TWM420868U - Mini display port Connector - Google Patents

Description

M420868 V. New Description: [New Technology Field] This creation is about the type of mini display connector, especially the high-speed signal terminal group with symmetrical arrangement to reduce signal skew. The mini display shows the connector. [Prior Art] With the advancement of technology, the resolution of display devices (such as liquid crystal displays or LCD TVs) is increasing. Currently, LCD TVs on the market usually provide High Definition Multimedia Interface (HDMI). Or display the Display p〇rt interface to connect to a computer or other video device. The display 埠(^Display p〇rt) is a new generation of digital video interface standard promoted by the Video Electronics Standards Association (VESA). It is a transmission interface for computer monitors and has the function of supporting plug-and-play. It is expected to replace the traditional LVDS. , DVI and VGA transmission interface. In addition, with the development of multimedia technology, the display has developed a

Mini-Display Port connector, this Mini-Display

Port connectors have been widely used in electronic devices. Mini-Display Port is a micro version of Display Port, published by Apple on October 14, 2008. Apple has freely licensed other manufacturers to develop products related to Mini DisplayPort. Mini DisplayPort has 20 pins and its pin configuration. For pin 1 is ground (GND), pin 2 is hot plug detect (Hot Plug Detect), pin 3 is channel 0 for 3 M420868 real signal (MLJLane Ο (p)), pin 4 is supported External configuration 1 (CONFIG1), pin 5 is channel 0 auxiliary signal (ML_Lane 0 (η)), pin 6 is external configuration 2 (CONFIG2), pin 7 is ground (GND), pin 8 is grounded (GND), pin 9 is the real signal of channel 1 (ML_Lane 1 (ρ)), pin 10 is the real signal of channel 3 (ML_Lane3(p)), and pin 11 is the auxiliary signal of channel 1 (ML_Lane 1 ( η)), pin 12 is the auxiliary signal of channel 3 (ML_Lane3 (η)), pin 13 is ground (GND), pin 14 is ground (GND), pin 15 is the real signal of channel 2 (ML_Lane 2 (p)), pin 16 is the real signal of the auxiliary channel (AUX_CH(p)), and pin 17 is the auxiliary signal of channel 2 (ML-Lane 2 ( η)), pin 18 is the auxiliary signal of the auxiliary channel (AUX-CH (η)), pin 19 is ground (GND), and pin 20 is the connector power supply (DP_PWR). A conductive terminal (not shown) of a Mini-Display Port connector is disposed on the upper and lower sides of the rear side of the electrical connector and is immersed in a solder paste method by a through hole (Through Hole) or a pin. In paste) and Surface Mount Technology (SMT) and a circuit board 7〇 electrically connected (please refer to the fourth figure), wherein the perforations on the circuit board are numbered #1 to #19 singular number And the perforations on the circuit board are arranged up and down, and the numbering of the #1, #7, #13, and #19 on the circuit board is for the light connection-ground terminal, and the number on the circuit board is ## 5, #9 and #u, #15 and #17 are used to lightly connect the high-speed signal terminal M420868, as shown in the fourth figure, the number # 5 and # 7, and the number # 13 and # 15 and the connector The arrangement order of the conductive terminals is different, for example, the number #7 is in the number #S & 〇〇, the number #15 is before the number #13, so that the connection is electrically conductive, and the sub-transformation needs to be changed to match the perforation of the circuit board. The conductive terminal is connected to the problem of the jumper pin, and the problem of signal distortion (si^alskew) is more serious. Moreover, the structure of the conductive terminal is complicated to manufacture _, therefore, how to effectively reduce the signal skew and manufacture the conductive terminal with a simple structure and effectively stabilize the high-speed signal transmission is an urgent problem to be solved in the industry. [New Content] The purpose of this creation is to provide a connector for mini display ,, which simplifies the coupling between the terminal and the circuit board by a unique scorpion group arrangement structure design. Another object of the present invention is to provide a connector for mini-display that can stabilize high-speed signal transmission and effectively reduce signal skew. The connector of the mini display port for achieving the above purpose is used for lightly connecting to a circuit board, the circuit board is provided with a plurality of perforations and a plurality of SMT contacts, and the connector of the mini display port includes: a plurality of a grounding terminal, a plurality of first-high-speed signal terminal groups, a hot-swap detection terminal, a low-speed signal terminal group, a second ground terminal, a second speed signal terminal group, a third ground terminal, and a first The three high-speed signal terminal group and one power signal terminal, the hot plug detection terminal, the low-speed signal terminal group, the first ground terminal, the first south-speed signal terminal group, the third ground terminal, and the third high-speed said 5 tiger terminal group And the power supply state knows that the sub-system corresponds to a plurality of 5 of the circuit board. The even sequence is connected according to the pin definition order, and the plurality of perforations of the circuit board are arranged up and down, and the upper row of each perforation is placed under The rows of the two perforations are arranged in an offset manner, and the plurality of first-ground terminals are connected to the lower row of perforations according to the definition sequence of the chat list; the plurality of first-speed signal terminal groups are Pin setting The odd-numbered sequence is paired with the 1st spacer Q and the upper row of the perforations are lightly connected, and the plurality of first high-speed signal terminal groups have a bent portion, and the bent portion is symmetrically bent outward and then extended downward The signal transmission path of each of the first high-speed signal terminal groups to the circuit board is the same. The connector of the other mini display port for achieving the above purpose is coupled to a circuit board, the circuit board a plurality of first through holes and a plurality of second through holes 'the mini display port connector' includes: a plurality of first ground terminals, a plurality of first high speed signal terminal groups, a hot plug 4 test terminals, and a a low-speed signal terminal group, a second ground terminal, a second high-speed signal terminal group, a third ground terminal, a third high-speed signal terminal group, and a power signal terminal, and the plurality of first perforations of the circuit board The first perforations are arranged up and down and the upper perforations of the first perforations and the second perforations are arranged in an offset manner with each of the second perforations of the lower perforations, and the first perforations of the lower perforations are in the order of pin definition. Odd sequence The spacing is coupled to the plurality of first grounding terminals, and the first row of first perforations are coupled to the plurality of first high-speed signal terminal groups in an odd-numbered sequence in an odd-numbered sequence according to a pin definition sequence, and the lower row The second through hole is coupled to the hot plug detecting terminal, the second terminal M420868 ground terminal, the third ground terminal, and the power signal terminal in an even sequence of the pin definition sequence, and the first row of the upper row is coupled The perforation is coupled to the low-speed signal terminal group, the second high-speed signal terminal, and the third high-speed signal terminal group in an even-numbered interval according to the pin definition sequence, and each of the first high-speed signal terminal group and the low-speed signal terminal group The first idle signal terminal group and the third high speed signal terminal group each have a bent portion, and the bent portion is symmetrically bent outward and extends downward to enable each of the first idle signal terminals. The distances of the signal transmission paths of the group, the low-speed signal terminal group, the second high-speed signal terminal, the sub-group, and the second high-speed signal terminal group to the circuit board are the same. The connector of the present invention is further provided with a shielding housing and an insulating body. The shielding housing has an accommodating space. The insulating system is disposed in the accommodating space and has a plurality of terminal slots. a first grounding terminal, a plurality of first high-speed signal terminal groups, a hot-swap detection terminal, a low-speed signal terminal group, a second ground terminal, a second high-speed signal terminal group, a third connection, a ground, and a second The speed signal terminal group and the power signal terminal are correspondingly disposed in the plurality of terminal slots. The connector of the mini display device further includes a partition having a plurality of slots and a plurality of slots, the plurality of slots for fixing the plurality of first ground terminals and the plurality of first high speed signal terminal groups And a plurality of recesses for receiving the hot plug detecting terminal, the low speed signal terminal group, the first ground terminal, the first side speed signal terminal group, the third ground terminal, and the third high speed signal terminal The terminals of the group and power signal terminals. 7 M420868 The mini-display connector of the present invention further includes a partition having a plurality of slots for fixing the plurality of first ground terminals, a plurality of first high-speed signal terminal groups, hot-swap detection terminals, and low speed The terminal of the signal terminal group, the second ground terminal, the second high-speed signal terminal group, the third ground terminal, the third high-speed signal terminal group, and the power signal terminal. The distance between the plurality of first ground terminals is 1.8 mm, and the distance between the plurality of first high-speed signal terminal groups is 0.9 mm. The distance between the hot plug detection terminal, the second ground terminal, the third ground terminal, and the power signal terminal is 1.8 mm, and the low speed signal terminal group, the second high speed signal terminal group, and the third high speed signal terminal group The distance between them is 0.9 mm. The pins represented by the plurality of first ground terminals are in the order of pins 1, 7, 13, and 19, and the pins represented by the plurality of first high-speed signal terminal groups are sequentially pins (3, 5). , pins (9, 11) and pins (15, 17). The hot-swap detection terminal represents a pin 2, and the low-signal terminal group is a pin (4, 6), the second ground terminal is a pin 8, and the second high-speed signal terminal group (10, 12), the third ground terminal is a pin 14, and the third high-speed signal terminal group is a pin (16, 18), and the power signal terminal is a pin 2 〇. [Embodiment] Hereinafter, a description will be given of a specific embodiment of the present creation. It should be noted that the disclosed embodiments are merely illustrative. The scope of the present invention is not limited to the specific embodiments in which the specific features, structures, or properties are disclosed, but are defined by the scope of the patent application. In addition, the drawings shown in the specification do not have the necessary features of all the materials of the dragon, and the depicted parts may be expressed in a simplified and schematic manner. The dimensions of the various pieces in the illustration may be Exaggerated or not in line with the actual ratio. Regardless of the short description of the description, or whether the _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ The relevant specific embodiments are implemented within the knowledge limits. 〃

Please refer to the first-A diagram and the first (four). The first A-picture shows an exploded perspective view of the connector of the mini display port of the present embodiment; the first B-picture shows the mini display of the present creation-embodiment. The connection level is combined with a stereogram. The mini display connector 100 includes a shielding case 3〇, an insulative housing 3, a plurality of first ground terminals 32, a plurality of first high-speed signal terminal groups 33, a hot plug detecting terminal 34, and a low speed. The signal terminal group 35, a second ground terminal 36, a first south speed signal terminal group 37, a third ground terminal 38, a second high speed signal terminal group 39, and a power signal terminal 4 (refer to the first c The figure and the first E figure) and a partition plate 4 have a receiving space 3〇1, and the insulating body 31 is disposed in the receiving space 301 and has a plurality of terminal slots (not shown) Referring to FIG. 2B, the plurality of first ground terminals 32, the plurality of first high-speed signal terminal groups 33, the hot-swap detection terminals 34, the low-speed signal terminal group 35, the second ground terminal 36, and the The two high-speed signal terminal group 37, the third ground terminal 38, the third high-speed signal terminal group 39 and the power signal terminal 40 are correspondingly disposed in the plurality of terminal slots (please refer to FIG. 2B). a plurality of slots 410 and a plurality of grooves 411, the plurality of slots The plurality of recesses 411 are configured to receive the plurality of first grounding terminals 32 and the plurality of first high-speed signal terminal groups 33, and the plurality of recesses 411 are configured to receive the hot-swap detecting terminal 34 and the low-speed signal terminal. The group 35, the second ground terminal 36, the second high-speed signal terminal group 37, the third ground terminal 38, the third high-speed signal terminal group 39, and the terminal of the power terminal 9 M420868 terminal 40. Further reference to the first C picture and the first D, the first C is a rear perspective view showing a plurality of first ground terminals and a plurality of first high-speed signal terminal groups in an embodiment of the present invention; the first D-picture shows a plurality of the first embodiment of the present creation A top view of a ground terminal and a plurality of first high-speed signal terminal groups, each of the first high-speed signal terminal groups 33 being disposed between each of the two first ground terminals 32, and being staggered, and each of the first high speeds The signal terminal group % has a bent portion 330, and the bent portion 330 is symmetrically bent outward and extends downward, so that each of the first high-speed signal terminal groups 33 and each of the first ground terminals 32 are presented. Arranged one after the other, and by The length of each of the first high-speed signal terminal groups 33 is the same, so that the signal transmission path distance of each of the first high-speed signal terminal groups 33 is the same. Each of the first high-speed signal terminal groups 33 has the same length, so that the speed and distance of the signal transmission are the same 'to stabilize the high-speed signal transmission and effectively reduce the signal skew. In this embodiment, the plurality of first The pin represented by the ground terminal 32 is in the order of pins 1, 7, 13, and 19, and the pins represented by the plurality of first high-speed signal terminal groups 33 are sequentially pins (3, 5) and pins. (9, 11) and pins (15, 17). In this embodiment, the distance between the plurality of first ground terminals 32 is 1.8 mm' and the distance between the plurality of first high-speed signal terminal groups 33 is 0.9 mm. Please refer to FIG. 1E for the hot plug detection terminal, the low speed signal terminal group, the second ground terminal, the second high speed signal terminal group, the third ground terminal, and the third idle signal terminal. Rear view of the group and power signal terminals. The hot plug detection terminal 34, the low speed signal terminal group 35, the second ground terminal 36, the second high speed signal terminal group 37, the third ground terminal 38, the third high speed signal terminal group 39, and the power signal terminal 40 are sequentially And horizontally arranged, and the hot plug M420868 pulls the detection terminal 34, the low speed signal terminal group 35, the second ground terminal %, the second high speed signal terminal group 37, the third ground terminal 38, the third high speed signal terminal group column, The power signal terminals 40 each have a bent portion 350 and a welded portion 36, and the bent portion 350 extends downward, and the welded portion 36 is bent horizontally by the bent portion 35A. In this embodiment, the hot-swap detection terminal 34 represents a pin 2' and the low-speed signal terminal group 35 is a pin (4, 6), and the second ground terminal 36 is a pin 8. 'The second high-speed signal terminal group is a pin (, 12), the third ground terminal 38 is a pin 14, and the third high-speed signal terminal group 39 is a pin (16, 18) 'the power signal Terminal 4〇 is pin 20. Please refer to the first F diagram, which is a schematic diagram showing one of the circuit boards of the mini display connector of the present embodiment. The mini-unconnected connector of the present invention is coupled to a circuit board 5, the circuit board 50 is provided with a plurality of through holes 51 and a plurality of SMT contacts 52, and the plurality of through holes 51 From left to right, the singular numbers are #1 to #19, and the plurality of perforations 51 are arranged one above the other, and the second perforation of the lower row is arranged in an offset manner with each of the upper perforations of the upper row, that is, the number #3, #5上排排孔 between the numbered ##, #7 lower row of perforations, and the number #9, well u above the row of perforations placed between the number #7, #13 lower row of perforations, and The number #15, #17 < upper row of perforations are placed between the lower row of perforations of #13, #19 and arranged in a staggered manner; the plurality of SMT contacts 52 are also numbered from left to right respectively # Up to #20, and the plurality of SMT contacts 52 are arranged in parallel. Please refer to the first G diagram, which is a schematic diagram showing that the connector of the mini display port of the present embodiment is coupled to a circuit board, and the connector of the present invention shows that only the terminals are displayed. In this embodiment, the plurality of first ground terminals 32 are coupled to the lower row of vias of the circuit board 50 in an odd-numbered sequence according to the pin definition order, and each of the first high-speed signal terminal groups 33 is The pin definition sequence is oddly sequenced and paired with the M420868. The circuit board 50 is arranged to be lightly connected, that is, the plurality of first ground terminals 32 are sequentially numbered with the circuit board 50#1, #7, #13. The #19 perforated surface connection, the service-first-high-speed signal terminal group 33 is sequentially and the circuit board 50 number #3, #5, #9, #ιι, #15, with 7 perforation, so that A plurality of first-ground terminals 32 and each of the first high-speed signal terminals 33 are arranged in the order of the number of the through holes 51 of the circuit board 50, and the bent portion 3 3 of each of the first high-speed signal terminal groups 33 Symmetrically extending outwardly and downwardly, the distance between the signal transmission paths of each of the first high-speed signal terminal groups 33 and the circuit board 50 is the same, so that the problem of signal interference is less likely to occur, and the hot swapping is performed. Detection terminal 34, low-speed signal terminal group 35, second ground terminal 36, and second high-speed signal terminal The welding portion 360 of the group 37, the third grounding terminal 38, the third idle signal terminal group 39 and the power signal terminal 4A corresponds to a plurality of SMT contacts 52 of the circuit board 50 (double number #2 to #20) They are coupled in even sequence according to the pin definition order. Please refer to FIG. 2A and FIG. 2B simultaneously. The second a diagram shows an exploded front side perspective view of the connector of the mini display port of another embodiment of the present creation; the second B diagram shows another embodiment of the present creation. The exploded rear side perspective view of the mini display connector. The mini display connector 1' includes a shielding case 30', an insulative housing 31', a plurality of first ground terminals 32', a plurality of first south speed signal terminal sets 33, and a hot plug The detection terminal 42 , a low-speed signal terminal group 43 , a second ground terminal 44 , a second high-speed signal terminal group 45 , a third ground terminal 46 , a third high-speed signal terminal group 47 , and a power signal terminal 48 and a partition 60. The shielding housing 30' has an accommodating space 301'. The insulating body 31' is disposed in the accommodating space 30A and has a plurality of terminal slots 310. The plurality of first ground terminals 32', the plurality of first high speed signal terminal groups 33'', the hot plug detecting terminal 42, the low speed signal terminal group 43, the second ground terminal 44, the second high speed signal terminal group 45, The three grounding terminals 46, the third high-speed signal terminal group 47 and the power signal terminal 48 are correspondingly disposed in the plurality of terminal slots 310 12 M420868. The partition plate 60 has a plurality of slots 61 ′ for fixing a plurality of V first ground terminals 32 ′, a plurality of first high speed signal terminal groups 33 ′, a hot plug detecting terminal 42 , a low speed signal terminal group 43 , The terminals of the two grounding terminals 44, a second high-speed signal terminal group 45, the third grounding terminal 46, the third high-speed signal terminal group 47 and the power signal terminal 48. Further referring to the second C-picture and the second D-picture, the second C-picture shows a plurality of first ground terminals and a plurality of first high-speed signal terminal groups in the other embodiment of the present invention, and a second perspective view; A top view of a plurality of first ground terminals and a plurality of first high speed signal terminal groups in another embodiment of the present invention. Each of the first high-speed signal terminal groups 33' is disposed between each of the two first ground terminals 32' and is staggered, and each of the first high-speed signal terminal groups 33' has a bent portion 330'. The bent portion 330 ′ is symmetrically bent outward and extends downward, so that each of the first high-speed signal terminal groups 33 ′ and each of the first ground terminals 32 ′ are arranged in tandem, and The first high-speed signal terminal group 33' has the same length, so that the signal transmission path distance of each of the first high-speed signal terminal groups 33' is the same. By creating the same length of each of the first high-speed signal terminal groups 33', the speed and distance of the signal transmission are the same, which can stabilize the high-speed signal transmission and effectively reduce the signal skew. In this embodiment, the plurality of first ground terminals 32' are sequentially connected to pins 1, 7, 13, and 19, and the pins represented by the plurality of first high-speed signal terminal groups 33' are sequentially pins. (3, 5), pins (9, 11) and pins (15, 17) 〇 further refer to the second E diagram and the second F diagram, the second E diagram shows the hot insertion of another embodiment of the present creation The rear side perspective view of the detection terminal, the low speed signal terminal group, the second ground terminal, the second high speed signal terminal group, the third ground terminal, the third high speed signal terminal group, and the power signal terminal; the second F picture shows the creation A top view of another embodiment of the hot plug detection terminal, the low speed signal terminal group, the second connection 13 M420868 ground terminal, the second high speed signal terminal group, the third ground terminal, the third high speed signal terminal group, and the power signal terminal. The low-speed signal terminal group 43 is disposed between the hot-swap detection terminal 42 and the second ground terminal 44, and the second high-speed signal terminal group 45 is disposed at the second ground terminal 44 and the third ground. Between the terminals 46, the third high-speed signal terminal group 47 is disposed between the third ground terminal 46 and the power signal terminal 48, and the hot plug detecting terminal 42, the second ground terminal 44, and the second The three grounding terminals 46 and the power signal terminals 48 are sequentially arranged alternately with the low speed signal terminal group 43, the second high speed signal terminal group 45, and the third high speed signal terminal group 47, and the low speed signal terminal group 43 and the second high speed are respectively arranged. The signal terminal group 45 and the third high-speed signal terminal group 47 each have a bent portion 430. The bent portion 430 is symmetrically bent outward and extends downward to make the low-speed signal terminal group 43 and the second high-speed signal. The terminal group 45, the third high-speed signal terminal group 47 and the hot-swap detecting terminal 42, the second grounding terminal 44, the third grounding terminal 46, and the power signal terminal 48 are arranged in tandem, and are viewed from above. (Please refer to the second F picture), the low speed news The terminal group 43, the second high-speed signal terminal group 45, and the third high-speed signal terminal group 47 have the same length, so that the signals of the low-speed signal terminal group 43, the second high-speed signal terminal group 45, and the third high-speed signal terminal group 47 are transmitted. The path distance is the same. The low speed signal terminal group 43, the second high speed signal terminal group 45, and the third high speed signal terminal group 47 have the same length, so that the speed and distance of the signal transmission are the same, so that the fast signal transmission is stable and the signal is effectively reduced. Signal skew. In this embodiment, the hot-swap detection terminal 42 represents a pin 2, and the low-speed signal terminal group 43 is a pin (4, 6), and the second ground terminal 44 is a pin. 8. The second high-speed signal terminal group 45 is a pin (10, 12), the third ground terminal 46 is a pin 14, and the third high-speed signal terminal group 47 is a pin (16, 18)' The power signal terminal 48 is pin 20. In this embodiment, the distance between the plurality of first ground terminals 32 and the distance M420868 is 1.8 mm, and the distance between the plurality of first high-speed signal terminal groups 33 is 0.9 mm 'the same'. The distance between the plug detection terminal 42, the second ground terminal 44, the third ground terminal 46, and the power signal terminal 48 is 1.8 mm, and the low speed signal terminal group 43, the second high speed signal terminal group 45 and The distance between the third high-speed signal terminal group 47 is 0.9 mm. Referring to the second drawing, the month of the present invention is a schematic diagram showing a mini display of another embodiment of the present invention, wherein the connector is coupled to one of the circuit boards. The mini-display connector 100' is coupled to a circuit board 70. The circuit board is provided with a plurality of first through holes 71 and a plurality of second through holes 72. In this embodiment, the plurality The first perforations 71 and the plurality of second perforations 72 form upper and lower rows of perforations. The plurality of first perforations 71 are singular numbers ^1 to #19 from left to right, and the plurality of first perforations 71 are arranged one above the other. In this case, each of the two perforation lines is arranged in an offset manner with each of the upper perforations of the upper row, that is, the perforation of the upper row of the #3, #5 is placed between the perforations of the lower row of the numbers #j, #7, and the ############################################################################################ Arranged in a staggered manner; and the plurality of perforations 72 are from left to right, respectively, numbered #2 to #20, and the first perforations 72 are also arranged up and down, and the lower row per perforation is The upper and the second female perforations are arranged in a staggered manner, that is, the upper row 5 of the numbers #4 and #6 are placed between the perforations of the lower row of the numbers #2 and #8, and the number #1〇, ). The upper row of perforations are placed between the perforations of the lower row of #8, #14, and the perforations of the upper rows of f^虎#16, #18 are placed between the perforations of the lower row of #14, #20 and are staggered. Arranged in a way. "Monthly reference to the second B diagram and the third c diagram, showing the connection of the ^ij, the display tf埠 of another embodiment of the creation n is lightly connected to the three-dimensional decomposition of the circuit board and the combination of the Ding~Fig. The connector of the display is just displayed, only 15 M420868 sub-ends are displayed. In this embodiment, the plurality of first ground terminals 32 are coupled to the lower row of the first through holes 71 of the circuit board 70 in an odd sequence by the pin definition sequence, and each of the first high speed signal terminals is coupled. The group 33 is connected to the upper row of the first through holes 71 of the circuit board 70 in an odd-numbered arrangement in an odd-numbered order, that is, the first ground terminals 32' are sequentially connected to the circuit board 7.穿孔#1, #7, #13, #19 are coupled by holes, and each of the first high-speed signal terminals is sequentially numbered with the circuit board 60#3, #5, #9, #1卜#15 The through-holes of #17 are coupled such that each of the first ground terminals 32 and each of the first high-speed signal terminal groups 33' are arranged in the order of the number of the first through-holes 71 of the circuit board 70, and each of the first The bent portion 330 ′ of the high-speed signal terminal group 33 is symmetrically bent outward and extends downward so that the distance of the signal transmission path of each of the first high-speed signal terminal groups 33 ′ to the circuit board 70 is the same, It is less likely to have signal interference problems. The hot plug detection terminal 42, the second ground terminal 44, the 笫-& terminal 46, and the β hai power signal terminal 48 are evenly spaced and matched with the lower row of the circuit board 70 in the order of pin definition. The through holes 72 are coupled, 低] the low speed signal terminal group 43, the second high speed signal terminal group 45, and the third ancient number terminal group 47 are arranged in pairs in an even sequence according to the pin definition order. The upper row of the circuit board 70 The second through hole 72 is coupled to the hot plug terminal 42, the second ground terminal 44, the third ground terminal 46, and the electric, and the τ gauge number 48 is sequentially associated with the circuit board 70 number #2, #8. The #ΐ4 20 piercing device is connected, and the low speed signal terminal group 43, the second high speed, the M420868 subgroup 45 and the third high speed signal terminal group 47 are sequentially numbered with the circuit board 70#4, #6,# 10, #12, #16, #18, the perforation coupling, the hot plug detection terminal 42, the second ground terminal 44, the third ground terminal 46, the power signal terminal 48 and the low speed signal terminal group 43, The two high-speed signal terminal groups 45 and the third high-speed signal terminal groups 47 are in the order of the number of the second perforations 72 of the circuit board 70. And the bent portion 430 of the low-speed signal terminal group 43, the second high-speed signal terminal group 45, and the third high-speed signal terminal group 47 are symmetrically bent outward and extended downward to enable the low-speed signal terminal group 43, The signal transmission path distances of the second high-speed signal terminal group 45 and the third high-speed signal terminal group 47 to the circuit board 70 are the same, so that the problem of signal interference is less likely to occur. The present invention uses the plurality of first high-speed signal terminal groups 33. The paste portion 3 3 'is symmetrically bent outwardly and extends downwardly and is arranged in a staggered manner with the plurality of first ground terminals 32 so as to be coupled to the first through hole 71 on the circuit board 70 Each of the first grounding terminals 32 and each of the first two-speed signal terminal groups 33 are arranged in the order of the first through holes 71 on the circuit board 70, so that the terminals are simply manufactured, and Each of the first-two-speed signal terminal groups 33 is a pair of signal terminals and has the same length, so that the speed and distance of the transmission are the same, so as to effectively reduce the signal skew. Similarly, the hot plugging detection Measuring terminal 42 and second grounding terminal 4 4. The second grounding terminal 46 and the power signal terminal 48 are coupled to the low speed signal terminal group 43, the first speed signal terminal group 45, and the third high speed signal terminal group 47 to the second hole on the 5th circuit board 70. At 72 o'clock, the hot plug detection terminal 42, 17 M420868, the second ground terminal 44, the second ground terminal 46, the power signal terminal and the low speed signal terminal group 43, the second high speed signal terminal group throw, the third high speed signal terminal The arrangement of the groups 47 is arranged in the order of the second perforations 72 on the circuit board 7', which also achieves the above-mentioned effects, which is hereby incorporated by reference. After a detailed description of the preferred embodiments of the present invention, it will be apparent to those skilled in the art that various changes and modifications can be made without departing from the scope and spirit of Embodiments of the embodiments are presented. BRIEF DESCRIPTION OF THE DRAWINGS The first A diagram shows an exploded perspective view of the connector of the mini display cartridge of the present embodiment. The first B diagram shows a combined perspective view of the connector of the mini display cartridge of the present embodiment. The first C diagram shows a rear perspective view of a plurality of first ground terminals and a plurality of first high speed signal terminal groups in an embodiment of the present invention. The first D diagram shows a top view of a plurality of first ground terminals and a plurality of first high speed signal terminal groups in an embodiment of the present invention. The first E diagram shows the hot plug detection terminal, the low speed signal terminal group, the second ground terminal and the second high speed signal terminal group, the third ground terminal, the third high speed signal terminal group, and the power signal of the present embodiment. Rear perspective view of the terminal. The first F-picture shows a schematic diagram of a circuit board in which the connector of the mini display port of the present embodiment is coupled. 18 M420868 The Fig-G diagram shows a schematic diagram of the connector of the mini display bee of one embodiment of the present invention coupled to a circuit board. ° Fig. 2A shows an exploded front side perspective view of the connector of the mini display cartridge of another embodiment of the present invention. The second B® is an exploded rear perspective view showing the connector of the mini display port of another embodiment of the present invention. The second C-picture shows a plurality of first ground terminals and a plurality of first-high-speed signals in the other embodiment of the present invention. The first-D diagram shows a plurality of first ground terminals and a plurality of [high-speed signal terminals_top views] of another embodiment of the present invention. The first E diagram shows the hot plug detection terminal 'low speed shout terminal group' of the other embodiment of the present invention, the second ground terminal, the second high speed signal terminal group, the first ground terminal, and the second speed signal creeper group. And the rear side perspective view of the electric secret. The first F diagram shows a hot plug detection terminal, a low speed signal terminal group, a second ground terminal, a second high speed signal terminal group, a third ground terminal, a third high speed signal terminal group, and a power supply according to another embodiment of the present invention. Top view of the signal terminal. The third A is a schematic diagram showing one of the circuit boards of the mini display connector of the other embodiment of the present invention. Fig. 3B is a perspective exploded view showing the connector of the mini display port of another embodiment of the present invention connected to a circuit board. The third C diagram shows that the M420868 connector of the mini display port of the present embodiment is coupled to a combination diagram S of a circuit board. The fourth figure shows a schematic diagram of one of the circuit boards of the connector of the conventional mini display port. [Description of main component symbols] 100, 100'... mini display connector 30, 30'... shielding case 31, 31'... insulative housing 32, 32' ... a plurality of first ground terminals 33, 33' ... The first high-speed signal terminal group 34, 42...the hot-plug test terminal 35 '43...the low-speed signal terminal group 36, 44...the second ground terminal 37,45 - the second two-speed 5 tiger terminal group 38, 46... Third ground terminal 39, 47 - third high speed signal terminal group 40, 48 - power signal terminal 41, 60 ... partition 410, 61 ... slot 411 ... recess 50, 70 - circuit board 51 - perforation 52 ... SMT connection Point M420868 71...first perforation 72—second perforation 301, 30Γ... accommodation space 310... terminal groove 330, 350, 430... bending portion. 360...welding portion 21

Claims (1)

M420868 VI. Patent Application Range: 1. A mini display connector is coupled to a circuit board, the circuit board is provided with a plurality of perforations and a plurality of SMT contacts, and the mini display connector is connected. The method includes: a plurality of first ground terminals, a plurality of first high speed signal terminal groups, a hot plug detection terminal, a low speed signal terminal group, a second ground terminal, a second speed signal terminal group, a first a three grounding terminal, a third high speed signal terminal group and a power signal terminal, the hot plug detecting terminal, the low speed signal terminal group, the second ground terminal, the second high speed signal terminal group, the third ground terminal, and the third high speed The sfl number sub-group and the power signal terminal are coupled to the plurality of SMT contacts of the circuit board in an even sequence according to the pin definition sequence, and the plurality of perforations of the circuit board are arranged up and down, and the upper row Each of the two perforations is arranged in an offset between the two perforations in the lower row, and the plurality of first ground terminals are coupled to the lower row of perforations in an odd-numbered sequence according to a pin definition sequence, and the complex The first high-speed signal terminal groups are coupled to the upper row of perforations in an odd-numbered arrangement in an odd-numbered column, and the plurality of first high-speed signal terminal groups have a bent portion, and the bent portion is symmetric Slanting outwardly: extending rearward and downward so that the distance of each of the first high-speed signal terminal groups to the circuit is the same. 2. A mini display connector for coupling to a circuit board, the electric circuit board is provided with a plurality of first perforations and a plurality of second perforations, the mini connector, the connector The method includes: a plurality of first grounding terminals, a plurality of first high-voltage terminal groups, a hot-swap detecting terminal, a low-speed signal terminal group, a second ground %, and a second high-speed signal terminal group a third grounding terminal, a second ancient speed signal terminal group and a power signal terminal, and the plurality of second perforations and the second perforations of the circuit board are arranged up and down, and the first perforation and the second perforation Each of the upper perforation lines is arranged in an offset manner with each of the second perforations in the lower row, and the first perforation of the second row is arranged in an odd sequence according to the pin definition order. 22 M420868 is coupled to the plurality of first ground terminals. And the first row of the first perforations are coupled to the plurality of first high-speed signal terminal groups in an odd-numbered sequence in an odd-numbered sequence according to a pin definition sequence, and the second perforation in the lower row is an even-numbered sequence in a pin-defined order Ground spacing and the hot plug detection end The second grounding terminal, the third grounding terminal and the power signal terminal are coupled, and the second perforation of the upper row is matched in an even-numbered interval according to the pin definition sequence and the low-speed signal terminal group 'the second high-speed signal The terminal and the third high-speed signal terminal group are coupled to each other, and each of the first high-speed signal terminal group, the low-speed signal terminal group, the second high-speed signal terminal group, and the third high-speed signal terminal group respectively have a bent portion, and the bending portion The symmetry is outwardly bent and extends downward to cause the mother to transmit signals to the circuit board by the first speed signal terminal group, the low speed signal terminal group, the second high speed signal terminal group and the third high speed signal terminal group. The transmission path distance is the same. 3. The connector of the mini display port of claim 2 or 2, further comprising a shielding case and an insulative housing, the shielding case having a valley space, the insulation system being disposed in the capacity And a plurality of terminal slots, the plurality of first ground terminals, the plurality of first high-speed signal terminal groups, the hot plug detection terminal, the low-speed signal terminal group, the second ground terminal, and the first idle signal terminal The group, the third grounding terminal, the third high-speed signal terminal group and the power signal terminal are correspondingly disposed in the plurality of terminal slots. 4, as described in the scope of claim 1, the connector of the display, further comprising a partition having a plurality of slots and a plurality of slots, the plurality of slots for fixing the plurality of first a grounding terminal and a plurality of terminals of the first high-speed signal terminal group, wherein the plurality of grooves are configured to receive the hot-swap detecting terminal, the second low-speed signal terminal group, the second ground terminal, and the second high-speed signal terminal group, The terminals of the second grounding terminal, the third high-speed signal terminal group, and the power signal terminal. 5. If the connector of the invention is as described in item 2 of the patent application, the further comprising - the partition has a plurality of slots for fixing the plurality of first ground terminals 23 M420868, the plurality of first high speeds Signal terminal group, hot plug detection terminal, low speed signal terminal group, second ground terminal, second high speed signal terminal group, third ground terminal, third high speed signal terminal group and power signal terminal terminals. 6. The connector of the mini display port of claim 1 or 2, wherein the distance between the plurality of first ground terminals is 1.8 mm, and the distance between the plurality of first high speed signal terminal groups Both are 0.9 mm. 7. The connector of the mini display port according to claim 2, wherein the distance between the hot plug detecting terminal, the second ground terminal, the third ground terminal and the power signal terminal is 1.8 mm. 9毫米。 The distance between the low-speed signal terminal group, the second high-speed signal terminal group and the third high-speed signal terminal group are 0. 9 mm. 8. The connector of the mini display port according to claim 1 or 2, wherein the plurality of first ground terminals represent the pins in the order of pins 1, 7, 13, and 19, and the plurality The pins represented by the first high-speed signal terminal group are sequentially pins (3, 5), pins (9, 11), and pins (15, 17). 9. The connector of the mini display port according to claim 1 or 2, wherein the hot plug detecting terminal represents a pin 2, and the pin signal is a pin. (4, 6) 'The second ground terminal is pin 8, and the second high-speed signal, the terminal group is (10) (1〇, 12), the third ground terminal is ^ 14 ' and the third high-speed news | ^ The terminal group is (10) (16, 18), and the electron is pin 20. twenty four