CN219843168U - HDMI electric connector - Google Patents

Abstract

The utility model discloses an HDMI electric connector which accords with a DisplayPort signal contact, wherein the HDMI electric connector can be welded on 20 welding pads which are arranged in parallel on a DisplayPort interface circuit board, wherein: the HDMI electric connector is provided with ten parallel terminals with odd numbers in the 1 st to 19 th pins from right to left in sequence, wherein the 17 th pin terminal welding part is positioned at the 16 th welding pad position of the DisplayPort interface circuit board; the 19 th pin terminal is positioned at the 18 th welding pad position of the DisplayPort interface circuit board; the HDMI electric connector is provided with nine parallel terminals with even numbers in the 2 nd to 18 th pins from right to left in sequence, wherein the 16 th pin terminal welding part is positioned at the 17 th welding pad position of the DisplayPort interface circuit board; the 18 th pin terminal has a welding part positioned at the 19 th or 20 th welding pad position of the DisplayPort interface circuit board, and the position of the terminal welded on the DisplayPort interface circuit board is changed through the bending terminals of the upper row and the lower row, so that all terminals can obtain correct electric connection signals when the HDMI electric connector is welded on the DisplayPort interface circuit board.

Description

HDMI electric connector

Technical Field

The present utility model relates to an HDMI electrical connector, which is consistent with DisplayPort signal contacts, and more particularly, to an HDMI electrical connector in which a staggered structure is formed between a16 th pin terminal in a lower row and a17 th pin terminal in an upper row; the 18 th pin terminal at the lower row and the 19 th pin terminal at the upper row form a staggered structure so as to form a circuit board compatible with the DisplayPort interface by changing the pin arrangement of the terminals through the HDMI electric connector, thereby achieving the purpose of being compatible with the DisplayPort and the HDMI electric connector on the same circuit board.

Background

The electrical connector is widely used in various communication and audio/video devices as an electronic signal transmission and connection element, and the common standard connector sockets include RJ-11 (telephone line socket), RJ-45 (network line socket), USB (universal serial bus), IEEE1394 (serial bus), RF (radio transmission port), pin-header (Pin-header), HDMI (high-definition multimedia interface), displayPort (display port) and other different types.

In the above electrical connectors, HDMI (high-definition multimedia interface) and Display Port (DP) connectors are widely used for video signal transmission, but the DisplayPort and HDMI belong to different transmission protocols, and 20 terminals are inserted into the DisplayPort electrical connector; 19 terminals are inserted in HDMI, and the definition of each terminal pin of the two terminals is different. Meanwhile, the shape of the butt joint structure and the shape of the tongue plate are different, so that the butt joint structure and the tongue plate cannot be compatible to generate electric connection. However, in a general electronic video apparatus, if a circuit board is to be disposed inside the electronic video apparatus, the area of the circuit board must be increased by simultaneously disposing the DisplayPort and the HDMI pad through a circuit Layout (Layout), and the volume of the electronic video apparatus must be increased for pursuing a slim and small electronic video apparatus. Therefore, how to design a compatible DisplayPort and HDMI electrical connector on a circuit board is a challenge for the industry.

Disclosure of Invention

Accordingly, in view of the above-mentioned problems and disadvantages, many years of experience accumulated in the industry has been continuously created and modified, and the present utility model is directed to providing an HDMI electrical connector capable of conforming to DisplayPort signal contacts.

The utility model provides an HDMI electric connector, which accords with a DisplayPort signal contact, wherein the HDMI electric connector can be welded on 20 welding pads which are arranged in parallel on a DisplayPort interface circuit board, and the HDMI electric connector comprises: the HDMI electric connector is provided with ten parallel terminals with odd numbers in the 1 st to 19 th pins from right to left in sequence, wherein the 17 th pin terminal welding part is positioned at the 16 th welding pad position of the DisplayPort interface circuit board; the 19 th pin terminal is positioned at the 18 th welding pad position of the DisplayPort interface circuit board; the HDMI electric connector is provided with nine parallel terminals with even numbers in the 2 nd to 18 th pins from right to left in sequence, wherein the 16 th pin terminal welding part is positioned at the 17 th welding pad position of the DisplayPort interface circuit board; the 18 th pin terminal has a welding part positioned at the 19 th or 20 th welding pad position of the DisplayPort interface circuit board, and the welding position of the DisplayPort interface circuit board is changed through the plurality of bending terminals arranged at the upper row and the lower row, so that when the HDMI electric connector is welded on the DisplayPort interface circuit board, all terminals can obtain correct electric connection signals. Forming a staggered structure through the 16 th pin terminal positioned at the lower row and the 17 th pin terminal positioned at the upper row; the 18 th pin terminal positioned at the lower row and the 19 th pin terminal positioned at the upper row form a staggered structure so as to form a circuit board compatible with a DisplayPort interface by changing the pin arrangement of the terminals through the HDMI electric connector, thereby achieving the purpose of being compatible with the DisplayPort and the HDMI electric connector on the same circuit board.

In one embodiment of the present utility model, the 19 th or 20 th pad position of the DisplayPort interface circuit board is a void where no terminal is soldered.

In an embodiment of the present utility model, the 16 th pad position of the DisplayPort interface circuit board is defined as a ground; the 17 th pad location is defined as a differential negative signal; the 18 th bonding pad position is defined as hot plug detection; the 19 th pad position is defined as the power recovery of the connector; the 20 th pad location is defined as the power supply of the connector.

In an embodiment of the present utility model, the HDMI electrical connector has a staggered structure formed in the HDMI electrical connector with the 16 th pin terminal of the lower row and the 17 th pin terminal of the upper row.

In an embodiment of the present utility model, the HDMI electrical connector has 18 th pin terminals located in a lower row and 19 th pin terminals located in an upper row, and a staggered structure is formed in the HDMI electrical connector.

The present utility model also provides an HDMI electrical connector comprising:

an insulating body having an accommodating cavity therein; the first base is provided with a tongue plate penetrating the accommodating cavity, the butt joint parts of the plurality of terminals arranged up and down are exposed, the 16 th pin terminals positioned in the lower row and the 17 th pin terminals positioned in the upper row are positioned in the two faces of the tongue plate, and a staggered structure is formed in the second base; the 18 th pin terminal at the lower row and the 19 th pin terminal at the upper row form a staggered structure in the second seat body.

In an embodiment of the utility model, the insulating body and the terminal seat are further pushed and penetrated in an assembly space of a shielding shell, a butt joint opening is formed at a position of the shielding shell corresponding to the tongue plate, a positioning space is formed between two side plates and a rear plate of the shielding shell, a clamping block clamped in the positioning space is convexly arranged between two sides of the top surface of the insulating body and two side wall surfaces of the insulating body, a supporting arm propping against two connecting plates at the bottom side of the shielding shell is convexly arranged at two ends of the bottom side of the insulating body adjacent to the tongue plate, and a plurality of propping arms propping against the upper surface and the lower surface of a preset plug connector and forming positioning are respectively arranged at the top side and the bottom side of the shielding shell.

In an embodiment of the utility model, a plurality of positioning pins extend downwards from two side plates of the shielding shell, a fixing arm is arranged in a protruding way towards the direction of the rear plate, a tin-eating hole for solder to pass through during welding is arranged in at least two positioning pins, and at least one through hole for reducing bending stress is arranged at a junction bending position between the top surface of the shielding shell and the rear plate.

In an embodiment of the utility model, the top surface of the insulating body is convexly provided with at least two ribs propped against the inner side of the shielding shell.

In an embodiment of the utility model, the plurality of terminals further includes a turning portion extending from the butt-joint portion to one side to form a downward bend between the first base and the second base, the end of the turning portion is bent towards the horizontal direction to form a welding portion, and the 16 th to 19 th pin terminals have a lateral movement portion adjacent to the turning portion.

Drawings

Fig. 1 is a perspective view of an electrical connector according to the present utility model.

Fig. 2 is an exploded perspective view of the electrical connector of the present utility model.

Fig. 3 is another exploded perspective view of the electrical connector of the present utility model.

Fig. 4 is an exploded view of a first embodiment of the upper and lower rows of terminals of the present utility model.

Fig. 5 is a combined structural view of fig. 4 according to the present utility model.

Fig. 6 is an exploded view of a second embodiment of the upper and lower rows of terminals of the present utility model.

Fig. 7 is a combined structural diagram of fig. 6 according to the present utility model.

Fig. 8 is a perspective view of the solder assembly of the electrical connector of the present utility model on a circuit board.

Reference numerals illustrate: 1-an insulating body; 10-a containing cavity; 11-top surface; 111-ribs; 12-side wall surface; 13-a clamping block; 14-a bracket arm; 2-terminal blocks; 21-a first seat; 211-tongue plate; 22-a second seat; 23-terminals; 231-butt joint; 232-turning part; 233-weld; 234-a traversing section; 3-a shield case; 30-assembly space; 300-docking opening; 31-side plates; 310-positioning space; 311-positioning pins; 3110-tin-eating holes; 312-a fixed arm; 32-a back plate; 320-through holes; 33-connecting plates; 34-an abutment arm; 4-DisplayPort interface circuit board; 41-bonding pads; a1 to a 19-pins.

Detailed Description

To achieve the above objects and advantages and in accordance with the purpose of the utility model, as well as in the structure and method of practicing the utility model, the features and functions of the preferred embodiments of the utility model are described in detail below for a complete understanding.

Referring to fig. 1 to 5, there are a perspective view, an exploded perspective view, and another exploded perspective view of the electrical connector according to the present utility model; as can be clearly seen from the exploded view of the first implementation structure of the upper and lower rows of terminals and the combined structure of fig. 4, the HDMI (high-definition multimedia interface) electrical connector of the present utility model mainly comprises an insulating body 1 and a terminal base 2, and the detailed structure and the interconnection relationship of the foregoing components are as follows:

the insulating body 1 has a housing 10 therein.

The terminal seat 2 comprises a first seat body 21 and a second seat body 22 which are mutually vertical and a plurality of 19 terminals 23 which are arranged up and down and penetrate through the space between the first seat body and the second seat body, wherein the first seat body is provided with a tongue plate 211 penetrating through the accommodating cavity 10, the butt joint parts 231 of the plurality of terminals 23 which are arranged up and down are exposed on two plate surfaces of the tongue plate 211, the 16 th pin terminal a16 positioned in the lower row and the 17 th pin terminal a17 positioned in the upper row are positioned in the second seat body 22, and a staggered structure is formed; the 18 th pin terminal a18 located in the lower row and the 19 th pin terminal a19 located in the upper row form a staggered structure in the second seat 22.

The insulating body 1 and the terminal base 2 are further pushed to pass through the assembly space 30 of a shielding shell 3, a butt joint opening 300 is formed at the shielding shell 3 corresponding to the tongue plate 211, a positioning space 310 is formed between two side plates 31 and a rear plate 32 of the shielding shell 3, a clamping block 13 clamped in the positioning space 310 is convexly arranged between two sides of the top surface 11 of the insulating body 1 and two side wall surfaces 12, a supporting arm 14 propped against two connecting plates 33 at the bottom side of the shielding shell 3 is convexly arranged at two ends of the bottom side of the insulating body 1 adjacent to the tongue plate 211, and a plurality of propping arms 34 propped against the upper surface and the lower surface of a preset plug connector (not shown) are respectively arranged at the top side and the bottom side of the shielding shell 3.

The two side plates 31 of the shielding shell 3 are respectively extended with a plurality of positioning pins 311 downwards and a fixing arm 312 protruding towards the direction of the rear plate 32, so that the insulation body 1 is not separated from the shielding shell 3 due to the backward pushing of the plugging stress when the plug and socket electrical connectors are in butt joint by the fixing structure of the rear plate 32 and the two fixing arms 312. And a solder receiving hole 3110 for solder (not shown) passing through during soldering is provided in the at least two positioning pins 311 to strengthen the pull-out resistance of the electrical connector after being fixed to the circuit board, and at least one through hole 320 for reducing bending stress is provided at the junction bending position between the top surface of the shielding shell 3 and the rear plate 32, at least two ribs 111 abutting against the inner side of the shielding shell 3 are provided on the top surface 11 of the insulating body 1, and a heat dissipation gap is provided between the insulating body 1 and the shielding shell 3 by the two ribs 111.

As shown in fig. 4 and 5, the terminal 23 further includes a turning portion 232 extending from the abutting portion 231 to one side to form a downward bend between the first base 21 and the second base 22, the end of the turning portion 232 is bent towards the horizontal direction to form a welding portion 233, and the 16 th to 19 th pin terminals have a traverse portion 234 adjacent to the turning portion 232, and in the first embodiment, the traverse portion 234 is located between the turning portion 232 and the welding portion 233, and the purpose of changing the position of the welding portion 233 of the terminal 23 is achieved by the design of the traverse portion 234.

Referring to fig. 6 and 7, an exploded view of a second embodiment of the upper and lower rows of terminals and a combined structure of fig. 6 are shown, wherein the terminal 23 provided in the second embodiment is identical to the first embodiment provided in fig. 4 and 5 in terms of size, and still includes: the butt joint portion 231, the turning portion 232 and the welding portion 233 are also provided with a lateral moving portion 234 at the position of the 16 th to 19 th pin terminals adjacent to the turning portion 232, but in the second embodiment, the lateral moving portion 234 is located between the butt joint portion 231 and the turning portion 232, and the forming position of the lateral moving portion 234 is the difference between the first embodiment and the second embodiment.

Referring to fig. 1 to 8, an HDMI electrical connector conforming to DisplayPort (DisplayPort) signal contacts is provided, the HDMI electrical connector is soldered to 20 pads juxtaposed on a DisplayPort interface circuit board, and the HDMI electrical connector comprises:

the HDMI electric connector is provided with ten parallel terminals 23 with odd numbers in the 1 st to 19 th pins from right to left in sequence, wherein the 1 st, 3 rd, 5 th, 7 th, 9 th, 11 th, 13 th and 15 th pins (a 1, a3 rd, a5 th, a7 th, a9 th, a11 th, a13 th and a15 th) are kept welded at the original welding pad 41 position of the DisplayPort interface circuit board 4; the 17 th pin terminal (a 17) is bent towards the parallel center direction and the welding part 233 is positioned at the 16 th welding pad 41 of the DisplayPort interface circuit board 4; the 19 th pin terminal (a 19) is bent towards the parallel center direction, and the soldering part 233 is positioned at the 18 th soldering pad 41 of the DisplayPort interface circuit board 4.

The HDMI connector has nine parallel terminals 23 with even numbers in the 2 nd to 18 th pins from right to left, wherein the 2 nd, 4 th, 6 th, 8 th, 10 th, 12 th, 14 th pins (a 2, a4, a6 th, a8 th, a10 th, a12 th, a14 th) are soldered to the original pads 41 of the DisplayPort interface circuit board 4; the 16 th pin terminal (a 16) is bent away from the parallel center direction, and the welding part 233 of the 16 th pin terminal is positioned at the 17 th welding pad 41 of the DisplayPort interface circuit board 4; the 18 th pin terminal (a 18) is bent away from the parallel center direction and the soldering portion 233 is located at the 19 th or 20 th pad 41 of the DisplayPort interface circuit board 4, and the upper and lower rows of the plural bending terminals 23 are used to change the soldering positions of the terminals on the DisplayPort interface circuit board 4, so that when the HDMI connector is soldered on the DisplayPort interface circuit board 4, all the terminals 23 can obtain correct electrical connection signals.

The 19 th or 20 th bonding pad 41 of the DisplayPort interface circuit board 4 is a free space where no terminal 23 is soldered.

The 16 th pad 41 of the DisplayPort interface circuit board 4 is defined as the Ground (GND); the 17 th pad 41 location is defined as a differential negative signal (AUX CH n); the 18 th pad 41 location is defined as hot plug Detect (Detect); the 19 th pad 41 location is defined as the joint power return (return); the 20 th pad location is defined as the Power supply (Power).

The HDMI electric connector is positioned at a16 th pin terminal (a 16) of a lower row and a17 th pin terminal (a 17) of an upper row, and a staggered structure is formed in the HDMI electric connector; the HDMI electrical connector is provided with a18 th pin terminal (a 18) positioned at the lower row and a19 th pin terminal (a 19) positioned at the upper row, and a staggered structure is formed in the HDMI electrical connector.

The alignment relationship between the 20 pads 41 of the DisplayPort interface circuit board 4 and the 19 terminals of the HDMI electrical connector is as follows:

list one

In the first list, the pin specification definition of the 20 pads 41 of the DisplayPort interface circuit board 4 is defined on the left side of the plural double-headed arrow lines; the pin specification definition of 19 terminals of the HDMI electrical connector is defined on the right side of the double-headed arrow lines, and it can be seen from the figure that the corresponding definition names of the two pins 1 to 15 are not the same, but the pin functions are substantially the same. When the 17 th pin terminal (a 17) of the HDMI electric connector is bent, the 16 th welding pad 41 (pin is defined as grounding [ GND ]) positioned on the DisplayPort interface circuit board 4; the 16 th pin terminal (a 16) is bent and then positioned on the 17 th bonding pad 41 (pin definition is differential negative signal [ AUX CH n ]) of the DisplayPort interface circuit board 4; the 19 th pin terminal (a 19) is bent and then positioned on the 18 th welding pad (pin is defined as hot plug detection) of the DisplayPort interface circuit board 4; the 18 th pin terminal (a 18) is bent to be located on the 19 th or 20 th pad 41 of the DisplayPort interface circuit board 4 (the pin is defined as a connector Power return (return) or a connector Power (Power)), and the embodiment is that the 18 th pin terminal (a 18) is bent to be located on the 20 th pad 41 of the DisplayPort interface circuit board 4 and makes the 19 th pad 41 be a free space, but the self-limiting is not used, and the terminal 23 of the HDMI connector is bent to redefine (CO-LAY) pins as listed in the following list two:

watch II

PIN	HDMI CO-LAY
		1	Data2+
2	GND
		3	Data2-
4	Data1+
		5	GND
6	Data1-
		7	Data0-
8	GND
		9	Data0-
10	Clock+
		11	GND
12	Clock-
		13	CEC
14	Utility
		15	SCL
17	DDC/CEC Ground
		16	SDA
19	Detect
		18	POWER

The utility model is mainly technically characterized in that: the HDMI electric connector is positioned at the 16 th pin terminal (a 16) of the lower row and the 17 th pin terminal (a 17) of the upper row to form a staggered structure; the 18 th pin terminal (a 18) positioned at the lower row and the 19 th pin terminal (a 19) positioned at the upper row form a staggered structure so as to form a circuit board compatible with the DisplayPort interface by changing the pin arrangement of the terminals through the HDMI electric connector, thereby achieving the purpose of being compatible with the DisplayPort and the HDMI electric connector on the same circuit board. The utility model is applied to the field of video and audio electronic products and has excellent practicability.

The foregoing description is only illustrative of the preferred embodiments of the present utility model and is not to be construed as limiting the scope of the utility model, so that the simple modification and equivalent structural changes that are made in the present utility model are all intended to be included within the scope of the present utility model.

Claims (10)

1. An HDMI electrical connector which accords with a DisplayPort signal contact, can be welded on 20 welding pads which are arranged in parallel on a DisplayPort interface circuit board, and is characterized in that the HDMI electrical connector comprises:

the HDMI electric connector is provided with ten parallel terminals with odd numbers in the 1 st to 19 th pins from right to left in sequence, wherein the 1 st, 3 rd, 5 th, 7 th, 9 th, 11 th, 13 th and 15 th pins are kept welded at the original welding pad positions of the DisplayPort interface circuit board; the 17 th pin terminal is bent towards the parallel center direction, and the welding part of the 17 th pin terminal is opposite to the 16 th welding pad of the DisplayPort interface circuit board; the 19 th pin terminal is bent towards the parallel center direction, and the welding part of the 19 th pin terminal is opposite to the 18 th welding pad of the DisplayPort interface circuit board; and

the HDMI electric connector is provided with nine parallel terminals with even numbers in the 2 nd to 18 th pins from right to left in sequence, wherein the 2 nd, 4 th, 6 th, 8 th, 10 th, 12 th and 14 th pins are kept welded at the original welding pad positions of the DisplayPort interface circuit board; the 16 th pin terminal is bent towards the direction far away from the parallel center, and the welding part of the 16 th pin terminal is opposite to the 17 th welding pad of the DisplayPort interface circuit board; and the 18 th pin terminal is bent in a direction far away from the parallel center, and the welding part pair of the 18 th pin terminal is positioned at the 19 th or 20 th welding pad position of the DisplayPort interface circuit board.

2. The HDMI connector of claim 1, wherein the 19 th or 20 th pad position of the DisplayPort interface circuit board is a void where no terminal is soldered.

3. The HDMI connector of claim 1, wherein the 16 th pad location of the DisplayPort interface circuit board is defined as ground; the 17 th pad location is defined as a differential negative signal; the 18 th bonding pad position is defined as hot plug detection; the 19 th pad position is defined as the power recovery of the connector; the 20 th pad location is defined as the power supply of the connector.

4. The HDMI connector of claim 1, wherein the HDMI connector has a staggered configuration formed therein at the 16 th pin terminal of the lower row and at the 17 th pin terminal of the upper row.

5. The HDMI connector of claim 1, wherein the HDMI connector has a staggered configuration formed therein at the 18 th pin terminal of the lower row and at the 19 th pin terminal of the upper row.

6. An HDMI electrical connector, comprising:

an insulating body having an accommodating cavity therein; and

the terminal seat comprises a first seat body, a second seat body and 19 total terminals, wherein the first seat body and the second seat body are mutually vertical, the terminals penetrate through the first seat body and the second seat body and are arranged up and down, the total number of the terminals is 19, the first seat body is provided with a tongue plate penetrating through the accommodating cavity, the butt joint parts of the terminals arranged up and down on two plate surfaces of the tongue plate are exposed, the 16 th pin terminal positioned on the lower row and the 17 th pin terminal positioned on the upper row are positioned in the second seat body, and a staggered structure is formed in the second seat body; the 18 th pin terminal at the lower row and the 19 th pin terminal at the upper row form a staggered structure in the second seat body.

7. The HDMI electrical connector of claim 6, wherein the insulating body and the terminal block are further pushed through an assembly space of a shielding housing, a butt joint opening is formed at the shielding housing corresponding to the tongue plate, a positioning space is formed between two side plates and a rear plate of the shielding housing, a clamping block clamped in the positioning space is convexly arranged between two sides of the top surface of the insulating body to two side wall surfaces, a supporting arm supporting two connecting plates at the bottom side of the shielding housing is convexly arranged at two ends of the bottom side of the insulating body adjacent to the tongue plate, and a plurality of supporting arms supporting the upper surface and the lower surface of a preset plug connector and forming positioning are respectively arranged at the top side and the bottom side of the shielding housing.

8. The HDMI electrical connector of claim 7, wherein the two side plates of the shielding housing are respectively provided with a plurality of positioning pins extending downwards and a fixing arm protruding towards the rear plate, a solder-receiving hole for solder passing during soldering is arranged in at least two positioning pins, and at least one through hole for reducing bending stress is arranged at the junction bending position between the top surface of the shielding housing and the rear plate.

9. The HDMI connector of claim 7, wherein said top surface of said housing is provided with at least two ribs abutting against the inside of said shield shell.

10. The HDMI electrical connector of claim 6, wherein the plurality of terminals further comprises a turning portion extending from the mating portion to one side for forming a downward bend between the first and second housings, the turning portion is bent at a distal end thereof in a horizontal direction to form a soldering portion, and the 16 th to 19 th pin terminals have a traverse portion adjacent to the turning portion.