TWM503001U - Electrical connector plug - Google Patents

Description

Electrical connector plug

An electrical connector plug is an electrical connector plug for use in a universal serial bus (USB).

When people use 3C products, they add extra or necessary functions by connecting the multimedia slots of 3C products with various external devices. For example, an external hard drive, a flash drive, a multimedia audio device, or a keyboard.

Since the device such as the flash drive has the convenient function of supporting hot plugging and plug-and-play, the 3C product does not need to be deliberately turned off and then inserted or removed during the operation of the 3C product, and does not cause the host or the flash drive to be burned, and can be instantly Detect and quickly use newly inserted external devices. Therefore, USB has gradually become a recognized standard specification. USB technology has evolved to date and has undergone structural improvements of 1.0 to 3.0. Since the USB socket is built in the 3C product, once it is damaged, the user will have difficulty in replacing and repairing it. Therefore, the current structure is designed with different front and back structures to achieve a foolproof effect and avoid improper plugging and unplugging. The damage of the socket.

According to the current design, the conductive terminal in the USB socket has an elastic structure. When the USB plug is embedded, the conductive terminal in the USB socket is pressed by the signal transmission terminal of the USB plug to be retracted and elastically pressed to ensure that the USB socket and the USB plug remain stable. Geoelectrical connection.

However, due to the large amount of signal transmission of the USB Type-C, the frequency of the transmission signal must be increased, and the number of conductive terminals in the USB Type-C is greatly increased, and the overall appearance size is increased. Limited by space, the complexity and tightness of the terminal arrangement has also increased dramatically. In particular, the frequency of the transmission signal is increased, and the interval between the signal transmission terminals is shortened, and the probability of crosstalk between the terminals is increased, once the adjacent terminals in the same connector or even the signal terminals of the adjacent connectors are generated. Crosstalk will reduce the signal-to-noise ratio (S/N ratio) of the transmission process, so that adjacent signal transmission terminals interfere with each other, which inevitably reduces the reliability and stability of its use.

In addition, due to the common wireless mouse or keyboard, often with high frequency Bluetooth As a transmission tool, whether it is a notebook computer, a tablet computer or related products, the connector is placed in an adjacent position, and the signal interference of the above-mentioned radio frequency becomes a problem that affects the smooth operation of the connector.

The present invention seeks to provide an electrical connector plug that transmits high frequency signals on the one hand. Corresponding position of the signal transmission terminal, adding a conductive structure to reduce the transmission impedance of the high-frequency signal terminal by the capacitive effect, and improving the signal strength during high-frequency signal transmission, thereby improving the signal-to-noise ratio of the high-frequency signal and maintaining high The quality of the frequency signal is good; the other layer provides a layer of protection to prevent the structure of the USB Type-C connector plug from being damaged and smooth in terms of structural strength or high-frequency signal transmission. Have been promoted.

An object of the present invention is to provide an electrical connector plug, which adds a conductive action piece to the USB plug to reduce the impedance of the high frequency signal transmission terminal for transmitting the high frequency signal, thereby reducing the intensity attenuation of the transmission signal and improving the signal noise ratio. .

Another object of the present invention is to provide an electrical connector plug that adds an electromagnetic crosstalk protection to the front side section of the integrally formed conductive sheet to reduce the crosstalk generator. rate.

A further object of the present invention is to provide an electrical connector plug that mounts a delicate and easily damaged signal transmission terminal on one side of the USB plug, and when damaged, increases the convenience of replacement.

In order to achieve the above object, the present invention provides an electrical connector plug for guiding to an electrical connector socket, wherein the electrical connector socket includes a metal housing and two sets of connection terminals disposed in the metal housing. The connector plug includes: an insulating body having a long direction, and the insulating body includes a base portion and a mounting portion fixed to the base portion and extending along the long direction; the two rows are along the long armature Each of the elastic guiding terminals has a length of a horizontal section at least partially fixedly disposed on the base portion of the insulating body, and is bent and extended by the horizontal section. The elastic guiding terminals are respectively symmetrical and disposed in the insulating body. a protruding contact section, wherein each of the horizontal sections is parallel to each other, and each of the protruding contact sections is respectively provided with a corresponding contact terminal for guiding the electrical connector socket; and each of the foregoing elastic conductive terminals The at least one pair of high-frequency signal terminals for transmitting high-frequency signals; a conductive action piece mounted on the erection portion, comprising a front side section away from the base portion; At least one reduced impedance section extending from the front side section toward the base portion and at least partially shielding the high frequency signal terminal to reduce the transmission impedance of the high frequency signal terminal; and a conductive contact disposed on the base portion The shielded outer casing of the metal casing.

An electrical connector plug disclosed in the present invention, the signal transmission terminal is reconfigured on the USB plug, and a conductive material of a metal material is provided, and the high-impedance signal terminal is removed by the impedance reduction section, in addition to the original internal resistance. Further, a parallel reactance is generated, and the capacitance effect formed between the high-frequency signal terminal is reduced, the transmission impedance of the high-frequency signal terminal is reduced, the signal transmission attenuation is reduced, and the signal noise ratio is increased; Masking high frequency The signal terminal further strengthens the shielding of the electromagnetic noise; and assists the elastic guiding terminal to avoid losing the elastic restoring force due to excessive compression. According to this structure, the product characteristics of the USB Type-C connector are improved, and the high-frequency signal transmission performance of the USB Type-C connector and the durability of the overall structure are improved.

1, 1 ₅ ‧‧‧ electrical connector plug

2‧‧‧Shielded enclosure

3‧‧‧Insulation body

31‧‧‧Base section

311‧‧ ‧ guide slot

32‧‧‧Long

33‧‧‧Building Department

4‧‧‧Flexible lead terminals

41‧‧‧ horizontal section

42‧‧‧ protruding contact section

43, 43 ₂ , 43 ₃ , 43 ₄ ‧‧‧ High-frequency signal terminals

5, 5 ₂ , 5 ₃ ‧‧‧ Conductive film

51, 51 ₂ , 51 ₃ ‧ ‧ front side

52, 52 ₂ , 52 ₃ , 52 ₄ ‧‧‧lower impedance section

53‧‧‧Protection section

6‧‧‧Circuit board

61‧‧‧ positive

62‧‧‧Back

63‧‧‧ side

7‧‧‧Metal conductive housing

71‧‧‧Upper casing

72‧‧‧ Lower case

73‧‧‧welding

8‧‧‧Electrical connector socket

81‧‧‧Metal shell

82‧‧‧Connecting terminal

9‧‧‧Electrical wire

1 is a perspective view of a first preferred embodiment of a USB Type-C electrical connector plug and a socket corresponding to each other; FIG. 2 is a side cross-sectional view of the connector of the electrical connector of FIG. FIG. 3 is a front view showing the arrangement of the plug terminals of the electrical connector of FIG. 1 , illustrating the state in which the elastic conductive terminals in the connector are pivotally symmetric in the longitudinal direction; FIG. 4 is the plug structure portion of the electrical connector of FIG. 1 . The exploded perspective view is taken to remove the shielded casing to illustrate the first embodiment of the reduced impedance section; FIG. 5 is an experimental data diagram of the reduced impedance section of FIG. 4; FIG. 6 is a perspective exploded view of the electrical connector plug of FIG. 1; FIG. 8 is an enlarged perspective view showing the elastic connecting terminal and the circuit board in FIG. 6; FIG. 9 is a schematic view showing the upper and lower housing of the metal conductive housing in the embodiment of FIG. FIG. 10 is an exploded perspective view showing the structure of the second preferred embodiment of the electrical connector plug of the present invention, which is removed to illustrate the structure of the reduced impedance section; FIG. 11 is a diagram 10 FIG impedance experimental data segment; 12 is an exploded perspective view showing the structure of the third preferred embodiment of the electrical connector plug of the present invention, which is removed to illustrate the structure of the reduced impedance section; FIG. 13 is an experimental data diagram of the reduced impedance section of FIG. 12; 14 is an exploded perspective view showing the structure of the fourth preferred embodiment of the electrical connector plug of the present invention, the shield housing is removed to illustrate the structure of the reduced impedance section; FIG. 15 is an experimental data diagram of the reduced impedance section of FIG. 14; In a fifth preferred embodiment of the present type of electrical connector plug, the electrical connector plug is provided with associated components to form a well-known USB flash drive.

The foregoing and other technical aspects, features, and advantages of the present invention will be apparent from the following detailed description of the preferred embodiments illustrated in the accompanying drawings. In the embodiments, the same elements will be similar. The label indicates.

The first embodiment of the present invention is exemplified by an electrical connector assembly. Referring to FIG. 1 to FIG. 9, the electrical connector assembly is an example of a USB connector assembly, which is an electrical connector socket 8 with a USB socket. It is composed of an electrical connector plug 1 which is matched with a conductive wire 9 which can be operated at the same time and which is a USB plug.

The electrical connector plug 1 includes an insulating body 3, and the insulating body 3 has a base portion 31 and a mounting portion 33 fixed to the base portion 31 and extending along the longitudinal direction 32, wherein the base portion A shielding shell 2 is further disposed above the seat portion 31, and is electrically connected to the metal housing 81 of the electrical connector socket 8 via the shielding housing 2, when the electrical connector plug 1 is plugged into the electrical connector socket 8. The metal casings of the two are electrically connected to each other. The electrical connector socket 8 is disposed at the housing of the 3C product and is connected to the grounding of the motherboard of the 3C product. This produces the effect of grounding and shielding, so that the signal transmitted between the electrical connector socket 8 and the electrical connector plug 1 is not easily interfered by external electromagnetic waves.

Referring to FIG. 2, the two rows of elastic guiding terminals 4 are centered on the long direction 32. The shafts are disposed on the insulating body 3 corresponding to each other. Viewed from a side view, it can be seen that the two rows of fixed elastic guiding terminals 4 are vertically symmetrical with each other; as shown in the front view of FIG. 3, any one of the rows of elastic guiding terminals 4 is pivoted by the long direction 32, and is rotated 180. The degree is completely coincident with the position of the elastic guiding terminal 4 of the other row; the term "pivoting symmetry" is used to define the above-mentioned state in which the two rows of elastic guiding terminals 4 are disposed corresponding to each other, and is disposed on the insulating body 3 on.

Each of the foregoing elastic guiding terminals 4 has a horizontal section 41 and a section A convex contact section 42 that is bent and extended by the horizontal section 41. The base portion 31 of the insulating body 3 is further formed with a plurality of guiding grooves 311 for limiting the horizontal portion 41 of each of the elastic guiding terminals 4 to avoid any of the aforementioned horizontal segments 41. Mis-touching adjacent ones causes short circuit; on the other hand, according to the USB Type-C specification, two pairs of terminals Rx+, Rx- and Tx+, Tx- are respectively transmitted in the elastic guiding terminals 4 of each of the foregoing rows. The high frequency signal is referred to herein as a high frequency signal terminal 43 for convenience of explanation.

Since the electrical connector socket 8 must also have multiple sets of connection terminals 82, The spacing between the terminals is limited, and there is no mutual shielding. Therefore, in the present invention, the electrical connector plug 1 is additionally provided with a conductive action piece 5, which is exemplified as a metal piece, having a section away from the base. The front side section 51 of the portion 31 and a section of the reduced impedance section 52 extending from the front side section 51 toward the base portion 31 and at least partially shielding the high frequency signal terminal 43.

Please refer to FIG. 4 and FIG. 5 together. The aforementioned impedance reduction section 52 of this example can be The high frequency signal terminal 43 is completely shielded so that the high frequency signal terminal 43 transmits an alternating current signal. At the same time, due to the capacitive coupling effect, in addition to the internal resistance of the terminal itself, a capacitor impedance is connected, so that the transmission impedance value during the transmission of the high-frequency signal can be reduced by 3 to 4 percentage points from the original 99 ohms. Lower impedance of 95 ohms. Thereby, the accuracy and reliability of high-frequency signal transmission can be further improved.

When the electrical connector plug 1 leads the electrical connector socket 8, the electrical connector The connecting terminal 82 of the socket 8 is inserted into the mounting portion 33 of the insulating body 3 to press and electrically connect the elastic guiding terminal 4 of the electrical connector plug 1. Once the user applies excessive force, the electrical connection is plugged and unplugged. The process of the plug 1 may damage the resilient conductive terminal 4. The protection section 53 extending from the front side section 51 opposite to the direction of the impedance-reducing section 52 is such that the force-applying force is offset by the protection section 53 to prevent the force path from continuously pressing against the elastic guiding terminal 4, thereby causing the The elastic conductive terminal 4 is elastic and fatigued and damaged. Of course, those skilled in the art can easily infer that even if the protection segment is removed, the elastic guiding terminal directly presses the connection terminal of the electrical connector socket, which does not affect the implementation of the present invention.

The front side section can reduce the probability of electromagnetic interference of different connectors, and the lower impedance section is divided into two channels and arranged in parallel with each other in the embodiment, and the width of each track covers the pair of the high frequency signal terminals respectively. Rx+, Rx- and Tx+, Tx-, the distance between the aforementioned impedance reducing section and the high frequency signal terminal is less than 0.2 mm, and only about 0.18 mm; by the Capacitive Coupling effect, the aforementioned high The frequency signal terminal and the aforementioned reduced impedance section form a pattern such as a parallel plate capacitor, and the formula: εA/d , the transmitted impedance value is related to the distance between the lower impedance section and the high frequency signal terminal and the area of the aforementioned reduced impedance section. . In addition to the original internal resistance, each high-frequency signal terminal generates a parallel reactance, thereby reducing the overall transmission impedance of the high-frequency signal terminal and optimizing the high-frequency signal transmission performance. In contrast, since the specification of the electrical connector socket has a certain specification size, it cannot be changed arbitrarily, and the distance between the shielded casing and the high-frequency signal terminal is 0.3 mm, the pitch is too large, and the capacitance effect is not significant at all; The impedance effect depends on the new structure of the case.

With the above structural design, the delicate and easily damaged elastic conductive terminal is provided. Placed on the side of the plug of the electrical connector to reduce the risk of damage on the side of the socket after long-term use. Since the products connected to the plug are mostly peripheral devices such as a mouse or a keyboard, compared with the host where the socket is located, of course, the peripheral is replaced. The device is more convenient, and once the elastic guiding terminal is unfortunately damaged due to normal use consumption, the user is also relatively easy to replace by himself. In addition, a lower-impedance section is extended from the front side section of the stamped and formed conductive sheet in this example, so that the high-frequency signal terminal is partially shielded and generates a parallel reactance, thereby reducing the overall transmission impedance of the high-frequency signal terminal. On the other hand, the metal casing of the electrical connector socket is electrically connected by the shielding shell disposed on the base portion, thereby generating the grounding and shielding effect, and the electrical connector socket and the electrical connector plug The signals transmitted by the terminals are not easily interfered by external electromagnetic waves, which improves the convenience of use. Of course, those skilled in the art can easily infer that the forming method of the conductive sheet can also be produced by means of casting, without affecting the implementation of the embodiment.

Please refer to FIG. 8 and FIG. 9. The electrical connector plug further includes an electric battery in this example. The circuit board 6 has a front surface 61, a back surface 62, and two side surfaces 63 connecting the front surface 61 and the back surface 62. The front surface 61 and the back surface 62 are laser welded to the horizontal section 41 of the two rows of elastic guiding terminals 4 that are pivotally symmetric, and are respectively fixed to the front surface 61 and the back surface 62, so that the two The row of elastic guide terminals 4 still maintains a state of pivotal symmetry, and limits the horizontal section 41 to prevent the horizontal sections 41 from being in improper contact with each other, causing a short circuit of the circuit.

The metal conductive housing 7 further includes an upper housing 71 and a lower housing 72. The upper housing 71 and the lower housing 72 are respectively formed with two soldering portions 73, and the soldering portion 73 corresponds to the two side surfaces 63 of the circuit board 6, so that the upper housing 71 and the lower housing 72 are provided. The above-mentioned circuit board 6 can be fixed together by welding, thereby reinforcing the overall strength of the electrical connector plug 1. Once the operator does not pay attention to the electric connector plug 1 falling, it will not be damaged due to the impact force when the ground is dropped, and the structure of the metal conductive shell 7 is loose.

The second preferred embodiment of the present invention and its experimental data are shown in FIGS. 10 and 11. FIG configuration substantially the same as the previous embodiment, but can be clearly seen, the structure of the present embodiment, the front section ₅₁₂ is not broken, while maintaining a single piece of sheet metal, and the impedance reducing shield section ₅₂₂ in addition to the The high-frequency signal terminal 43 ₂ also extends to the upper and lower sides of the two sets of high-frequency signal terminals 43 ₂ , so that the high-frequency signal terminal 43 _{2 in} this example transmits the impedance value, achieving substantially the same reduction as in the previous embodiment. effect. Of course, since in this case the role of the conductive sheet ₅₂ is not punched hole on, the shape of the mold can be simplified, so that the effect of the conductive sheet ₅₂ is actually formed of a flat metal sheet.

In this case the third preferred embodiment and experimental data, please refer to FIG. 12, FIG. 13, the line in the first embodiment of the role of the conductive sheet _53, the drop in impedance section ₅₂₃ is opposite to the front side section ₅₁₃ rear, a connecting link to additional segments (not numbered) lowering the impedance of section _523, not only so that the present embodiment of the high frequency signal transmission terminal ₄₃₃ has a resistance value equivalent to decrease the first two embodiments, than the first An embodiment further ensures that the structure of the aforementioned reduced impedance section 52 ₃ is stable, and the material used is also less than that of the second embodiment.

The fourth embodiment is shown in Figs. 14 and 15 . The structure of the reduced impedance section 52 ₄ is simplified, only a part of the high frequency signal terminal 43 ₄ is shielded, and a part of the high frequency signal terminal 43 _{4 is} exposed, which is designed via the reduced impedance section 52 _{4 of} the embodiment, although only A 97 ohm impedance better than the conventional one can be achieved, but the material can be further saved without affecting the implementation of the technical features of the present invention.

The case of the fifth embodiment, shown in Figure 16, are well known in the art may easily deduce, the conductive wires of the first embodiment in addition to eliminating the embodiment, by plastic housing (not numbered) covering the electrical connector plug ₁₅ , only the shielding shell (not labeled) is exposed, and the aforementioned elastic guiding terminals (not labeled) in the plastic housing are also laser welded to the circuit board (not labeled), thereby forming a common portable body in life. The disc again enhances the flexibility of the connector of the electrical connector.

The electrical connector plug of the present invention is shielded at least in part by a pair of high frequencies The structure of the reduced-impedance section of the conductive terminal effectively reduces the transmission impedance of the high-frequency conductive terminal pair, improves the signal-to-noise ratio of the high-frequency signal transmission, and effectively blocks the crosstalk of the USB connection terminal, thereby improving the signal transmission effect; The elastic conductive terminal is disposed in the insulating body of the electrical connector plug, which reduces the consumption of the socket portion and improves the fluency of the USB Type-C in use, thereby achieving all of the above purposes.

However, the above is only a preferred embodiment of the present invention, and the scope of the novel implementation is not limited thereto, and any simple equivalent changes and modifications made in accordance with the scope of the present patent application and the contents of the novel specification are It should remain within the scope of this new patent.

2‧‧‧Shielded enclosure

3‧‧‧Insulation body

31‧‧‧Base section

311‧‧ ‧ guide slot

33‧‧‧Building Department

4‧‧‧Flexible lead terminals

41‧‧‧ horizontal section

42‧‧‧ protruding contact section

5‧‧‧ Conductive film

51‧‧‧ front side

52‧‧‧lower impedance section

53‧‧‧Protection section

9‧‧‧Electrical wire

Claims (7)

An electrical connector plug for guiding to an electrical connector socket, wherein the electrical connector socket comprises a metal housing and two sets of connection terminals disposed in the metal housing, the electrical connector plug comprising: a long-distance insulating body, and the insulating body comprises a base portion and an erecting portion fixed to the base portion and extending along the long direction; the two rows are pivotally symmetric with each other along the long direction, and are respectively disposed on Each of the elastic guiding terminals of the insulating body has a horizontal section at least partially fixedly disposed on the base portion of the insulating body, and a protruding contact section extending from the horizontal section, wherein Each of the foregoing horizontal segments is parallel to each other, and each of the protruding contact segments is respectively configured to correspondingly press and connect the connecting terminals of the electrical connector socket; and each of the foregoing elastic guiding terminals comprises at least one pair a high frequency signal terminal for transmitting a high frequency signal; a conductive action piece mounted on the mounting portion, including a front side section away from the base portion; and at least one of the front side segments facing away Extending base portion, and at least partially shielding the high frequency signal terminal, so that the impedance of the high frequency signal transmission terminal impedance drop reduction section; and a portion disposed on the base, and the conductive shielding shell in contact with the metal housing. The electrical connector plug of claim 1, wherein each of the sets of the elastic conductive terminals has two pairs of the high frequency signal terminals, and the step of reducing the impedance is two segments extending from the front side segment to the above a metal piece of the base portion. The electrical connector plug of claim 2, wherein the width of each of the foregoing metal sheets is The degrees respectively correspond to the pair of high frequency signal terminals. The electrical connector plug of claim 1, further comprising a circuit board electrically connected to the horizontal section of the elastic conductive terminal, the circuit board having a front surface, a back surface and connecting the front surface and the back surface Both sides. The electrical connector plug of claim 4, further comprising a metal conductive housing, wherein the metal conductive housing comprises an upper housing and a lower housing, wherein the upper and lower housings are respectively formed with two The soldering portion, and the soldering portion corresponds to the two sides of the circuit board, so that the upper housing, the lower housing and the circuit board can be soldered together. The electrical connector plug of claim 1, wherein the base portion of the insulating body is formed with a plurality of guiding slots for limiting the horizontal section of the elastic guiding terminal. The electrical connector plug of claim 1, wherein the conductive sheet is stamped.