components 23, 25 can be electrically coupled to the first docking signal interface 5$ or the second docking interface interface 57, respectively. The above-mentioned 'light k-number processing elements 2$, 28 and the electrical signal processing elements 23, 25 may be electrically connected to the tongue plate 52, the first docking signal interface 56 or the first docking signal interface 57, and 4 have their respective pins. It is electrically connected to an external electric raft (not shown) outside the electrical connection socket 5. Figure 10 is a schematic view showing the structure of a three-dimensional portion of a fourth preferred embodiment of the present invention. The base of the electrical connection socket 6 includes a metal housing 69, a plastic socket body 61 and a cover; of course, the electrical connection socket $ further includes: a socket circuit board, a first interface, and a first interface The second docking signal interface, the optical signal processing components 40, 42, and the electrical signal processing component 27. In the fourth preferred embodiment, since the tongue plate adopts a composite plate body: a plastic tongue piece 62 integrally formed with the plastic socket body 61 and a socket circuit board 64 that can be assembled by the movable body, the composite plate body will be docked space. _ is divided into a first docking space and a second docking space, and the composite board provides two surfaces, one is a plastic surface and the other is a circuit board surface. Moreover, in the preferred embodiment, the first surface 641 is provided by the socket circuit board to provide the first docking signal interface 66, and the first surface $41 faces the first docking space 6〇1; the second surface is provided by the plastic tongue 622 is configured to provide a second docking signal interface 67 and the second surface 622 faces the second docking space 602. In addition, in the present embodiment, the first surface 621 of the plastic tongue 62 is a accommodating socket circuit board 64. The 201232957 valley area is provided. The second surface (4) provided by the socket circuit board 64 will be associated with the plastic tongue. 2 The provided first surface (2) is superposed on each other to form a composite plate body. Further, the optical signal processing elements 4, 42 are respectively disposed on the first surface of the socket circuit board $41 and the plastic tongue piece 2 The second surface is on the surface of the second interface $22. The electrical signal processing component 27 is only 8; the first surface 64 is electrically connected to the first-to-dial signal interface or the second docking signal interface by way of bypass or serial connection. 67. FIG. 11, FIG. 12, FIG. 13 are schematic diagrams showing two different perspectives of a front view and a three-dimensional structure of a fifth preferred embodiment of the present invention. The fifth 'real_ can be the same as the second preferred embodiment. Providing the signal of the reception-clear 3 () agreement, therefore, the electrical connection socket 7 includes a housing 79, a socket body 71, a first docking signal interface 70, a first docking signal interface 77, a third docking signal interface (9), and a Four-dial signal " face 87. And second preferred embodiment The difference is that the tongue plate 72 is a composite plate body having a first plastic surface 72 and a second plastic surface 722, and further includes a socket circuit board 74 interposed between the first plastic surface 721 and the second plastic. Between the surfaces 722. It should be noted that the first plastic surface 721 and the second plastic surface 722 may be provided by different plastic plates or by a plastic body having a hollow space, which is provided with a socket circuit board 74. Further, the cymbal circuit board 74 between the first plastic surface 721 and the second plastic surface 722 can protrude from the front end 7211 of the first plastic surface 721 and the second plastic surface 722, as described in detail later. In the fifth preferred embodiment, the first plastic surface 721 is provided with a plurality of butt-shaped interface accommodating slots 723 for receiving the first mate interface 76 formed by a plurality of conductive terminals. The second plastic surface 722 is provided with a plurality of docking signal interface receiving slots 724 for receiving a second docking signal interface 77 composed of a plurality of conductive terminals. 24 201232957 Next, the socket circuit board 74 has a _ circuit surface 7 41 and the second circuit surface 742 are opposite to each other. The first material surface 741 is provided with a plurality of metal contacts 741, corresponding metal extension wires 7412 electrically connected to the metal contacts 7411, and electrically connected to the corresponding metal extension wires 7412. Similarly, the second circuit surface 742 is provided with a plurality of metal contacts 7421, corresponding metal extension wires 7422 electrically connected to the metal contacts Mu, and metal electrically connected to the corresponding metal extension wires. The pin segment 7423. In the fifth preferred embodiment, the third docking signal interface 86 is composed of a plurality of metal contacts 7411, a metal extension wire 7412, and a metal pin segment 7413, and is combined with the first docking signal interface 76. To receive the signal agreed by ySB 3 〇. The fourth docking signal interface 87 is composed of a plurality of metal contacts 7421, metal extension wires 7422 and metal pin segments 7423, and is combined with the second docking signal interface 77 to receive the USB 3. 0 agreement signal. According to the above, when the socket circuit board 74 passes between the first plastic surface 721 and the second plastic surface 722 and protrudes from the front end of the tongue plate 72, the metal contacts 7411 and 7421 are respectively exposed to the housing. The first docking space 701 and the second docking space 702 of the socket body 71 are 79. Therefore, the third docking signal interface 86 composed of the plurality of metal contacts 74u, the metal extension wires 7412, and the pin-out pin segments 7413 is adjacent and partially exposed to the first docking space 7〇1. A fourth docking signal interface 87 composed of a plurality of metal contacts 7421, metal extension wires 7422, and metal pin segments 7423 is adjacent and partially exposed to the second docking space 7〇2. Therefore, a uSB 3. The male plug of 0 can be connected to the electrical connection socket 7 bidirectionally (bi-direcdor^), respectively through the first-to-dial signal interface 76, combined with the third docking signal from 86, or the second docking signal is combined with the first Four docking signal interface 87 is used to reach the signal of the (four) yang 3 〇 agreement. 25 201232957 Further, the plurality of electrical signal processing elements 29, 33 may be respectively disposed on the first circuit surface 741, the first circuit surface 742, and/or may be electrically connected to the first circuit surface 卜, the second circuit surface 742, - Docking signal interface %, second docking signal interface... The third docking signal interface 86 or the fourth docking signal interface 87 is electrically connected to the outside through the gold flexing leg. X, (4) 714 is coupled to the underside of the socket body 71, and has a plurality of slots, the metal number, and the metal pin segments of the signal processing components are inserted and fixed, and will not be described herein. According to the above, the fifth preferred embodiment may include a plurality of electrical signal processing elements 29, 33 respectively disposed on the first circuit surface"", any metal extension wires 7412, 7422 on the surface of the second circuit are electrically connected to any electrical signal processing The conductive input metal contacts of the components 29, 33 (not labeled) are electrically connected to the metal extension wires 7412 of the other side by the conductive output metal contacts (not labeled) of the electrical signal processing components 29, 33. 7422. Thus, any electrical signal processing component 29, 33 forms a series electrical connection with the third interface signal or the fourth interface signal interface. Figure 14 is a sixth preferred embodiment of the present invention. A schematic diagram of the assembled portion structure. Similar to the fifth preferred embodiment, the electrical connection socket 7 has a housing 79, a socket body 71, a first docking signal, an interface, a second docking signal interface 77, and a third docking signal. The interface 8$' and the fourth docking signal interface 87, and the composite tongue 72 formed by the plastic tab 62 and the socket circuit board 74', and the rear seat 714 are different from the fifth preferred embodiment. In the use of a single An electrical signal processing component 33' is disposed on the circuit board 74, on the circuit surface of the socket circuit board 74 (shown only in the second circuit surface 742, shown), each metal contact 7421' is electrically connected to The metal extension wire 7422, wherein some or all of the metal extension wire 7422, is first electrically connected to the conductive input metal contact of the single electrical signal processing component 33 (not labeled), and then by a single electrical signal processing component 26 201232957 33 The conductive output metal contact (not labeled) is electrically connected to the cascading extension wire 7422 on the other side of the single-electric signal processing component 33'. Figure 15 、 16, Figure 17 is a seventh preferred embodiment of the present invention. A front view, a schematic view of a two-part assembly structure. The electrical connection _9 includes a metal housing 99 having a cover 991, and a socket body 91 having two opposite circuit board positioning slots 913 at the top and bottom. The socket circuit board 84, the other socket circuit board %, the first docking signal interface 96 and the second docking signal interface 97, and a rear seat 914. The 'metal housing 99 provides a docking space 9〇1/9〇2, This docking space 9Q1 The /902 is equivalent to integrating the first docking space and the second docking space in the first preferred embodiment into the same-dock space, and is provided by the socket body 91. At this time, the socket circuit board 34 is disposed on the top of the body 91. The circuit board positioning slot (10) is not shown) and provides a -th circuit surface $41; the other socket circuit board is disposed in the board positioning slot 913 at the bottom of the socket body and provides - a second circuit surface The first circuit surface 841 and the second circuit surface 941 are both received toward the docking space 901/902', the first docking signal interface % is received to the first circuit surface 34 as the first surface, and the second docking signal (four) 97 is received as the second surface. The second circuit surface 941. Of course, in the present embodiment, the definition of the base body covers the above-mentioned metal casing %, the docking space 901 / 902, the socket body 9 , the rear seat 914 and the like. Furthermore, in the seventh preferred embodiment, the first docking signal interface % and the second docking h 5 tiger "face 97' sequentially comprise a plurality of material contact segments from front to back sequentially (only second in the figure) The spring-flip contact section 971 of the docking signal interface 97 is shown as a metal extension wire soldered to the first circuit surface 841 and the second circuit surface 941, respectively, in contact with the spring-arm contact section (only the second docking signal interface 97 is shown). Metal extension wire Μ 27 201232957 shows) a through-conducting hole electrically connected to the metal extension wire (shown only through the through-hole 973 of the second butt signal interface 97), and a metal pin segment 974 electrically connected through the conductive hole . Second, the metal pin segment of the first docking signal interface 96 and the metal pin segment 974 of the second docking signal interface 97 pass through the backseat 914 to secure it. Furthermore, the electrical connection socket 9 may further include a third docking signal interface 98 and a fourth docking signal interface 99, which are the same as the third docking signal interface or the fourth docking signal interface in the fourth preferred embodiment. This will not be repeated here. In addition, the optical signal processing component 48 and the electrical signal processing component 35 may be disposed on the first circuit surface 841 or the second circuit surface 941. However, in this embodiment, the optical signal processing component 4 and the electrical signal processing component 35 are both It is only disposed on the second circuit surface 941. It is to be noted that the electrical connection socket 9 in the seventh preferred embodiment is not provided with a suspended tongue plate. Therefore, the optical signal processing element and the electrical signal processing element 35 can be provided symmetrically without setting two groups. The male plug is docked in a forward or reverse direction or in a two-way manner. FIG. 18 is a partially exploded perspective view of the eighth preferred embodiment of the present invention. The electrical connection socket 2 includes a housing 29 having a separate cover 291, a socket body 21, a first docking signal interface 206, and a second docking signal interface 207. In the eighth preferred embodiment, the plastic socket body 21 provides two opposing plastic planes at its top and bottom as a first surface (not shown), a second surface 211 ' and a first surface and a second surface 211. Each of the plurality of docking signal interface receiving slots 213 is configured to receive a first docking signal interface 206 and a second docking signal interface 207 having a plurality of conductive terminals; wherein the first docking signal interface The metal pin segments of the 206 and the second docking signal interface 207 pass through the rear seat 214 below the socket body 21, and the docking space 900 is located between the first surface and the second surface 211. 28 201232957 Of course, in the present embodiment, the definition of the seat body encompasses the above-described housing 29, docking space 900, socket body 21, rear seat 214, and the like. In addition, the optical signal processing component 5 is exposed to the "without the socket" of the housing having the cover 291. The electrical signal processing component 43 is connected to the first-to-be-connected signal interface 206 and the first butt signal interface. Electrically connected and exposed on the first surface/second surface 211. Preferably, at the optical signal pin portion 〇1 of the optical signal processing component, another telecommunication processing component 430 may be connected in series; That is, the description will not be repeated. Of course, as shown in the ninth preferred embodiment of FIG. 19, the single electrical signal processing component 45 and the plurality of disconnected first docking signal interfaces 2〇6 and the second docking signal I The conductive terminals of the face 207 are electrically connected and exposed to the first surface/second surface 211. Figure 20 is a tenth preferred embodiment, which differs from the ninth preferred embodiment in that the optical signal processing component is the same, and the rest are the same. 21 and 22 are front view and partial disassembly of the eleventh preferred embodiment of the present invention. The electrical connection socket 4 includes a metal housing 49 and a plastic socket body having a docking space 4 (8). 41. The first docking signal interface 4〇6, the first The two docking signal interface 〇7 and the optical 处理 processing element 54 and the electrical signal processing component 53. In the preferred embodiment, the two continuous concave and convex surfaces 411 and 412 of the plastic socket body 41 are correspondingly disposed, and each has a plurality The docking signal interface accommodating slots 413 and 415 respectively accommodate the plurality of metal conductive terminals of the first butt interface 4〇6 and the second docking signal interface 4〇7, and the optical processing component 54 can also correspond to the position. The ground signal is disposed in a pair of L-shaped interface receiving slots 413, 415, wherein the optical signal processing component 54 is located on the side of the first butt interface 40$ and the second docking signal interface 4〇7, and the electrical signal is 29 201232957 The rational component 53 is electrically connected to the metal conductive terminal of any of the disconnected first docking signal interfaces 406. According to the above, the electrical connector socket 4 can provide a low voltage differential signaling (LVDS) compact male plug. Figure 2 is the twelfth preferred embodiment of the present invention, and the difference from the eleventh preferred embodiment of the present invention is that there is no electrical signal processing component, and the rest are the same, so no longer For the above-mentioned embodiments of the present invention, a socket circuit board may be referred to as a printed circuit board (PCB), and the board material is not limited as long as it is suitable for forming a printed circuit. The upper plate material can be used in the present case. Of course, in the implementation concepts disclosed in the above, if only one optical 处理 processing element is included, it can also be used in the form of Insert Molding. The plastic material is combined with the tongue plate of the signal interface type of the metal conductive terminal type to replace the tongue plate of the above printed circuit board type, thereby realizing the invention of the present invention. The embodiments of the above-described buried incidents should be known to those skilled in the art and will not be further described herein. In addition, regarding the electrical connection plugs mentioned in the above embodiments of the present case, only one of them is available for USB2. 0 or USB3. The concrete example of the use of the 0-dial signal interface is to supplement the description; please refer to Figure 24, which is one of the cases that conforms to USB2. 〇 or USB3. A partial structural diagram of an electrical connector of the 〇 信号 signal interface; wherein the electrical connector plug 至少 can be used at least with the electrical connection socket disclosed in the above first preferred embodiment of the present invention The electrical connection sockets 3 disclosed in the second preferred embodiment are mated to each other. In addition, the electrical signal processing component and/or the optical signal processing component provided in the above various electrical connection sockets may be disposed in the above-mentioned various types of sockets, or various types of docking signals 201232957 interface, or different socket circuit boards. In addition to at least one, the case can also be examined from the following points of view. Please refer to FIG. 25, which is a schematic diagram of the implementation of one of the electrical connection sockets 8 disposed at the external circuit board 80Q. The socket circuit board 801, the electrical signal processing component 802, and the optical signal processing component 8〇3 in the electrical connection socket 80 are all received in the socket 8 interface signal input interface 8011 and an interface signal output interface 8〇12. Between the two, the interface signal input interface 3011 is used to connect with the two optical connectors (please refer to the figure in the figure) (or the electrical connector plug as shown in FIG. 24) The connection interface, the interface signal output interface 3〇12 is a second connection interface for any one of the signal interfaces of the socket 8 or any element connected to the external circuit board 8〇〇. In this way, for example, the electrical signal processing component 802' originally disposed on the external circuit board 3 and used to process the signals of the interfaces can be modified in advance in the electrical connection socket 8; this can not only increase the external circuit board The space is used, and the electrical signal processing component 802 can process various electrical problems derived from the interface signals as early as possible. In addition, the optical (four) processing elements in the electrical connection sockets of the embodiments described above and the interfaces (4) (for example, USB2. G or (10) 3. At least the interface signal in the Q material docking signal interface is exposed to the dockable space that can be shared. However, there may be implementations that are exposed to the docking space that is not shared. Please refer to FIG. 26, which is a partial structural concept of the thirteenth preferred embodiment of the present invention. In the embodiment of the conceptual embodiment, the electrical connection socket applicable to the present invention and having multiple independent docking spaces is shown. 81, and it is disposed on the external circuit board (4); :, the socket circuit board (1), at least - the docking signal interface 812, the electrical signal processing component and the first (four) processing component (the two components of the real (four) can be referred to the foregoing example , which is not described here, 胄 _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ The interface signal input interface 8111 is used to interface with a connection plug, and the interface signal output interface 8112 is used for any signal interface or any component of the cymbal 81 and an external circuit. The board 81 is connected to one of the second connection interfaces. In other words, the socket of the socket 81 has a first docking space 8131 for docking the optical connection connector, and a power supply connection connector 100 (shown as an example in FIG. 24). The second docking space 8132 is forwardly and reversely connected; in addition, the first docking space 8131 and the second docking space 8132 are independent docking spaces without the common docking space as shown in the foregoing various embodiments. situation. Of course, in the present embodiment, the electrical signal processing component (not shown) in which the optical connector 2 is disposed or disposed in the first docking space 8131 can be directly electrically connected to the external circuit board (4); In order to make full use of the above-mentioned socket circuit board 811', the optical connector 2 or the electrical signal processing component may be electrically connected to the socket circuit board disposed in the second docking space 8132. Then, it is electrically connected to the external circuit board 81(). Thus, the display area can additionally free some areas of the external circuit board 810 to increase the use space of other components. i, it can also be earlier than the transmission signal has not left the electrical connection socket. Prior to 81, various problems such as at least partial electrical protection or rectification were handled first. In addition, the electrical connection socket 81 of the present embodiment has two sets of wheel temples 8141, 2 to provide an optical connection joint 2〇〇 or an electrical connection joint with a knife, for example, μ is not included) ❹ ' ^ 'More __ Steps have a shareable part of the contour structure 8 (4) to reduce! The body is electrically connected to the volume or height of the socket 81. Of course, the conceptual implementation structure is only η and is not limited thereto; for example, the actual implementation of the electrical connection socket is 32 201232957. It is necessary to set the above-mentioned shareable partial contour structure, which may be determined according to actual application conditions. This will not be repeated here. For each of the embodiments of the present invention, the respective electrical signal processing elements 21, 24, 25, 27, 29, 33, 33', 35, 43, 45, 53, 802, 210' may be at least have anti-crosstalk, Or anti-electromagnetic interference (EMI), or anti-static discharge (esd), or anti-short circuit, or anti-reverse current, or anti-overcurrent (inrush current / Surge Current) / over voltage protection of the semi-conductive components of the f-channel safety function Or it may be a semiconductor component having at least a rectifying function or a detecting function; or may be a semiconductor component having at least a rectifying function or a detecting function and having a microelectromechanical structure. And the first to sixth preferred embodiments of the present invention are shown in FIG. 27 to FIG. 32; and the above circuits are known to those skilled in the art and are only one. By way of illustration and not limitation. In other words, the electrical signal processing component 822 shown in FIG. 27 can be used to prevent electromagnetic interference (EMI) of a non-electrical 'original line (for example, a data line or a transmission line in any docking interface); The illustrated electrical signal processing component 832 can be used to prevent electromagnetic interference (EMI) in the power line in any of the docking signal interfaces; the electrical signal processing component 842 shown in Figure 29 can be used to prevent any docking signal. Electrostatic discharge (ESD) in the interface; the electrical signal processing component 852 shown in FIG. 3Q can be used to simultaneously prevent electromagnetic interference (EMI) and electrostatic discharge (ESD) of non-power lines in the interface of the docking signal; FIG. The electrical signal processing component 862 shown in FIG. 3 can be used to prevent overvoltage in any interface of the docking signal; the electrical signal processing component 872 shown in FIG. 32 can be used to prevent overcurrent in any interface of the docking signal. (Inrush Current/Surge

Current). In addition, in the embodiment of the present invention, the electrical signal processing component is applied to detect the docking direction of the interface interface of the 201232957 signal. A first side view of the first preferred embodiment is shown in FIG. 33. limit. The electrical connection socket 92 is a two-way docking electrical connection socket (for example, a USB2 electrical connection socket for bidirectional docking). Therefore, the socket circuit board 921 included therein is inserted into an electrical connection plug. When the docking space is used, one of the first docking signal interface 926 and the second docking signal interface 927 can be pressed against the socket circuit board 921 to be in contact with each other (others can be connected to the socket circuit board 921 at this time). After the open circuit state is maintained, the electrical signal processing components 922 and 923 respectively connected to the first-to-dial signal interface 926 and the second docking signal interface 927 can be used to determine the insertion direction of the electrical connector plug 9 The electrical signal processing components 922, 923 are respectively two independent electronic components 'and in the present embodiment, the first material i is short, and the first surface is 926, and the second interface is the second interface signal & surface 927 The pin segments are connected in a serial manner - the common pin is similar to reduce the number of pin segments. 1 See FIGS. 34 and 35, which are respectively the connection directions of the electrical signals in the detection interface of the interface in the embodiments of the present invention - the second preferred embodiment of the concept side code, the top view shows the ^ ^ % transmission socket The 93 series is a dual-two or two-connected socket (for example, 'u$b2g electrical connection socket for two-way docking), and the detection pins 9311 and 93丨2 are located at different dockings and are electrically connected. = The type of electrical signal processing component can smoothly detect the insertion direction of the electrical connector plug. "Tian Ran'. For the specific implementation of the integrated electrical signal processing component 932 in Figure 34 above, refer to Figure 3 gR ^ „ The schematic diagram of the preferred implementation concept; the second connection I, the electrical signal processing component, can be a switching circuit for the fiber-to-butt direction signal: the electrical signal portion shown in FIG. 37 (four) 892, 34 201232957 It can be used to prevent the reverse current of the switching circuit shown by 胄36 by the Xiaoji one body 3921纟. Referring to FIG. 38, which is a side view of a third preferred embodiment of the electrical signal processing component used in the present invention for detecting the docking direction of the interface signal. The integrated electrical signal processing component 942 in the electrical connection socket 94 can be an electronic component having a micro-electromechanical semiconductor structure, which can simultaneously provide the first docking signal interface electrically connected, 946, the second docking signal. A signal transmission path of the interface 947 may also be caused by a physical displacement stroke of the first docking signal interface 9 and the second docking signal interface 947 when the electrical connection plug 94 is inserted into the electrical connection socket 94 (of course, The other can maintain the non-moving state and detect the insertion direction of the electrical connection plug. The specific embodiment of the integrated electrical signal processing component 942 is also known to those skilled in the art and will not be described herein. Of course, in this embodiment, the pin segments of the first docking signal interface 9 钧 and the second docking signal interface 947 belong to separate pins, but may also be connected in series to form a common pin (not shown) Out) to reduce the number of pin segments. According to the above, the optical/electrical signal processing component of the present invention can be respectively disposed on the surface of the socket body, the tongue plate or the circuit board, or a pair of signals therein, according to actual needs, alternatively or in pairs. The interface is accommodated in the slot. Secondly, the optical/electrical processing components are violently traversed on opposite sides of the plastic plate body or respectively disposed on opposite faces of the circuit board. Second, when the socket circuit board is received in the socket in a suitable form, the optical/electrical signal processing component can be disposed on the socket circuit board and electrically connected to the socket circuit board. Further, the optical/electrical signal processing component can be electrically connected to the above-described docking signal interface in a bypass or serial connection, so that the received signal can be optimized. 35 201232957 In addition, when the docking signal interface in the present case is connected to the optical/electrical signal processing component, the docking signal interface may be combined (eg, soldered) to the optical/electrical signal processing component by forming a pre-breaking recessed portion, and then performing. The secondary cutting process is performed by directly bonding the separated front/rear segment connecting pins to the optical/electric signal processing elements (for example, soldering/abutting). Furthermore, the overall appearance of the electrical signal processing component can be a flat package or a package having a recess depending on the application. Moreover, according to the above, the docking space provided by the socket is used for allowing the male plug to be docked, and the docking space can be provided by the housing of the socket or by the socket body of the socket, but the above preferred embodiment of the present invention is not used. In order to limit the socket aspect of the case and the aspect of the docking space, the space for observing the positive and negative grounding of the male plug belongs to the docking space of the present case. Therefore, the present invention can provide an electrical connection socket in which the optical signal processing component and/or the electrical signal processing component can be completely integrated and provided with positive and negative docking. Therefore, the present invention can further utilize the optical signal. The component is processed to obtain an optical add-on function to increase its transfer rate. For example, the optical signal processing component in the electrical connection socket shown in the present disclosure may be an optical signal interface including a lens structure to provide a high-speed optical transmission protocol docking signal interface (for example, may belong to at least 10 Gbps or more Optical transmission level); and the electrical connection socket shown in the present invention may also be a docking signal interface compatible with various electrical level signal transmission rate agreements (for example, may be an electrical transmission level of about 5 Gbps or less), for example, At the same time, it is compatible with the above optical signal and USB3.0, or it is compatible with the US32.0 docking signal interface to integrate the all-in-one electrical connection socket. In addition, the electrical connection socket shown in this case can also be generated by adding an electrical signal processing component, 36 201232957, before transmitting the signal county (four) to the socket, the aforementioned various crosstalk, electromagnetic interference, electrostatic discharge = operation = by Electrical (4) processing components to provide circuit short-circuit protection read, over current / = miscellaneous 1 input - step provides at least _ stream or _ for example, the second two = signal type or detect plug docking direction and other power semiconductor components; The case is actually - the work of great value in the industry. The case is handled by a person who is familiar with the art. (4) Detach the scope of the patent application. 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 Fig. 2 is a view showing an example of a three-dimensional partial decomposition implementation concept of the first preferred embodiment of the present invention. FIG. 3 is a view showing an example of a partial three-dimensional structure assembly concept of the first preferred embodiment of the present invention. 4 is a diagram showing an example of a prior implementation concept of the second preferred embodiment of the present invention. FIG. 5 is a diagram showing an example of the implementation concept of the third partial real part of the present invention.圊6 is a diagram showing an example of a partial three-dimensional structure assembly concept of the second preferred embodiment of the present invention. FIG. 7 is a diagram showing an example of a prior implementation concept of the third preferred embodiment of the present invention. Figure S is a schematic view of the three-dimensional portion of the third preferred embodiment of the present invention. Fig. 9 is a schematic view showing another perspective view of the structure of the three-dimensional portion of the third preferred embodiment of the present invention. Fig. 1Q is a view showing an example of a perspective view of a three-dimensional portion structure of a fourth preferred embodiment of the present invention. Figure 11 is a front elevational view of a fifth preferred embodiment of the present invention. The figure is an example of a perspective view of the three-dimensional structure of the preferred embodiment of the present invention. Fig. 13 is a view showing another example of the perspective of the three-dimensional portion of the fifth preferred embodiment of the present invention. Figure 14 is a schematic view showing the structure of the assembled portion of the sixth preferred embodiment of the present invention. Figure 15 is a front elevational view of a seventh preferred embodiment of the present invention. Figure 16 is a diagram showing an example of the structure of the reading portion of the seventh preferred embodiment of the present invention. An example diagram of another assembled portion structure of the seventh preferred embodiment of the invention. The figure is a partially exploded schematic view of the eighth preferred embodiment of the present invention. 38 201232957 Figure 19 is a partially exploded perspective view of the ninth preferred embodiment of the present invention. Figure 2 is a partially exploded perspective view of the tenth preferred embodiment of the present invention. Figure 21 is a front elevational view of a tenth preferred embodiment of the present invention. Example of the implementation concept of the decomposing of the tenth embodiment of the present invention. FIG. 23 is an example of the implementation of the stereoscopic partial decomposition of the twelfth preferred embodiment of the present invention. FIG. 24 is one of the cases in accordance with the TTm payment. FIG. 2 is a schematic diagram of a part of the structure of the 2.0 or USB3.0 docking signal interface interface plug. FIG. 5 is a schematic diagram of the implementation concept of the Leiyuan 连 m joint rest of the embodiment of the present invention. The partial structure of the thirteenth preferred embodiment of Fig. 2 is intended. Figure 27 is a schematic diagram showing the concept of the electrical connection of the electrical signal processing components in the embodiments of the present invention. It is a schematic diagram of the electrical signal processing components in the embodiments of the present invention. Figure 29 is a schematic diagram showing a second preferred embodiment of the third preferred embodiment of the apparatus 5 of the present invention. Figure 3 is a conceptual diagram of the embodiments of the present invention. Figure 31 is a conceptual diagram of the embodiments of the present invention. Figure 32. Conceptual representation of the system for the preparation of a forest case. The fifth preferred embodiment of the sixth preferred embodiment of the processing component is a fifth preferred embodiment of the fourth embodiment of the present invention. FIG. 33 is an electrical signal processing component of the present embodiment. A side view of a preferred embodiment of the docking direction applied to the fairy signal. 1 is a side view showing a second preferred embodiment of the application of the electrical signal processing component to the splicing direction of the _ octahedron signal in the embodiments of the present invention. Figure 35. It is a schematic diagram of the (four) (four) wheel view of the electrical signal processing component used in the embodiments of the present invention. The schematic diagram is one of the preferred implementation concepts of the electrical signal processing component in Fig. 34 of the present invention. Fig. 37 is a schematic diagram of Fig. 34 of the present invention. Another preferred embodiment of the processing device is a side view of the third preferred embodiment of the signal to which the electrical signal processing component of the embodiment is applied to the docking direction of the sensing interface. 201232957 [Explanation of main component symbols] Electrical connection socket 1, 2, 3, 4, 5, 6, 7, 7, 9, 90, 81 ' 92 ' 93 > 94 socket body 11, 21, 31, 41, 51 , 61 , 71 , 71 , first docking space 101 , 301 , 501 , 701 , 901 , 8131 second docking space 102 , 302 , 502 , 702 , 902 , 8132 docking space 400 ' 600 > 900 tongue 12 , 32 , 52 , 72 , 72 , tongue front end 7211 plastic tongue 62 , 62 ′ first surface 121 > 211 ' 321 ' 521 ' 621 ' ¢ 41 ' 721 second surface 122 ' 322 ' 522 > 622 ' 642 ' 722 bottom 115 ' 316 ' 515 side wall 1151 ' 3161 ' 5151 hollow transverse groove 1152 socket circuit board 74 , 74 , , 84 , 94 , 801 , 811 ' 921 first circuit surface 741 , S41 second circuit surface 742 , 742 ' , 941 docking signal interface receiving slots 123, 213, 323, 324, 723, 724 conductive holes 973 first docking signal interface 16, 36, 56, 66, 76, 76', 96, 206, 406 '926 ' 946 conductive Terminal 160 ' 170 41 201232957 Metal Contact 7411 ' 7421 ' 742Γ metal extension wires 7412, 7422, 7422, 972 metal pin segments 7413, 7423, 974 second docking signal interface 17, 37, 57, 67, 77, 77, 97, 207, 407, 927, 947 Contact section 101, 171, 361, 371, 461, 471 spring arm contact section 971 extension section 162 ' 172 metal pin section 163, 173, 201, 363, 373, 463, 473 cover body 518 ' 618 cover side wall 5131 shell Body 19, 29, 39, 49, 59, 69, 79, 79, 99 cover 291, 991 optical signal processing element 2 〇 ' 22 ' 26 ' 28 ' 40 ' 42 > 48 ' 50 ' 54 , 803 light Signal pin portion 201 ' 221 ' 5 〇 1 lens structure 202 , 222 electrical signal processing elements 21 , 24 , 25 , 27 , 29 , 33 , 33 ′ , 35 , 43 , 45 , 53 , 802 , 822 , 832 , 842 852, 862, 872, 882, 892, 922, 923, 932, 942 another electrical signal processing component 210 opening 325 ' 326 42 201232957 surface docking signal interface receiving slot f way board positioning slot guiding plate rear seat slot Hole third docking signal interface fourth docking signal interface front end electrical connection Optical connector plug external circuit board interface signal input interface (first connection interface) interface signal output interface (second connection interface) profile at least one pair of signal interface Xiaoji diode common pin detection pin 411, 412 213 ' 413 ' 415 913 392 114 , 214 , 314 , 714 , 714 , 914 1141 ' 1146 ' 1147 46 ' 86 , 86 , , 98 47 ' 87 > 875 ' 99 7211 100 200 8Q0 ' 810 8011 , 8111 8012 ' 8112 8141 , 8142, 8143 812 8921 928 9311 , 9312 43

Claims (1)

201232957 VII. Patent application scope: The grounding (normally and 1, the type of electrical connection socket for the connection plug positive, reversely) is docked therein, the electrical connection socket includes: the seat body is provided with a splicing space and - a second docking space; a first surface facing the S-first first docking space; a second surface facing the second docking space; a first docking signal interface received to the first surface; a second docking signal interface, And receiving at least one of the optical signal processing component and an electrical signal processing component, wherein at least one of the first docking meta-frame and the second docking space is exposed. 2. The electrical connection socket of claim i, wherein the first docking signal; the I side and the 4th __ docking signal interface are all receiving the same agreed signal interface. 3. If you apply for a patent scope! The electrical connection socket, wherein the tongue plate is positioned at a bottom side wall of the base body and extends forwardly between the first docking space and the second docking space, and the tongue plate provides the first a surface and the second surface. 4. The electrical connection socket of claim 3, wherein the tongue plate is a single plate body or a composite plate body. 5. The electrical connection socket of claim 4, wherein the single board body is a board body having at least a plastic material or a socket circuit board. 6. The electrical connection socket of claim 5, wherein at least one of the first pair of interface interfaces and the second interface signal interface is electrically connected to the plurality of metal contact spring arms The metal contact spring arm has a plurality of metal extensions or metal extensions 44 201232957 extending wires and a plurality of metal pin segments electrically connected to the metal extension extension wires. 7. The electrical connection socket of claim 5, wherein the first docking signal interface and at least any of the second docking signal interfaces are formed by metal conductive terminals. 8. The electrical connection socket of claim 5, wherein the first docking signal & face or the second docking signal interface is a docking signal interface for receiving a USB 2 〇 protocol. 9. The electrical connection socket according to claim 4, wherein the composite board comprises: a socket electrical board disposed on a first plastic surface of a plastic board having a pure plastic material and a second Whether the plastic surface is overlapped or laminated by the plastic plate body and the socket circuit board. W. The electrical connection socket according to claim 9 further includes a third docking k interface and a fourth docking signal interface, wherein: the second docking signal interface is received into the plastic board The middle passenger is exposed to the first docking space, or is disposed on the socket circuit board and exposed to the first docking space, or is disposed on the socket circuit board and adjacent to the first docking signal interface; and the fourth docking interface The signal interface is received in the plastic board body and exposed to the second docking space, or disposed on the socket circuit board and exposed to the second docking space, or disposed on the socket circuit board and adjacent to the The second docking signal interface. 11. The electrical connection socket of claim 10, wherein the first docking number "face 5 玄 second docking signal interface, the third docking signal interface, or the fourth docking interface hn interface At least one of a plurality of metal contacts or metal contacts 45 201232957 elastic arms, a plurality of metal extensions or metal extension wires electrically connected to the metal contacts or metal contact spring arms, and electrically connected to the metals The plurality of metal pin segments of the extension or metal extension wire are formed, and wherein the metal contacts and the metal extension wires are provided by the socket circuit board. 12. The electrical connection pedestal of claim lp, wherein the first docking interface, the second docking signal interface, the third docking signal interface, or the fourth docking signal interface At least one of them is composed of a plurality of gold electrical terminals. 13. The electrical connection socket according to the invention of claim 2, further comprising a socket circuit board opposite to the other socket circuit board, the two circuit boards disposed on the top and the bottom of the base body, wherein the simplified circuit board Providing the first surface, the other socket circuit board provides a second surface, and the first docking space and the second docking space are the same docking space. 14. The utility model as claimed in claim 13 , wherein the socket circuit board and the far-out socket material board respectively have a plurality of conductive holes, and respectively receive the sub-connection C number " face and 6 A plurality of metal pin segments of the second docking signal interface. The electrical connection socket according to claim 13, further comprising a third pair interface and a fourth docking signal interface, wherein the third docking signal interface is combined with the first docking signal interface to receive _ 3 The Q protocol is connected to the signal interface, and the fourth (four) signal interface and the second docking signal interface are combined to receive the _3 〇 agreed docking signal interface. The electric connection socket described in Item 15 of the ^ 申 任 任 , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , = at least any of the interface towels, a plurality of metal extensions or metal contacts electrically connected to a plurality of metal contacts or metal contact spring arms of a plurality of metal extensions 46 201232957 or metal ι extension wires, and electrical connections Forming a plurality of metal pin segments of the metal eyebrow extension or the metal extension wire, and wherein the metal contacts and the metal k-extension wires are at least one of a 4-socket circuit board and the other socket circuit board One provided. The electrical connection socket of claim 15, wherein at least one of the first docking signal interface, the second docking signal interface, the third docking signal interface, or the fourth docking signal interface is , consists of a plurality of metal conductive terminals. 18. The electrical connection socket of claim i, wherein the first surface and the second surface are respectively located at opposite top and bottom surfaces of the base, and the 5th surface and the The second surface is provided with a plurality of docking signal interface receiving slots for respectively receiving the first docking signal interface and the second docking signal interface, and the first docking space and the second docking space are the same docking space. 19. The electrical connection socket of claim 13, further comprising a third docking signal interface and a first job docking signal interface, respectively located at the top and bottom of the body, the two opposite planes, and the first A surface of the second surface and the second surface are respectively provided with another hard-numbered docking signal interface receiving slots for respectively receiving the third docking signal interface and the fourth docking signal interface; wherein the third docking signal interface and the The first docking signal interface combination receives the U$B 3.0 protocol docking signal interface, and the fourth docking k interface is combined with the second docking signal interface to receive the USB 3 〇 protocol docking interface. The electrical connection socket of claim 19, wherein at least one of the first docking signal interface, the second docking signal interface, the third docking signal interface, or the fourth docking signal interface First, it is composed of a plurality of metal contact elastic arms, a plurality of metal extensions electrically connected to the metal contact elastic arms, and a plurality of metal pin segments electrically connected to the metal extension. The electrical connection socket according to the first aspect of the invention, wherein the first surface and the second surface are respectively located on two opposite continuous concave and convex surfaces of the top and the bottom of the base body, and the plurality of butts are connected. The signal interface is configured to receive the first docking signal interface and the second docking signal interface for receiving the low voltage differential signal, and the first docking space and the second docking space are the same docking space. The electrical connection socket of claim 21, wherein at least one of the first docking signal interface and the second docking signal interface is electrically connected to the plurality of metal contacts The metal contacts the plurality of metal extensions of the elastic arm, and is electrically connected to the gold; The electrical connection socket of the invention of claim i, wherein at least one of the electrical signal processing component and the county signal processing component is disposed on at least the socket circuit board further included in the socket. Or electrically connected to the at least the socket circuit board. The electrical connection socket of claim 23, wherein the at least one socket circuit board is a printed circuit board (PH cut Ci_B_d, pcB). The electrical connection socket of claim 23, wherein the electrical signal processing component is disposed on the material-less socket circuit board and electrically connected to the at least-socket circuit board in a serial or bypass manner. Above the interface - docking signal interface. The electrical connection socket of claim 23, wherein the optical signal processing component is electrically connected to the at least socket circuit board and exposed to the first docking space or/and the second The docking space is electrically connected to an external circuit board located outside the electrical connection socket by an optical signal pin. 27. The electrical connection socket of claim 26, wherein the optical signal pin portion is a metal pin segment 'the end is soldered to the at least the socket circuit board or electrically connected to the wire number The processing component is soldered to the external circuit board. 48 201232957 The electrical connection socket of the Patent Application No. 2 (4), wherein the electrical signal processing component is electrically connected in series to the optical signal processing component and the external electrical power. The electrical connection socket according to the application of (4) (4), wherein the optical signal processing unit comprises: an optical signal adapter having a lens structure, and is a docking signal interface of optical grade k transmission rate, and includes The first-to-dial signal interface and the j-to-dial (four) interface are different in the interface of the plurality of dockings (the fourth) are the electrical signal transmission rate of the docking signal interface. 30, such as the scope of patent application! The electrical connection socket of the present invention, wherein the electrical signal processing device-X is placed in at least a part of the docking signal interface including the plurality of docking signal age interfaces including the first docking signal interface and the first signal interface on. The electrical connection socket according to the third aspect of the invention, wherein at least one of the pair of interface 1 interfaces comprises a front/back two-part docking W interface and the electrical signal processing component The connection between the front/back two parts of the signal interface is electrically connected in a _ connection manner. 32. The electrical connection socket of claim 41, wherein the at least one pair of I:: forms at least one pre-breaking recess for receiving the electrical signal processing component. And after the disconnection process, the front/back two parts of the separation are docked--the electrical connection socket according to item i of the patent scope, wherein the U-shaped portion of the electrical signal is - at least with anti-crosstalk Or a semiconductor component that protects against electrical interference, or anti-static discharge, or short-circuit proof, or reverse current, or protection against overcurrent/overvoltage. Such as Shen. The electrical connection socket described in item i of the patent scope of the present invention, wherein the electrical signal portion is a semiconductor component having a flow function or a pre-measurement function; or "the medium. A semiconductor component having at least a rectifying function or a detecting function and having a microelectromechanical structure. 35. The electrical connecting socket according to claim i, wherein the body further comprises a housing - for fitting - The outer circumference of the socket body. 36 kinds of electrical connection sockets 'for a connection plug bi-directionally 疋 located in its towel' and electrically connected with the electrical connection socket, the socket has a body, a pair The space, a second surface, and a second docking signal interface 'the electrical connection socket are characterized by: further comprising at least one of the optical signal processing component and the electrical signal processing component, and at least - The device is received between the interface signal input interface and an interface signal output interface of the socket. 37. The electrical connection socket according to claim 36, wherein the interface letter The input terminal U is connected with the connection plug to the ___ connection interface, and the interface signal output connection π is used for any signal interface or any component of the socket to be connected to one of the external circuit boards The connection interface, such as the electrical connection socket described in the claim, includes the first sub-connector L; the face and the second docking signal interface, at least two docking signals ▲ d , can be - coffee 2" docking signal interface, -U$B3.Q docking t interface, or - low voltage differential signal docking signal interface, etc. - agreement = signal material is called the age of the plant - or technology The joint protocol < electrical level signal transmission rate docking signal interface. The electrical connection socket described in the 36th item of the patent range> the optical signal portion includes - a light (four) docker having an optical recording structure, and The electrical connection socket of the optical transmission processing unit of claim 36, wherein the electrical connection processing component and the optical signal processing component are disposed at The socket further includes at least one socket circuit board, or is electrically connected to the at least one socket circuit board. 41. The electrical connection socket of claim 4, wherein the at least one socket circuit board is A printed circuit board (PCB). The electrical connection socket of claim 40, wherein the electrical signal processing component is disposed on the at least one socket circuit board and connected in series Or electrically connected to the electrical connection socket of the at least one socket circuit board, wherein the optical signal processing component is electrically connected to the at least one of the electrical connection sockets. A socket circuit board is exposed in the first docking space or/and the second docking space, and is electrically connected to an external circuit board located outside the electrical connection socket by an optical signal pin. 44. The electrical connection socket of claim 43, wherein the optical signal pin portion is a metal pin segment, one end of which is soldered to the at least one socket circuit board or electrically connected to the optical signal processing The other end is used to solder to the external circuit board. The electrical connection socket of claim 43, wherein the electrical signal processing component is electrically connected in series between the optical signal processing component and the external circuit board. 46. The electrical connection socket of claim 36, wherein the electrical signal processing component is disposed in at least two of the at least two docking signal interfaces including the first docking signal interface and the second docking signal interface Partial docking signal interface. 47. The electrical connection socket of claim 46, wherein at least one of the plurality of docking signal interfaces comprises a front-to-back two-part docking 201232957 W interface and the electrical signal processing component The serial connection mode is electrically connected between the front sub-docking signal interfaces. The electrical connection socket of claim 47, wherein the at least one pair of apostrophes " face (4) is at least a pre-breaking recess for contact with the electrical signal processing component and completion-interruption After the program is opened, the front/back two parts of the separation are interfaced with the signal. 49. The electrical connection socket of claim 36, wherein the connection plug comprises an f connection plug and an optical connection plug, and the electrical connection plug is docked in the first docking space or/and The second docking space is connected to the second docking space of the base; wherein the first docking space and the second docking space have a shared docking space, and the third docking space and the third docking space are mutually They are independent and do not share docking space. 50. The electrical connection socket of claim 49, wherein the interface signal input interface is disposed in the seat, and the interface signal input interface has at least two sets of profiles that can be used by different connection plugs. 51. The electrical connection socket of claim 5, wherein the at least two sets of contours have partially overlapping contours for use with the electrical connector plug or the optical connector plug. 52. The electrical connection socket of claim 36, wherein the electrical signal processing component is at least with anti-crosstalk, or anti-electromagnetic interference, or anti-static discharge, or short-circuit proof, or anti-reverse current, Or a semiconductor component that protects the circuit from the overcurrent/overvoltage protection function. 53. The electrical connection socket of claim 1, wherein the electrical signal processing component is a semiconductor component having at least a rectifying function or a detecting function; and 52 201232957 or wherein the telecom processing component is A semiconductor component having at least a rectifying or detecting function and having a microelectromechanical structure. 54. The electrical connection socket of claim 100, wherein the base further comprises a housing for receiving a peripheral edge of the outer side of the socket body. 55. The electrical connection socket of claim 36, wherein the first: the signal interface and the second interface signal are at least two docking signals; the first side is the same protocol. Signal interface. 53