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TWM614957U - Electrical connector - Google Patents

Electrical connector Download PDF

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Publication number
TWM614957U
TWM614957U TW109215893U TW109215893U TWM614957U TW M614957 U TWM614957 U TW M614957U TW 109215893 U TW109215893 U TW 109215893U TW 109215893 U TW109215893 U TW 109215893U TW M614957 U TWM614957 U TW M614957U
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TW
Taiwan
Prior art keywords
plug
row
keying structure
keying
socket
Prior art date
Application number
TW109215893U
Other languages
Chinese (zh)
Inventor
藍道 E 穆塞
喬納森 E 布克
Original Assignee
美商山姆科技公司
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Filing date
Publication date
Application filed by 美商山姆科技公司 filed Critical 美商山姆科技公司
Publication of TWM614957U publication Critical patent/TWM614957U/en

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    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01RELECTRICALLY-CONDUCTIVE CONNECTIONS; STRUCTURAL ASSOCIATIONS OF A PLURALITY OF MUTUALLY-INSULATED ELECTRICAL CONNECTING ELEMENTS; COUPLING DEVICES; CURRENT COLLECTORS
    • H01R13/00Details of coupling devices of the kinds covered by groups H01R12/70 or H01R24/00 - H01R33/00
    • H01R13/02Contact members
    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01RELECTRICALLY-CONDUCTIVE CONNECTIONS; STRUCTURAL ASSOCIATIONS OF A PLURALITY OF MUTUALLY-INSULATED ELECTRICAL CONNECTING ELEMENTS; COUPLING DEVICES; CURRENT COLLECTORS
    • H01R12/00Structural associations of a plurality of mutually-insulated electrical connecting elements, specially adapted for printed circuits, e.g. printed circuit boards [PCB], flat or ribbon cables, or like generally planar structures, e.g. terminal strips, terminal blocks; Coupling devices specially adapted for printed circuits, flat or ribbon cables, or like generally planar structures; Terminals specially adapted for contact with, or insertion into, printed circuits, flat or ribbon cables, or like generally planar structures
    • H01R12/70Coupling devices
    • H01R12/7005Guiding, mounting, polarizing or locking means; Extractors
    • H01R12/7011Locking or fixing a connector to a PCB
    • H01R12/707Soldering or welding
    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01RELECTRICALLY-CONDUCTIVE CONNECTIONS; STRUCTURAL ASSOCIATIONS OF A PLURALITY OF MUTUALLY-INSULATED ELECTRICAL CONNECTING ELEMENTS; COUPLING DEVICES; CURRENT COLLECTORS
    • H01R13/00Details of coupling devices of the kinds covered by groups H01R12/70 or H01R24/00 - H01R33/00
    • H01R13/40Securing contact members in or to a base or case; Insulating of contact members
    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01RELECTRICALLY-CONDUCTIVE CONNECTIONS; STRUCTURAL ASSOCIATIONS OF A PLURALITY OF MUTUALLY-INSULATED ELECTRICAL CONNECTING ELEMENTS; COUPLING DEVICES; CURRENT COLLECTORS
    • H01R13/00Details of coupling devices of the kinds covered by groups H01R12/70 or H01R24/00 - H01R33/00
    • H01R13/646Details of coupling devices of the kinds covered by groups H01R12/70 or H01R24/00 - H01R33/00 specially adapted for high-frequency, e.g. structures providing an impedance match or phase match
    • H01R13/6461Means for preventing cross-talk
    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01RELECTRICALLY-CONDUCTIVE CONNECTIONS; STRUCTURAL ASSOCIATIONS OF A PLURALITY OF MUTUALLY-INSULATED ELECTRICAL CONNECTING ELEMENTS; COUPLING DEVICES; CURRENT COLLECTORS
    • H01R13/00Details of coupling devices of the kinds covered by groups H01R12/70 or H01R24/00 - H01R33/00
    • H01R13/646Details of coupling devices of the kinds covered by groups H01R12/70 or H01R24/00 - H01R33/00 specially adapted for high-frequency, e.g. structures providing an impedance match or phase match
    • H01R13/6473Impedance matching
    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01RELECTRICALLY-CONDUCTIVE CONNECTIONS; STRUCTURAL ASSOCIATIONS OF A PLURALITY OF MUTUALLY-INSULATED ELECTRICAL CONNECTING ELEMENTS; COUPLING DEVICES; CURRENT COLLECTORS
    • H01R13/00Details of coupling devices of the kinds covered by groups H01R12/70 or H01R24/00 - H01R33/00
    • H01R13/646Details of coupling devices of the kinds covered by groups H01R12/70 or H01R24/00 - H01R33/00 specially adapted for high-frequency, e.g. structures providing an impedance match or phase match
    • H01R13/6473Impedance matching
    • H01R13/6474Impedance matching by variation of conductive properties, e.g. by dimension variations

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  • Details Of Connecting Devices For Male And Female Coupling (AREA)
  • Multi-Conductor Connections (AREA)
  • Coupling Device And Connection With Printed Circuit (AREA)

Abstract

To help maintain and improve signal integrity, an electrical connector includes a connector housing including plug ribs or inner ribs and keying features; and at least three parallel, spaced apart, immediately adjacent, linear arrays of electrical contacts stitched into the connector housing, wherein a longitudinal centerline and a median centerline divide a mating interface of the electrical connector into four quadrants; each of the four quadrants defines a structure that is different from each of the other quadrants such that no quadrant can be a substitute for the other quadrants; and each of the keying features is positioned adjacent to a corresponding plug rib or inner rib.

Description

電連接器 Electrical connector

本新型係關於電連接器。 This model relates to electrical connectors.

相關申請案的交叉參考 Cross reference of related applications

以下美國專利申請案中之每一者的全部內容特此以全文引用的方式併入本文中:2018年7月6日提交的美國專利申請案第62/694,832號;2018年11月5日提交的美國專利申請案第62/704,031號;2018年12月17日提交的美國專利申請案第62/704,038號;2019年12月6日提交的美國專利申請案第62/704,069號;2019年12月6日提交的美國專利申請案第29/716,201號;及2019年12月6日提交的美國專利申請案第29/716,202號。 The entire contents of each of the following U.S. patent applications are hereby incorporated by reference in their entirety: U.S. Patent Application No. 62/694,832 filed on July 6, 2018; filed on November 5, 2018 US Patent Application No. 62/704,031; US Patent Application No. 62/704,038 filed on December 17, 2018; US Patent Application No. 62/704,069 filed on December 6, 2019; December 2019 U.S. Patent Application No. 29/716,201 filed on the 6th; and U.S. Patent Application No. 29/716,202 filed on December 6, 2019.

連接器用於將電氣裝置彼此連通。連接器包括將信號傳輸至電氣裝置或另一連接器之接點以及用以支撐接點之殼體。連接器之接點可各自包括隆起部分,以幫助將接點固定且定位於殼體內。此外,焊料可附接至接點。焊料用以在接點與印刷電路板(PCB)上之襯墊之間形成電氣及機械連接。 Connectors are used to connect electrical devices with each other. The connector includes a contact that transmits a signal to an electrical device or another connector, and a housing to support the contact. The contacts of the connector may each include a raised portion to help fix and locate the contacts in the housing. In addition, solder can be attached to the joint. The solder is used to form electrical and mechanical connections between the contacts and the pads on the printed circuit board (PCB).

圖1為已知接點20的端視圖,且圖2為已知接點20的側視圖。圖1展示無可熔構件40之接點20,且圖2展示具有可熔構件40之接點20。接點20包括頭部21及尾部22,該尾部位於與頭部21相對之端處。頭部21包括接點樑23。接點20之中間部分包括翼形部24、楔形件25、引入件26及凸塊27。翼形部24嚙合連接器殼體之芯的底部,以維持接點20之尾部部分22與殼體之間的一致距離。楔形件 25嚙合芯之側壁,以便固定接點20之位置並將接點20保持在殼體之芯中。楔形件25沿殼體之寬度方向將接點20固定在芯中,以防止沿殼體之長度方向施加應力,從而防止可能導致不可靠連接的共面性問題。引入件26由鑄造邊緣形成,該些鑄造邊緣有助於將接點或端子20插入至殼體之芯中。凸塊27相對於殼體將接點20定位並穩定在所要位置及定向中。 FIG. 1 is an end view of the known contact 20, and FIG. 2 is a side view of the known contact 20. FIG. 1 shows the contact 20 without the fusible member 40 and FIG. 2 shows the contact 20 with the fusible member 40. The contact 20 includes a head 21 and a tail 22, and the tail is located at the end opposite to the head 21. The head 21 includes a contact beam 23. The middle part of the contact 20 includes a wing part 24, a wedge 25, an introduction part 26 and a protrusion 27. The wing portion 24 engages the bottom of the core of the connector housing to maintain a consistent distance between the tail portion 22 of the contact 20 and the housing. Wedge 25 engages the side wall of the core to fix the position of the contact 20 and keep the contact 20 in the core of the shell. The wedge 25 fixes the contact 20 in the core along the width direction of the housing to prevent stress from being applied along the length of the housing, thereby preventing coplanarity problems that may lead to unreliable connections. The lead-in 26 is formed by casting edges that facilitate the insertion of the contacts or terminals 20 into the core of the housing. The bump 27 positions and stabilizes the contact 20 relative to the housing in a desired position and orientation.

如圖3中所展示,已知連接器可具有成列配置之接點30的陣列。圖3中所展示之接點30不同於圖1及圖2中所展示的接點20。如圖3中所展示,接點30包括頭部31及尾部32,該尾部位於與頭部31相對之端處。頭部31包括接點樑33。接點30之中間部分包括楔形件35及引入件36,且尾部32包括可熔構件40。然而,圖3中所展示之接點30不包括如圖1及圖2中所展示之接點20中所包括的翼形部24或凸塊27。圖1及圖2中所展示之接點20亦可能可用於圖3中所展示之連接器中。因為楔形件25及引入件26之定向(且使用圖1及圖2中所展示之接點20之翼形部24),接點20經設計以自殼體之底部釘合或插入。接點20通常為包括在線軸上之接點帶的一部分。接點20自底部釘合或裝載,一次一列。在單列中,可順序地或同時地裝載接點20。 As shown in Figure 3, known connectors may have an array of contacts 30 arranged in rows. The contact 30 shown in FIG. 3 is different from the contact 20 shown in FIGS. 1 and 2. As shown in FIG. 3, the contact 30 includes a head 31 and a tail 32, and the tail is located at the end opposite to the head 31. The head 31 includes a contact beam 33. The middle part of the contact 30 includes a wedge 35 and an introduction part 36, and the tail 32 includes a fusible member 40. However, the contact 30 shown in FIG. 3 does not include the wing portion 24 or the bump 27 included in the contact 20 shown in FIGS. 1 and 2. The contact 20 shown in FIGS. 1 and 2 may also be used in the connector shown in FIG. 3. Because of the orientation of the wedge 25 and the lead-in 26 (and using the wing 24 of the contact 20 shown in Figures 1 and 2), the contact 20 is designed to be nailed or inserted from the bottom of the housing. The contact 20 is usually a part of the contact belt that includes the spool. The contacts 20 are nailed or loaded from the bottom, one row at a time. In a single row, the contacts 20 can be loaded sequentially or simultaneously.

在小型連接器中,具有較寬樑之接點可提供較佳電氣效能。然而,較寬樑限制接點之間距。當接點之樑加寬時,接點可嚙合之殼體的材料更少,使得較小間距更加困難。 In small connectors, contacts with wider beams can provide better electrical performance. However, wider beams limit the distance between contacts. When the beam of the contact is widened, the material of the shell that the contact can engage with is less, making smaller spacing more difficult.

為了克服上文所描述的問題,本新型之具體實例提供連接器及製造連接器的方法,該些具體實例各自實現經改善阻抗及回波損耗,較小的間距以及具有較寬樑之接點。 In order to overcome the problems described above, specific examples of the present invention provide connectors and methods for manufacturing connectors. These specific examples each achieve improved impedance and return loss, smaller spacing, and contacts with wider beams. .

在本新型之一個具體實例中,一種電連接器包括連接器殼體及至 少三個平行的、間隔開的緊鄰線性電接點陣列。 In a specific example of the present invention, an electrical connector includes a connector housing and At least three parallel, spaced adjacent linear electrical contact arrays.

縱向中心線及中間中心線可將電連接器分為四個象限,且四個象限中之每一者可界定與其他象限中之每一者不同的結構。在縱向中心線之兩側上可存在相等數目個電接點,且在中間中心線之任一側可存在相等數目個電接點。電連接器可進一步包括第一及第二鍵控特徵,使得第一及第二鍵控特徵可經定位於連接器殼體之同一側上,可彼此間隔開,可各自具有相同的形狀,且可各自經定位為另一者之鏡像。電連接器可進一步包括第一及第二鍵控特徵,使得第一及第二鍵控特徵可經定位於連接器殼體之同一側上,可彼此間隔開,可各自具有相同的形狀,且可各自經定位為另一者之鏡像,且使得第一及第二鍵控特徵可在縱向中心線或中間中心線之相對側上。第一及第二鍵控特徵中之每一者可界定一支柱;連接器殼體可包括肋狀物;且第一及第二鍵控特徵中之每一者可位於兩個鄰近肋狀物之間。第一及第二鍵控特徵中之每一者可界定凹部;連接器殼體可包括肋狀物;且第一及第二鍵控特徵中之每一者可位於肋狀物中之一者之一端處。 The longitudinal centerline and the middle centerline can divide the electrical connector into four quadrants, and each of the four quadrants can define a different structure from each of the other quadrants. There may be an equal number of electrical contacts on both sides of the longitudinal centerline, and an equal number of electrical contacts may exist on either side of the middle centerline. The electrical connector can further include first and second keying features, such that the first and second keying features can be positioned on the same side of the connector housing, can be spaced apart from each other, can each have the same shape, and Each can be positioned as a mirror image of the other. The electrical connector can further include first and second keying features, such that the first and second keying features can be positioned on the same side of the connector housing, can be spaced apart from each other, can each have the same shape, and Each can be positioned as a mirror image of the other, and so that the first and second keying features can be on opposite sides of the longitudinal centerline or the middle centerline. Each of the first and second keying features can define a strut; the connector housing can include ribs; and each of the first and second keying features can be located on two adjacent ribs between. Each of the first and second keying features may define a recess; the connector housing may include a rib; and each of the first and second keying features may be located in one of the ribs At one end.

在本新型之另一具體實例中,電連接器包括插座殼體,該插座殼體具有縱向中心線,且包括彼此平行地定向且彼此間隔開的第一、第二及第三內部肋狀物;第一鍵控結構,其經定位鄰近於第二內部肋狀物之第二端;第二鍵控結構,其經定位鄰近於第一內部肋狀物之第一端;及一第三鍵控結構,其經定位鄰近於第三內部肋狀物之第一端。 In another specific example of the present invention, the electrical connector includes a socket housing having a longitudinal centerline and including first, second, and third internal ribs that are oriented parallel to each other and spaced apart from each other The first keying structure, which is positioned adjacent to the second end of the second internal rib; the second keying structure, which is positioned adjacent to the first end of the first internal rib; and a third key The control structure is positioned adjacent to the first end of the third internal rib.

在本新型之另一具體實例中,電連接器包括插座殼體,該插座殼體具有縱向中心線,且包括彼此平行地定向且彼此間隔開的第一、第二、第三、第四、第五、第六及第七內部肋狀物;第一鍵控結構,其經定位鄰近於第二內部肋狀物之第二端;第二鍵控結構,其經定位鄰近於第六內部肋狀物之第二端;第三鍵控結構,其經定位鄰近於第一內部肋狀物之第一端;及第四鍵控結構,其經 定位鄰近於第七內部肋狀物之第一端。 In another specific example of the present invention, the electrical connector includes a socket housing having a longitudinal centerline and including first, second, third, fourth, The fifth, sixth and seventh internal ribs; the first keying structure, which is positioned adjacent to the second end of the second internal rib; the second keying structure, which is positioned adjacent to the sixth internal rib The second end of the object; the third keying structure, which is positioned adjacent to the first end of the first internal rib; and the fourth keying structure, which is Positioned adjacent to the first end of the seventh internal rib.

在本新型之另一具體實例中,電連接器包括插頭殼體,該插頭殼體具有縱向中心線,且包括第一、第二、第三及第四插頭肋狀物,該些插頭肋狀物各自彼此平行地定向且彼此間隔開;第一插頭鍵控結構,其經定位鄰近於連接器殼體之第二端且介於第二插頭肋狀物與第三插頭肋狀物之間;第二插頭鍵控結構,其經定位鄰近於連接器殼體之第一端且介於第一插頭肋狀物與第二插頭肋狀物之間;及第三插頭鍵控結構,其經定位鄰近於連接器殼體之第一端且介於第三插頭肋狀物與第四插頭肋狀物之間。 In another specific example of the present invention, the electrical connector includes a plug housing, the plug housing has a longitudinal centerline, and includes first, second, third, and fourth plug ribs, the plug ribs The objects are each oriented parallel to each other and spaced apart from each other; a first plug keying structure, which is positioned adjacent to the second end of the connector housing and between the second plug rib and the third plug rib; The second plug keying structure, which is positioned adjacent to the first end of the connector housing and between the first plug rib and the second plug rib; and the third plug keying structure, which is positioned It is adjacent to the first end of the connector housing and between the third plug rib and the fourth plug rib.

在本新型之另一具體實例中,電連接器包括插頭殼體,該插頭殼體具有縱向中心線,且包括第一、第二、第三、第四、第五、第六、第七及第八插頭肋狀物,該些插頭肋狀物各自經定向彼此平行且彼此間隔開;第一插頭鍵控結構,其經定位鄰近於連接器殼體之第二端且介於第二插頭肋狀物與第三插頭肋狀物之間;第二插頭鍵控結構,其經定位鄰近於連接器殼體之第二端且介於第六插頭肋狀物與第七插頭肋狀物之間;第三插頭鍵控結構,其經定位鄰近於連接器殼體之第一端且介於第一插頭肋狀物與第二插頭肋狀物之間,及第四插頭鍵控結構,其經定位鄰近於連接器殼體之第一端且介於第七插頭肋狀物與第八插頭肋狀物之間。 In another specific example of the present invention, the electrical connector includes a plug housing, the plug housing has a longitudinal centerline, and includes first, second, third, fourth, fifth, sixth, seventh, and The eighth plug ribs, each of the plug ribs is oriented parallel to each other and spaced apart from each other; the first plug keying structure, which is positioned adjacent to the second end of the connector housing and between the second plug ribs Between the shape and the third plug rib; the second plug keying structure, which is positioned adjacent to the second end of the connector housing and between the sixth plug rib and the seventh plug rib ; The third plug keying structure, which is positioned adjacent to the first end of the connector housing and between the first plug ribs and the second plug ribs, and the fourth plug keying structure, which is It is positioned adjacent to the first end of the connector housing and between the seventh plug rib and the eighth plug rib.

第一鍵控結構可包括傾斜側壁,該傾斜側壁鄰接插座殼體之縱向中心線。第一鍵控結構可包括第二側壁及第五側壁,且插座殼體之縱向中心線可穿過第二側壁及第五側壁。第一鍵控結構可包括第二側壁及傾斜壁,且插座殼體之縱向中心線可穿過第二側壁與傾斜壁的相交部。第二鍵控結構及第三鍵控結構可各自經定位於插座殼體之縱向中心線之相對側上。第一、第二、第三及第四鍵控結構可全部與插座殼體之縱向中心線及中間中心線間隔開。 The first keying structure may include an inclined side wall adjacent to the longitudinal center line of the socket housing. The first keying structure may include a second side wall and a fifth side wall, and the longitudinal center line of the socket housing may pass through the second side wall and the fifth side wall. The first keying structure may include a second side wall and an inclined wall, and the longitudinal center line of the socket housing may pass through the intersection of the second side wall and the inclined wall. The second keying structure and the third keying structure may be respectively positioned on opposite sides of the longitudinal center line of the socket housing. The first, second, third, and fourth keying structures can all be spaced apart from the longitudinal center line and the middle center line of the socket housing.

電連接器可進一步包括定位於縱向中心線上之第一對準栓釘。電 連接器可進一步包括與縱向中心線間隔開之第二對準栓釘。 The electrical connector may further include a first alignment peg positioned on the longitudinal centerline. Electricity The connector may further include a second alignment peg spaced from the longitudinal centerline.

第一插頭鍵控結構可包括第二插頭側壁及第五插頭側壁,且縱向中心線可穿過第二插頭側壁及第五插頭側壁兩者。第二插頭鍵控結構及第三插頭鍵控結構可皆經定位於插頭殼體之縱向中心線之相對側上。第一與第二插頭鍵控結構以及第三與第四插頭鍵控結構可經定位於縱向中心線之相對側上。該電連接器可為開放式插腳片電連接器,且所有電接點的所有配合端皆具有相同形狀。電連接器可為夾層式連接器。 The first plug keying structure may include a second plug side wall and a fifth plug side wall, and the longitudinal center line may pass through both the second plug side wall and the fifth plug side wall. The second plug keying structure and the third plug keying structure can both be positioned on opposite sides of the longitudinal center line of the plug housing. The first and second plug keying structures and the third and fourth plug keying structures may be positioned on opposite sides of the longitudinal centerline. The electrical connector can be an open-type pin-slice electrical connector, and all mating ends of all electrical contacts have the same shape. The electrical connector may be a mezzanine type connector.

電連接器可進一步包括:第一列電接點,其經定位緊鄰於第二列電接點,及第三列電接點,其經定位緊鄰於第二列電接點,其中第一列及第二列可分開大約2.2mm之第一列間距,且第二及第三列可分開大約2.4mm之第二列間距。第一、第二、第三及第四鍵控結構可界定梯形的四個點,且梯形可關於插座殼體之中間中心線對稱。第一、第二、第三及第四插頭鍵控結構可界定梯形的四個點,且梯形可關於插座殼體之中間中心線對稱。 The electrical connector may further include: a first row of electrical contacts, which are positioned next to the second row of electrical contacts, and a third row of electrical contacts, which are positioned next to the second row of electrical contacts, where the first row The second row and the second row can be separated by a first row pitch of about 2.2mm, and the second and third rows can be separated by a second row pitch of about 2.4mm. The first, second, third, and fourth keying structures can define four points of the trapezoid, and the trapezoid can be symmetrical about the middle center line of the socket housing. The first, second, third, and fourth plug keying structures can define four points of the trapezoid, and the trapezoid can be symmetrical about the center line of the socket housing.

參考附圖,自以下對本新型之具體實例的詳細描述,本新型之上述及其他特徵、元件、特徵、步驟及優點將變得更顯而易見。 With reference to the accompanying drawings, from the following detailed description of specific examples of the present invention, the above and other features, elements, features, steps and advantages of the present invention will become more apparent.

20:接點 20: Contact

21:頭部 21: head

22:尾部 22: tail

23:接點樑 23: Contact beam

24:翼形部 24: Wing

25:楔形件 25: Wedge

26:引入件 26: introduction

27:凸塊 27: bump

30:接點 30: Contact

31:頭部 31: head

32:尾部 32: tail

33:接點樑 33: Contact beam

35:楔形件 35: Wedge

36:引入件 36: introduction

40:可熔構件 40: Fusible member

54:翼形部 54: Wing

56:保持部分 56: Keep part

56A:保持部分 56A: Keep part

58:安裝端 58: Mounting side

60:中間部分 60: middle part

75:楔形件 75: Wedge

78:部分 78: Part

100:插座連接器 100: socket connector

102:殼體 102: shell

104:凹部 104: recess

104A:凹部 104A: recess

106:肋狀物 106: ribs

108:配合側 108: Mating side

108A:配合側 108A: Mating side

110:電接點 110: Electric contact

110A:電接點 110A: Electric contact

112:安裝側 112: Installation side

114:翼形部 114: Wing

116:配合端 116: Mating end

116A:配合端 116A: Mating end

116B:配合端 116B: Mating end

116C:配合端 116C: Mating end

118:芯 118: Core

118A:芯 118A: Core

118B:芯 118B: Core

120:電接點 120: Electric contact

120A:電接點 120A: Electric contact

125:楔形件 125: Wedge

130:可熔元件 130: Fusible element

140:可熔元件 140: Fusible element

200:插座連接器 200: socket connector

200A:插座連接器 200A: socket connector

200B:插座連接器 200B: socket connector

201:墊高部 201: Elevation Department

202:插座殼體 202: socket housing

202A:插座殼體 202A: Socket housing

202B:插座殼體 202B: Socket housing

204:第一插座列 204: The first socket column

204A:第一插座列 204A: The first socket row

204B:插座列 204B: Socket column

206:第四插座列 206: The fourth socket column

206A:第四插座列 206A: Fourth socket row

206B:插座列 206B: Socket column

208A:插座配合側 208A: Socket mating side

208B:插座配合側 208B: socket mating side

210:第二插座列 210: second socket column

210A:第二插座列 210A: second socket row

210B:插座列 210B: Socket column

212:安裝側 212: Installation side

212A:安裝側 212A: Installation side

214:配合側 214: Mating side

220:第三插座列 220: third socket row

220A:第三插座列 220A: third socket row

220B:插座列 220B: Socket row

230:易熔構件 230: Fusible components

240:易熔構件 240: Fusible components

250:內部肋狀物 250: internal ribs

250A:內部肋狀物 250A: internal ribs

260A:第一縱向壁 260A: First longitudinal wall

260C:第一縱向壁 260C: First longitudinal wall

260B:第二縱向壁 260B: second longitudinal wall

260D:第二縱向壁 260D: second longitudinal wall

262A:第一端壁 262A: First end wall

262C:第一端壁 262C: first end wall

262B:第二端壁 262B: second end wall

262D:第二端壁 262D: second end wall

270A:第一鍵控結構 270A: The first keying structure

270C:第一鍵控結構 270C: The first keying structure

270B:第二鍵控結構 270B: The second keying structure

270D:第二鍵控結構 270D: The second keying structure

272A:第一凹部 272A: The first recess

272C:第一凹部 272C: The first recess

272B:第二凹部 272B: second recess

272D:第二凹部 272D: second recess

274:第一側壁 274: first side wall

274A:第一側壁 274A: First side wall

276:第二側壁 276: second side wall

276A:第二側壁 276A: second side wall

278:傾斜側壁 278: Inclined side wall

278A:傾斜側壁 278A: Inclined side wall

280A:第一對準栓釘 280A: First alignment peg

280B:第二對準栓釘 280B: second alignment peg

282:第四側壁 282: fourth side wall

284:第五側壁 284: Fifth Side Wall

300:插頭連接器 300: plug connector

300A:插頭連接器 300A: plug connector

300B:插頭連接器 300B: plug connector

301:插頭墊高部 301: Plug Height

302:插頭殼體 302: plug shell

302A:插頭殼體 302A: Plug housing

304:第一插頭列 304: The first plug column

304A:第一插頭列 304A: The first plug column

306:第四插頭列 306: The fourth plug column

306A:第四插頭列 306A: The fourth plug column

308:電插頭接點 308: Electric plug contact

308A:電插頭接點 308A: Electric plug contact

308B:第一電插頭接點 308B: The first electric plug contact

308C:第二電插頭接點 308C: second electric plug contact

310:第二插頭列 310: Second plug column

310A:第二插頭列 310A: second plug row

310B:第二插頭列 310B: Second plug column

312:安裝側 312: Installation side

314:配合界面 314: Mating Interface

320:第三插頭列 320: third plug column

320A:第三插頭列 320A: third plug row

320B:第三插頭列 320B: Third plug column

330:可熔元件 330: Fusible element

340:可熔元件 340: Fusible element

350:插頭肋狀物 350: plug rib

350A:插頭肋狀物 350A: plug rib

360A:第一縱向插頭壁 360A: first longitudinal plug wall

360B:第二縱向插頭壁 360B: second longitudinal plug wall

362A:第一插頭端壁 362A: First plug end wall

362B:第二插頭端壁 362B: second plug end wall

370A:第一插頭鍵控結構 370A: First plug keying structure

370C:第一插頭鍵控結構 370C: First plug keying structure

370B:第二插頭鍵控結構 370B: Second plug keying structure

370D:第二插頭鍵控結構 370D: Second plug keying structure

374:第一插頭側壁 374: first plug side wall

376:第二插頭側壁 376: second plug side wall

378:傾斜插頭側壁 378: Inclined plug side wall

380:第四插頭側壁 380: Fourth plug side wall

382:第五插頭側壁 382: Fifth plug side wall

384A:第一插頭對準栓釘 384A: The first plug is aligned with the peg

384B:第二插頭對準栓釘 384B: The second plug is aligned with the peg

386:安裝側 386: installation side

388:插頭固定結構 388: Plug fixing structure

390:插頭固定結構 390: Plug fixing structure

392:凹陷 392: Depression

394:凹陷 394: Depression

400:基板 400: substrate

401:第一對準栓釘 401: first alignment peg

402:第二對準栓釘 402: second alignment peg

405:插座連接器 405: socket connector

406:插座殼體 406: Socket housing

407A:第一縱向壁 407A: First longitudinal wall

407B:第二縱向壁 407B: second longitudinal wall

408A:第一凹部 408A: The first recess

408B:第二凹部 408B: second recess

409A:第一端壁 409A: first end wall

409B:第二端壁 409B: second end wall

410A:第一鍵控結構 410A: The first keying structure

410B:第二鍵控結構 410B: The second keying structure

412A:第一側壁 412A: First side wall

412B:第四側壁 412B: Fourth side wall

414A:第五側壁 414A: Fifth side wall

414B:第二側壁 414B: second side wall

416:傾斜側壁 416: Inclined side wall

420:第一插座列 420: The first socket column

422:第二插座列 422: second socket row

424:第三插座列 424: third socket row

426:第四插座列 426: The fourth socket column

428:內部肋狀物 428: internal ribs

430:安裝界面 430: Installation interface

500:插頭連接器 500: plug connector

505:插頭殼體 505: plug housing

507A:第一縱向插頭壁 507A: First longitudinal plug wall

507B:第二縱向插頭壁 507B: second longitudinal plug wall

508A:第一突出部 508A: The first protrusion

508B:第二突出部 508B: second protrusion

509A:第一插頭端壁 509A: First plug end wall

509B:第二插頭端壁 509B: second plug end wall

510A:第一插頭鍵控結構 510A: First plug keying structure

510B:第二插頭鍵控結構 510B: The second plug keying structure

512A:第一插頭側壁 512A: first plug side wall

512B:第四插頭側壁 512B: Fourth plug side wall

514A:第五插頭側壁 514A: 5th plug side wall

514B:第二插頭側壁 514B: Second plug side wall

516:傾斜插頭側壁 516: Inclined plug side wall

518:配合界面 518: Cooperate interface

520:第一插頭列 520: The first plug column

522:第二插頭列 522: second plug column

524:第三插頭列 524: Third plug column

526:第四插頭列 526: The fourth plug column

528:插頭肋狀物 528: plug rib

530:插頭墊高部 530: plug height

532:第一插頭對準栓釘 532: The first plug is aligned with the peg

534:第二插頭對準栓釘 534: The second plug is aligned with the peg

600:插座連接器 600: socket connector

601:第一對準栓釘 601: first alignment peg

602:第二對準栓釘 602: second alignment peg

604:配合界面 604: Cooperate interface

605:插座殼體 605: socket housing

607A:第一縱向壁 607A: First longitudinal wall

607B:第二縱向壁 607B: second longitudinal wall

608A:第一凹部 608A: The first recess

608B:第二凹部 608B: second recess

609A:第一端壁 609A: first end wall

609B:第二端壁 609B: second end wall

610A:第一插座鍵控結構 610A: First socket keying structure

610B:第二插座鍵控結構 610B: The second socket keying structure

612A:第一側壁 612A: First side wall

612B:第四側壁 612B: Fourth side wall

614A:第五側壁 614A: Fifth side wall

614B:第二側壁 614B: second side wall

616:傾斜側壁 616: Inclined side wall

620:安裝側 620: Installation side

700:插頭連接器 700: plug connector

701:第一插頭對準栓釘 701: The first plug is aligned with the peg

702:第二插頭對準栓釘 702: The second plug is aligned with the peg

704:配合界面 704: Cooperate interface

705:插頭殼體 705: plug shell

707A:第一縱向插頭壁 707A: First longitudinal plug wall

707B:第二縱向插頭壁 707B: second longitudinal plug wall

708A:第一突出部 708A: The first protrusion

708B:第二突出部 708B: second protrusion

709A:第一插頭端壁 709A: First plug end wall

709B:第二插頭端壁 709B: second plug end wall

710A:第一插頭鍵控結構 710A: First plug keying structure

710B:第二插頭鍵控結構 710B: The second plug keying structure

712A:第一插頭側壁 712A: first plug side wall

712B:第四插頭側壁 712B: Fourth plug side wall

714A:第五插頭側壁 714A: 5th plug side wall

714B:第二插頭側壁 714B: second plug side wall

716:傾斜側壁 716: Inclined side wall

720:安裝側 720: Installation side

730:第一插頭列 730: The first plug column

740:第二插頭列 740: second plug column

750:第三插頭列 750: Third plug column

760:第四插頭列 760: fourth plug column

800:基板 800: substrate

800C:基板 800C: substrate

800D:基板 800D: substrate

802:襯墊 802: Liner

802A:襯墊 802A: Liner

802C:襯墊 802C: Liner

802D:襯墊 802D: Liner

804:第一襯墊列 804: first liner column

804A:第一襯墊列 804A: The first liner column

804B:第一襯墊列 804B: first liner column

804C:第一襯墊列 804C: The first liner column

804D:第一襯墊列 804D: first liner column

806:第二襯墊列 806: second liner

806A:第二襯墊列 806A: The second liner column

806B:第二襯墊列 806B: The second liner

806C:第二襯墊列 806C: The second liner

806D:第二襯墊列 806D: The second liner

808:第三襯墊列 808: third liner column

808A:第三襯墊列 808A: Third liner column

808B:第三襯墊列 808B: third liner

808C:第三襯墊列 808C: third liner column

808D:第三襯墊列 808D: Third liner column

810:第四襯墊列 810: The fourth liner

810A:第四襯墊列 810A: The fourth liner column

810B:第四襯墊列 810B: The fourth liner

810C:第四襯墊列 810C: The fourth liner column

810D:第四襯墊列 810D: The fourth liner

812:第一對準孔 812: first alignment hole

812A:第一對準孔 812A: first alignment hole

812B:第一對準孔 812B: first alignment hole

812C:第一對準孔 812C: first alignment hole

812D:第一對準孔 812D: first alignment hole

814:第二對準孔 814: second alignment hole

814A:第二對準孔 814A: second alignment hole

814B:第二對準孔 814B: second alignment hole

814C:第二對準孔 814C: second alignment hole

814D:第二對準孔 814D: second alignment hole

816:第一襯墊 816: first liner

816A:第一襯墊 816A: first liner

818:最後襯墊 818: final liner

818C:最後襯墊 818C: Final liner

1001:第一對準栓釘 1001: first alignment peg

1002:第二對準栓釘 1002: second alignment peg

1005:插座連接器 1005: socket connector

1006:插座殼體 1006: socket housing

1007A:第一縱向壁 1007A: First longitudinal wall

1007B:第二縱向壁 1007B: second longitudinal wall

1008A:第一凹部 1008A: The first recess

1008B:第二凹部 1008B: second recess

1008C:第三凹部 1008C: The third recess

1009A:第一端壁 1009A: first end wall

1009B:第二端壁 1009B: second end wall

1010A:第一鍵控結構 1010A: The first keying structure

1010B:第二鍵控結構 1010B: The second keying structure

1010C:第三鍵控結構 1010C: The third keying structure

1012A:第一側壁、線或表面 1012A: first side wall, line or surface

1012B:第四側壁、線或表面 1012B: Fourth side wall, line or surface

1014A:第五側壁、線或表面 1014A: Fifth side wall, line or surface

1014B:第二側壁、線或表面 1014B: Second side wall, line or surface

1016:傾斜側壁、線或表面 1016: Inclined side wall, line or surface

1020:第一插座列 1020: The first socket column

1021:第二插座列 1021: The second socket column

1022:第三插座列 1022: Third socket column

1023:第四插座列 1023: Fourth socket column

1024:第五插座列 1024: Fifth socket column

1025:第六插座列 1025: The sixth socket column

1026:第七插座列 1026: The seventh socket column

1027:第八插座列 1027: The eighth socket column

1030:第一內部肋狀物 1030: first internal rib

1031:第二內部肋狀物 1031: second internal rib

1032:第三內部肋狀物 1032: third internal rib

1040:安裝界面 1040: Installation interface

1101:第一對準栓釘 1101: First alignment peg

1102:第二對準栓釘 1102: Second alignment peg

1105:插座連接器 1105: socket connector

1106:插座殼體 1106: Socket shell

1107A:第一縱向壁 1107A: First longitudinal wall

1107B:第二縱向壁 1107B: second longitudinal wall

1108A:第一凹部 1108A: The first recess

1108B:第二凹部 1108B: second recess

1108C:第三凹部 1108C: The third recess

1108D:第四凹部 1108D: Fourth recess

1109A:第一端壁 1109A: first end wall

1109B:第二端壁 1109B: second end wall

1110A:第一鍵控結構 1110A: The first keying structure

1110B:第二鍵控結構 1110B: The second keying structure

1110C:第三鍵控結構 1110C: The third keying structure

1110D:第四鍵控結構 1110D: The fourth keying structure

1112A:第一側壁、線或表面 1112A: first side wall, line or surface

1112B:第四側壁、線或表面 1112B: Fourth side wall, line or surface

1114A:第五側壁、線或表面 1114A: Fifth side wall, line or surface

1114B:第二側壁、線或表面 1114B: second side wall, line or surface

1116:傾斜側壁、線或表面 1116: Inclined side wall, line or surface

1120:第一插座列 1120: The first socket row

1121:第二插座列 1121: second socket column

1122:第三插座列 1122: Third socket row

1123:第四插座列 1123: The fourth socket column

1124:第五插座列 1124: Fifth socket column

1125:第六插座列 1125: The sixth socket column

1126:第七插座列 1126: The seventh socket column

1127:第八插座列 1127: Eighth socket column

1130:第一內部肋狀物 1130: first internal rib

1131:第二內部肋狀物 1131: second internal rib

1132:第三內部肋狀物 1132: third internal rib

1133:第四內部肋狀物 1133: Fourth Internal Rib

1134:第五內部肋狀物 1134: Fifth Internal Rib

1135:第六內部肋狀物 1135: sixth internal rib

1136:第七內部肋狀物 1136: seventh internal rib

1140:第九插座列 1140: Ninth socket row

1141:第十插座列 1141: Tenth socket row

1142:第十一插座列 1142: The eleventh socket row

1143:第十二插座列 1143: Twelfth socket row

1144:第十三插座列 1144: the thirteenth socket row

1145:第十四插座列 1145: Fourteenth socket row

1146:第十五插座列 1146: Fifteenth socket row

1147:第十六插座列 1147: Sixteenth Socket Row

1200:插頭連接器 1200: plug connector

1201:第一插頭對準栓釘 1201: The first plug is aligned with the peg

1202:第二插頭對準栓釘 1202: The second plug is aligned with the peg

1205:插頭殼體 1205: plug shell

1207A:第一縱向插頭壁 1207A: First longitudinal plug wall

1207B:第二縱向插頭壁 1207B: second longitudinal plug wall

1208A:第一突出部 1208A: The first protrusion

1208B:第二突出部 1208B: second protrusion

1208C:第三突出部 1208C: third protrusion

1209A:第一插頭端壁 1209A: First plug end wall

1209B:第二插頭端壁 1209B: second plug end wall

1210A:第一插頭鍵控結構 1210A: The first plug keying structure

1210B:第二插頭鍵控結構 1210B: The second plug keying structure

1210C:第三鍵控結構 1210C: The third keying structure

1212A:第一插頭側壁、線或表面 1212A: The side wall, line or surface of the first plug

1212B:第四插頭側壁、線或表面 1212B: Fourth plug side wall, line or surface

1214A:第五插頭側壁 1214A: 5th plug side wall

1214B:第二插頭側壁、線或表面 1214B: Second plug side wall, line or surface

1216:傾斜插頭側壁、線或表面 1216: Incline the side wall, line or surface of the plug

1218:配合界面 1218: Mating interface

1220:第一插頭列 1220: The first plug column

1221:第二插頭列 1221: The second plug column

1222:第三插頭列 1222: Third plug column

1223:第四插頭列 1223: The fourth plug column

1224:第五插頭列 1224: Fifth plug column

1225:第六插頭列 1225: Sixth plug column

1226:第七插頭列 1226: Seventh plug column

1227:第八插頭列 1227: Eighth plug column

1230:第一插頭肋狀物 1230: first plug rib

1231:第二插頭肋狀物 1231: second plug rib

1232:第三插頭肋狀物 1232: third plug rib

1233:第四插頭肋狀物 1233: fourth plug rib

1240:安裝界面 1240: Installation interface

1400:插頭連接器 1400: plug connector

1401:第一插頭對準栓釘 1401: The first plug is aligned with the peg

1402:第二插頭對準栓釘 1402: The second plug is aligned with the peg

1405:插頭殼體 1405: plug housing

1406:配合界面 1406: Cooperate interface

1407A:第一縱向插頭壁 1407A: First longitudinal plug wall

1407B:第二縱向插頭壁 1407B: second longitudinal plug wall

1408A:第一突出部 1408A: The first protrusion

1408B:第二突出部 1408B: second protrusion

1408C:第三突出部 1408C: Third protrusion

1408D:第四突出部 1408D: Fourth protrusion

1409A:第一插頭端壁 1409A: First plug end wall

1409B:第二插頭端壁 1409B: second plug end wall

1410A:第一插頭鍵控結構 1410A: First plug keying structure

1410B:第二插頭鍵控結構 1410B: The second plug keying structure

1410C:第三插頭鍵控結構 1410C: The third plug keying structure

1410D:第四插頭鍵控結構 1410D: The fourth plug keying structure

1412A:第一插頭側壁、線或表面 1412A: First plug side wall, line or surface

1412B:第四插頭側壁、線或表面 1412B: Fourth plug side wall, line or surface

1414A:第五插頭側壁 1414A: 5th plug side wall

1414B:第二插頭側壁、線或表面 1414B: Second plug side wall, line or surface

1416:傾斜插頭側壁、線或表面 1416: Incline the side wall, line or surface of the plug

1418:配合界面 1418: Mating interface

1420:第一插頭列 1420: The first plug column

1421:第二插頭列 1421: Second plug column

1422:第三插頭列 1422: Third plug column

1423:第四插頭列 1423: Fourth plug column

1424:第五插頭列 1424: Fifth plug column

1425:第六插頭列 1425: Sixth plug column

1426:第七插頭列 1426: Seventh plug column

1427:第八插頭列 1427: Eighth plug column

1430:第一插頭肋狀物 1430: first plug rib

1431:第二插頭肋狀物 1431: second plug rib

1432:第三插頭肋狀物 1432: third plug rib

1433:第四插頭肋狀物 1433: fourth plug rib

1434:第五插頭肋狀物 1434: Fifth plug rib

1435:第六插頭肋狀物 1435: sixth plug rib

1436:第七插頭肋狀物 1436: seventh plug rib

1437:第八插頭肋狀物 1437: Eighth Plug Rib

1440:第九插頭列 1440: Ninth plug column

1441:第十插頭列 1441: Tenth plug column

1442:第十一插頭列 1442: The eleventh plug column

1443:第十二插頭列 1443: Twelfth plug column

1444:第十三插頭列 1444: thirteenth plug column

1445:第十四插頭列 1445: Fourteenth plug column

1446:第十五插頭列 1446: Fifteenth plug column

1447:第十六插頭列 1447: Sixteenth plug column

CD:接點區域距離 CD: contact area distance

CL:縱向中心線 CL: longitudinal centerline

CL2:中心線 CL2: Centerline

CL3:縱向中心線 CL3: Longitudinal centerline

CL4:縱向中心線 CL4: Longitudinal centerline

CL5:縱向中心線 CL5: Longitudinal centerline

CL6:縱向中心線 CL6: Longitudinal centerline

CP:中心點 CP: central point

CP2:中心點 CP2: center point

CP3:中心點 CP3: Center point

CP4:中心點 CP4: Center point

DW:深度 DW: Depth

I:相交部 I: Intersection

L1:縱向長度 L1: Longitudinal length

MF:安裝接點場 MF: Install contact field

MFL:接點場長度 MFL: contact field length

ML:中間中心線 ML: Middle centerline

ML3:中間中心線 ML3: Middle centerline

ML5:中間中心線 ML5: Middle centerline

ML6:中間中心線 ML6: Middle centerline

MT:材料厚度 MT: Material thickness

P1:接點間距 P1: Contact pitch

PH:插頭高度 PH: plug height

PRP1:第一襯墊列間距 PRP1: The first liner spacing

PRP2:第二襯墊列間距 PRP2: second liner spacing

PRP3:第三襯墊列間距 PRP3: The third liner spacing

PW:部分寬度 PW: Partial width

RP1:第一列間距 RP1: first column spacing

RP2:第二列間距 RP2: second column spacing

RP3:第三列間距 RP3: third column spacing

RP4:第四列間距 RP4: The fourth column spacing

RP5:第五列間距 RP5: fifth column spacing

RP6:第六列間距 RP6: The sixth column spacing

RP7:第七列間距 RP7: The seventh column spacing

RP8:第八列間距 RP8: The eighth column spacing

RP9:第九列間距 RP9: ninth column spacing

RP10:第十列間距 RP10: Tenth column spacing

RP11:第十一列間距 RP11: eleventh column spacing

RP12:第十二列間距 RP12: Twelfth column spacing

RP13:第十三列間距 RP13: Thirteenth column spacing

RP14:第十四列間距 RP14: Fourteenth column spacing

RP15:第十五列間距 RP15: Fifteenth column spacing

RH:插座高度 RH: socket height

SD:墊高部距離 SD: Height of height

[圖1]及[圖2]展示可自一個方向釘合至連接器殼體中之已知電接點。 [Figure 1] and [Figure 2] show known electrical contacts that can be nailed into the connector housing from one direction.

[圖3]為具有自一個方向釘合之電接點之已知連接器殼體的近視剖面圖。 [Figure 3] is a close-up cross-sectional view of a known connector housing with electrical contacts nailed from one direction.

[圖4]為具有自兩個不同方向釘合之電接點之連接器殼體的近視剖面圖。 [Figure 4] is a close-up cross-sectional view of the connector housing with electrical contacts nailed from two different directions.

[圖5]及[圖6]展示可自連接器殼體之頂部釘合之電接點。 [Figure 5] and [Figure 6] show electrical contacts that can be nailed from the top of the connector housing.

[圖7]及[圖8]展示可自連接器殼體之底部釘合之另一電接點。 [Figure 7] and [Figure 8] show another electrical contact that can be nailed from the bottom of the connector housing.

[圖9]為根據本新型之具體實例之配合的一對夾層式連接器的透視圖。 [Figure 9] is a perspective view of a pair of mating mezzanine connectors according to a specific example of the present invention.

[圖10]及[圖11]為根據本新型之具體實例之插座連接器的透視圖。 [Figure 10] and [Figure 11] are perspective views of a socket connector according to a specific example of the present invention.

[圖12]為圖10及圖11中所展示之插座連接器的局部剖面圖。 [Fig. 12] is a partial cross-sectional view of the socket connector shown in Fig. 10 and Fig. 11.

[圖13]為圖10至圖12中所展示之插座連接器的俯視圖。 [Figure 13] is a top view of the socket connector shown in Figures 10 to 12.

[圖14]為圖10至圖13中所展示之插座連接器的仰視圖。 [Fig. 14] is a bottom view of the socket connector shown in Figs. 10-13.

[圖15]為圖10至圖14中所展示之插座連接器的側視圖。 [Fig. 15] is a side view of the socket connector shown in Fig. 10 to Fig. 14.

[圖16]為根據本新型之具體實例之插頭連接器的透視圖。 [Figure 16] is a perspective view of a plug connector according to a specific example of the present invention.

[圖17]為圖16中所展示之插頭連接器的仰視透視圖。 [Figure 17] is a bottom perspective view of the plug connector shown in Figure 16.

[圖18]為圖16及圖17中所展示之插頭連接器的俯視圖。 [Fig. 18] is a top view of the plug connector shown in Fig. 16 and Fig. 17.

[圖19]為圖16至圖18中所展示之插頭連接器的剖面圖。 [Figure 19] is a cross-sectional view of the plug connector shown in Figures 16 to 18.

[圖20]為圖16至圖19中所展示之插頭連接器的側視圖。 [Figure 20] is a side view of the plug connector shown in Figures 16 to 19.

[圖21]為根據本新型之具體實例之插座連接器的俯視圖。 [Figure 21] is a top view of the socket connector according to a specific example of the present invention.

[圖22]為圖21中所展示之插座連接器的仰視圖。 [Figure 22] is a bottom view of the socket connector shown in Figure 21.

[圖23]為圖21至圖22中所展示之插座連接器的俯視透視圖。 [Fig. 23] is a top perspective view of the socket connector shown in Figs. 21-22.

[圖24]為根據本新型之具體實例之插頭連接器的俯視圖。 [Figure 24] is a top view of a plug connector according to a specific example of the present invention.

[圖25]為圖24中所展示之插頭連接器的仰視圖。 [Figure 25] is a bottom view of the plug connector shown in Figure 24.

[圖26]為圖24至圖25中所展示之插頭連接器的仰視透視圖。 [Figure 26] is a bottom perspective view of the plug connector shown in Figures 24 to 25.

[圖27]展示根據本新型之具體實例之插座連接器的俯視圖。 [Fig. 27] A top view showing the receptacle connector according to a specific example of the present invention.

[圖28]展示圖27中所展示之插座連接器的仰視圖。 [Fig. 28] A bottom view showing the socket connector shown in Fig. 27.

[圖29]展示根據本新型之具體實例之插頭連接器的俯視圖。 [Figure 29] A top view showing a plug connector according to a specific example of the present invention.

[圖30]展示圖29中所展示之插頭連接器的仰視圖。 [Fig. 30] A bottom view showing the plug connector shown in Fig. 29.

[圖31至圖35]展示根據本新型之各種具體實例之各種基板覆蓋區圖案。 [Figure 31 to Figure 35] show various substrate footprint patterns according to various specific examples of the present invention.

[圖36]為根據本新型之具體實例之插座連接器的俯視圖。 [Fig. 36] is a top view of the socket connector according to a specific example of the present invention.

[圖37]為圖36中所展示之插座連接器的仰視圖。 [Fig. 37] is a bottom view of the socket connector shown in Fig. 36. [Fig.

[圖38]為圖36至圖37中所展示之插座連接器的俯視透視圖。 [Figure 38] is a top perspective view of the socket connector shown in Figures 36 to 37.

[圖39]為根據本新型之具體實例之插座連接器的俯視圖。 [Figure 39] is a top view of the socket connector according to the specific example of the present invention.

[圖40]為圖39中所展示之插座連接器的仰視圖。 [Figure 40] is a bottom view of the socket connector shown in Figure 39.

[圖41]為圖39至圖40中所展示之插座連接器的俯視透視圖。 [Fig. 41] is a top perspective view of the socket connector shown in Figs. 39-40.

[圖42]為根據本新型之具體實例之插頭連接器的俯視圖。 [Figure 42] is a top view of a plug connector according to a specific example of the present invention.

[圖43]為圖42中所展示之插頭連接器的仰視圖。 [Fig. 43] is a bottom view of the plug connector shown in Fig. 42. [Fig.

[圖44]為圖42至圖43中所展示之插頭連接器的俯視透視圖。 [Fig. 44] is a top perspective view of the plug connector shown in Figs. 42 to 43. [Fig.

[圖45]為根據本新型之具體實例之插頭連接器的俯視圖。 [Figure 45] is a top view of the plug connector according to a specific example of the present invention.

[圖46]為圖45中所展示之插頭連接器的仰視圖。 [Figure 46] is a bottom view of the plug connector shown in Figure 45.

[圖47]為圖45至圖46中所展示之插頭連接器的俯視透視圖。 [Figure 47] is a top perspective view of the plug connector shown in Figures 45 to 46.

本新型之具體實例可包括但不限於:替代地,沿著連接器殼體中之共同芯列依序地交替釘合電接點,以增加電接點密度,而不會將信號完整性降低至商業上無用位準;優化電連接器與對應基板覆蓋區之間的列間間距,以減少串擾,以准許例如印刷電路板之基板中之更多接地通孔,以維持電導體密度,以輔助交替釘合電接點,以及使印刷電路板中之差分信號路由更容易;肋狀物中之空隙置放有助改善單端或差分阻抗,並藉由以大約32千兆位元/秒或超過大約32千兆位元/秒減少鄰近電接點列之間的耦合,來減少鄰近電接點列之間的近端串擾(near-end crosstalk,NEXT)。本文中所描述的列間間隔亦准許鄰近列中之電 接點在30℃的上升時間承載更多的功率或電流或電壓。 Specific examples of the present invention may include, but are not limited to: alternatively, alternately nailing electrical contacts along the common core row in the connector housing to increase the density of electrical contacts without reducing signal integrity Commercially useless level; optimize the inter-column spacing between the electrical connector and the corresponding substrate coverage area to reduce crosstalk, to allow more ground vias in the substrate such as a printed circuit board, to maintain electrical conductor density, Auxiliary alternate nailing of electrical contacts and easier routing of differential signals in the printed circuit board; the placement of gaps in the ribs helps to improve single-ended or differential impedance, and by using approximately 32 Gbit/s Or more than about 32 Gbit/s to reduce the coupling between adjacent electrical contact rows to reduce near-end crosstalk (NEXT) between adjacent electrical contact rows. The spacing between rows described in this article also allows electricity in adjacent rows The contact carries more power or current or voltage at a rise time of 30°C.

首先論述交替釘合之電接點110、120。圖4展示插座連接器100之殼體102中之單個接點列的一部分。如所展示,插座連接器100可包括由肋狀物106界定的凹部104。肋狀物106各自延伸超過電接點110、120之接點配合端116。肋狀物106可經定位於沿著一列之兩個緊鄰電接點110、120之間。電接點110各自可自殼體102的頂部或配合側108沿第一方向朝向殼體102之底部或安裝側112釘合至殼體102中。電接點120可自殼體102之底部或安裝側112沿第二方向朝向殼體102之頂部或配合側108釘合。每列電接點110、120可包括任何數目個電接點110、120,包括三個或多於三個電接點。第一方向與第二方向彼此相對。 First, discuss the alternately nailed electrical contacts 110 and 120. FIG. 4 shows a part of a single contact row in the housing 102 of the receptacle connector 100. As shown in FIG. As shown, the socket connector 100 may include a recess 104 defined by the rib 106. The ribs 106 each extend beyond the contact mating ends 116 of the electrical contacts 110 and 120. The rib 106 may be positioned between two immediately adjacent electrical contacts 110, 120 along a row. Each of the electrical contacts 110 can be nailed into the housing 102 from the top or the mating side 108 of the housing 102 in the first direction toward the bottom or the mounting side 112 of the housing 102. The electrical contact 120 can be nailed from the bottom or the mounting side 112 of the housing 102 toward the top or the mating side 108 of the housing 102 in the second direction. Each column of electrical contacts 110, 120 can include any number of electrical contacts 110, 120, including three or more than three electrical contacts. The first direction and the second direction are opposite to each other.

電接點110、120可各自包括固定結構。固定結構可包括與殼體102中之芯118嚙合的結構,以防止電接點110、120自芯118移除及/或將電接點110、120定位於芯118內,並且該固定結構可包括例如翼形部、楔形件、突出部、引入件及凸塊。電接點110、120可藉由干涉接合固持在殼體102中。 The electrical contacts 110, 120 may each include a fixed structure. The fixing structure may include a structure engaged with the core 118 in the housing 102 to prevent the electrical contacts 110 and 120 from being removed from the core 118 and/or to position the electrical contacts 110 and 120 in the core 118, and the fixing structure may Including, for example, wings, wedges, protrusions, lead-in pieces, and bumps. The electrical contacts 110 and 120 can be held in the housing 102 by interference bonding.

電接點110可包括固定結構,該些固定結構經定向成允許電接點110自配合側108插入至殼體102之芯118中。如圖4中所展示,電接點110可包括與殼體102嚙合之翼形部114,以將電接點110固定在殼體102中。電接點120可包括固定結構,該些固定結構經定向成允許電接點110自安裝側112插入至殼體102之芯118中。亦如圖4中所展示,電接點120可包括楔形件125,其與殼體102嚙合以將電接點120固定在殼體102中。 The electrical contacts 110 may include fixing structures that are oriented to allow the electrical contacts 110 to be inserted into the core 118 of the housing 102 from the mating side 108. As shown in FIG. 4, the electrical contact 110 may include a wing portion 114 engaged with the housing 102 to fix the electrical contact 110 in the housing 102. The electrical contacts 120 may include fixing structures that are oriented to allow the electrical contacts 110 to be inserted into the core 118 of the housing 102 from the mounting side 112. As also shown in FIG. 4, the electrical contact 120 may include a wedge 125 that engages with the housing 102 to fix the electrical contact 120 in the housing 102.

在圖5及圖6中展示實例性電接點110。圖5及圖6展示包括配合端116及翼形部54的電接點110。圖5展示電接點110之保持部分56可界定第一寬度W1、第二寬度W2、第三寬度W3及第四寬度W4。第一寬度W1之長度可大於第二寬度W2、第三寬度W3或第四寬度W4中之任何一者。第二寬度W2之長度可大於第三寬度W3或第四寬度中之任何一者。第三寬度W3之長度可大於第四寬度 W4。電接點110的安裝端58可具有第五寬度W5,其長度短於第一寬度W1、第二寬度W2、第三寬度W3或第四寬度W4中之任何一者。替代地,第二寬度W2及第三寬度W3可為相同長度或大約相同長度。 An example electrical contact 110 is shown in FIGS. 5 and 6. FIGS. 5 and 6 show the electrical contact 110 including the mating end 116 and the wing 54. Figure 5 shows that the holding portion 56 of the electrical contact 110 can define a first width W1, a second width W2, a third width W3, and a fourth width W4. The length of the first width W1 may be greater than any one of the second width W2, the third width W3, or the fourth width W4. The length of the second width W2 may be greater than any one of the third width W3 or the fourth width. The length of the third width W3 can be greater than the fourth width W4. The mounting end 58 of the electrical contact 110 may have a fifth width W5, which is shorter than any one of the first width W1, the second width W2, the third width W3, or the fourth width W4. Alternatively, the second width W2 and the third width W3 may be the same length or approximately the same length.

在圖7及圖8中展示實例性電接點120。圖7及圖8展示電接點120,其包括配合端116及一或多個楔形件75,每一楔形件75自電接點120之材料厚度MT沿相同方向突出。楔形件75可各自包括部分78,該部分具有長度短於電接點120之材料厚度MT的部分寬度PW。 An example electrical contact 120 is shown in FIGS. 7 and 8. 7 and 8 show the electrical contact 120, which includes a mating end 116 and one or more wedges 75, each wedge 75 protruding from the material thickness MT of the electrical contact 120 in the same direction. The wedges 75 may each include a portion 78 having a partial width PW that is shorter than the material thickness MT of the electrical contact 120.

電接點110、120可包括其他固定結構。例如,儘管在圖4中未展示,但電接點110、120可包括將接點定位於殼體102之芯118內的凸塊。在圖4中,電接點110、120包括不同固定結構,亦即,翼形部114及楔形件125,但電接點110、120可能包括相同的固定結構,例如,兩者皆具有翼形部114或兩者皆具有楔形件125。如在圖4中所展示,殼體102中之芯118可經塑形為接納電接點110、120。因此,接納電接點110之芯118可經塑形為不同於接納電接點120之芯118。無論電接點110、120之經不同塑形之保持部分56、56A的形狀或寬度如何(如在圖5至圖8中所展示),兩個緊鄰電接點110、120之中間部分60可為相同第六寬度W6。上述情形可適用於兩個或多於兩個、或可適用於三個或多於三個緊鄰凹部104,凹部可各自界定大約相等之第七寬度W7。電接點110、120可界定不同形狀之保持部分56、56A,但相同形狀之中間部分60及相同形狀之配合端116。 The electrical contacts 110 and 120 may include other fixed structures. For example, although not shown in FIG. 4, the electrical contacts 110, 120 may include bumps that position the contacts within the core 118 of the housing 102. In FIG. 4, the electrical contacts 110, 120 include different fixing structures, that is, the wing 114 and the wedge 125, but the electrical contacts 110, 120 may include the same fixing structure, for example, both have a wing shape. The portion 114 or both has a wedge 125. As shown in FIG. 4, the core 118 in the housing 102 may be shaped to receive the electrical contacts 110, 120. Therefore, the core 118 receiving the electrical contact 110 may be shaped differently from the core 118 receiving the electrical contact 120. Regardless of the shape or width of the differently shaped holding portions 56, 56A of the electrical contacts 110, 120 (as shown in FIGS. 5 to 8), the middle portion 60 of the two adjacent electrical contacts 110, 120 can be It is the same sixth width W6. The above situation can be applied to two or more than two, or can be applied to three or more than three adjacent recesses 104, and the recesses may each define an approximately equal seventh width W7. The electrical contacts 110 and 120 can define holding portions 56 and 56A of different shapes, but the middle portion 60 of the same shape and the mating end 116 of the same shape.

可熔構件130、140可以任何合適的方式附接至電接點110、120之安裝端58。可熔構件130、140可包括焊料或任何其他合適的材料,其可用於與諸如基板(例如PCB、柔性電路板或電纜)之另一裝置形成電連接及機械連接。 The fusible members 130, 140 can be attached to the mounting ends 58 of the electrical contacts 110, 120 in any suitable manner. The fusible members 130, 140 may include solder or any other suitable material, which may be used to form electrical and mechanical connections with another device such as a substrate (for example, a PCB, a flexible circuit board, or a cable).

藉由自殼體102之配合側108及安裝側112釘合電接點110、120,電接點110、120可較之現有技術允許的定位更靠近在一起,從而減小電接點110、120之間距,即使電接點110、120具有寬於僅沿一個方向釘合之電接點的中間部 分60或配合端116。第六寬度W6對接點間距比率可為接點間距之50%至75%。如圖4中所展示,頂部及底部釘合允許電接點110、120包括固定結構或保持部分56、56A,其在芯118中之不同高度處嚙合,使得鄰近電接點110、120之保持部分56、56A不會相互干擾。在圖4中,翼形部114嚙合芯118之頂部,且楔形件125嚙合芯118之中間,此允許芯118更靠近地置放在一起,減小插座連接器100之間距而不犧牲在達或超過32千兆位元/秒之資料傳送速率下的信號完整性。 By nailing the electrical contacts 110, 120 from the mating side 108 and the mounting side 112 of the housing 102, the electrical contacts 110, 120 can be positioned closer together than allowed by the prior art, thereby reducing the electrical contacts 110, The distance between 120, even if the electrical contacts 110, 120 have a wider middle part than the electrical contacts nailed in only one direction Points 60 or 116 with the end. The ratio of the sixth width W6 to the contact pitch can be 50% to 75% of the contact pitch. As shown in Figure 4, the top and bottom nailing allows the electrical contacts 110, 120 to include fixing structures or retaining portions 56, 56A, which engage at different heights in the core 118 so that the adjacent electrical contacts 110, 120 are retained Parts 56, 56A will not interfere with each other. In Figure 4, the wing 114 engages the top of the core 118, and the wedge 125 engages the middle of the core 118, which allows the cores 118 to be placed closer together, reducing the distance between the socket connectors 100 without sacrificing Or signal integrity at a data transfer rate exceeding 32 Gbit/s.

對於固定間距,具有較寬寬度W6的電接點110、120,中間部分60及配合端116提供經改善電效能,包括經改善阻抗/經改善回波損耗。例如,若經由電接點110、120輸送(亦即,傳輸及/或接收)差分信號,則時域阻抗可在17ps(10%至90%)介於約85Ω與約100Ω之間,或在17ps(10%至90%)介於約86Ω與約99Ω之間。模擬插入損耗在自1GHz直至且包括17GHz的頻率下介於0dB與-1.5dB之間(大約34千兆位元/秒或頻率的2倍),且直至23GHz介於0dB與-3dB之間(大約46千兆位元/秒)。在自1GHz直至且包括23GHz的頻率下,模擬差分回波損耗介於-10dB與-60dB之間。模擬差分向量和串擾在自1GHz直至且包括19GHz(具有偏移)之頻率下介於-40dB與-100dB之間,在自1GHz直至且包括34GHz之頻率下介於-30dB與-100dB之間,且在自1GHz直至且包括50GHz之頻率下介於-20dB與-100dB之間。每通道的資料速率大約為32千兆位元/秒,彙總資料速率可為大約4096千兆位元/秒,且在上文所列舉之具有至少32千兆位元/秒能力的阻抗、插入損耗、差分回波損耗、向量和串擾值中之任一者下,資料速率密度可為大約每平方吋2088千兆位元/秒。因為電連接器可無金屬、金屬串擾屏蔽、電源接點及有損串擾屏蔽,所以電連接器可具有開放式插腳片(pin field)。電接點110、120可以信號-接地-信號(S-G-S)、S-S-G-S-S、S-S-G-G-S-S之型樣電氣配置,或可電氣承載或經指派為電力、參考或接地電接點110、120。 For a fixed pitch, the electrical contacts 110 and 120 with a wider width W6, the middle portion 60 and the mating end 116 provide improved electrical performance, including improved impedance/return loss. For example, if a differential signal is transmitted (that is, transmitted and/or received) through the electrical contacts 110 and 120, the time domain impedance can be between about 85Ω and about 100Ω at 17ps (10% to 90%), or at 17ps (10% to 90%) is between about 86Ω and about 99Ω. The analog insertion loss is between 0dB and -1.5dB (approximately 34 Gbits/sec or 2 times the frequency) at frequencies from 1GHz up to and including 17GHz, and between 0dB and -3dB up to 23GHz ( Approximately 46 Gbit/s). At frequencies from 1GHz up to and including 23GHz, the simulated differential return loss is between -10dB and -60dB. The analog differential vector and crosstalk are between -40dB and -100dB at frequencies from 1GHz up to and including 19GHz (with offset), and between -30dB and -100dB at frequencies from 1GHz to and including 34GHz, And it is between -20dB and -100dB at frequencies from 1GHz up to and including 50GHz. The data rate of each channel is approximately 32 Gbits/sec, and the aggregate data rate can be approximately 4096 Gbits/sec, and the impedances and insertions listed above have at least 32 Gbits/sec capability. With any of the loss, differential return loss, vector, and crosstalk values, the data rate density can be approximately 2088 Gbits/sec per square inch. Because the electrical connector can be free of metal, metal crosstalk shielding, power contacts, and lossy crosstalk shielding, the electrical connector can have an open pin field. The electrical contacts 110, 120 can be configured in signal-ground-signal (S-G-S), S-S-G-S-S, S-S-G-G-S-S, or can be electrically carried or designated as power, reference or ground electrical contacts 110, 120.

在單一列中,可使用不同的釘合程序。例如,電接點110或120可 全部經釘合,且然後剩餘的電接點120或110可全部經釘合。替代地,電接點110、120可依序地交替釘合:可釘合單一電接點110或120,然後可釘合單一電接點120或110等,直至整列經釘合。 In a single row, different stitching procedures can be used. For example, electrical contacts 110 or 120 can be All are stapled, and then the remaining electrical contacts 120 or 110 can all be stapled. Alternatively, the electrical contacts 110 and 120 can be stapled alternately in sequence: a single electrical contact 110 or 120 can be stapled, and then a single electrical contact 120 or 110 can be stapled, until the entire row is stapled.

在電接點110、120已經釘合至插座連接器100中之後,可熔構件130、140可附接至電接點110、120。 After the electrical contacts 110, 120 have been nailed into the socket connector 100, the fusible members 130, 140 may be attached to the electrical contacts 110, 120.

插座連接器100可為任何合適的連接器,包括例如夾層式連接器,其可用以在製造公差內將兩個基板(例如,印刷電路板)並列或實質上並列地連接在一起。插座連接器100可為陰陽連接器,其與具有僅自一個方向釘合之接點的連接器連接。 The socket connector 100 can be any suitable connector, including, for example, a mezzanine connector, which can be used to connect two substrates (eg, printed circuit boards) side by side or substantially side by side within manufacturing tolerances. The socket connector 100 may be a female-male connector, which is connected to a connector having contacts nailed from only one direction.

圖9展示此夾層式連接器的實例,其中插座連接器200具有自兩個方向釘合的電接點,且插頭連接器300具有僅自一側釘合的電接點。視情況,連接器可為直角連接器。插頭連接器300可具有釘合電接點,且插座連接器200可具有僅自一側(諸如插座殼體202之安裝側212)釘合之電接點。 FIG. 9 shows an example of this mezzanine connector, in which the receptacle connector 200 has electrical contacts nailed from two directions, and the plug connector 300 has electrical contacts nailed from only one side. Depending on the situation, the connector can be a right-angle connector. The plug connector 300 may have nailed electrical contacts, and the receptacle connector 200 may have electrical contacts nailed from only one side (such as the mounting side 212 of the socket housing 202).

圖9展示安裝在各別基板400上之插座連接器200及插頭連接器300。如所展示,圖9之底部部分中之插座連接器200可包括電接點110、120之四個平行的間隔開的插座列204、210、220、206。電接點110、120之第一插座列204及電接點110、120之第四插座列206沿著插座殼體202之外側的內側延伸。電接點110、120之第二插座列210及電接點110、120之第三插座列206為背對背的,且沿著內部肋狀物250延伸,內部肋狀物250沿著縱向中心線CL(未展示)自插座連接器200之中間向下端對端地延伸。儘管圖9中之插座連接器200經展示為具有四個平行的,間隔開的無屏蔽列,但可使用任何數目個列之電接點110、120。插座連接器200之電接點110、120可自兩個方向釘合,如關於圖4至圖8所描述。插座連接器200可無串擾屏蔽及磁性吸收有損耗材料中之任何者,或可包括任何數目個串擾屏蔽或導電或非導電磁性吸收有損耗材料。可熔構件230、240(諸如焊球) 可附接至電接點110、120中之各別者。 FIG. 9 shows the receptacle connector 200 and the plug connector 300 mounted on respective substrates 400. As shown in FIG. As shown, the socket connector 200 in the bottom portion of FIG. 9 may include four parallel spaced apart socket rows 204, 210, 220, 206 of electrical contacts 110, 120. The first socket row 204 of the electrical contacts 110 and 120 and the fourth socket row 206 of the electrical contacts 110 and 120 extend along the inner side of the outer side of the socket housing 202. The second socket row 210 of the electrical contacts 110, 120 and the third socket row 206 of the electrical contacts 110, 120 are back-to-back and extend along the inner rib 250, which is along the longitudinal centerline CL (Not shown) extends end-to-end from the middle of the socket connector 200 downward. Although the receptacle connector 200 in FIG. 9 is shown as having four parallel, spaced, unshielded rows, any number of rows of electrical contacts 110, 120 can be used. The electrical contacts 110 and 120 of the socket connector 200 can be nailed from two directions, as described in relation to FIGS. 4 to 8. The socket connector 200 may have any of crosstalk shielding and magnetically absorbing lossy materials, or may include any number of crosstalk shielding or conductive or non-conductive magnetically absorbing lossy materials. Fusible members 230, 240 (such as solder balls) It can be attached to each of the electrical contacts 110 and 120.

圖9之頂部部分中之插頭連接器300可包括插頭殼體302,四個平行的,間隔開的插頭列304、310、320、306之電插頭接點308。電插頭接點308之第一插頭列304及電插頭接點308之第二插頭列310各自沿著各別插頭肋狀物350延伸,插頭肋狀物自插頭連接器300端對端地延伸。電插頭接點308之第三插頭列320及電插頭接點308之第四插頭列306各自沿著各別插頭肋狀物350延伸,該插頭肋狀物沿著插頭連接器300端對端地延伸。 The plug connector 300 in the top part of FIG. 9 may include a plug housing 302, four parallel, spaced apart rows of plugs 304, 310, 320, 306 of electrical plug contacts 308. The first plug row 304 of the electrical plug contacts 308 and the second plug row 310 of the electrical plug contacts 308 each extend along respective plug ribs 350 that extend end-to-end from the plug connector 300. The third plug row 320 of the electrical plug contact 308 and the fourth plug row 306 of the electrical plug contact 308 each extend along a respective plug rib 350, which extends end-to-end along the plug connector 300 extend.

儘管圖9中之插頭連接器300經展示為具有四個平行的,間隔開的,無屏蔽列之電插頭接點308,但可使用任何數目個列。插頭連接器300之電接點308可自兩個方向釘合,如關於圖4至圖8所描述。插頭連接器300可無串擾屏蔽及磁性吸收有損耗材料中之任何者,或可包括任何數目個串擾屏蔽或導電或非導電磁性吸收有損耗材料。可熔元件330、340(諸如焊球)可附接至電插頭接點308中之每一各別者。通常,插頭連接器300及插座連接器200中之列數及電插頭接點308為相同的。 Although the plug connector 300 in FIG. 9 is shown as having four parallel, spaced, unshielded rows of electrical plug contacts 308, any number of rows can be used. The electrical contacts 308 of the plug connector 300 can be nailed from two directions, as described in relation to FIGS. 4 to 8. The plug connector 300 may be any of crosstalk-free shielding and magnetically absorbing lossy materials, or may include any number of crosstalk shielding or conductive or non-conductive magnetically absorbing lossy materials. Fusible elements 330, 340 (such as solder balls) may be attached to each of the electrical plug contacts 308 individually. Generally, the number of rows and the electrical plug contacts 308 in the plug connector 300 and the socket connector 200 are the same.

如圖9中所展示,可熔構件230、240、330、340用於將電插頭接點308附接至基板400。由插頭連接器300承載之電插頭接點308可自一側釘合或僅自插頭殼體302之安裝側312釘合。 As shown in FIG. 9, the fusible members 230, 240, 330, 340 are used to attach the electrical plug contacts 308 to the substrate 400. The electrical plug contacts 308 carried by the plug connector 300 can be nailed from one side or only from the mounting side 312 of the plug housing 302.

圖10及圖11展示本新型之具體實例之插座連接器200A,其包括諸如電接點110、120之釘合電接點之第一插座列204A、第二插座列210A、第三插座列220A及第四插座列206A。如圖11中所展示,第一插座列204A及第二插座列210A可由第一列間距RP1間隔開。第二插座列210A及第三插座列220A可經間隔開第二列間距RP2,該第二列間距在數值上大於第一列間距RP1。第三插座列220A可與第四插座列206A間隔開第三列間距RP3,該第三列間距等於或大約等於第一列間距RP1。第一列間距可為2.2±0.05mm、2.2±0.1mm,或大約等於2.2 mm的某些其他值,諸如2.2±0.05mm或2.2±0.005mm。第二列間距可為2.4±0.005mm、2.4±0.05mm、2.4±0.1mm,或大約等於2.4mm的某一其他值。第三列間距可與第一列間距相同,諸如2.2±0.005mm、2.2±0.05mm、2.2±0.1mm,或一些大約等於2.2mm之其他值。使電連接器及對應基板覆蓋區中之列間距彼此不相等有助於減少電連接器及覆蓋區中之串擾,准許諸如印刷電路板之基板中之更多接地通孔,維持電導體密度,且便於印刷電路板中之差分信號路由,使得在可接受的阻抗、插入損耗、差分回波損耗或串擾位準下維持至少32千兆位元/秒之資料速率。 Figures 10 and 11 show a specific example of the socket connector 200A of the present invention, which includes a first socket row 204A, a second socket row 210A, and a third socket row 220A of nailed electrical contacts such as electrical contacts 110 and 120 And the fourth socket row 206A. As shown in FIG. 11, the first socket row 204A and the second socket row 210A can be separated by a first row pitch RP1. The second socket row 210A and the third socket row 220A may be separated by a second row pitch RP2, which is larger in value than the first row pitch RP1. The third socket row 220A may be spaced apart from the fourth socket row 206A by a third row pitch RP3, which is equal to or approximately equal to the first row pitch RP1. The first row spacing can be 2.2±0.05mm, 2.2±0.1mm, or approximately equal to 2.2 Some other value of mm, such as 2.2±0.05mm or 2.2±0.005mm. The second column spacing may be 2.4±0.005mm, 2.4±0.05mm, 2.4±0.1mm, or some other value approximately equal to 2.4mm. The third row pitch may be the same as the first row pitch, such as 2.2±0.005mm, 2.2±0.05mm, 2.2±0.1mm, or some other value approximately equal to 2.2mm. Making the row spacing between the electrical connector and the corresponding substrate coverage area unequal to each other helps to reduce the crosstalk in the electrical connector and the coverage area, permits more ground vias in the substrate such as a printed circuit board, and maintains the density of electrical conductors. And it is convenient for the differential signal routing in the printed circuit board, so that the data rate of at least 32 Gbit/s can be maintained under the acceptable impedance, insertion loss, differential return loss or crosstalk level.

圖10之頂部透視圖展示插座連接器200A包括第一插座列204A及第四插座列206A,每一插座列沿著插座殼體202A之外側的內側延伸。電接點110、120之第二插座列及電接點110、120之第三插座列經定位沿著內部肋狀物250A背對背地延伸,內部肋狀物250A沿著縱向中心線CL自插頭連接器200A之中間向下端對端地延伸。 The top perspective view of FIG. 10 shows that the receptacle connector 200A includes a first receptacle row 204A and a fourth receptacle row 206A, each receptacle row extending along the inner side of the outer side of the receptacle housing 202A. The second socket row of electrical contacts 110, 120 and the third socket row of electrical contacts 110, 120 are positioned to extend back-to-back along the inner rib 250A, which is connected from the plug along the longitudinal centerline CL The middle of the device 200A extends downward from end to end.

在圖10及圖11中,插座連接器200A或插座殼體202A包括四列電接點110、120,但可使用任何數目個列。在圖10及圖11中,每列電接點110、120可包括至少一百個均勻間隔之接點,該些接點經定位於0.63±0.1mm或0.065±0.05接點間距P1上,但每列可使用任何數目個電接點。 In FIGS. 10 and 11, the socket connector 200A or the socket housing 202A includes four rows of electrical contacts 110, 120, but any number of rows can be used. In Figures 10 and 11, each row of electrical contacts 110, 120 can include at least one hundred evenly spaced contacts, and these contacts are positioned on 0.63±0.1mm or 0.065±0.05 contact pitch P1, but Any number of electrical contacts can be used in each column.

如圖10中所展示,三個緊鄰電接點110、120之配合端116A可在相同的間距上,但三個電接點中之兩者(諸如電接點110)可自插座殼體202A之配合側108A沿第一方向插入至插座殼體202A中,且三個電接點中之第三者(例如電接點120)可自與第一方向相反之第二方向插入至插座殼體202A中。 As shown in FIG. 10, the mating ends 116A of the three adjacent electrical contacts 110, 120 can be at the same spacing, but two of the three electrical contacts (such as the electrical contact 110) can be from the socket housing 202A The mating side 108A is inserted into the socket housing 202A along the first direction, and the third of the three electrical contacts (for example, the electrical contact 120) can be inserted into the socket housing from the second direction opposite to the first direction 202A.

插座殼體202A可由兩個平行的間隔開的縱向壁(諸如第一縱向壁260A及第二縱向壁260B)以及兩個平行的間隔開的端壁(諸如第一端壁262A及第二端壁262B)界定。兩個平行的間隔開的第一端壁262A及第二端壁262B之 長度短於兩個平行的間隔開的第一縱向壁260A及第二縱向壁260B的長度。中心線CL延伸穿過兩個平行的間隔開的端壁262A、262B,平行於兩個平行的間隔開的第一縱向壁260A及第二縱向壁260B。插座殼體202A之插座配合側208A可包括第一鍵控結構270A及第二鍵控結構270B。第一鍵控結構270A置放於中心線CL之一側上,且可鄰接中心線CL或與中心線CL相交,使得中心線CL穿過第一鍵控結構270A之至少一部分但不平分總有界區域。與第一鍵控結構270A相比,第二鍵控結構270B可經定位於插座殼體202A之插座配合側208A處,位於中心線之相對側上,且可鄰接中心線CL或可與中心線CL相交,使得中心線CL穿過第二鍵控結構270B之至少一部分,但不平分總有界區域。 The socket housing 202A can be formed by two parallel spaced apart longitudinal walls (such as a first longitudinal wall 260A and a second longitudinal wall 260B) and two parallel spaced apart end walls (such as a first end wall 262A and a second end wall). 262B) defined. Two parallel spaced apart first end wall 262A and second end wall 262B The length is shorter than the length of two parallel spaced apart first longitudinal wall 260A and second longitudinal wall 260B. The centerline CL extends through the two parallel spaced-apart end walls 262A, 262B, and is parallel to the two parallel spaced-apart first longitudinal wall 260A and the second longitudinal wall 260B. The socket mating side 208A of the socket housing 202A may include a first keying structure 270A and a second keying structure 270B. The first keying structure 270A is placed on one side of the center line CL, and can be adjacent to the center line CL or intersect the center line CL, so that the center line CL passes through at least a part of the first keying structure 270A but does not divide equally.界区. Compared with the first keying structure 270A, the second keying structure 270B can be positioned at the socket mating side 208A of the socket housing 202A, on the opposite side of the center line, and can be adjacent to the center line CL or can be aligned with the center line. The CL intersects so that the centerline CL passes through at least a part of the second keying structure 270B, but does not equally divide the total bounded area.

第一鍵控結構270A及第二鍵控結構270B中之每一者可為各別第一凹部272A及第二凹部272B,其中至少三個側面或表面由插座殼體202A及兩個平行的間隔開的第一端壁262A及第二端壁262B之各別部分界定。至少三邊之第一凹部272A及第二凹部272B中之每一者可由第一側壁、線或表面274,(可與第一側壁274垂直相交之)第二側壁、線或表面276,及(與第二側壁276相交之)傾斜側壁、線或表面278界定,或者是包括第一側壁、線或表面274,(可與第一側壁274垂直相交的)第二側壁、線或表面276及(與第二側壁276相交的)傾斜側壁、線或表面278。第一鍵控結構270A及第二鍵控結構270B中之每一者(其可為凹部)經組態以接納配合插頭連接器之對應第一鍵控結構或第二鍵控結構,該第一鍵控結構或第二鍵控結構可為支柱。第一鍵控結構270A及第二鍵控結構270B可經定位關於縱向中心線CL及中間中心線ML不對稱。偏移的一個好處為將存在於第一鍵控結構270A及第二鍵控結構270B以及其配合對應物中之塑膠及空氣定位於有助於信號完整性之位置中。 Each of the first keying structure 270A and the second keying structure 270B can be a respective first recess 272A and a second recess 272B, wherein at least three sides or surfaces are separated by the socket housing 202A and two parallel The opened first end wall 262A and the second end wall 262B are respectively defined by separate parts. At least three sides of each of the first recess 272A and the second recess 272B can be formed by a first side wall, line or surface 274, (which can be perpendicular to the first side wall 274) a second side wall, line or surface 276, and ( Intersecting the second side wall 276) the inclined side wall, line or surface 278 is defined, or includes a first side wall, line or surface 274, (which may be perpendicular to the first side wall 274) second side wall, line or surface 276 and ( The inclined side wall, line or surface 278 that intersects the second side wall 276. Each of the first keying structure 270A and the second keying structure 270B (which may be a recess) is configured to receive the corresponding first keying structure or the second keying structure of the mating plug connector, the first The keying structure or the second keying structure may be a pillar. The first keying structure 270A and the second keying structure 270B may be positioned asymmetrically about the longitudinal centerline CL and the intermediate centerline ML. One benefit of the offset is that the plastic and air existing in the first keying structure 270A and the second keying structure 270B and their mating counterparts are positioned in positions that contribute to signal integrity.

在插座殼體202A之一側上,鄰近於第一端壁262A,傾斜側壁278可鄰接中心線CL,與中心線CL間隔開,或穿過中心線CL。在插座殼體202A之相 對側上,鄰近於第二端壁262B,第一側壁274可鄰接中心線CL,與中心線CL重合,與中心線CL平行,或經定位鄰近於中心線CL但與其間隔開。第一鍵控結構270A及第二鍵控結構270B可為完全相同形狀的,可為關於垂直於中心線CL且跨越插座列204、210、220、206之中心線的鏡像,或可為偏移鏡像。 On one side of the socket housing 202A, adjacent to the first end wall 262A, the inclined side wall 278 may abut the center line CL, be spaced from the center line CL, or pass through the center line CL. Phase in the socket housing 202A On the opposite side, adjacent to the second end wall 262B, the first side wall 274 may abut the centerline CL, coincide with the centerline CL, be parallel to the centerline CL, or be positioned adjacent to but spaced apart from the centerline CL. The first keying structure 270A and the second keying structure 270B can be exactly the same shape, can be a mirror image about the center line perpendicular to the center line CL and across the socket rows 204, 210, 220, 206, or can be offset Mirror.

圖11為圖10中所展示之插座連接器200A的仰視透視圖。可熔構件230、240可以任何合適的方式附接至電接點110、120。插座連接器200A可包括一或多個墊高部201。如圖11中所展示,墊高部201可位於插座殼體202A之四個拐角中之一或多者處。可使用任何數目及任何位置之墊高部201。當可熔構件230、240回焊以將插座連接器200A連接至基板時,墊高部201確保插座連接器200A距基板固定距離。插座連接器200A可包括對準栓釘280A、280B,其可插入至基板中之對應對準孔中,以使插座殼體202A在基板上自對準,且使可熔構件230、240相對於基板上之焊墊大致對準。圖11展示第一對準栓釘280A及第二對準栓釘280B,但可使用任何數目的對準栓釘。第一對準栓釘280A及第二對準栓釘280B可具有任何合適的形狀,包括例如圓形、橢圓形、方形等。第一對準栓釘280A及第二對準栓釘280B的形狀可為相同的或不同的。第一對準栓釘280A或第二對準栓釘280B中之一或多者之部分可與中心線CL相交,或第一對準栓釘280A及第二對準栓釘280B兩者可與中心線CL間隔開。展示電接點110、120之四個插座列204A、210A、220A、206A,但可使用一或多個插座列。 FIG. 11 is a bottom perspective view of the receptacle connector 200A shown in FIG. 10. The fusible members 230, 240 may be attached to the electrical contacts 110, 120 in any suitable manner. The socket connector 200A may include one or more raised portions 201. As shown in FIG. 11, the raised portion 201 may be located at one or more of the four corners of the socket housing 202A. Any number and any position of the booster 201 can be used. When the fusible members 230, 240 are reflowed to connect the socket connector 200A to the substrate, the raised portion 201 ensures that the socket connector 200A is at a fixed distance from the substrate. The socket connector 200A may include alignment pegs 280A, 280B, which can be inserted into corresponding alignment holes in the substrate, so that the socket housing 202A is self-aligned on the substrate, and the fusible members 230, 240 are opposed to The solder pads on the substrate are roughly aligned. Figure 11 shows a first alignment peg 280A and a second alignment peg 280B, but any number of alignment pegs can be used. The first alignment peg 280A and the second alignment peg 280B may have any suitable shape, including, for example, a circular shape, an oval shape, a square shape, and the like. The shapes of the first alignment peg 280A and the second alignment peg 280B may be the same or different. A portion of one or more of the first alignment peg 280A or the second alignment peg 280B may intersect the centerline CL, or both the first alignment peg 280A and the second alignment peg 280B may intersect The center lines CL are spaced apart. The four socket rows 204A, 210A, 220A, 206A of the electrical contacts 110 and 120 are shown, but one or more socket rows can be used.

圖12展示由插座連接器200A之插座殼體202A承載之四個電接點110A、120A。插座殼體202可包括芯118A,電接點110A、120A可釘合至芯118A中。電接點110A可包括配合端116A,且可自插座殼體202A之配合側108A釘合,且電接點120A可自插座殼體202之安裝側212A釘合,如上文所描述。 Figure 12 shows four electrical contacts 110A, 120A carried by the socket housing 202A of the socket connector 200A. The socket housing 202 may include a core 118A, and the electrical contacts 110A and 120A may be nailed into the core 118A. The electrical contact 110A can include the mating end 116A and can be nailed from the mating side 108A of the socket housing 202A, and the electrical contact 120A can be nailed from the mounting side 212A of the socket housing 202, as described above.

圖13至圖15展示插座連接器200B,該插座連接器包括電接點110、110A、120、120A之四個插座列204B、210B、220B、206B。如圖13中所展 示,任何插座列中之鄰近電接點110、110A、120、120A之間的接點間距P1可介於大約0.62±0.1mm之間,諸如0.635mm。承載四個含一百個電接點110、110A、120、120A之插座列的插座殼體202B之縱向長度L1可介於大約67.6±2mm之間。配合界面處之插座空腔長度可介於大約64.7±2mm之間。配合界面之插座空腔深度可介於大約7.0±2mm之間。兩個相對的配合端116B之間的接點區域距離CD為大約1.7±0.1mm。插座殼體202B之深度或寬度DW為大約8.5±0.5mm。插座連接器200B可無屏蔽、無電源接點,可具有金屬串擾屏蔽,可具有導電材料或非導電磁性吸收材料,或可無磁性吸收材料。 13 to 15 show the socket connector 200B, which includes four socket rows 204B, 210B, 220B, 206B of electrical contacts 110, 110A, 120, 120A. As shown in Figure 13 It is shown that the contact pitch P1 between adjacent electrical contacts 110, 110A, 120, 120A in any socket row may be between approximately 0.62±0.1 mm, such as 0.635 mm. The longitudinal length L1 of the socket housing 202B that carries four socket rows with one hundred electrical contacts 110, 110A, 120, 120A may be between about 67.6±2 mm. The length of the socket cavity at the mating interface may be between approximately 64.7±2mm. The depth of the socket cavity of the mating interface can be between about 7.0±2mm. The distance CD of the contact area between the two opposing mating ends 116B is about 1.7±0.1 mm. The depth or width DW of the socket housing 202B is about 8.5±0.5 mm. The socket connector 200B may have no shielding, no power contacts, a metal crosstalk shield, a conductive material or a non-conductive magnetic absorbing material, or no magnetic absorbing material.

插座連接器200B可包括插座殼體202,其可界定兩個平行的間隔開的縱向壁(諸如第一縱向壁260C及第二縱向壁260D),以及兩個平行的間隔開的端壁(例如第一端壁262C及第二端壁262D)。兩個平行的間隔開的第一端壁262C及第二端壁262D的寬度可各自短於兩個平行的間隔開的第一縱向壁260C及第二縱向壁260D。中心線CL延伸穿過兩個平行的間隔開的第一端壁262C及第二端壁262D,平行於兩個平行的間隔開的第一縱向壁260C及第二縱向壁260D。中間中心線ML將插座連接器200B之縱向長度切成兩半,以90度角與中心線CL相交,且延伸橫越第一插座列204、第二插座列210,第三插座列220及第四插座列206。插座連接器200B之配合界面可包括第一鍵控結構270C及第二鍵控結構270D。第一鍵控結構270C可位於中心線CL之一側上。第一鍵控結構270C可鄰接中心線CL,或與中心線CL相交,使得中心線CL穿過第一鍵控結構270C之至少一部分,但不平分第一鍵控結構270C之總有界區域。與第一鍵控結構270C相比,第二鍵控結構270D可經定位於插座連接器200B之配合界面或配合側214處在中心線之相對側上。第二鍵控結構270D可鄰接中心線CL或與中心線CL相交,使得中心線CL穿過第二鍵控結構270D的至少一部分,但不平分總有界區域。 The socket connector 200B may include a socket housing 202, which may define two parallel spaced apart longitudinal walls (such as a first longitudinal wall 260C and a second longitudinal wall 260D), and two parallel spaced apart end walls (for example The first end wall 262C and the second end wall 262D). The widths of the two parallel spaced apart first end walls 262C and the second end wall 262D may each be shorter than the two parallel spaced apart first longitudinal walls 260C and the second longitudinal wall 260D. The centerline CL extends through two parallel spaced apart first end walls 262C and second end wall 262D, and parallel to two parallel spaced apart first longitudinal walls 260C and second longitudinal walls 260D. The middle center line ML cuts the longitudinal length of the socket connector 200B in half, intersects the center line CL at an angle of 90 degrees, and extends across the first socket row 204, the second socket row 210, the third socket row 220, and the first socket row. Four socket column 206. The mating interface of the socket connector 200B may include a first keying structure 270C and a second keying structure 270D. The first keying structure 270C may be located on one side of the center line CL. The first keying structure 270C may be adjacent to the center line CL or intersect the center line CL such that the center line CL passes through at least a part of the first keying structure 270C, but does not equally divide the total bounded area of the first keying structure 270C. Compared with the first keying structure 270C, the second keying structure 270D can be positioned on the mating interface or the mating side 214 of the socket connector 200B on the opposite side of the centerline. The second keying structure 270D may be adjacent to the center line CL or intersect the center line CL such that the center line CL passes through at least a part of the second keying structure 270D, but does not equally divide the bounded area.

插座殼體202(亦被稱為連接器殼體)界定第一端壁262A、相對 第二端壁262C,沿著縱向中心線CL延伸,且具有垂直於縱向中心線CL之中間中心線ML。電接點之各別第一間隔開的平行插座列204、第二間隔開的平行插座列210、第三間隔開的平行插座列220及第四間隔開的平行插座列206可由插座殼體202承載。電接點110、120之第一插座列204、第二插座列210,第三插座列220及第四插座206中之每一者各自平行於縱向中心線CL延伸。電接點110、120之第一插座列204或第一列與電接點110、120之第二插座列210或第二列間隔開第一列間距RP1。電接點110、120之第三插座列220或第三列與電接點110、120之第二插座列210經間隔開第二列間距RP2,第二列間距在數值上大於第一列間距RP1。電接點110、120之第四插座列206或第四列與電接點110、120之第三插座列220間隔開第三列間距RP3,該第三列間距RP3等於或具有第一列間距RP1之製造公差。第一鍵控結構270A經定位鄰近於插座殼體202之第一端壁262A,鄰近於插座殼體202之配合側214。第二鍵控結構270B經定位鄰近於插座殼體202之第二端壁262B,鄰近於插座殼體202之配合側214。第一鍵控結構270A及第二鍵控結構270B可經定位關於縱向中心線CL及中間中心線ML不對稱。第一鍵控結構270A及第二鍵控結構270B可沿著中間中心線ML相對於彼此偏移。 The socket housing 202 (also known as the connector housing) defines a first end wall 262A, opposite to The second end wall 262C extends along the longitudinal centerline CL and has a middle centerline ML perpendicular to the longitudinal centerline CL. The first spaced parallel socket row 204, the second spaced parallel socket row 210, the third spaced parallel socket row 220, and the fourth spaced parallel socket row 206 of the electrical contacts can be formed by the socket housing 202. Bearer. Each of the first socket row 204, the second socket row 210, the third socket row 220, and the fourth socket 206 of the electrical contacts 110 and 120 respectively extends parallel to the longitudinal centerline CL. The first socket row 204 or the first row of the electrical contacts 110 and 120 is spaced from the second socket row 210 or the second row of the electrical contacts 110 and 120 by a first row pitch RP1. The third socket row 220 of the electrical contacts 110, 120 or the third row and the second socket row 210 of the electrical contacts 110, 120 are separated by a second row pitch RP2, the second row pitch is numerically larger than the first row pitch RP1. The fourth socket row 206 or the fourth row of electrical contacts 110, 120 and the third socket row 220 of electrical contacts 110, 120 are spaced apart by a third row pitch RP3, which is equal to or has the first row pitch Manufacturing tolerance of RP1. The first keying structure 270A is positioned adjacent to the first end wall 262A of the socket housing 202 and adjacent to the mating side 214 of the socket housing 202. The second keying structure 270B is positioned adjacent to the second end wall 262B of the socket housing 202 and adjacent to the mating side 214 of the socket housing 202. The first keying structure 270A and the second keying structure 270B may be positioned asymmetrically about the longitudinal centerline CL and the intermediate centerline ML. The first keying structure 270A and the second keying structure 270B may be offset relative to each other along the middle center line ML.

第一鍵控結構270C及第二鍵控結構270D中之每一者可為各別第一凹部272C及第二凹部272D,其中至少三個側面或表面由插座連接器200B及兩個平行的間隔開的第一端壁262A及第二端壁262B之各別部分界定。至少三邊的第一凹部272C及第二凹部272D中之每一者可由第一側壁、線或表面274A,(可與第一側壁274A垂直相交之)第二側壁、線或表面276A及(與第二側壁276A相交之傾斜的)側壁、線或表面278A界定,或包括第一側壁、線或表面274A,(可與第一側壁274A垂直相交之)第二側壁、線或表面276A及(與第二側壁276A相交之傾斜的)傾斜側壁、線或表面278A。第四側壁、線或表面282可與傾斜側壁、線或表面278A相交。第五側壁、線或表面284可與第一側壁、線或表面274A及第 四側壁、線或表面282相交。第一鍵控結構270C及第二鍵控結構270D中之每一者(其可為凹部)可經組態以接納配合插頭連接器之對應第一鍵控結構或第二鍵控結構(其可為支柱)。 Each of the first keying structure 270C and the second keying structure 270D can be a respective first recess 272C and a second recess 272D, in which at least three sides or surfaces are spaced by the socket connector 200B and two parallel The opened first end wall 262A and the second end wall 262B are respectively defined by separate parts. At least three sides of each of the first recess 272C and the second recess 272D can be formed by the first side wall, line or surface 274A, (which can be perpendicular to the first side wall 274A) the second side wall, line or surface 276A and (and The inclined) side wall, line or surface 278A where the second side wall 276A intersects is defined or includes the first side wall, line or surface 274A, (which may intersect the first side wall 274A perpendicularly) the second side wall, line or surface 276A and (and The inclined side wall, line or surface 278A where the second side wall 276A intersects. The fourth side wall, line or surface 282 may intersect the inclined side wall, line or surface 278A. The fifth side wall, line or surface 284 may be connected to the first side wall, line or surface 274A and the first side wall, line or surface 274A and the The four side walls, lines or surfaces 282 intersect. Each of the first keying structure 270C and the second keying structure 270D (which may be a recess) can be configured to receive the corresponding first keying structure or the second keying structure (which may be a mating plug connector) As the pillar).

在插座殼體202B之一側上,鄰近於第二端壁262D,傾斜側壁278A可鄰接中心線CL,與中心線CL間隔開,或穿過中心線CL。在插座殼體202B之相對側上,鄰近於第一端壁262C,第一側壁274A可鄰接中心線CL,與中心線CL重合,與中心線CL平行,或經定位鄰近於中心線CL但與其間隔開。第一鍵控結構270C及第二鍵控結構270D可為完全相同形狀的,可為關於垂直於中心線CL且跨越插座列204B、210B、220B、206B之中心線的鏡像,或可為偏移鏡像。 On one side of the socket housing 202B, adjacent to the second end wall 262D, the inclined side wall 278A may abut the center line CL, be spaced from the center line CL, or pass through the center line CL. On the opposite side of the socket housing 202B, adjacent to the first end wall 262C, the first side wall 274A may abut the centerline CL, coincide with the centerline CL, and be parallel to the centerline CL, or be positioned adjacent to the centerline CL but with respect to the centerline CL. Spaced apart. The first keying structure 270C and the second keying structure 270D can be exactly the same shape, can be a mirror image about the center line perpendicular to the center line CL and across the center lines of the socket rows 204B, 210B, 220B, 206B, or can be offset Mirror.

如圖14中所展示,安裝接點場MF可具有大約6.8±1mm之寬度,且可具有大約62.8±1mm之接點場長度MFL,獲得介於大約427.04mm2與大約440.22mm2之間的近似總接點面積,包括這些面積及其之間的任何面積。四百個單獨的電接點可接合在此等面積內。插座連接器200B之第一列間距RP1、第二列間距RP2及第三列間距RP3可分別為大約2.1至2.3mm,大約2.3至2.5mm及約2.1至2.3mm。例如,第一列間距RP1、第二列間距RP2及第三列間距RP3可分別為2.2±0.05mm、2.4±0.05mm及2.2±0.05mm。第一列間距RP1為第一插座列204A與第二插座列210A之中心線之間的距離。第二列間距RP2為第二插座列210A與第三插座列220A之中心線之間的距離。第三列間距RP3為第三插座列220A與第四插座列206A之間的距離。第一對準栓釘280A及第二對準栓釘280B之各別中心與沿著插座連接器200B之長度的中心線CL之間的距離可為大約1.2±0.1mm。圓形對準栓釘之直徑及橢圓形對準栓釘之較大直徑可為大約0.6±0.1mm至0.8±0.1mm。橢圓形第二對準栓釘280B之較小直徑可為大約0.5±0.1mm至0.7±0.1mm。 As shown in FIG. 14, the mounting contact field MF may have a width of about 6.8±1mm, and may have a contact field length MFL of about 62.8±1mm, obtaining a value between about 427.04mm 2 and about 440.22mm 2 Approximate total contact area, including these areas and any areas in between. Four hundred individual electrical contacts can be joined in these same areas. The first row pitch RP1, the second row pitch RP2, and the third row pitch RP3 of the socket connector 200B may be about 2.1 to 2.3 mm, about 2.3 to 2.5 mm, and about 2.1 to 2.3 mm, respectively. For example, the first row pitch RP1, the second row pitch RP2, and the third row pitch RP3 may be 2.2±0.05 mm, 2.4±0.05 mm, and 2.2±0.05 mm, respectively. The first row pitch RP1 is the distance between the center lines of the first socket row 204A and the second socket row 210A. The second row pitch RP2 is the distance between the center lines of the second socket row 210A and the third socket row 220A. The third row pitch RP3 is the distance between the third socket row 220A and the fourth socket row 206A. The distance between the respective centers of the first alignment peg 280A and the second alignment peg 280B and the center line CL along the length of the socket connector 200B may be about 1.2±0.1 mm. The diameter of the circular alignment stud and the larger diameter of the oval alignment stud can be about 0.6±0.1mm to 0.8±0.1mm. The smaller diameter of the oval second alignment peg 280B may be about 0.5±0.1 mm to 0.7±0.1 mm.

如圖15中所展示,自插座殼體202B之插座配合側208B至諸如焊球之可熔構件230之底表面,量測的插座連接器200B之插座高度RH可介於大約 3.7±0.1mm之間。連接器墊高部之底部與鄰近對準栓釘之底部之間的墊高部距離SD可為大約0.74±0.05mm。 As shown in FIG. 15, from the socket mating side 208B of the socket housing 202B to the bottom surface of the fusible member 230 such as solder balls, the socket height RH of the socket connector 200B measured can be approximately Between 3.7±0.1mm. The distance SD between the bottom of the raised portion of the connector and the bottom of the adjacent alignment pin may be about 0.74±0.05 mm.

圖16及圖17說明本新型之具體實例之例示性插頭連接器300A。如圖16中所展示,插頭連接器300A可具有插頭殼體302A或連接器殼體,其界定兩個平行的間隔開的縱向壁(諸如第一縱向插頭壁360A及第二縱向插頭壁360B)以及兩個平行的間隔開的端壁(諸如第一插頭端壁362A及第二插頭端壁362B)。兩個平行的間隔開的第一插頭端壁362A及第二插頭端壁362B之長度短於兩個平行的間隔開的第一縱向插頭壁360A及第二縱向插頭壁360B。中心線CL延伸穿過兩個平行的間隔開的插頭端壁362A、362B,平行於兩個平行的間隔開的縱向插頭壁360A、360B。插頭連接器300A可包括電插頭接點308A之第一插頭列304A、第二插頭列310A、第三插頭列320A及第四插頭列306A,該些電插頭接點經組態以與圖13至圖15中所展示之插座連接器200B配合。圖16的俯視透視圖展示插頭連接器300A可包括背對背電插頭接點308A之第一插頭列304A及第二插頭列310A,該些背對背電插頭接點由鄰近於插頭殼體302A之配合界面的插頭肋狀物350A承載。插頭連接器300A可進一步包括背對背電插頭接點308A之第三插頭列320A及第四插頭列306A,該些背對背電插頭接點由鄰近於插頭殼體302A之配合界面的插頭肋狀物350A承載。電插頭接點308A之第一插頭列304A可經定位緊鄰於電插頭接點308A之第二插頭列310A。電插頭接點308A之第三插頭列320A經定位鄰近於電插頭接點308A之第二插頭列310A。電插頭接點308A之第四插頭列306A經定位鄰近於電插頭接點308A之第三插頭列320A。 16 and 17 illustrate an exemplary plug connector 300A of a specific example of the present invention. As shown in FIG. 16, the plug connector 300A may have a plug housing 302A or a connector housing that defines two parallel spaced apart longitudinal walls (such as a first longitudinal plug wall 360A and a second longitudinal plug wall 360B) And two parallel spaced-apart end walls (such as a first plug end wall 362A and a second plug end wall 362B). The length of the two parallel spaced apart first plug end wall 362A and the second plug end wall 362B is shorter than the two parallel spaced apart first longitudinal plug wall 360A and the second longitudinal plug wall 360B. The centerline CL extends through the two parallel spaced apart plug end walls 362A, 362B, and is parallel to the two parallel spaced apart longitudinal plug walls 360A, 360B. The plug connector 300A may include a first plug row 304A, a second plug row 310A, a third plug row 320A, and a fourth plug row 306A of the electrical plug contacts 308A. The electrical plug contacts are configured to be in accordance with FIGS. 13 to 13 to The receptacle connector 200B shown in FIG. 15 is mated. The top perspective view of FIG. 16 shows that the plug connector 300A may include a first plug row 304A and a second plug row 310A of back-to-back electrical plug contacts 308A. The plug rib 350A carries. The plug connector 300A may further include a third plug row 320A and a fourth plug row 306A of back-to-back electrical plug contacts 308A, which are carried by the plug ribs 350A adjacent to the mating interface of the plug housing 302A . The first plug row 304A of the electrical plug contact 308A may be positioned next to the second plug row 310A of the electrical plug contact 308A. The third plug row 320A of the electrical plug contact 308A is positioned adjacent to the second plug row 310A of the electrical plug contact 308A. The fourth plug row 306A of the electrical plug contact 308A is positioned adjacent to the third plug row 320A of the electrical plug contact 308A.

插頭肋狀物350A可經間隔開,彼此平行地定位,且沿第一方向自第一插頭端壁362A延伸至第二插頭端壁362B。圖16亦展示插頭肋狀物350A及配合端116C突出超過插頭殼體302A,因此其延伸至由圖13至圖15中所展示之插座連接器200B界定之凹部中並與其配合。 The plug ribs 350A may be spaced apart, positioned parallel to each other, and extend from the first plug end wall 362A to the second plug end wall 362B in the first direction. FIG. 16 also shows that the plug rib 350A and the mating end 116C protrude beyond the plug housing 302A so that it extends into the recess defined by the receptacle connector 200B shown in FIGS. 13-15 and mates with it.

插頭連接器300A配合界面314可包括至少兩個鍵控結構,諸如第一插頭鍵控結構370A及第二插頭鍵控結構370B。第一插頭鍵控結構370A可位於中心線CL之一側上,可鄰接中心線CL,或可與中心線CL相交,使得中心線CL穿過第一插頭鍵控結構370A之至少一部分但不平分總有界區域。與第一插頭鍵控結構370A相比,第二插頭鍵控結構370B可經定位於插頭連接器300A之配合界面處,位於中心線CL之相對側上,且可鄰接中心線CL或可與中心線CL相交,使得中心線CL穿過第二插頭鍵控結構370B之至少一部分,但不平分總有界區域。第一插頭鍵控結構370A及第二插頭鍵控結構370B中之一個可部分地與電插頭接點308A之第三插頭列320A沿著同一線放置,但不沿著電插頭接點308A之第一插頭列304A、第二插頭列310A及第三插頭列320A之線置放。其餘第一插頭鍵控結構370A及第二插頭鍵控結構370B中之一個可部分地與電接點之第二插頭列310A沿著同一線放置,但不沿著電接點之第一插頭列304A、第三插頭列320A及第四插頭列306A之線置放。 The mating interface 314 of the plug connector 300A may include at least two keying structures, such as a first plug keying structure 370A and a second plug keying structure 370B. The first plug keying structure 370A may be located on one side of the center line CL, may be adjacent to the center line CL, or may intersect the center line CL such that the center line CL passes through at least a part of the first plug keying structure 370A but is not equally divided There is always a bounded area. Compared with the first plug keying structure 370A, the second plug keying structure 370B can be positioned at the mating interface of the plug connector 300A, on the opposite side of the center line CL, and can be adjacent to the center line CL or can be in contact with the center line CL. The lines CL intersect so that the center line CL passes through at least a portion of the second plug keying structure 370B, but does not equally divide the always bounded area. One of the first plug keying structure 370A and the second plug keying structure 370B can be partially placed along the same line as the third plug row 320A of the electrical plug contact 308A, but not along the first plug contact 308A. The cords of a plug row 304A, a second plug row 310A, and a third plug row 320A are placed. One of the remaining first plug keying structure 370A and second plug keying structure 370B can be partially placed along the same line as the second plug row 310A of the electrical contacts, but not along the first plug row of the electrical contacts 304A, the third plug row 320A, and the fourth plug row 306A are placed.

第一插頭鍵控結構370A及第二插頭鍵控結構370B中之每一者可為由插頭殼體302A界定之各別突出部或經定位鄰近於插頭殼體302A。第一插頭鍵控結構及第二插頭鍵控結構中之每一者可界定三個或多於三個側面且可包括第一插頭側壁、線或表面374,(可與第一插頭側壁374垂直相交之)第二插頭側壁、線或表面376,(與第二插頭側壁376相交之)傾斜插頭側壁、線或表面378,以及(可與傾斜插頭側壁、線或表面378及第一插頭側壁、線或表面374相交之)第四插頭側壁、線或表面380。第一插頭鍵控結構370A及第二插頭鍵控結構370B中之每一者經組態以接納對應第一鍵控結構270A、270C或第二鍵控結構270B、270D(其可為配合插座連接器200、200A、200B之凹部或空腔)。第五插頭側壁、線或表面382可經定位於傾斜插頭側壁、線或表面378與第四插頭側壁、線或表面380之間。 Each of the first plug keying structure 370A and the second plug keying structure 370B may be a separate protrusion defined by the plug housing 302A or be positioned adjacent to the plug housing 302A. Each of the first plug keying structure and the second plug keying structure may define three or more sides and may include a first plug side wall, line or surface 374, (may be perpendicular to the first plug side wall 374 Intersecting) the second plug side wall, line or surface 376, (intersecting with the second plug side wall 376) slanted plug side wall, line or surface 378, and (which can be combined with the slanted plug side wall, line or surface 378 and the first plug side wall, (The line or surface 374 intersects) the fourth plug side wall, line or surface 380. Each of the first plug keying structure 370A and the second plug keying structure 370B is configured to receive the corresponding first keying structure 270A, 270C or the second keying structure 270B, 270D (which can be a mating socket connection The recesses or cavities of the devices 200, 200A, and 200B). The fifth plug side wall, wire or surface 382 may be positioned between the inclined plug side wall, wire or surface 378 and the fourth plug side wall, wire or surface 380.

在插頭連接器300A之一側上,鄰近於第一插頭端壁362A,傾斜插頭側壁378可鄰接中心線CL,與中心線CL間隔開,或穿過中心線CL。在插頭連接器300A之相對側上,鄰近於第二插頭端壁362B,第一插頭側壁374可鄰接中心線CL,可與中心線CL重合,可與中心線CL平行,或可經定位鄰近於中心線CL但與其間隔開。第一插頭鍵控結構370A及第二插頭鍵控結構370B可各自為完全相同形狀的,可經定位為關於垂直於中心線CL且跨越第一插頭列304A、第二插頭列310A、第三插頭列320A及第二插頭列306A之中心線的鏡像,或可經定位為偏移鏡像,如所展示。 On one side of the plug connector 300A, adjacent to the first plug end wall 362A, the inclined plug side wall 378 may abut the center line CL, be spaced from the center line CL, or pass through the center line CL. On the opposite side of the plug connector 300A, adjacent to the second plug end wall 362B, the first plug side wall 374 may abut the centerline CL, may coincide with the centerline CL, may be parallel to the centerline CL, or may be positioned adjacent to The center line CL is spaced apart from it. The first plug keying structure 370A and the second plug keying structure 370B can each have exactly the same shape, and can be positioned so as to be perpendicular to the center line CL and straddle the first plug row 304A, the second plug row 310A, and the third plug row. The mirror image of the center line of the row 320A and the second plug row 306A, or may be positioned as an offset mirror image, as shown.

圖17為插頭連接器300A的仰視透視圖。可熔構件(圖17中未展示)可以任何合適的方式附接至電插頭接點308A。插頭連接器300A可包括插頭墊高部301。插頭墊高部301可位於插頭殼體302A的四個拐角處。可使用任何數目及任何位置之插頭墊高部301。當可熔構件(未展示)回焊以將插頭連接器300A連接至基板時,插頭墊高部301有助於確保插頭連接器300A與基板之安裝表面間隔開固定距離。插頭連接器300A可包括第一插頭對準栓釘384A及第二插頭對準栓釘384B,該些插頭對準栓釘經組態以容納在預先鑽孔之對準孔中,以使插頭連接器300A之可熔元件與基板之安裝表面上之對應焊墊大致對準。圖17展示兩個插頭對準栓釘,但可使用任何數目的插頭對準栓釘384A、384B。第一插頭對準栓釘384A及第二插頭對準栓釘384B可具有任何合適的形狀,包括例如圓形、橢圓形、方形等。第一插頭對準栓釘384A及第二插頭對準栓釘384B的形狀可為相同的或不同的。所有第一插頭對準栓釘384A及第二插頭對準栓釘384B可經定位於中心線CL之同一側上,使得所有第一插頭對準栓釘384A及第二插頭對準栓釘384B以及第一插頭鍵控結構370A及第二插頭鍵控結構370B中之一者皆經定位於中心線CL之同一側上。至少兩個對準栓釘可與電插頭接點308A之第二插頭列310A及電插頭接點308A之第三插頭列320A中之一者位於同一線上。插座連接 器200、200A、200B及插頭連接器300、300A之配合高度可為大約10±1mm。插頭連接器300、300A及插座連接器200、200A、200B兩者皆可包括開放式插腳片接點。 FIG. 17 is a bottom perspective view of the plug connector 300A. The fusible member (not shown in Figure 17) may be attached to the electrical plug contact 308A in any suitable manner. The plug connector 300A may include a plug bumper 301. The plug bumper 301 may be located at the four corners of the plug housing 302A. Any number and any position of the plug booster 301 can be used. When the fusible member (not shown) is reflowed to connect the plug connector 300A to the substrate, the plug bumper 301 helps to ensure that the plug connector 300A is separated from the mounting surface of the substrate by a fixed distance. The plug connector 300A may include a first plug alignment peg 384A and a second plug alignment peg 384B. The plug alignment pegs are configured to be received in pre-drilled alignment holes to connect the plug The fusible element of the device 300A is approximately aligned with the corresponding pad on the mounting surface of the substrate. Figure 17 shows two plug alignment pegs, but any number of plug alignment pegs 384A, 384B can be used. The first plug alignment peg 384A and the second plug alignment peg 384B can have any suitable shape, including, for example, a circle, an oval, a square, and the like. The shapes of the first plug alignment peg 384A and the second plug alignment peg 384B may be the same or different. All the first plug alignment pegs 384A and the second plug alignment pegs 384B can be positioned on the same side of the center line CL, so that all the first plug alignment pegs 384A and the second plug alignment pegs 384B and One of the first plug keying structure 370A and the second plug keying structure 370B is positioned on the same side of the center line CL. The at least two alignment pins may be on the same line as one of the second plug row 310A of the electrical plug contact 308A and the third plug row 320A of the electrical plug contact 308A. Socket connection The mating height of the connectors 200, 200A, 200B and the plug connectors 300, 300A may be about 10±1mm. Both the plug connectors 300, 300A and the receptacle connectors 200, 200A, and 200B may include open pin contacts.

圖18展示本新型之具體實例之例示性插頭連接器300B。圖19中所展示之插頭連接器300B類似於圖16及圖17中所展示之插頭連接器300A。一個不同之處在於,圖19中所展示之第一插頭鍵控結構370C與第三插頭列320B位於同一線上,且圖16中所展示之第一插頭鍵控結構370A與第三插頭列320A沿著同一線置放。另一不同之處在於圖19中所展示之第二插頭鍵控結構370D與第三插頭列320B位於於同一直線上,而圖16中所展示之第二插頭鍵控結構370B與第二插頭列310A沿著同一線置放。 FIG. 18 shows an exemplary plug connector 300B of a specific example of the present invention. The plug connector 300B shown in FIG. 19 is similar to the plug connector 300A shown in FIGS. 16 and 17. One difference is that the first plug keying structure 370C shown in FIG. 19 and the third plug row 320B are on the same line, and the first plug keying structure 370A shown in FIG. 16 and the third plug row 320A are along the same line. Placed along the same line. Another difference is that the second plug keying structure 370D shown in FIG. 19 and the third plug row 320B are located on the same line, while the second plug keying structure 370B shown in FIG. 16 and the second plug row 310A is placed along the same line.

圖19展示兩個第一電插頭接點308B及兩個第二電插頭接點308C,以及任何插頭連接器300、300A、300B。插頭殼體302、302A包括芯118C及凹部104A,第一電插頭接點308B及第二電插頭接點308C可自插頭殼體302、302A之安裝側386釘合至該些凹部中。插頭固定結構388、390可在不同高度處嚙合插頭殼體302、302A。另外,第一電插頭接點308B可包括凹陷392、394,其與鄰近第一或第二電插頭接點308B、308C之插頭固定結構388、390相對。可熔元件330、340可附接至第一電插頭接點308B或第二電插頭接點308C之安裝端。 Figure 19 shows two first electrical plug contacts 308B and two second electrical plug contacts 308C, as well as any plug connectors 300, 300A, 300B. The plug housings 302 and 302A include a core 118C and recesses 104A. The first electrical plug contact 308B and the second electrical plug contact 308C can be nailed into the recesses from the mounting side 386 of the plug housings 302 and 302A. The plug fixing structures 388, 390 can engage the plug housings 302, 302A at different heights. In addition, the first electrical plug contact 308B may include recesses 392 and 394 opposite to the plug fixing structures 388 and 390 adjacent to the first or second electrical plug contact 308B, 308C. The fusible elements 330 and 340 can be attached to the mounting end of the first electrical plug contact 308B or the second electrical plug contact 308C.

如圖20中所展示,插頭連接器300、300A、300B之插頭高度PH,自插頭連接器300、300A、300B之頂表面至諸如焊球之可熔元件330之底表面量測,可介於大約8.4±0.5mm之間。 As shown in Figure 20, the plug height PH of the plug connectors 300, 300A, and 300B is measured from the top surface of the plug connectors 300, 300A, and 300B to the bottom surface of the fusible element 330 such as solder balls, which can be between Between about 8.4±0.5mm.

如圖21中所展示,插座連接器405可具有插座殼體406,該插座殼體界定兩個平行的間隔開的縱向壁(諸如第一縱向壁407A及第二縱向壁407B)以及兩個平行的間隔開的端壁(諸如第一端壁409A及第二端壁409B)。兩個平行的間隔開的第一端壁409A及第二端壁409B之長度短於兩個平行的間隔開的第一 縱向壁407A及第二縱向壁407B。中心線CL延伸穿過兩個平行的間隔開的第一端壁409A及第二端壁409B,平行於兩個平行的間隔開的第一縱向壁407A及第二縱向壁407B。插座連接器405或插座殼體406之配合界面可包括第一鍵控結構410A及第二鍵控結構410B。第一鍵控結構410A位於中心線CL之一側上,且可鄰接中心線CL或與中心線CL相交,使得中心線CL穿過第一鍵控結構410A之至少一部分但不平分總有界區域或周長。與第一鍵控結構410A相比,第二鍵控結構410B可經定位於插座殼體406之配合界面處,位於中心線CL之相對側上,且可鄰接中心線CL或可與中心線CL相交,使得中心線CL穿過第二鍵控結構410B之至少一部分,但不平分總有界區域或周長。 As shown in FIG. 21, the socket connector 405 may have a socket housing 406 that defines two parallel spaced apart longitudinal walls (such as a first longitudinal wall 407A and a second longitudinal wall 407B) and two parallel Of spaced-apart end walls (such as first end wall 409A and second end wall 409B). The length of the two parallel spaced-apart first end walls 409A and the second end wall 409B is shorter than that of the two parallel spaced-apart first end walls. The longitudinal wall 407A and the second longitudinal wall 407B. The centerline CL extends through two parallel spaced apart first end walls 409A and second end wall 409B, and parallel to two parallel spaced apart first longitudinal walls 407A and second longitudinal walls 407B. The mating interface of the socket connector 405 or the socket housing 406 may include a first keying structure 410A and a second keying structure 410B. The first keying structure 410A is located on one side of the center line CL, and can be adjacent to the center line CL or intersect with the center line CL, so that the center line CL passes through at least a part of the first keying structure 410A but does not equally divide the always bounded area Or perimeter. Compared with the first keying structure 410A, the second keying structure 410B can be positioned at the mating interface of the socket housing 406, on the opposite side of the center line CL, and can be adjacent to the center line CL or can be aligned with the center line CL Intersect so that the center line CL passes through at least a part of the second keying structure 410B, but does not equally divide the total bounded area or perimeter.

第一鍵控結構410A及第二鍵控結構410B中之每一者可為各別第一凹部408A及第二凹部408B,其中至少三個壁側或表面及總計四個或五個側面或表面由插座殼體406及兩個平行的間隔開的第一端壁409A及第二端壁409B之各別部分界定。第一凹部408A及第二凹部408B中之每一者可具有由第一側壁、線或表面412A,第二側壁、線或表面414B,傾斜側壁、線或表面416,第四側壁、線或表面412B,以及第五側壁、線或表面414A界定之有界區域或周長。應理解,關於第一鍵控結構410A及第二鍵控結構410B,「壁」亦可包括線、表面或部分壁。第一側壁412A及第四側壁412B可彼此平行。第二側壁414B及第五側壁414A可彼此平行。第一側壁412A及第二側壁414B可相交以形成直角。傾斜側壁416可與第二側壁414B相交。第四側壁412B可平行於第一側壁412A且可與傾斜側壁416相交。第五側壁414A可平行於第二側壁414B且可與第一側壁412A及第四側壁412B相交。第二側壁414B之長度可短於第一側壁412A及第五側壁414A。第四側壁412B之長度可為最短側壁。可為凹部之第一鍵控結構410A及第二鍵控結構410B中之每一者經組態以接納圖24中所展示之對應的第一插頭鍵控結構510A或第二插頭鍵控結構510B,其可為由插頭殼體505界定或經定位鄰近於插頭殼體505的 支柱或第一突出部508A或第二突出部508B。例如,插座連接器405之第一鍵控結構410A可接納插頭殼體505之第二插頭鍵控結構510B,且插座殼體406之第二鍵控結構410B接納插頭殼體505之第一插頭鍵控結構510A。 Each of the first keying structure 410A and the second keying structure 410B may be a respective first recess 408A and a second recess 408B, wherein at least three wall sides or surfaces and a total of four or five sides or surfaces It is defined by the socket housing 406 and two parallel and spaced apart first end walls 409A and second end walls 409B. Each of the first recess 408A and the second recess 408B may have a first side wall, line or surface 412A, a second side wall, line or surface 414B, an inclined side wall, line or surface 416, and a fourth side wall, line or surface. 412B, and the bounded area or perimeter defined by the fifth side wall, line or surface 414A. It should be understood that with regard to the first keying structure 410A and the second keying structure 410B, the “wall” may also include a line, a surface, or a partial wall. The first side wall 412A and the fourth side wall 412B may be parallel to each other. The second side wall 414B and the fifth side wall 414A may be parallel to each other. The first side wall 412A and the second side wall 414B may intersect to form a right angle. The inclined side wall 416 may intersect the second side wall 414B. The fourth side wall 412B may be parallel to the first side wall 412A and may intersect the inclined side wall 416. The fifth side wall 414A may be parallel to the second side wall 414B and may intersect the first side wall 412A and the fourth side wall 412B. The length of the second side wall 414B may be shorter than that of the first side wall 412A and the fifth side wall 414A. The length of the fourth side wall 412B may be the shortest side wall. Each of the first keying structure 410A and the second keying structure 410B, which can be a recess, is configured to receive the corresponding first plug keying structure 510A or second plug keying structure 510B shown in FIG. 24 , Which can be defined by the plug housing 505 or positioned adjacent to the plug housing 505 The pillar or the first protrusion 508A or the second protrusion 508B. For example, the first keying structure 410A of the socket connector 405 can receive the second plug keying structure 510B of the plug housing 505, and the second keying structure 410B of the socket housing 406 can receive the first plug key of the plug housing 505控结构510A.

插座連接器405或插座殼體406可包括電接點110、110A、120之四個平行的經間隔開插座列420、422、424、426。電接點110、110A、120之第一插座列420及電接點110、110A、120之第四插座列426沿著插座殼體406之各別第一縱向壁407A及第二縱向壁407B的內側延伸。電接點110、110A、120之第二插座列422及電接點110、110A、120之第三插座列424沿著內部肋狀物428背對背地延伸,內部肋狀物428自插座連接器405或插座殼體406之中間向下端對端地延伸。儘管插座連接器405經展示為具有四個平行的間隔開的無屏蔽列,但可使用電接點110、110A、120之任何數目個列。插座連接器405之電接點110、110A、120可自兩個方向釘合,如關於圖4至圖8所描述。插座連接器405可無串擾屏蔽及磁性吸收有損耗材料中之任何者,或可包括任何數目個串擾屏蔽或導電或非導電磁性吸收有損耗材料。諸如焊球之可熔元件可附接至電接點110、110A、120中之各別電接點。電接點110、110A、120亦可以壓入配合插腳、針眼、J形引線或其他組態端接。 The socket connector 405 or the socket housing 406 may include four parallel spaced apart socket rows 420, 422, 424, 426 of the electrical contacts 110, 110A, 120. The first socket row 420 of the electrical contacts 110, 110A, 120 and the fourth socket row 426 of the electrical contacts 110, 110A, 120 are along the respective first longitudinal wall 407A and the second longitudinal wall 407B of the socket housing 406 Extend inside. The second socket row 422 of the electrical contacts 110, 110A, 120 and the third socket row 424 of the electrical contacts 110, 110A, 120 extend back to back along the inner rib 428, which extends from the socket connector 405 Or the middle of the socket housing 406 extends end-to-end downward. Although the receptacle connector 405 is shown as having four parallel spaced, unshielded rows, any number of rows of electrical contacts 110, 110A, 120 may be used. The electrical contacts 110, 110A, and 120 of the socket connector 405 can be nailed from two directions, as described in relation to FIGS. 4 to 8. The receptacle connector 405 may be any of crosstalk-free shielding and magnetically absorbing lossy materials, or may include any number of crosstalk shielding or conductive or non-conductive magnetically absorbing lossy materials. Fusible elements such as solder balls can be attached to individual electrical contacts 110, 110A, 120. The electrical contacts 110, 110A, 120 can also be press-fitted with pins, eyelets, J-shaped leads, or other configuration terminations.

在插座連接器405或插座殼體406之鄰近於第一端壁409A之一側上,第四側壁412B可鄰接中心線CL,與中心線CL重合或經定位鄰近於中心線CL,但與中心線CL間隔開。第一側壁412A可經定位平行於中心線CL並與其間隔開。在插座連接器405或插座殼體406之鄰近於第二端壁409B之相對側上,第一側壁412A可鄰接中心線CL,與中心線CL重合或經定位鄰近於中心線CL,但與中心線CL間隔開。第四側壁412B可經定位平行於中心線CL並與其間隔開。第一鍵控結構410A及第二鍵控結構410B可為完全相同形狀的。第二鍵控結構410B可為第一鍵控結構410A相對於垂直於中心線CL之中間中心線ML的鏡像。 On the side of the socket connector 405 or the socket housing 406 adjacent to the first end wall 409A, the fourth side wall 412B may be adjacent to the center line CL, coincide with the center line CL or be positioned adjacent to the center line CL, but with the center The lines CL are spaced apart. The first side wall 412A may be positioned parallel to and spaced apart from the centerline CL. On the opposite side of the socket connector 405 or socket housing 406 adjacent to the second end wall 409B, the first side wall 412A may be adjacent to the center line CL, coincide with the center line CL or be positioned adjacent to the center line CL, but with the center The lines CL are spaced apart. The fourth side wall 412B may be positioned parallel to and spaced apart from the center line CL. The first keying structure 410A and the second keying structure 410B may have exactly the same shape. The second keying structure 410B may be a mirror image of the first keying structure 410A with respect to the middle center line ML perpendicular to the center line CL.

如圖22中所展示,插座連接器405之安裝界面可包括第一對準栓釘401及第二對準栓釘402。中心線CL可穿過第一對準栓釘401,且第一對準栓釘401可具有中心線CL穿過之中心點CP。第二對準栓釘402可經定位於中心線CL之任一側上,使得中心線CL不與第二對準栓釘402相交。在一個具體實例中,第二對準栓釘402可完全或部分地經定位於第一鍵控結構410A下方。第一對準栓釘401可完全或部分地經定位於第二鍵控結構410B下方。電接點110、110A、120之第二對準栓釘402及第二插座列422皆可沿著與中心線CL平行且間隔開之中心線CL2置放,使得中心線CL2穿過電接點110、110A、120之第二插座列422及第二對準栓釘402。第一對準栓釘401可具有直徑大約為0.8±0.05mm之圓形,且第二對準栓釘402可具有直徑大約為0.8±0.05mm及0.6±0.05mm的橢圓形。第一對準栓釘401可經定位鄰近於插座殼體406或連接器殼體之第一端壁409A且鄰近於插座殼體406之安裝界面430。第二對準栓釘402可經定位鄰近於插座殼體406之第二端壁409B且鄰近於插座殼體406之安裝界面430。第一對準栓釘401及第二對準栓釘402皆可經定位關於縱向中心線CL及中間中心線ML不對稱。第一插座列420與第二插座列422之各別電接點中心之間的第一列間距RP1可為大約2.2±0.005mm、2.2±0.1mm或2.2±0.05mm。第二插座列422及第三插座列424之各別電接點中心之間的第二列間距RP2可為大約2.4±0.005mm、2.4±0.1mm或2.4±0.05mm。第三插座列424及第四插座列426之各別電接點中心之間的第三列間距RP3可為大約2.2±0.005mm、2.2±0.1mm或2.2±0.05mm。 As shown in FIG. 22, the installation interface of the socket connector 405 may include a first alignment peg 401 and a second alignment peg 402. The center line CL may pass through the first alignment peg 401, and the first alignment peg 401 may have a center point CP through which the center line CL passes. The second alignment peg 402 may be positioned on either side of the centerline CL such that the centerline CL does not intersect the second alignment peg 402. In a specific example, the second alignment peg 402 may be fully or partially positioned below the first keying structure 410A. The first alignment peg 401 may be completely or partially positioned below the second keying structure 410B. The second alignment pins 402 and the second socket row 422 of the electrical contacts 110, 110A, 120 can be placed along the center line CL2 parallel to the center line CL and spaced apart, so that the center line CL2 passes through the electrical contacts The second socket row 422 of 110, 110A, 120 and the second alignment pin 402. The first alignment peg 401 may have a circular shape with a diameter of about 0.8±0.05 mm, and the second alignment peg 402 may have an oval shape with a diameter of about 0.8±0.05 mm and 0.6±0.05 mm. The first alignment peg 401 may be positioned adjacent to the socket housing 406 or the first end wall 409A of the connector housing and adjacent to the installation interface 430 of the socket housing 406. The second alignment peg 402 can be positioned adjacent to the second end wall 409B of the socket housing 406 and adjacent to the installation interface 430 of the socket housing 406. Both the first alignment peg 401 and the second alignment peg 402 can be positioned asymmetrically about the longitudinal centerline CL and the intermediate centerline ML. The first row spacing RP1 between the centers of the respective electrical contact points of the first socket row 420 and the second socket row 422 may be approximately 2.2±0.005mm, 2.2±0.1mm or 2.2±0.05mm. The second row spacing RP2 between the centers of the respective electrical contact points of the second socket row 422 and the third socket row 424 may be approximately 2.4±0.005mm, 2.4±0.1mm or 2.4±0.05mm. The third row pitch RP3 between the centers of the respective electrical contact points of the third socket row 424 and the fourth socket row 426 may be approximately 2.2±0.005mm, 2.2±0.1mm or 2.2±0.05mm.

圖23為圖21及圖22中所展示之插座連接器405的俯視透視圖。緊鄰電接點110、110A、120可在0.65±0.05中心線上間隔開。插座連接器405可承載四列一百個電接點中之400個電接點110、110A、120。 FIG. 23 is a top perspective view of the socket connector 405 shown in FIG. 21 and FIG. 22. The adjacent electrical contacts 110, 110A, 120 may be spaced apart on the center line of 0.65±0.05. The socket connector 405 can carry 400 electrical contacts 110, 110A, 120 out of four rows of one hundred electrical contacts.

圖24至圖26展示例示性插頭連接器500。如圖24中所展示,插頭殼體505或連接器殼體可由兩個平行的間隔開的縱向壁(諸如第一縱向插頭壁 507A及第二縱向插頭壁507B)以及兩個平行的間隔開的端壁(諸如第一插頭端壁509A及第二插頭端壁509B)界定。第一插頭端壁509A及第二插頭端壁509B之長度短於兩個第一縱向插頭壁507A及第二縱向插頭壁507B。縱向中心線CL3延伸穿過第一插頭端壁509A及第二插頭端壁509B,平行於第一縱向插頭壁507A及第二縱向插頭壁507B。插頭連接器500或插頭殼體505之配合界面可包括第一插頭鍵控結構510A及第二插頭鍵控結構510B。第一插頭鍵控結構510A可位於縱向中心線CL3之一側上,且可與縱向中心線CL3間隔開,可鄰接縱向中心線CL3,或可與縱向中心線CL3相交,使得縱向中心線CL3穿過第一插頭鍵控結構510A之至少一部分但不平分第一插頭鍵控結構510A之總有界區域或周長。與第一插頭鍵控結構510A相比,第二插頭鍵控結構510B可經定位於插頭連接器500或插頭殼體505之配合界面處,在縱向中心線CL3之相對側上,且可與縱向中心線CL3間隔開,鄰接縱向中心線CL3或與縱向中心線CL3相交,使得縱向中心線CL3穿過第二插頭鍵控結構510B之至少一部分,而不平分第二插頭鍵控結構510B之總有界區域或周長。 24 to 26 show an exemplary plug connector 500. As shown in FIG. As shown in Figure 24, the plug housing 505 or connector housing can be formed by two parallel spaced apart longitudinal walls (such as the first longitudinal plug wall 507A and the second longitudinal plug wall 507B) and two parallel spaced apart end walls (such as the first plug end wall 509A and the second plug end wall 509B) defined. The lengths of the first plug end wall 509A and the second plug end wall 509B are shorter than the two first longitudinal plug walls 507A and the second longitudinal plug wall 507B. The longitudinal centerline CL3 extends through the first plug end wall 509A and the second plug end wall 509B, and is parallel to the first longitudinal plug wall 507A and the second longitudinal plug wall 507B. The mating interface of the plug connector 500 or the plug housing 505 may include a first plug keying structure 510A and a second plug keying structure 510B. The first plug keying structure 510A may be located on one side of the longitudinal centerline CL3, and may be spaced apart from the longitudinal centerline CL3, may be adjacent to the longitudinal centerline CL3, or may intersect the longitudinal centerline CL3 so that the longitudinal centerline CL3 penetrates Pass at least a part of the first plug keying structure 510A but not evenly divide the total bounded area or perimeter of the first plug keying structure 510A. Compared with the first plug keying structure 510A, the second plug keying structure 510B can be positioned at the mating interface of the plug connector 500 or the plug housing 505, on the opposite side of the longitudinal centerline CL3, and can be aligned with the longitudinal centerline CL3. The center lines CL3 are spaced apart, adjacent to the longitudinal center line CL3 or intersecting with the longitudinal center line CL3, so that the longitudinal center line CL3 passes through at least a part of the second plug keying structure 510B, and does not equally divide the total of the second plug keying structure 510B Boundary area or perimeter.

插頭連接器500可包括電插頭接點308、308A、308B、308C之第一插頭列520,電插頭接點308、308A、308B、308C之第二插頭列522,電插頭接點308、308A、308B、308C之第三插頭列524及電插頭接點308、308A、308B、308C之第四插頭列526。插頭連接器500可包括由鄰近於插頭殼體505之配合界面之插頭肋狀物528承載之背對背電插頭接點308,308A,308B、308C之第一插頭列520及第二插頭列522。插頭連接器500可進一步包括由鄰近於插頭殼體505之配合界面之插頭肋狀物528承載之背對背電插頭接點308、308A、308B、308C之第三插頭列524及第四插頭列526。電插頭接點308、308A、308B、308C之第一插頭列520可經定位緊鄰於電插頭接點308、308A、308B、308C之第二插頭列522。電插頭接點308、308A、308B、308C之第三插頭列524可經定位鄰近於電插頭接 點308、308A、308B、308C之第二插頭列522。電插頭接點308、308A、308B、308C之第四插頭列526可經定位鄰近於電插頭接點308、308A、308B、308C之第三插頭列524。 The plug connector 500 may include a first plug row 520 of electrical plug contacts 308, 308A, 308B, 308C, a second plug row 522 of electrical plug contacts 308, 308A, 308B, 308C, and electrical plug contacts 308, 308A, The third plug row 524 of 308B and 308C and the fourth plug row 526 of the electrical plug contacts 308, 308A, 308B, 308C. The plug connector 500 may include a first plug row 520 and a second plug row 522 of back-to-back electrical plug contacts 308, 308A, 308B, 308C carried by a plug rib 528 adjacent to the mating interface of the plug housing 505. The plug connector 500 may further include a third plug row 524 and a fourth plug row 526 of back-to-back electrical plug contacts 308, 308A, 308B, 308C carried by a plug rib 528 adjacent to the mating interface of the plug housing 505. The first plug row 520 of the electrical plug contacts 308, 308A, 308B, 308C can be positioned next to the second plug row 522 of the electrical plug contacts 308, 308A, 308B, 308C. The third plug row 524 of the electrical plug contacts 308, 308A, 308B, 308C can be positioned adjacent to the electrical plug The second plug row 522 of points 308, 308A, 308B, 308C. The fourth plug row 526 of the electrical plug contacts 308, 308A, 308B, 308C may be positioned adjacent to the third plug row 524 of the electrical plug contacts 308, 308A, 308B, 308C.

插頭肋狀物528可經間隔開,可彼此平行地定位,且可沿自第一插頭端壁509A至第二插頭端壁509B之方向延伸。如圖26中所展示,配合界面518處之插頭肋狀物528及配合端116C可突出超過由插頭殼體505界定之階部,因此插頭肋狀物528及配合端116C延伸至由配合插座連接器界定之凹部中並在其內配合。 The plug ribs 528 can be spaced apart, can be positioned parallel to each other, and can extend in a direction from the first plug end wall 509A to the second plug end wall 509B. As shown in FIG. 26, the plug rib 528 and the mating end 116C at the mating interface 518 can protrude beyond the step defined by the plug housing 505, so the plug rib 528 and the mating end 116C extend to be connected by the mating socket And fit in the recess defined by the device.

再次參考圖24,插頭連接器500之配合界面518可包括至少兩個鍵控結構,諸如第一插頭鍵控結構510A及第二插頭鍵控結構510B。第一插頭鍵控結構510A可置放於縱向中心線CL3之一側上,可鄰接縱向中心線CL3,或可與縱向中心線CL3相交,使得縱向中心線CL3穿過第一插頭鍵控結構510A之至少一部分但不平分總有界區域。與第一插頭鍵控結構510A相比,第二插頭鍵控結構510B可經定位於插頭連接器500之配合界面518處,位於縱向中心線CL3之相對側上,且可鄰接縱向中心線CL3或與縱向中心線CL3相交,使得縱向中心線CL3穿過第二插頭鍵控結構510B之至少一部分,但不平分總有界區域。第一插頭鍵控結構510A可部分地與電插頭接點308、308A、308B、308C之第三插頭列524沿著同一線置放,但不沿著電插頭接點308、308A、308B、308C之第一插頭列520、第二插頭列522及第四插頭列526之線置放。第二插頭鍵控結構510B可部分地與電插頭接點308、308A、308B、308C之第二插頭列522沿著同一線置放,但不沿著電插頭接點308、308A、308B、308C之第一插頭列520、第三插頭列524及第四插頭列526之線置放。 Referring again to FIG. 24, the mating interface 518 of the plug connector 500 may include at least two keying structures, such as a first plug keying structure 510A and a second plug keying structure 510B. The first plug keying structure 510A may be placed on one side of the longitudinal centerline CL3, may be adjacent to the longitudinal centerline CL3, or may intersect the longitudinal centerline CL3, so that the longitudinal centerline CL3 passes through the first plug keying structure 510A At least part of it but not equally divided into the always bounded area. Compared with the first plug keying structure 510A, the second plug keying structure 510B can be positioned at the mating interface 518 of the plug connector 500, on the opposite side of the longitudinal centerline CL3, and can be adjacent to the longitudinal centerline CL3 or Intersect the longitudinal centerline CL3, so that the longitudinal centerline CL3 passes through at least a part of the second plug keying structure 510B, but does not equally divide the total bounded area. The first plug keying structure 510A can be partially placed along the same line as the third plug row 524 of the electrical plug contacts 308, 308A, 308B, 308C, but not along the electrical plug contacts 308, 308A, 308B, 308C The wires of the first plug row 520, the second plug row 522, and the fourth plug row 526 are placed. The second plug keying structure 510B can be partially placed along the same line as the second plug row 522 of the electrical plug contacts 308, 308A, 308B, 308C, but not along the electrical plug contacts 308, 308A, 308B, 308C The wires of the first plug row 520, the third plug row 524, and the fourth plug row 526 are placed.

第一插頭鍵控結構510A及第二插頭鍵控結構510B中之每一者可為由插頭殼體505界定或經定位鄰近於插頭殼體505之各別的第一突出部508A或 第二突出部508B。第一插頭鍵控結構510A及第二插頭鍵控結構510B中之每一者可界定三側或多於三側,且可包括第一插頭側壁、線或表面512A,(可與第一插頭側壁512A垂直相交之)第二插頭側壁、線或表面514B,(與第二插頭側壁514B相交之)傾斜插頭側壁、線或表面516,第四插頭側壁、線或表面512B及第五插頭側壁514A。第四插頭側壁、線或表面512B可與傾斜插頭側壁、線或表面516及第五插頭側壁、線或表面514A相交。第五插頭側壁、線或表面514A可與第四插頭側壁、線或表面512B及第一插頭側壁、線或表面512A相交。 Each of the first plug keying structure 510A and the second plug keying structure 510B may be a respective first protrusion 508A defined by the plug housing 505 or positioned adjacent to the plug housing 505 or The second protrusion 508B. Each of the first plug keying structure 510A and the second plug keying structure 510B can define three sides or more than three sides, and can include a first plug side wall, line or surface 512A, (which can be combined with the first plug side wall 512A perpendicularly intersects the second plug side wall, line or surface 514B, (intersects the second plug side wall 514B) the inclined plug side wall, line or surface 516, the fourth plug side wall, line or surface 512B and the fifth plug side wall 514A. The fourth plug side wall, line or surface 512B may intersect the inclined plug side wall, line or surface 516 and the fifth plug side wall, line or surface 514A. The fifth plug side wall, line or surface 514A may intersect the fourth plug side wall, line or surface 512B and the first plug side wall, line or surface 512A.

第一插頭鍵控結構510A及第二插頭鍵控結構510B中之每一者經組態以接納配合插座連接器200、200A、200B之對應的第一鍵控結構270A、270C或第二鍵控結構270B、270D。 Each of the first plug keying structure 510A and the second plug keying structure 510B is configured to receive the corresponding first keying structure 270A, 270C or the second keying of the mating socket connector 200, 200A, 200B Structure 270B, 270D.

在插頭連接器500或插頭殼體505之一側上,鄰近於第一插頭端壁509A,第一插頭側壁512A可鄰接縱向中心線CL3,可與縱向中心線CL3間隔開,或可穿過縱向中心線CL3。在插頭連接器500或插頭殼體505之鄰近於第二插頭端壁509B之相對側上,第四插頭側壁512B可鄰接縱向中心線CL3,可與縱向中心線CL3重合,可平行於縱向中心線CL3或可經定位鄰近於縱向中心線CL3,但與縱向中心線CL3間隔開。第一插頭鍵控結構510A及第二插頭鍵控結構510B可各自為完全相同形狀的,可經定位為關於垂直於縱向中心線CL3且跨越第一插頭列520,第二插頭列522,第三插頭列524及第四插頭列526之中心線ML的鏡像,或可經定位為關於中心線ML的偏移鏡像,如所展示。 On one side of the plug connector 500 or the plug housing 505, adjacent to the first plug end wall 509A, the first plug side wall 512A may abut the longitudinal centerline CL3, may be spaced apart from the longitudinal centerline CL3, or may pass through the longitudinal direction Centerline CL3. On the opposite side of the plug connector 500 or the plug housing 505 adjacent to the second plug end wall 509B, the fourth plug side wall 512B may be adjacent to the longitudinal centerline CL3, may coincide with the longitudinal centerline CL3, and may be parallel to the longitudinal centerline CL3 may alternatively be positioned adjacent to the longitudinal centerline CL3, but spaced apart from the longitudinal centerline CL3. The first plug keying structure 510A and the second plug keying structure 510B can each have exactly the same shape, and can be positioned about perpendicular to the longitudinal centerline CL3 and across the first plug row 520, the second plug row 522, and the third plug row 520. A mirror image of the center line ML of the plug row 524 and the fourth plug row 526, or may be positioned as an offset mirror image about the center line ML, as shown.

圖25為插頭連接器500A的仰視圖。未展示的可熔構件可以任何合適的方式附接至電插頭接點308、308A、308B、308C。替代地,電插頭接點308、308A、308B、308C可以J形引線、壓入配合插腳、針眼或其他合適的終端端接。插頭連接器500可包括插頭墊高部530。插頭墊高部301可位於插頭殼體505之四個拐角處。可使用任何數目及任何位置之插頭墊高部530。當可熔構件(未展示) 回焊以將插頭連接器500A連接至基板時,插頭墊高部530有助於確保插頭連接器500A與基板之安裝表面間隔開固定距離。插頭連接器500可包括第一插頭對準栓釘532及第二插頭對準栓釘534,該些插頭對準栓釘經組態以容納在預先鑽孔之對準孔中,以使插頭連接器500之可熔元件與基板之安裝表面上之對應焊墊大致對準。 FIG. 25 is a bottom view of the plug connector 500A. Fusible members not shown may be attached to the electrical plug contacts 308, 308A, 308B, 308C in any suitable manner. Alternatively, the electrical plug contacts 308, 308A, 308B, 308C may be terminated with J-shaped leads, press-fit pins, eyelets, or other suitable terminals. The plug connector 500 may include a plug bump 530. The plug bumper 301 can be located at the four corners of the plug housing 505. Any number and any position of the plug booster 530 can be used. When a fusible member (not shown) When reflowing to connect the plug connector 500A to the substrate, the plug bumper 530 helps to ensure that the plug connector 500A is separated from the mounting surface of the substrate by a fixed distance. The plug connector 500 may include a first plug alignment peg 532 and a second plug alignment peg 534. The plug alignment pegs are configured to be received in pre-drilled alignment holes to connect the plug The fusible element of the device 500 is approximately aligned with the corresponding pads on the mounting surface of the substrate.

圖25展示第一插頭對準栓釘532及第二插頭對準栓釘534,但可使用任何數目的插頭對準栓釘。第一插頭對準栓釘532及第二插頭對準栓釘534可具有任何合適的形狀,包括例如圓形、橢圓形、方形等。第一插頭對準栓釘532及第二插頭對準栓釘534的形狀可為相同的或不同的。所有第一插頭對準栓釘532及第二插頭對準栓釘534可經定位於縱向中心線CL3之同一側上,使得所有第一插頭對準栓釘532及第二插頭對準栓釘534、以及第一插頭鍵控結構510A及第二插頭鍵控結構510B中之一者皆經定位於縱向中心線CL3之同一側上。可經定位鄰近於第一插頭端壁509A之第一對準栓釘532可與電插頭接點308、308A至C之第三插頭列524位於同一線上。 Figure 25 shows a first plug alignment peg 532 and a second plug alignment peg 534, but any number of plug alignment pegs can be used. The first plug alignment peg 532 and the second plug alignment peg 534 may have any suitable shape, including, for example, a circular shape, an oval shape, a square shape, and the like. The shapes of the first plug alignment peg 532 and the second plug alignment peg 534 may be the same or different. All the first plug alignment pins 532 and the second plug alignment pins 534 can be positioned on the same side of the longitudinal centerline CL3, so that all the first plug alignment pins 532 and the second plug alignment pins 534 , And one of the first plug keying structure 510A and the second plug keying structure 510B are all positioned on the same side of the longitudinal centerline CL3. The first alignment peg 532 that can be positioned adjacent to the first plug end wall 509A can be on the same line as the third plug row 524 of the electrical plug contacts 308, 308A to C.

縱向中心線CL3可穿過第二插頭對準栓釘534,且第二插頭對準栓釘534可具有縱向中心線CL3穿過之中心點CP2。第一插頭對準栓釘532可經定位於縱向中心線CL3之任一側上,使得縱向中心線CL3不與第一插頭對準栓釘532相交。在一個具體實例中,第一插頭對準栓釘532可完全或部分地經定位於第一插頭鍵控結構510A之周長下方。第二插頭對準栓釘534可完全或部分地經定位於第二插頭鍵控結構510B之周長下方。第一插頭對準栓釘532及電插頭接點之第三插頭列皆可沿著中心線CL4放置,該中心線CL4平行於縱向中心線CL3且與縱向中心線CL3間隔開。 The longitudinal centerline CL3 may pass through the second plug alignment peg 534, and the second plug alignment peg 534 may have a center point CP2 through which the longitudinal centerline CL3 passes. The first plug alignment peg 532 may be positioned on either side of the longitudinal centerline CL3 so that the longitudinal centerline CL3 does not intersect the first plug alignment peg 532. In a specific example, the first plug alignment peg 532 may be completely or partially positioned below the perimeter of the first plug keying structure 510A. The second plug alignment peg 534 may be completely or partially positioned below the perimeter of the second plug keying structure 510B. Both the first plug alignment pin 532 and the third plug row of the electrical plug contacts can be placed along the centerline CL4, which is parallel to the longitudinal centerline CL3 and spaced apart from the longitudinal centerline CL3.

第二插頭對準栓釘534可與插頭連接器500之縱向中心線CL3對準,而第一插頭對準栓釘532可距插頭連接器500之縱向中心線CL3介於大約 1.2±0.05mm至大約1.3±0.05mm之間的距離。第一插頭對準栓釘532可具有直徑大約0.8±0.05mm之圓形形狀,且第二插頭對準栓釘534可具有直徑大約0.8±0.05mm及0.6±0.05mm之橢圓形狀。第一插頭列520及第二插頭列522之各別電接點中心之間的第一列間距RP1可為大約2.2±0.1mm、2.2±0.05或2.2±0.005mm。第二插頭列522及第三插頭列524之各別電接點中心之間的第二列間距RP2可為大約2.4±0.1mm、2.4±0.05mm或2.4±0.005mm。第三插頭列524及第四插頭列526之各別電接點中心之間的第三列間距RP3可為大約2.2±0.1mm、2.2±0.05mm或2.2±0.005mm。 The second plug alignment peg 534 may be aligned with the longitudinal centerline CL3 of the plug connector 500, and the first plug alignment peg 532 may be approximately approximately from the longitudinal centerline CL3 of the plug connector 500 The distance between 1.2±0.05mm to about 1.3±0.05mm. The first plug alignment peg 532 may have a circular shape with a diameter of about 0.8±0.05 mm, and the second plug alignment peg 534 may have an oval shape with a diameter of about 0.8±0.05 mm and 0.6±0.05 mm. The first row spacing RP1 between the centers of the respective electrical contact points of the first plug row 520 and the second plug row 522 may be approximately 2.2±0.1 mm, 2.2±0.05, or 2.2±0.005 mm. The second row spacing RP2 between the centers of the respective electrical contact points of the second plug row 522 and the third plug row 524 may be approximately 2.4±0.1 mm, 2.4±0.05 mm, or 2.4±0.005 mm. The third row pitch RP3 between the centers of the respective electrical contact points of the third plug row 524 and the fourth plug row 526 may be approximately 2.2±0.1mm, 2.2±0.05mm, or 2.2±0.005mm.

參考圖27,插座連接器600可包括插座殼體605,插座殼體605可由兩個平行的間隔開的第一縱向壁607A及第二縱向壁607B及兩個平行的間隔開的第一端壁609A及第二端壁609B界定。兩個平行的間隔開的第一端壁609A及第二端壁609B之長度可短於兩個平行的間隔開的第一縱向壁607A及第二縱向壁607B。縱向中心線CL5延伸穿過兩個平行的間隔開的第一端壁609A及第二端壁609B,平行於兩個平行的間隔開的第一縱向壁607A及第二縱向壁607B。插座殼體605之配合界面604可包括第一插座鍵控結構610A及第二插座鍵控結構610B。第一插座鍵控結構610A位於縱向中心線CL5上,使得第一插座鍵控結構610A關於中心線CL5不對稱。與第一插座鍵控結構610A相比,第二鍵控結構610B可定位於插座殼體605之配合界面604處,在縱向中心線CL5之相對側上,且可位於縱向中心線CL5上,使得第二縱向鍵控結構610B關於縱向中心線CL5不對稱且關於中間中心線ML5不對稱。第一插座鍵控結構610A及第二插座鍵控結構610B可相對於彼此及中間中心線CL5偏移。第一插座鍵控結構610A及第二插座鍵控結構610B可為彼此之偏移鏡像。 27, the socket connector 600 may include a socket housing 605, which may be formed by two parallel spaced apart first longitudinal walls 607A and a second longitudinal wall 607B and two parallel spaced apart first end walls 609A and the second end wall 609B are defined. The length of the two parallel spaced apart first end wall 609A and the second end wall 609B may be shorter than the two parallel spaced apart first longitudinal wall 607A and the second longitudinal wall 607B. The longitudinal centerline CL5 extends through two parallel spaced apart first end walls 609A and second end wall 609B, and parallel to two parallel spaced apart first longitudinal walls 607A and second longitudinal walls 607B. The mating interface 604 of the socket housing 605 may include a first socket keying structure 610A and a second socket keying structure 610B. The first socket keying structure 610A is located on the longitudinal centerline CL5, so that the first socket keying structure 610A is asymmetrical about the centerline CL5. Compared with the first socket keying structure 610A, the second keying structure 610B can be positioned at the mating interface 604 of the socket housing 605, on the opposite side of the longitudinal centerline CL5, and can be located on the longitudinal centerline CL5, so that The second longitudinal keying structure 610B is asymmetrical about the longitudinal centerline CL5 and asymmetrical about the middle centerline ML5. The first socket keying structure 610A and the second socket keying structure 610B can be offset relative to each other and the middle center line CL5. The first socket keying structure 610A and the second socket keying structure 610B may be offset mirror images of each other.

每一第一插座鍵控結構610A及第二插座鍵控結構610B可為各別第一凹部608A及第二凹部608B,每一凹部具有由插座殼體605及兩個平行的間隔 開的第一端壁609A及第二端壁609B之各別部分界定之四個或五個側面或表面。每一五邊第一凹部608A及第二凹部608B可具有由第一側壁、線或表面612A,第二側壁、線或表面614B,傾斜側壁、線或表面616,第四側壁、線或表面612B,以及第五側壁、線或表面614A界定之周長。應理解,關於第一鍵控結構610A及第二鍵控結構610B,術語壁亦可包括線或表面。第五側壁614A及第二側壁614B可與第一側壁612A形成各別直角。第四側壁612B可與第五側壁614A形成直角。第四側壁612B之長度短於其他側壁612A、614B、616、614A中之任何者。可為凹部的第一插座鍵控結構610A及第二插座鍵控結構610B中之每一者經組態以接納如圖29中所展示之對應第一插頭鍵控結構710A或第二插頭鍵控結構710B(其為插頭殼體705之支柱或突出部)。 Each of the first socket keying structure 610A and the second socket keying structure 610B can be a respective first recess 608A and a second recess 608B, and each recess has a socket housing 605 and two parallel spaces The first end wall 609A and the second end wall 609B each define four or five sides or surfaces. Each five-sided first recess 608A and second recess 608B may have a first side wall, line or surface 612A, a second side wall, line or surface 614B, an inclined side wall, line or surface 616, and a fourth side wall, line or surface 612B , And the perimeter defined by the fifth sidewall, line or surface 614A. It should be understood that with regard to the first keying structure 610A and the second keying structure 610B, the term wall may also include a line or a surface. The fifth side wall 614A and the second side wall 614B may form respective right angles with the first side wall 612A. The fourth side wall 612B may form a right angle with the fifth side wall 614A. The length of the fourth side wall 612B is shorter than any of the other side walls 612A, 614B, 616, and 614A. Each of the first socket keying structure 610A and the second socket keying structure 610B, which can be a recess, is configured to receive the corresponding first plug keying structure 710A or the second plug keying as shown in FIG. 29 Structure 710B (which is the pillar or protrusion of the plug housing 705).

在插座殼體605之鄰近於第一端壁609A之一側上,第一側壁612A及第四側壁612B可與縱向中心線CL5均勻地間隔開。在插座殼體605之鄰近於第二端壁609B之相對末端上,縱向中心線CL5可與第二側壁614B與傾斜側壁616之相交部I相交。第一側壁612A及第四側壁612B可為不均勻間隔開或可與縱向中心線CL5不均勻地間隔開。第一鍵控結構610A及第二鍵控結構610B可為完全相同形狀的或具有相同的周長形狀。第一鍵控結構610B可相對於縱向中心線CL、相對於中間中心線ML5或縱向中心線CL及中間中心線ML5兩者自第二鍵控特徵610A偏移。第一插座鍵控結構610A可為第二鍵控結構610B相對於垂直於縱向中心線CL5之中間中心線ML5的鏡像。 On a side of the socket housing 605 adjacent to the first end wall 609A, the first side wall 612A and the fourth side wall 612B may be evenly spaced from the longitudinal center line CL5. On the opposite end of the socket housing 605 adjacent to the second end wall 609B, the longitudinal centerline CL5 may intersect the intersection I of the second side wall 614B and the inclined side wall 616. The first side wall 612A and the fourth side wall 612B may be unevenly spaced or may be unevenly spaced from the longitudinal centerline CL5. The first keying structure 610A and the second keying structure 610B may be exactly the same shape or have the same perimeter shape. The first keying structure 610B can be offset from the second keying feature 610A relative to the longitudinal centerline CL, relative to the middle centerline ML5, or both the longitudinal centerline CL and the middle centerline ML5. The first socket keying structure 610A may be a mirror image of the second keying structure 610B with respect to the middle center line ML5 perpendicular to the longitudinal center line CL5.

如圖28中所展示,插座殼體605之安裝側或界面620可包括第一對準栓釘601及第二對準栓釘602。縱向中心線CL5可穿過第一對準栓釘601,且第一對準栓釘601可具有縱向中心線CL5穿過之中心點CP3。第二對準栓釘602可經定位於縱向中心線CL5之任一側上,使得縱向中心線CL5不與第二對準栓釘602相交。在一個具體實例中,第二對準栓釘602可完全或部分地定位於由圖27中所 展示之第一插座鍵控結構610A界定之周長下方。第一對準栓釘601可完全或至少部分地定位於由圖27之第二鍵控結構610B界定之周長下方。第二對準栓釘602亦可經定位使得第二對準栓釘602甚至不部分地定位於第一插座鍵控結構610A下方。第一對準栓釘601可具有直徑大約0.8±0.05mm之圓形形狀,且第二對準栓釘602可具有尺寸為大約0.8±0.05mm及0.6±0.05mm之橢圓形狀。 As shown in FIG. 28, the mounting side or interface 620 of the socket housing 605 may include a first alignment peg 601 and a second alignment peg 602. The longitudinal centerline CL5 may pass through the first alignment peg 601, and the first alignment peg 601 may have a center point CP3 through which the longitudinal centerline CL5 passes. The second alignment peg 602 may be positioned on either side of the longitudinal centerline CL5 so that the longitudinal centerline CL5 does not intersect the second alignment peg 602. In a specific example, the second alignment peg 602 can be completely or partially positioned as shown in FIG. 27 Below the perimeter defined by the first socket keying structure 610A is shown. The first alignment peg 601 may be completely or at least partially positioned below the circumference defined by the second keying structure 610B of FIG. 27. The second alignment peg 602 can also be positioned so that the second alignment peg 602 is not even partially positioned below the first socket keying structure 610A. The first alignment peg 601 may have a circular shape with a diameter of about 0.8±0.05 mm, and the second alignment peg 602 may have an elliptical shape with a size of about 0.8±0.05 mm and 0.6±0.05 mm.

如圖29中所展示,具有插頭殼體705之插頭連接器700可由兩個平行的間隔開的,相對的第一縱向插頭壁707A及第二縱向插頭壁707B以及兩個平行的間隔開的第一插頭端壁709A即第二插頭端壁709B界定。兩個平行的、相對的間隔開的第一插頭端壁709A及第二插頭端壁709B之長度可短於兩個平行的間隔開的第一縱向插頭壁707A及第二縱向插頭壁707B。縱向中心線CL6延伸穿過兩個平行的間隔開的第一插頭端壁709A及第二插頭端壁709B,平行於兩個平行的間隔開的第一縱向插頭壁707A及第二縱向插頭壁707B。插頭殼體705之配合界面704可包括第一插頭鍵控結構710A及第二插頭鍵控結構710B。第一插頭鍵控結構710A可位於縱向中心線CL6上,使得第一插頭鍵控結構710A關於縱向中心線CL6不對稱。與第一插頭鍵控結構710A相比,第二插頭鍵控結構710B可定位於插頭殼體705之配合界面704處,在縱向中心線CL6之相對側上,且可位於縱向中心線CL6上,使得第二插頭鍵控結構710B關於縱向中心線CL6不對稱。第一插頭鍵控結構710A及第二插頭鍵控結構710B可關於縱向中心線CL6相對於彼此偏移。每一第一插頭鍵控結構710A及第二插頭鍵控結構710B可各自界定各別四邊或五邊第一突出部708A及第二突出部708B,每一突出部沿垂直於縱向中心線CL6並垂直於第一插頭列730、第二插頭列740、第三插頭列750及第四插頭列760之方向延伸。電接點308、308A、308B之第一插頭列可與第二插頭列隔開第一列間距RP1。電接點308、308A、308B之第二插頭列可與電接點308、308A、308B之第三插頭列隔開第二列間距RP2。電接點308、308A、308B之第三插頭列可與 電接點308、308A、308B之第四插頭列隔開第三列間距RP3。如上文所論述,第一列間距RP1及第三列間距RP3可實質上相同。第二列間距RP2大於第一列間距RP1或第三列間距RP3。 As shown in Figure 29, the plug connector 700 with the plug housing 705 can be separated by two parallel, opposed first longitudinal plug wall 707A and second longitudinal plug wall 707B, and two parallel spaced apart first A plug end wall 709A is defined by a second plug end wall 709B. The length of the two parallel and spaced apart first plug end wall 709A and the second plug end wall 709B may be shorter than the length of the two parallel spaced apart first longitudinal plug wall 707A and the second longitudinal plug wall 707B. The longitudinal centerline CL6 extends through two parallel spaced apart first plug end wall 709A and second plug end wall 709B, parallel to two parallel spaced apart first longitudinal plug wall 707A and second longitudinal plug wall 707B . The mating interface 704 of the plug housing 705 may include a first plug keying structure 710A and a second plug keying structure 710B. The first plug keying structure 710A may be located on the longitudinal centerline CL6, so that the first plug keying structure 710A is asymmetrical about the longitudinal centerline CL6. Compared with the first plug keying structure 710A, the second plug keying structure 710B can be positioned at the mating interface 704 of the plug housing 705, on the opposite side of the longitudinal centerline CL6, and can be located on the longitudinal centerline CL6, This makes the second plug keying structure 710B asymmetrical about the longitudinal centerline CL6. The first plug keying structure 710A and the second plug keying structure 710B may be offset relative to each other with respect to the longitudinal centerline CL6. Each of the first plug keying structure 710A and the second plug keying structure 710B can respectively define a four-sided or five-sided first protrusion 708A and a second protrusion 708B, and each protrusion is aligned perpendicular to the longitudinal centerline CL6. It extends perpendicular to the direction of the first plug row 730, the second plug row 740, the third plug row 750, and the fourth plug row 760. The first plug row of the electrical contacts 308, 308A, 308B can be separated from the second plug row by a first row pitch RP1. The second plug row of the electrical contacts 308, 308A, 308B can be separated from the third plug row of the electrical contacts 308, 308A, 308B by a second row pitch RP2. The third plug row of electrical contacts 308, 308A, 308B can be connected with The fourth row of plugs of the electrical contacts 308, 308A, and 308B are separated by a third row pitch RP3. As discussed above, the first row pitch RP1 and the third row pitch RP3 may be substantially the same. The second column pitch RP2 is greater than the first column pitch RP1 or the third column pitch RP3.

第一插頭鍵控結構710A及第二插頭鍵控結構710B中之每一者經組態以接納在圖27及圖28中展示之插座連接器600之對應第一插座鍵控結構610A或第二插座鍵控結構610B。插頭殼體705之第一突出部708A及第二突出部708B經組態以接合至插座連接器600之各別第一凹部608A及第二凹部608B中。例如,插座殼體605之第一插座鍵控特徵610A可接收插頭連接器700之第二插頭鍵控特徵710B,插座殼體605或插座連接器600之第二插座鍵控特徵610B可接納插頭連接器700之第一插頭鍵控特徵710A。 Each of the first plug keying structure 710A and the second plug keying structure 710B is configured to receive the corresponding first socket keying structure 610A or second socket connector 600 shown in FIGS. 27 and 28 Socket keying structure 610B. The first protrusion 708A and the second protrusion 708B of the plug housing 705 are configured to engage in the respective first recess 608A and the second recess 608B of the socket connector 600. For example, the first socket keying feature 610A of the socket housing 605 can receive the second plug keying feature 710B of the plug connector 700, and the second socket keying feature 610B of the socket housing 605 or the socket connector 600 can accept the plug connection The first plug keying feature 710A of the device 700.

第一插頭鍵控結構710A及第二插頭鍵控結構710B中之每一者可具有四邊或五邊周長或其他幾何形狀的周長,其包括第一插頭側壁、線或表面712A,第二插頭側壁、線或表面714B,傾斜插頭側壁、線或表面716,第四插頭側壁、線或表面712B,以及第五插頭側壁、線或表面714A。第五插頭側壁714A及第二插頭側壁714B可與第一插頭側壁712A形成直角。第四插頭側壁712B可與第五插頭側壁714A形成直角。第四插頭側壁712B之寬度或厚度可短於其他插頭側壁712A、714A、714B、716中之任何者。插座殼體605之第一插座鍵控結構610A及第二插座鍵控結構610B中之每一者,如較早所論述,該些插座鍵控結構可為第一凹部608A及第二凹部608B,經組態以接納對應第一插頭鍵控結構710A或第二插頭鍵控結構710B。第一插頭鍵控結構710A及第二插頭鍵控結構710B可皆為支柱,或由插頭殼體705界定或經定位鄰近於該插頭殼體之第一突出部708A及第二突出部708B。 Each of the first plug keying structure 710A and the second plug keying structure 710B may have a four-sided or five-sided perimeter or a perimeter of other geometric shapes, which includes the first plug side wall, line or surface 712A, and the second plug keying structure 712A. Plug side wall, wire or surface 714B, inclined plug side wall, wire or surface 716, fourth plug side wall, wire or surface 712B, and fifth plug side wall, wire or surface 714A. The fifth plug side wall 714A and the second plug side wall 714B may form a right angle with the first plug side wall 712A. The fourth plug side wall 712B may form a right angle with the fifth plug side wall 714A. The width or thickness of the fourth plug side wall 712B may be shorter than any of the other plug side walls 712A, 714A, 714B, and 716. Each of the first socket keying structure 610A and the second socket keying structure 610B of the socket housing 605, as discussed earlier, these socket keying structures can be a first recess 608A and a second recess 608B, It is configured to receive the corresponding first plug keying structure 710A or the second plug keying structure 710B. The first plug keying structure 710A and the second plug keying structure 710B may both be pillars, or be defined by the plug housing 705 or positioned adjacent to the first protrusion 708A and the second protrusion 708B of the plug housing.

在插頭殼體705之鄰近於第一插頭端壁709A之一側上,縱向中心線CL6可在第二插頭側壁714B與傾斜插頭側壁716之相交部I處與第一突出部 708A相交。第一插頭側壁712A及第四插頭側壁712B可經不均勻地間隔開,或可與縱向中心線CL6不均勻地間隔開。在插頭殼體705之鄰近於插頭端壁709B之相對末端上,第一插頭側壁712A及第四插頭側壁712B可與縱向中心線CL6均勻地間隔開。第一插頭鍵控結構710A及第二插頭鍵控結構710B可為完全相同形狀的。第一插頭鍵控結構710B可為相對於中間中心線ML6之第二插頭鍵控結構710B之鏡像,該中間中心線ML6垂直於縱向中心線CL6且垂直於第一插頭列730及第二插頭列740。第一插頭鍵控結構710A及第二插頭鍵控結構710B可關於中心線CL6相對於彼此偏移,可相對於中心線ML6相對於彼此偏移,或可為兩者。第一插頭鍵控結構710A可為第二插頭鍵控結構710B相對於垂直於縱向中心線CL6之中間中心線ML6的鏡像。 On the side of the plug housing 705 adjacent to the first plug end wall 709A, the longitudinal centerline CL6 can be connected to the first protrusion at the intersection I of the second plug side wall 714B and the inclined plug side wall 716 708A intersect. The first plug side wall 712A and the fourth plug side wall 712B may be unevenly spaced apart, or may be unevenly spaced apart from the longitudinal center line CL6. On the opposite ends of the plug housing 705 adjacent to the plug end wall 709B, the first plug side wall 712A and the fourth plug side wall 712B can be evenly spaced from the longitudinal center line CL6. The first plug keying structure 710A and the second plug keying structure 710B may have exactly the same shape. The first plug keying structure 710B may be a mirror image of the second plug keying structure 710B relative to the middle center line ML6, which is perpendicular to the longitudinal center line CL6 and perpendicular to the first plug row 730 and the second plug row 740. The first plug keying structure 710A and the second plug keying structure 710B may be offset with respect to each other with respect to the center line CL6, may be offset with respect to each other with respect to the center line ML6, or may be both. The first plug keying structure 710A may be a mirror image of the second plug keying structure 710B with respect to the middle center line ML6 perpendicular to the longitudinal center line CL6.

如圖30所示,插頭連接器700或插頭殼體705之安裝側720界面可包括第一插頭對準栓釘701及第二插頭對準栓釘702。縱向中心線CL6可穿過第一插頭對準栓釘701,且第一插頭對準栓釘701可具有縱向中心線CL6穿過之中心點CP4。第二插頭對準栓釘702可定位於縱向中心線CL6之任一側上,使得縱向中心線CL6不與第二插頭對準栓釘702相交。在一個具體實例中,第一插頭對準栓釘701可完全定位或部分地定位於由圖29之第一插頭鍵控結構710A或第二插頭鍵控結構710B界定之周長下方。第二插頭對準栓釘702可至少部分地或根本不定位於由圖29之第一插頭鍵控結構710A界定之周長下方。第一插頭對準栓釘701可界定直徑為大約0.8±0.05mm及0.6±0.05mm之橢圓形狀。第二插頭對準栓釘702可具有直徑大約0.8±0.05mm之圓形形狀。第一插頭對準栓釘及第二插頭對準栓釘可顛倒,使得第一插頭對準栓釘701界定橢圓形狀且第二插頭對準栓釘702界定圓形形狀。第一插頭對準栓釘701及第二插頭對準栓釘702可經定位關於縱向中心線CL6不對稱,關於中間中心線ML6不對稱,或關於縱向中心線CL6及中間中心線ML6不對稱。 As shown in FIG. 30, the installation side 720 interface of the plug connector 700 or the plug housing 705 may include a first plug alignment peg 701 and a second plug alignment peg 702. The longitudinal centerline CL6 may pass through the first plug alignment peg 701, and the first plug alignment peg 701 may have a center point CP4 through which the longitudinal centerline CL6 passes. The second plug alignment peg 702 can be positioned on either side of the longitudinal centerline CL6 so that the longitudinal centerline CL6 does not intersect the second plug alignment peg 702. In a specific example, the first plug alignment peg 701 may be fully or partially positioned below the circumference defined by the first plug keying structure 710A or the second plug keying structure 710B of FIG. 29. The second plug alignment peg 702 may be at least partially or not positioned below the perimeter defined by the first plug keying structure 710A of FIG. 29. The first plug alignment peg 701 can define an elliptical shape with a diameter of approximately 0.8±0.05 mm and 0.6±0.05 mm. The second plug alignment peg 702 may have a circular shape with a diameter of about 0.8±0.05 mm. The first plug alignment peg and the second plug alignment peg may be reversed so that the first plug alignment peg 701 defines an oval shape and the second plug alignment peg 702 defines a circular shape. The first plug alignment peg 701 and the second plug alignment peg 702 may be positioned asymmetrically about the longitudinal centerline CL6, asymmetrical about the middle centerline ML6, or asymmetrical about the longitudinal centerline CL6 and the middle centerline ML6.

圖31展示諸如印刷電路板、子卡或背板之基板800之佈局的實例,包括可用以與本文中所描述的插座連接器或插頭連接器之可熔元件電連接的襯墊802。在第一襯墊列804中之襯墊之各別中心與第二襯墊列806中之襯墊之各別中心之間量測的第一襯墊列間距PRP1可為2.2±0.2mm,或對應於安裝插座列或插頭列之任何其他間距。在第二襯墊列806中之襯墊之各別中心與第三襯墊列808中之襯墊之各別中心之間量測的第二襯墊列間距PRP2可為2.4±0.2mm,或對應於安裝插座列或插頭列之任何其他間距。在第三襯墊列808中之襯墊之各別中心與第四襯墊列810中之襯墊之各別中心之間量測的第三襯墊列間距PRP3可為2.2±0.2mm,或對應於安裝插座列或插頭列之任何其他間距。 Figure 31 shows an example of the layout of a substrate 800 such as a printed circuit board, daughter card, or backplane, including pads 802 that can be used to electrically connect with the fusible elements of the receptacle connector or plug connector described herein. The first pad row pitch PRP1 measured between the respective centers of the pads in the first pad row 804 and the respective centers of the pads in the second pad row 806 may be 2.2±0.2mm, or Corresponds to any other spacing for installing socket rows or plug rows. The second pad row pitch PRP2 measured between the respective centers of the pads in the second pad row 806 and the respective centers of the pads in the third pad row 808 may be 2.4±0.2mm, or Corresponds to any other spacing for installing socket rows or plug rows. The third pad row pitch PRP3 measured between the respective centers of the pads in the third pad row 808 and the respective centers of the pads in the fourth pad row 810 may be 2.2±0.2mm, or Corresponds to any other spacing for installing socket rows or plug rows.

第一襯墊列804可含有至少一百個襯墊802。第二襯墊列806可含有至少一百個襯墊802。第三襯墊列808可含有至少一百個襯墊802。第四襯墊列810可含有至少一百個襯墊。襯墊802可為大於六十、至少一百、至少一百五十之任何數目,每襯墊列大於六十且小於一百五十個襯墊之任何整數個襯墊。第一對準孔812可為0.8±0.05mm×0.6±0.05mm,且可與襯墊802之第二襯墊列806沿著同一線放置,或可與襯墊802之第二襯墊列806重合。第二對準孔814直徑可為0.8±0.05mm,可定位於中心線CL上,該中心線CL經等距定位於第二襯墊列806與第三襯墊列808之間且平行於第二襯墊列806與第三襯墊列808,且可經定位鄰近於第二襯墊列中之第一襯墊816。 The first pad row 804 may contain at least one hundred pads 802. The second pad row 806 may contain at least one hundred pads 802. The third pad row 808 may contain at least one hundred pads 802. The fourth pad row 810 may contain at least one hundred pads. The number of pads 802 may be any number greater than sixty, at least one hundred, and at least one hundred and fifty, and any integer number of pads greater than sixty and less than one hundred and fifty in each row of pads. The first alignment hole 812 may be 0.8±0.05mm×0.6±0.05mm, and may be placed along the same line as the second pad row 806 of the pad 802, or may be placed along the same line as the second pad row 806 of the pad 802 coincide. The second alignment hole 814 may have a diameter of 0.8±0.05 mm, and may be positioned on the center line CL, which is positioned equidistantly between the second liner row 806 and the third liner row 808 and parallel to the first liner. The two pad rows 806 and the third pad row 808 can be positioned adjacent to the first pad 816 in the second pad row.

圖32展示諸如印刷電路板、子卡或背板之基板800之覆蓋區佈局的實例,包括可用以與本文中所描述的插座連接器或插頭連接器之可熔元件電連接的襯墊802。在第一襯墊列804A中之襯墊之各別中心與第二襯墊列806A中之襯墊之各別中心之間量測的第一襯墊列間距PRP1可為2.2±0.2mm,或對應於安裝插座列或插頭列之任何其他間距。在第二襯墊列806A中之襯墊之各別中心與第三襯墊列808A中之襯墊之各別中心之間量測的第二襯墊列間距PRP2可為 2.4±0.2mm,或對應於安裝插座列或插頭列之任何其他間距。在第三襯墊列808A中之襯墊之各別中心與第四襯墊列810A中之襯墊之各別中心之間量測的第三襯墊列間距PRP3可為2.2±0.2mm,或對應於安裝插座列或插頭列之任何其他間距。 Figure 32 shows an example of the footprint layout of a substrate 800 such as a printed circuit board, daughter card, or backplane, including pads 802 that can be used to electrically connect to the fusible components of the receptacle connector or plug connector described herein. The first pad row pitch PRP1 measured between the respective centers of the pads in the first pad row 804A and the respective centers of the pads in the second pad row 806A may be 2.2±0.2mm, or Corresponds to any other spacing for installing socket rows or plug rows. The second pad row pitch PRP2 measured between the respective centers of the pads in the second pad row 806A and the respective centers of the pads in the third pad row 808A can be 2.4±0.2mm, or any other distance corresponding to the installation socket row or plug row. The third pad row pitch PRP3 measured between the respective centers of the pads in the third pad row 808A and the respective centers of the pads in the fourth pad row 810A may be 2.2±0.2mm, or Corresponds to any other spacing for installing socket rows or plug rows.

第一對準孔812A可與襯墊802A之第三襯墊列808A位於同一線上。第二對準孔814A可定位於第二襯墊列806A與第三襯墊列808A之間,鄰近於第二襯墊列806A及第三襯墊列808A中之第一襯墊816A。 The first alignment hole 812A may be located on the same line as the third pad row 808A of the pad 802A. The second alignment hole 814A can be positioned between the second pad row 806A and the third pad row 808A, adjacent to the first pad 816A in the second pad row 806A and the third pad row 808A.

第一襯墊列804A可含有至少一百個襯墊802A。第二襯墊列806A可含有至少一百個襯墊802A。第三襯墊列808A可含有至少一百個襯墊802A。第四襯墊列810A可含有至少一百個襯墊。第一對準孔812A之直徑可為0.8±0.05mm,且可與襯墊802A之第三襯墊列808A沿著同一線放置或與襯墊802A之第三襯墊列808A重合。第二對準孔814A可為0.8±0.05mm×0.6±0.05mm,可經定位於中心線CL上,中心線CL經定位等距介於與第二襯墊列806A與第三襯墊列808A之間且平行於第二襯墊列806A及第三襯墊列808A,且可經定位鄰近於第二襯墊列806A中之第一襯墊816A。 The first pad row 804A may contain at least one hundred pads 802A. The second pad row 806A may contain at least one hundred pads 802A. The third pad row 808A may contain at least one hundred pads 802A. The fourth pad row 810A may contain at least one hundred pads. The diameter of the first alignment hole 812A may be 0.8±0.05 mm, and it may be placed along the same line as the third pad row 808A of the pad 802A or coincide with the third pad row 808A of the pad 802A. The second alignment hole 814A may be 0.8±0.05mm×0.6±0.05mm, and may be positioned on the center line CL. The center line CL is positioned equidistantly between the second pad row 806A and the third pad row 808A Between and parallel to the second pad row 806A and the third pad row 808A, and may be positioned adjacent to the first pad 816A in the second pad row 806A.

圖33展示諸如印刷電路板、子卡或背板之基板800之佈局的實例,包括可用以與本文中所描述的插座連接器或插頭連接器之可熔元件電連接的襯墊802。在第一襯墊列804B中之襯墊之各別中心與第二襯墊列806B中之襯墊之各別中心之間量測的第一襯墊列間距PRP1可為2.2±0.2mm,或對應於安裝插座列或插頭列之任何其他間距。在第二襯墊列806B中之襯墊之各別中心與第三襯墊列808B中之襯墊之各別中心之間量測的第二襯墊列間距PRP2可為2.4±0.2mm,或對應於安裝插座列或插頭列之任何其他間距。在第三襯墊列808B中之襯墊之各別中心與第四襯墊列810B中之襯墊之各別中心之間量測的第三襯墊列間距PRP3可為2.2±0.2mm,或對應於安裝插座列或插頭列之任何其他間距。 Figure 33 shows an example of the layout of a substrate 800 such as a printed circuit board, daughter card, or backplane, including pads 802 that can be used to electrically connect to the fusible elements of the receptacle connector or plug connector described herein. The first pad row pitch PRP1 measured between the respective centers of the pads in the first pad row 804B and the respective centers of the pads in the second pad row 806B may be 2.2±0.2mm, or Corresponds to any other spacing for installing socket rows or plug rows. The second pad row pitch PRP2 measured between the respective centers of the pads in the second pad row 806B and the respective centers of the pads in the third pad row 808B may be 2.4±0.2mm, or Corresponds to any other spacing for installing socket rows or plug rows. The third pad row pitch PRP3 measured between the respective centers of the pads in the third pad row 808B and the respective centers of the pads in the fourth pad row 810B may be 2.2±0.2mm, or Corresponds to any other spacing for installing socket rows or plug rows.

第一對準孔812B可經定位於第二襯墊列806B與第三襯墊列808B 之間,鄰近於第二襯墊列806B及第三襯墊列808B中之最後襯墊818。第二對準孔814B可與襯墊802A之第二襯墊列806B位於同一線上。 The first alignment hole 812B can be positioned in the second pad row 806B and the third pad row 808B In between, it is adjacent to the last pad 818 in the second pad row 806B and the third pad row 808B. The second alignment hole 814B may be located on the same line as the second pad row 806B of the pad 802A.

圖34展示諸如印刷電路板、子卡或背板之基板800C之佈局的實例,包括可用以與本文中所描述的插座連接器或插頭連接器之可熔元件電連接的襯墊802C。在第一襯墊列804C中之襯墊之各別中心與第二襯墊列806C中之襯墊之各別中心之間量測的第一襯墊列間距PRP1可為2.2±0.2mm,或對應於安裝插座列或插頭列之任何其他間距。在第二襯墊列806C中之襯墊之各別中心與第三襯墊列808C中之襯墊之各別中心之間量測的第二襯墊列間距PRP2可為2.4±0.2mm,或對應於安裝插座列或插頭列之任何其他間距。在第三襯墊列808C中之襯墊之各別中心與第四襯墊列810C中之襯墊之各別中心之間量測的第三襯墊列間距PRP3可為2.2±0.2mm,或對應於安裝插座列或插頭列之任何其他間距。 Figure 34 shows an example of the layout of a substrate 800C such as a printed circuit board, daughter card, or backplane, including pads 802C that can be used to electrically connect to the fusible elements of the receptacle connector or plug connector described herein. The first pad row pitch PRP1 measured between the respective centers of the pads in the first pad row 804C and the respective centers of the pads in the second pad row 806C may be 2.2 ± 0.2 mm, or Corresponds to any other spacing for installing socket rows or plug rows. The second pad row pitch PRP2 measured between the respective centers of the pads in the second pad row 806C and the respective centers of the pads in the third pad row 808C may be 2.4±0.2mm, or Corresponds to any other spacing for installing socket rows or plug rows. The third pad row pitch PRP3 measured between the respective centers of the pads in the third pad row 808C and the respective centers of the pads in the fourth pad row 810C may be 2.2±0.2mm, or Corresponds to any other spacing for installing socket rows or plug rows.

第一對準孔812C可經定位於第二襯墊列806C與第三襯墊列808C之間,鄰近於第二襯墊列806C及第三襯墊列808C中之最後襯墊818C。第二對準孔814C可與襯墊802C之第三襯墊列808C位於同一線上。 The first alignment hole 812C may be positioned between the second pad row 806C and the third pad row 808C, adjacent to the last pad 818C in the second pad row 806C and the third pad row 808C. The second alignment hole 814C may be located on the same line as the third pad row 808C of the pad 802C.

圖35展示諸如印刷電路板、子卡或背板之基板800D之佈局的實例,包括可用以與本文中所描述的插座連接器或插頭連接器之可熔元件電連接的襯墊802D。在第一襯墊列804D中之襯墊之各別中心與第二襯墊列806D中之襯墊之各別中心之間量測的第一襯墊列間距PRP1可為2.2±0.2mm,或對應於安裝插座列或插頭列之任何其他間距。在第二襯墊列806D中之襯墊之各別中心與第三襯墊列808D中之襯墊之各別中心之間量測的第二襯墊列間距PRP2可為2.4±0.2mm,或對應於安裝插座列或插頭列之任何其他間距。在第三襯墊列808D中之襯墊之各別中心與第四襯墊列810D中之襯墊之各別中心之間量測的第三襯墊列間距PRP3可為2.2±0.2mm,或對應於安裝插座列或插頭列之任何其他間距。 Figure 35 shows an example of the layout of a substrate 800D such as a printed circuit board, daughter card, or backplane, including pads 802D that can be used to electrically connect to the fusible elements of the receptacle connector or plug connector described herein. The first pad row pitch PRP1 measured between the respective centers of the pads in the first pad row 804D and the respective centers of the pads in the second pad row 806D may be 2.2 ± 0.2 mm, or Corresponds to any other spacing for installing socket rows or plug rows. The second pad row pitch PRP2 measured between the respective centers of the pads in the second pad row 806D and the respective centers of the pads in the third pad row 808D may be 2.4±0.2mm, or Corresponds to any other spacing for installing socket rows or plug rows. The third pad row pitch PRP3 measured between the respective centers of the pads in the third pad row 808D and the respective centers of the pads in the fourth pad row 810D may be 2.2±0.2mm, or Corresponds to any other spacing for installing socket rows or plug rows.

第一對準孔812D可與第二襯墊列806D定位於同一線上。第二對 準孔814D可與襯墊802D之第三襯墊列808D及第一對準孔812D定位於同一線上。 The first alignment hole 812D may be positioned on the same line as the second pad row 806D. Second pair The alignment hole 814D may be positioned on the same line as the third pad row 808D and the first alignment hole 812D of the pad 802D.

如圖36中所展示,插座連接器1005可具有插座殼體1006,該插座殼體界定兩個平行的間隔開的縱向壁(諸如第一縱向壁1007A及第二縱向壁1007B)以及兩個平行的間隔開的端壁(諸如第一端壁1009A及第二端壁1009B)。兩個平行的間隔開的第一端壁1009A及第二端壁1009B之長度短於兩個平行的間隔開的第一縱向壁1007A及第二縱向壁1007B。第一端壁1009A及第二端壁1009B亦可以分別稱為插座或連接器殼體1006的第一端及第二端。中心線CL延伸穿過兩個平行的間隔開的第一端壁1009A及第二端壁1009B,平行於兩個平行的間隔開的第一縱向壁1007A及第二縱向壁1007B。插座連接器1005或插座殼體1006之配合界面可包括第一鍵控結構1010A、第二鍵控結構1010B及第三鍵控結構1010C。第一鍵控結構1010A可位於縱向中心線CL上,使得縱向中心線CL平分第一鍵控結構1010A的總邊界區域或周長,穿過第一鍵控結構1010A的兩側或表面,或穿過第一鍵控結構1010A之兩側或表面之間的一側或表面及一相交部。第二鍵控結構1010B及第三鍵控結構1010C可定位於中心線CL之相對側上,使得中心線CL不與第二鍵控結構1010B或第三鍵控結構1010C中之任一者相交。 As shown in Figure 36, the socket connector 1005 may have a socket housing 1006 that defines two parallel spaced apart longitudinal walls (such as a first longitudinal wall 1007A and a second longitudinal wall 1007B) and two parallel Of spaced-apart end walls (such as first end wall 1009A and second end wall 1009B). The lengths of the two parallel spaced apart first end walls 1009A and second end wall 1009B are shorter than the two parallel spaced apart first longitudinal walls 1007A and second longitudinal wall 1007B. The first end wall 1009A and the second end wall 1009B may also be referred to as the first end and the second end of the socket or connector housing 1006, respectively. The centerline CL extends through two parallel spaced apart first end walls 1009A and second end wall 1009B, and parallel to two parallel spaced apart first longitudinal walls 1007A and second longitudinal walls 1007B. The mating interface of the socket connector 1005 or the socket housing 1006 may include a first keying structure 1010A, a second keying structure 1010B, and a third keying structure 1010C. The first keying structure 1010A may be located on the longitudinal centerline CL, so that the longitudinal centerline CL bisects the total boundary area or circumference of the first keying structure 1010A, passes through both sides or surfaces of the first keying structure 1010A, or passes through Pass through two sides or a side or surface between the two sides or surfaces of the first keying structure 1010A and an intersection. The second keying structure 1010B and the third keying structure 1010C may be positioned on opposite sides of the center line CL such that the center line CL does not intersect either the second keying structure 1010B or the third keying structure 1010C.

第一鍵控結構1010A、第二鍵控結構1010B及第三鍵控結構1010C中之每一者可為各別第一凹部1008A、第二凹部1008B及第三凹部1008C,每一凹部具有由插座殼體1006及兩個平行的間隔開的第一端壁1009A及第二端壁1009B之各別部分界定的三個或多於三個壁側或表面及總計四個或五個側面或表面。第一凹部1008A、第二凹部1008B及第三凹部1008C中之每一者可具有由第一側壁、線或表面1012A,第二側壁、線或表面1014B,傾斜側壁、線或表面1016,第四側壁、線或表面1012B,以及第五側壁、線或表面1014A界定之有界區域或周長。應理解,關於第一鍵控結構1010A、第二鍵控結構1010B及第三鍵控結構1010C,「壁」亦可包括線、表面或部分壁。第一側壁1012A及第四側壁1012B可 彼此平行。第二側壁1014B及第五側壁1014A可彼此平行。第一側壁1012A及第二側壁1014B可相交以形成直角。傾斜側壁1016可與第二側壁1014B相交。第四側壁1012B可平行於第一側壁1012A且可與傾斜側壁1016相交。第五側壁1014A可平行於第二側壁1014B且可與第一側壁1012A及第四側壁1012B相交。第二側壁1014B之長度可短於第一側壁1012A及第五側壁1014A。第四側壁1012B之長度可為最短側壁。第二鍵控特徵1010B及第三鍵控特徵1010C可為相對於中心線CL的彼此的鏡像。可為凹部之第一鍵控結構1010A、第二鍵控結構1010B及第三鍵控結構1010C中之每一者經組態以接納圖42中所展示之對應的第一插頭鍵控結構1210A、第二插頭鍵控結構1210B或第三插頭鍵控結構1210C,其可為由插頭殼體1205界定或經定位鄰近於插頭殼體1205的支柱或第一突出部1208A、第二突出部1208B或第三突出部1208C。例如,插座連接器1005之第一鍵控結構1010A可接納插頭殼體1205之第一插頭鍵控結構1210A,插座殼體1006之第二鍵控結構1010B可接納插頭殼體1205之第二插頭鍵控結構1210B,且插座殼體1006之第三鍵控結構1010C可接納插頭殼體1205之第三插頭鍵控結構1210C。 Each of the first keying structure 1010A, the second keying structure 1010B, and the third keying structure 1010C can be a first recess 1008A, a second recess 1008B, and a third recess 1008C, each recess having a socket The housing 1006 and two parallel spaced apart first end walls 1009A and second end walls 1009B respectively define three or more wall sides or surfaces and a total of four or five sides or surfaces. Each of the first recess 1008A, the second recess 1008B, and the third recess 1008C may have a first side wall, line or surface 1012A, a second side wall, line or surface 1014B, an inclined side wall, line or surface 1016, and a fourth The side wall, line, or surface 1012B, and the fifth side wall, line, or surface 1014A define a bounded area or perimeter. It should be understood that with regard to the first keying structure 1010A, the second keying structure 1010B, and the third keying structure 1010C, the "wall" may also include a line, a surface, or a partial wall. The first side wall 1012A and the fourth side wall 1012B can be Parallel to each other. The second side wall 1014B and the fifth side wall 1014A may be parallel to each other. The first side wall 1012A and the second side wall 1014B may intersect to form a right angle. The inclined side wall 1016 may intersect the second side wall 1014B. The fourth side wall 1012B may be parallel to the first side wall 1012A and may intersect the inclined side wall 1016. The fifth side wall 1014A may be parallel to the second side wall 1014B and may intersect the first side wall 1012A and the fourth side wall 1012B. The length of the second side wall 1014B may be shorter than that of the first side wall 1012A and the fifth side wall 1014A. The length of the fourth side wall 1012B may be the shortest side wall. The second keying feature 1010B and the third keying feature 1010C may be mirror images of each other with respect to the center line CL. Each of the first keying structure 1010A, the second keying structure 1010B, and the third keying structure 1010C, which can be a recess, is configured to receive the corresponding first plug keying structure 1210A, The second plug keying structure 1210B or the third plug keying structure 1210C, which may be a pillar defined by the plug housing 1205 or positioned adjacent to the plug housing 1205 or the first protrusion 1208A, the second protrusion 1208B, or the first protrusion Three protrusions 1208C. For example, the first keying structure 1010A of the socket connector 1005 can receive the first plug keying structure 1210A of the plug housing 1205, and the second keying structure 1010B of the socket housing 1006 can receive the second plug key of the plug housing 1205 The control structure 1210B, and the third keying structure 1010C of the socket housing 1006 can receive the third plug keying structure 1210C of the plug housing 1205.

插座連接器1005或插座殼體1006可包括電接點110、110A、120之八個平行的經間隔開插座列1020、1021、1022、1023、1024、1025、1026、1027。電接點110、110A、120之第一插座列1020及電接點110、110A、120之第八插座列1027沿著插座殼體1006之各別第一縱向壁1007A及第二縱向壁1007B的內側延伸。電接點110、110A、120之第二插座列1021及電接點110、110A、120之第三插座列1022經背對背定位且沿著第一內部肋狀物1030延伸,該第一內部肋狀物沿插座連接器1005或插座殼體1006之端對端方向延伸。電接點110、110A、120之第四插座列1023及電接點110、110A、120之第五插座列1024經背對背定位且沿著第二內部肋狀物1031延伸,該第二內部肋狀物沿著插座連接器1005或插座殼體1006之中間沿端對端方向延伸。電接點110、110A、120之第六插座列1025及電 接點110、110A、120之第七插座列1026經背對背地定位且沿著第三內部肋狀物1032延伸,該第三內部肋狀物沿插座連接器1005或插座殼體1006之端對端方向延伸。第一內部肋狀物1030及第二內部肋狀物1031可彼此平行地定向。第二內部肋狀物1031及第三內部肋狀物1032可彼此平行地定向。第一鍵控結構1010A、第二鍵控結構1010B及第三鍵控結構1010C中之每一者都可位於肋狀物1030、1031、1032之端處。儘管插座連接器1005經展示為具有八個平行的間隔開的無屏蔽列,但可使用電接點110、110A、120之任何數目個列。插座連接器1005之電接點110、110A、120可自兩個方向釘合,如關於圖4至圖8所描述。插座連接器1005可無串擾屏蔽及磁性吸收有損耗材料中之任何者,或可包括任何數目個串擾屏蔽或導電或非導電磁性吸收有損耗材料。諸如焊球之可熔元件可附接至電接點110、110A、120中之各別電接點。電接點110、110A、120亦可以壓入配合插腳、針眼、J形引線或其他組態端接。 The socket connector 1005 or socket housing 1006 may include eight parallel spaced apart socket rows 1020, 1021, 1022, 1023, 1024, 1025, 1026, 1027 of electrical contacts 110, 110A, 120. The first socket row 1020 of the electrical contacts 110, 110A, 120 and the eighth socket row 1027 of the electrical contacts 110, 110A, 120 are along the respective first longitudinal wall 1007A and the second longitudinal wall 1007B of the socket housing 1006 Extend inside. The second socket row 1021 of the electrical contacts 110, 110A, 120 and the third socket row 1022 of the electrical contacts 110, 110A, 120 are positioned back to back and extend along the first internal rib 1030, which is shaped like a The object extends along the end-to-end direction of the socket connector 1005 or the socket housing 1006. The fourth socket row 1023 of the electrical contacts 110, 110A, 120 and the fifth socket row 1024 of the electrical contacts 110, 110A, 120 are positioned back to back and extend along the second internal rib 1031, which is shaped like a second internal rib. The object extends in the end-to-end direction along the middle of the socket connector 1005 or the socket housing 1006. The sixth socket row 1025 of electrical contacts 110, 110A, 120 and electrical The seventh socket row 1026 of the contacts 110, 110A, 120 is positioned back-to-back and extends along a third internal rib 1032 that runs end-to-end along the socket connector 1005 or socket housing 1006 Direction extension. The first internal rib 1030 and the second internal rib 1031 may be oriented parallel to each other. The second internal rib 1031 and the third internal rib 1032 may be oriented parallel to each other. Each of the first keying structure 1010A, the second keying structure 1010B, and the third keying structure 1010C may be located at the ends of the ribs 1030, 1031, 1032. Although the receptacle connector 1005 is shown as having eight parallel spaced unshielded rows, any number of rows of electrical contacts 110, 110A, 120 can be used. The electrical contacts 110, 110A, and 120 of the socket connector 1005 can be nailed from two directions, as described in relation to FIGS. 4 to 8. The socket connector 1005 may be any of crosstalk shielding and magnetically absorbing lossy materials, or may include any number of crosstalk shielding or conductive or non-conductive magnetically absorbing lossy materials. Fusible elements such as solder balls can be attached to individual electrical contacts 110, 110A, 120. The electrical contacts 110, 110A, 120 can also be press-fitted with pins, eyelets, J-shaped leads, or other configuration terminations.

第一鍵控結構1010A可位於縱向中心線CL上,鄰近於第二內部肋狀物1031之第二端,鄰近於第二端壁1009B,使得縱向中心線CL平分第一鍵控結構1010A之總有界區域或周長,或僅與第二側壁、線或表面1014B及第五壁、線或表面1014A相交,或僅與第五壁、線或表面1014A及傾斜壁、線或表面1016相交,或僅與第五壁、線或表面1014A及傾斜壁1016與第二側壁、線或表面1014B的相交部相交。第二鍵控結構1010B可位於第一內部肋狀物1030之第二中心線上,鄰近於第一內部肋狀物1030之第一端且鄰近於第一端壁1009A,使得第二中心線平分第二鍵控結構1010B之總有界區域或周長,或僅與第二側壁、線或表面1014B及第五壁、線或表面1014A相交,或僅與第五壁、線或表面1014A及傾斜壁、線或表面1016相交,或僅與第五壁、線或表面1014A及傾斜壁、線或表面1016與第二側壁、線或表面1014B的相交部相交。第三鍵控結構1010C可位於第三內部肋狀物1032之第三中心線上,鄰近於第一內部肋狀物1030之第一端且鄰近於 第一端壁1009A,使得第三中心線平分第三鍵控結構1010C之總有界區域或周長,或僅與第二側壁、線或表面1014B及第五壁、線或表面1014A相交,或僅與第五壁、線或表面1014A及傾斜壁、線或表面1016相交,或僅與第五壁、線或表面1014A及傾斜壁1016與第二側壁、線或表面1014B的相交部相交。第一鍵控結構1010A,第二鍵控結構1010B及第三鍵控結構1010C可各自為完全相同形狀的及/或可各自具有完全不對稱周長的不對稱形狀。第二鍵控結構1010B或第三鍵控結構1010C可各自為第一鍵控結構1010A相對於垂直於縱向中心線CL之中間中心線ML的鏡像。縱向中心線CL及中間中心線ML將插座連接器1005劃分成四個象限,其中每一象限具有與其他象限中之每一者不同的結構,使得沒有象限可替代其他象限。在縱向中心線之兩側上可存在相等數目個電接點110、110A、120,且在中間中心線ML之任一側可存在相等數目個電接點110、110A、120。 The first keying structure 1010A can be located on the longitudinal centerline CL, adjacent to the second end of the second inner rib 1031, and adjacent to the second end wall 1009B, so that the longitudinal centerline CL bisects the total of the first keying structure 1010A The bounded area or perimeter, or only intersects the second side wall, line or surface 1014B and the fifth wall, line or surface 1014A, or only intersects the fifth wall, line or surface 1014A and the inclined wall, line or surface 1016, Or only intersect the fifth wall, line or surface 1014A and the intersection of the inclined wall 1016 and the second side wall, line or surface 1014B. The second keying structure 1010B can be located on the second center line of the first inner rib 1030, adjacent to the first end of the first inner rib 1030 and adjacent to the first end wall 1009A, so that the second center line bisects the first end wall 1009A. The total bounded area or perimeter of the two keying structure 1010B, or only intersects the second side wall, line or surface 1014B and the fifth wall, line or surface 1014A, or only intersects the fifth wall, line or surface 1014A and the inclined wall , The line or surface 1016 intersect, or only intersect the fifth wall, line or surface 1014A and the intersection of the inclined wall, line or surface 1016 and the second side wall, line or surface 1014B. The third keying structure 1010C may be located on the third center line of the third inner rib 1032, adjacent to the first end of the first inner rib 1030 and adjacent to The first end wall 1009A such that the third center line bisects the total bounded area or perimeter of the third keying structure 1010C, or only intersects the second side wall, line or surface 1014B and the fifth wall, line or surface 1014A, or Intersect only the fifth wall, line or surface 1014A and the inclined wall, line or surface 1016, or only the intersection of the fifth wall, line or surface 1014A and the inclined wall 1016 and the second side wall, line or surface 1014B. The first keying structure 1010A, the second keying structure 1010B, and the third keying structure 1010C may each have exactly the same shape and/or may each have an asymmetric shape with a completely asymmetric circumference. The second keying structure 1010B or the third keying structure 1010C may each be a mirror image of the first keying structure 1010A with respect to the middle center line ML perpendicular to the longitudinal center line CL. The longitudinal centerline CL and the middle centerline ML divide the socket connector 1005 into four quadrants, where each quadrant has a different structure from each of the other quadrants, so that no quadrant can replace the other quadrants. There may be an equal number of electrical contacts 110, 110A, 120 on both sides of the longitudinal centerline, and an equal number of electrical contacts 110, 110A, 120 may exist on either side of the middle centerline ML.

如圖37中所展示,插座連接器1005之安裝界面可包括第一對準栓釘1001及第二對準栓釘1002。縱向中心線CL可穿過第一對準栓釘1001,且第一對準栓釘1001可具有縱向中心線CL穿過之中心點CP。第二對準栓釘1002可經定位於縱向中心線CL之任一側上,使得縱向中心線CL不與第二對準栓釘1002之任何部分相交。在一個具體實例中,第二對準栓釘1002可全部或部分地經定位於第一鍵控結構1010A下方,或可經定位不位於第一鍵控結構1010A下方。第一對準栓釘1001可完全或部分地經定位於第二鍵控結構1010B或第三鍵控結構1010C下方,或可經定位不位於第二鍵控結構1010B或第三鍵控結構1010C下方。第二對準栓釘1002可沿著介於第三插座列1022與第四插座列1023之間的第四中心線放置,該第四中心線平行於縱向中心線CL並與縱向中心線CL間隔開。第一對準栓釘1001可具有直徑大約為0.8±0.05mm之圓形外部或剖面形狀,且第二對準栓釘1002可具有直徑大約為0.8±0.05mm及0.6±0.05mm的橢圓形。第一對準栓釘1001可經定位鄰近於插座殼體1006之第一端壁1009A且鄰近於插座殼體1006之安裝 界面1040。第二對準栓釘1002可經定位鄰近於插座殼體1006之第二端壁1009B且鄰近於插座殼體1006之安裝界面1040。第一對準栓釘1001及第二對準栓釘1002皆可經定位關於縱向中心線CL及中間中心線ML不對稱。在電接點的一些鄰近列之間的以長度量測的列間距距離可彼此不同。第一插座列1020與第二插座列1021之各別電接點中心之間的第一列間距RP1可為大約2.2±0.005mm、2.2±0.1mm或2.2±0.05mm。第二插座列1021與第三插座列1022的各別電接觸中心之間的第二列間距RP2可為大約2.4±0.005mm、2.4±0.1mm或2.4±0.05mm。第三插座列1022與第四插座列1023之各別電接點中心之間的第三列間距RP3可為大約2.2±0.005mm、2.2±0.1mm或2.2±0.05mm。第四插座列1023與第五插座列1024之各別電接點中心之間的第四列間距RP4可為大約2.4±0.005mm、2.4±0.1mm或2.4±0.05mm。第五插座列1024與第六插座列1025之各別電接觸中心之間的第五列間距RP5可為大約2.2±0.005mm、2.2±0.1mm或2.2±0.05mm。第六插座列1025與第七插座列1026之各別電接觸中心之間的第六列間距RP6可為大約2.4±0.005mm、2.4±0.1mm或2.4±0.05mm。第七插座列1026與第八插座列1027之各別電接點中心之間的第七列間距RP7可為大約2.2±0.005mm、2.2±0.1mm或2.2±0.05mm。 As shown in FIG. 37, the installation interface of the socket connector 1005 may include a first alignment peg 1001 and a second alignment peg 1002. The longitudinal centerline CL may pass through the first alignment peg 1001, and the first alignment peg 1001 may have a center point CP through which the longitudinal centerline CL passes. The second alignment peg 1002 may be positioned on either side of the longitudinal centerline CL such that the longitudinal centerline CL does not intersect any part of the second alignment peg 1002. In a specific example, the second alignment peg 1002 may be fully or partially positioned below the first keying structure 1010A, or may be positioned not below the first keying structure 1010A. The first alignment peg 1001 may be completely or partially positioned below the second keying structure 1010B or the third keying structure 1010C, or may be positioned not below the second keying structure 1010B or the third keying structure 1010C . The second alignment peg 1002 can be placed along a fourth centerline between the third socket row 1022 and the fourth socket row 1023, the fourth centerline being parallel to the longitudinal centerline CL and spaced apart from the longitudinal centerline CL open. The first alignment peg 1001 may have a circular outer or cross-sectional shape with a diameter of about 0.8±0.05 mm, and the second alignment peg 1002 may have an ellipse with a diameter of about 0.8±0.05 mm and 0.6±0.05 mm. The first alignment peg 1001 can be positioned adjacent to the first end wall 1009A of the socket housing 1006 and adjacent to the installation of the socket housing 1006 Interface 1040. The second alignment peg 1002 can be positioned adjacent to the second end wall 1009B of the socket housing 1006 and adjacent to the installation interface 1040 of the socket housing 1006. Both the first alignment peg 1001 and the second alignment peg 1002 can be positioned asymmetrically about the longitudinal centerline CL and the intermediate centerline ML. The distance between adjacent rows of electrical contacts, measured in length, can be different from each other. The first row spacing RP1 between the centers of the respective electrical contact points of the first socket row 1020 and the second socket row 1021 may be approximately 2.2±0.005 mm, 2.2±0.1 mm, or 2.2±0.05 mm. The second row pitch RP2 between the respective electrical contact centers of the second socket row 1021 and the third socket row 1022 may be approximately 2.4±0.005 mm, 2.4±0.1 mm, or 2.4±0.05 mm. The third row spacing RP3 between the centers of the respective electrical contact points of the third socket row 1022 and the fourth socket row 1023 may be approximately 2.2±0.005mm, 2.2±0.1mm or 2.2±0.05mm. The fourth row spacing RP4 between the respective electrical contact centers of the fourth socket row 1023 and the fifth socket row 1024 may be approximately 2.4±0.005mm, 2.4±0.1mm or 2.4±0.05mm. The fifth row spacing RP5 between the respective electrical contact centers of the fifth socket row 1024 and the sixth socket row 1025 may be approximately 2.2±0.005mm, 2.2±0.1mm or 2.2±0.05mm. The sixth row pitch RP6 between the respective electrical contact centers of the sixth socket row 1025 and the seventh socket row 1026 may be approximately 2.4±0.005mm, 2.4±0.1mm or 2.4±0.05mm. The seventh row pitch RP7 between the respective electrical contact centers of the seventh socket row 1026 and the eighth socket row 1027 may be approximately 2.2±0.005mm, 2.2±0.1mm, or 2.2±0.05mm.

圖38為圖36及圖37中所展示之插座連接器1005的俯視透視圖。緊鄰電接點110、110A、120可在0.65±0.05mm中心線上間隔開。插座連接器1005可承載電接點110、110A,120,使得可將800個電接點配置成八列,每一列含一百個電接點。 FIG. 38 is a top perspective view of the receptacle connector 1005 shown in FIGS. 36 and 37. FIG. The adjacent electrical contacts 110, 110A, 120 can be spaced apart on the center line of 0.65±0.05mm. The socket connector 1005 can carry electrical contacts 110, 110A, and 120, so that 800 electrical contacts can be configured into eight rows, each row containing one hundred electrical contacts.

如圖39中所展示,插座連接器1105可具有插座殼體1106,該插座殼體界定兩個平行的間隔開的縱向壁(諸如第一縱向壁1107A及第二縱向壁1107B)以及兩個平行的間隔開的端壁(諸如第一端壁1109A及第二端壁1109B)。兩個平行的間隔開的第一端壁1109A及第二端壁1109B之長度可與兩個平行的間 隔開的第一縱向壁1107A及第二縱向壁1107B相同。縱向中心線CL延伸穿過兩個平行的間隔開的第一端壁1109A及第二端壁1109B,平行於兩個平行的間隔開的第一縱向壁1107A及第二縱向壁1107B。插座連接器1105或插座殼體1106的配合界面可包括第一鍵控結構1110A、第二鍵控結構1110B、第三鍵控結構1110C及第四鍵控結構1110D。第一鍵控結構1110A、第二鍵控結構1110B、第三鍵控結構1110C及第四鍵控結構1110D可形成梯形的四個點,該梯形關於插座殼體1106之中間中心線ML對稱。 As shown in Figure 39, the socket connector 1105 may have a socket housing 1106 that defines two parallel spaced apart longitudinal walls (such as a first longitudinal wall 1107A and a second longitudinal wall 1107B) and two parallel Of spaced-apart end walls (such as first end wall 1109A and second end wall 1109B). The length of the two parallel spaced apart first end wall 1109A and second end wall 1109B can be the same as the length of the two parallel spaced apart The separated first longitudinal wall 1107A and the second longitudinal wall 1107B are the same. The longitudinal centerline CL extends through two parallel spaced apart first end walls 1109A and second end wall 1109B, and parallel to two parallel spaced apart first longitudinal walls 1107A and second longitudinal walls 1107B. The mating interface of the socket connector 1105 or the socket housing 1106 may include a first keying structure 1110A, a second keying structure 1110B, a third keying structure 1110C, and a fourth keying structure 1110D. The first keying structure 1110A, the second keying structure 1110B, the third keying structure 1110C, and the fourth keying structure 1110D can form four points of a trapezoid, which is symmetrical about the middle center line ML of the socket housing 1106.

第一鍵控結構1110A及第二鍵控結構1110B可定位在縱向中心線CL之相對側上,使得縱向中心線CL不與第一鍵控結構1110A或第二鍵控結構1110B中之任一者相交。第三鍵控結構1110C及第四鍵控結構1110D可定位於縱向中心線CL之相對側上,使得縱向中心線CL不與第三鍵控結構1110C或第四鍵控結構1110D中之任一者相交。與第一鍵控結構1110A及第二鍵控結構1110B相比,第三鍵控結構1110C及第四鍵控結構1110D可分開較大距離(按長度量測)。 The first keying structure 1110A and the second keying structure 1110B can be positioned on opposite sides of the longitudinal centerline CL, so that the longitudinal centerline CL is not the same as the first keying structure 1110A or the second keying structure 1110B intersect. The third keying structure 1110C and the fourth keying structure 1110D can be positioned on opposite sides of the longitudinal centerline CL, so that the longitudinal centerline CL is not the same as the third keying structure 1110C or the fourth keying structure 1110D intersect. Compared with the first keying structure 1110A and the second keying structure 1110B, the third keying structure 1110C and the fourth keying structure 1110D can be separated by a larger distance (measured by length).

第一鍵控結構1110A、第二鍵控結構1110B、第三鍵控結構1110C及第四鍵控結構1110D中之每一者可為各別第一凹部1108A、第二凹部1108B、第三凹部1108C及第四凹部1108D,每一凹部包括由插座殼體1106及兩個平行的間隔開的第一端壁1109A及第二端壁1109B之各別部分界定的三個或多於三個壁側、線或表面及總計四個或五個側面、線或表面。第一凹部1108A、第二凹部1108B、第三凹部1108C及第四凹部1108D中之每一者可具有由第一側壁、線或表面1112A,第二側壁、線或表面1114B,傾斜側壁、線或表面1116,第四側壁、線或表面1112B,以及第五側壁、線或表面1114A界定之有界區域或周長。應理解,關於第一鍵控結構1110A、第二鍵控結構1110B、第三鍵控結構1110C及第四鍵控結構1110D,「壁」亦可包括線、表面或部分壁。第一側壁1112A及第四側壁1112B可彼此平行。第二側壁1114B及第五側壁1114A可彼此平行。第一側壁1112A及第 二側壁1114B可相交以形成直角。傾斜側壁1116可與第二側壁1114B相交。第四側壁1112B可平行於第一側壁1112A且可與傾斜側壁1116相交。第五側壁1114A可平行於第二側壁1114B且可與第一側壁1112A及第四側壁1112B相交。第二側壁1114B之長度可短於第一側壁1112A及第五側壁1114A。第四側壁1112B之長度可為最短側壁。第一鍵控特徵1110A及第二鍵控特徵1110B可相對於縱向中心線CL為彼此鏡像,且第三鍵控特徵1110C及第四鍵控特徵1110D可相對於縱向中心線CL為彼此鏡像。可為凹部之第一鍵控結構1110A、第二鍵控結構1110B、第三鍵控結構1110C及第四鍵控結構1110D中之每一者經組態以接納圖45中所展示之對應的第一插頭鍵控結構1410A、第二插頭鍵控結構1410B、第三插頭鍵控結構1410C,或第四插頭鍵控結構1410D,第一插頭鍵控結構1410A、第二插頭鍵控結構1410B、第三插頭鍵控結構1410C,或第四插頭鍵控結構1410D可為由插頭殼體1405界定或經定位鄰近於插頭殼體1405的支柱或第一突出部1408A、第二突出部1408B、第三突出部1408C或第四突出部1408D。例如,插座連接器1105之第一鍵控結構1110A可接納插頭殼體1405之第二插頭鍵控結構1410B,插座殼體1106之第二鍵控結構1110B可接納插頭殼體1405之第一插頭鍵控結構1410A,插座殼體1106之第三鍵控結構1110C可接納插頭殼體1405之第四插頭鍵控結構1410D,且插座殼體1106之第四鍵控結構1110D可接納插頭殼體1405之第三插頭鍵控結構1410C。 Each of the first keying structure 1110A, the second keying structure 1110B, the third keying structure 1110C, and the fourth keying structure 1110D may be a respective first recess 1108A, a second recess 1108B, and a third recess 1108C And the fourth recess 1108D, each recess includes three or more wall sides defined by the socket housing 1106 and two parallel and spaced apart first end walls 1109A and second end walls 1109B respectively. Lines or surfaces and a total of four or five sides, lines or surfaces. Each of the first recess 1108A, the second recess 1108B, the third recess 1108C, and the fourth recess 1108D may have a first side wall, line or surface 1112A, a second side wall, line or surface 1114B, an inclined side wall, line or The surface 1116, the fourth side wall, line or surface 1112B, and the fifth side wall, line or surface 1114A define a bounded area or perimeter. It should be understood that with regard to the first keying structure 1110A, the second keying structure 1110B, the third keying structure 1110C, and the fourth keying structure 1110D, the "wall" may also include a line, a surface or a partial wall. The first side wall 1112A and the fourth side wall 1112B may be parallel to each other. The second side wall 1114B and the fifth side wall 1114A may be parallel to each other. The first side wall 1112A and the The two side walls 1114B may intersect to form a right angle. The inclined side wall 1116 may intersect the second side wall 1114B. The fourth side wall 1112B may be parallel to the first side wall 1112A and may intersect the inclined side wall 1116. The fifth side wall 1114A may be parallel to the second side wall 1114B and may intersect the first side wall 1112A and the fourth side wall 1112B. The length of the second side wall 1114B may be shorter than that of the first side wall 1112A and the fifth side wall 1114A. The length of the fourth side wall 1112B may be the shortest side wall. The first keying feature 1110A and the second keying feature 1110B may be mirror images of each other with respect to the longitudinal centerline CL, and the third keying feature 1110C and the fourth keying feature 1110D may be mirror images of each other with respect to the longitudinal centerline CL. Each of the first keying structure 1110A, the second keying structure 1110B, the third keying structure 1110C, and the fourth keying structure 1110D, which can be a recess, is configured to receive the corresponding first keying structure shown in FIG. 45 One plug keying structure 1410A, second plug keying structure 1410B, third plug keying structure 1410C, or fourth plug keying structure 1410D, first plug keying structure 1410A, second plug keying structure 1410B, third The plug keying structure 1410C, or the fourth plug keying structure 1410D may be a pillar or first protrusion 1408A, a second protrusion 1408B, or a third protrusion defined by the plug housing 1405 or positioned adjacent to the plug housing 1405 1408C or the fourth protrusion 1408D. For example, the first keying structure 1110A of the socket connector 1105 can receive the second plug keying structure 1410B of the plug housing 1405, and the second keying structure 1110B of the socket housing 1106 can receive the first plug key of the plug housing 1405 Control structure 1410A, the third keying structure 1110C of the socket housing 1106 can receive the fourth plug keying structure 1410D of the plug housing 1405, and the fourth keying structure 1110D of the socket housing 1106 can receive the third keying structure of the plug housing 1405 Three-plug keying structure 1410C.

插座連接器1105或插座殼體1106可包括接點110、110A,120之十六個平行的經間隔開插座列1120、1121、1122、1123、1124、1125、1126、1127、1140、1141、1142、1143、1144、1145、1146、1147。電接點110、110A、120之第一插座列1120及電接點110、110A、120之第十六插座列1147沿著插座殼體1106之各別第一縱向壁1107A及第二縱向壁1107B的內側延伸。電接點110、110A、120之第二插座列1121及電接點110、110A、120之第三插座列1122經背對背定位且沿 著第一內部肋狀物1130延伸,該第一內部肋狀物沿插座連接器1105或插座殼體1106之端對端方向延伸。電接點110、110A、120之第四插座列1123及電接點110、110A、120之第五插座列1124經背對背定位且沿著第二內部肋狀物1131延伸,該第二內部肋狀物沿插座連接器1105或插座殼體1106之端對端方向延伸。電接點110、110A、120之第六插座列1125及電接點110、110A、120之第七插座列1126經背對背地定位且沿著第三內部肋狀物1132延伸,該第三內部肋狀物沿插座連接器1105或插座殼體1106之端對端方向延伸。電接點110、110A、120之第八插座列1127及電接點110、110A、120之第九插座列1140經背對背定位且沿著第四內部肋狀物1133延伸,該第二內部肋狀物沿著插座連接器1105或插座殼體1106之中間向下沿端對端方向延伸。電接點110、110A、120之第十插座列1141及電接點110、110A、120之第十一插座列1142經背對背定位且沿著第五內部肋狀物1134延伸,該第五內部肋狀物沿插座連接器1105或插座殼體1106之端對端方向延伸。電接點110、110A、120之第十二插座列1143及電接點110、110A、120之第十三插座列1144經背對背地定位且沿著第六內部肋狀物1135延伸,該第六內部肋狀物沿插座連接器1105或插座殼體1106之端對端方向延伸。電接點110、110A、120之第十四插座列1145及電接點110、110A、120之第十五插座列1146經背對背地定位且沿著第七內部肋狀物1136延伸,該第七內部肋狀物沿插座連接器1105或插座殼體1106之端對端方向延伸。第一內部肋狀物1130及第二內部肋狀物1131可彼此平行地定向。第二內部肋狀物1131及第三內部肋狀物1132可彼此平行地定向。第三內部肋狀物1032及第四內部肋狀物1133可彼此平行地定向。第四內部肋狀物1133及第五內部肋狀物1134可彼此平行地定向。第五內部肋狀物1134及第六內部肋狀物1135可彼此平行地定向。第六內部肋狀物1135及第七內部肋狀物1136可各自彼此平行地定向。第一鍵控結構1110A、第二鍵控結構1110B、第三鍵控結構1110C及第四鍵控結構1110D中之每一者可位於肋狀物1130、1131、1132、1133、 1134、1135、1136中之各別者之一端處。儘管插座連接器1105經展示為具有十六個平行的間隔開的無屏蔽列,但可使用電接點110、110A、120之任何數目個列。插座連接器1105之電接點110、110A、120可自兩個方向釘合,如關於圖4至圖8所描述。插座連接器1105可無串擾屏蔽及磁性吸收有損耗材料中之任何者,或可包括任何數目個串擾屏蔽或導電或非導電磁性吸收有損耗材料。諸如焊球之可熔元件可附接至電接點110、110A、120中之各別電接點。電接點110、110A、120亦可以壓入配合插腳或針眼、J形引線或其他組態端接。 The socket connector 1105 or socket housing 1106 may include sixteen parallel spaced apart socket rows 1120, 1121, 1122, 1123, 1124, 1125, 1126, 1127, 1140, 1141, 1142 of contacts 110, 110A, 120 , 1143, 1144, 1145, 1146, 1147. The first socket row 1120 of electrical contacts 110, 110A, 120 and the sixteenth socket row 1147 of electrical contacts 110, 110A, 120 are along the respective first longitudinal wall 1107A and second longitudinal wall 1107B of the socket housing 1106 The inner side of the extension. The second socket row 1121 of electrical contacts 110, 110A, 120 and the third socket row 1122 of electrical contacts 110, 110A, 120 are positioned back-to-back and along The first inner rib 1130 extends along the end-to-end direction of the socket connector 1105 or the socket housing 1106. The fourth socket row 1123 of the electrical contacts 110, 110A, 120 and the fifth socket row 1124 of the electrical contacts 110, 110A, 120 are positioned back to back and extend along the second internal rib 1131, which is shaped like a second internal rib. The object extends along the end-to-end direction of the socket connector 1105 or the socket housing 1106. The sixth socket row 1125 of the electrical contacts 110, 110A, 120 and the seventh socket row 1126 of the electrical contacts 110, 110A, 120 are positioned back to back and extend along the third internal rib 1132, which The shape extends along the end-to-end direction of the socket connector 1105 or the socket housing 1106. The eighth socket row 1127 of the electrical contacts 110, 110A, 120 and the ninth socket row 1140 of the electrical contacts 110, 110A, 120 are positioned back-to-back and extend along the fourth internal rib 1133, the second internal rib-shaped The object extends downwardly in the end-to-end direction along the middle of the socket connector 1105 or the socket housing 1106. The tenth socket row 1141 of the electrical contacts 110, 110A, 120 and the eleventh socket row 1142 of the electrical contacts 110, 110A, 120 are positioned back to back and extend along the fifth internal rib 1134, which The shape extends along the end-to-end direction of the socket connector 1105 or the socket housing 1106. The twelfth socket row 1143 of the electrical contacts 110, 110A, 120 and the thirteenth socket row 1144 of the electrical contacts 110, 110A, 120 are positioned back to back and extend along the sixth internal rib 1135, the sixth The internal ribs extend in the end-to-end direction of the socket connector 1105 or the socket housing 1106. The fourteenth socket row 1145 of the electrical contacts 110, 110A, 120 and the fifteenth socket row 1146 of the electrical contacts 110, 110A, 120 are positioned back-to-back and extend along the seventh internal rib 1136, the seventh The internal ribs extend in the end-to-end direction of the socket connector 1105 or the socket housing 1106. The first internal rib 1130 and the second internal rib 1131 may be oriented parallel to each other. The second internal rib 1131 and the third internal rib 1132 may be oriented parallel to each other. The third internal rib 1032 and the fourth internal rib 1133 may be oriented parallel to each other. The fourth internal rib 1133 and the fifth internal rib 1134 may be oriented parallel to each other. The fifth internal rib 1134 and the sixth internal rib 1135 may be oriented parallel to each other. The sixth internal rib 1135 and the seventh internal rib 1136 may each be oriented parallel to each other. Each of the first keying structure 1110A, the second keying structure 1110B, the third keying structure 1110C, and the fourth keying structure 1110D may be located on the ribs 1130, 1131, 1132, 1133, At one end of each of 1134, 1135, and 1136. Although the receptacle connector 1105 is shown as having sixteen parallel spaced unshielded rows, any number of rows of electrical contacts 110, 110A, 120 can be used. The electrical contacts 110, 110A, and 120 of the socket connector 1105 can be nailed from two directions, as described in relation to FIGS. 4 to 8. The socket connector 1105 may be any of crosstalk shielding and magnetically absorbing lossy materials, or may include any number of crosstalk shielding or conductive or non-conductive magnetically absorbing lossy materials. Fusible elements such as solder balls can be attached to individual electrical contacts 110, 110A, 120. The electrical contacts 110, 110A, and 120 can also be press-fitted with pins or eyelets, J-shaped leads, or other configuration terminations.

第一鍵控結構1110A可位於第二內部肋狀物1131之第二中心線上,鄰近於第二內部肋狀物1131之第二端且鄰近於第二端壁1109B,使得第二中心線平分第一鍵控結構1110A之總有界區域或周長,或僅與第二側壁、線或表面1114B及第五壁、線或表面1114A相交,或僅與第五壁、線或表面1114A及傾斜壁、線或表面1116相交,或僅與第五壁、線或表面1114A及傾斜壁1116與第二側壁、線或表面1114B的相交部相交。第二鍵控結構1110B可位於第六內部肋狀物1135之第六中心線上,鄰近於第六內部肋狀物1135之第二端且鄰近於第二端壁1109B,使得第六中心線平分第二鍵控結構1110B之總有界區域或周長,或僅使第二側壁、線或表面1114B與第五壁、線或表面1114A相交,或僅使第五壁、線或表面1114A與傾斜壁、線或表面1116相交,或僅使第五壁、線或表面1114A與傾斜壁、線或表面1116和第二側壁、線或表面1114B的相交部相交。第三鍵控結構1110C可位於第一內部肋狀物1130之第一中心線上,鄰近於第一內部肋狀物1130之第一端且鄰近於第一端壁1109A,使得中心線平分第三鍵控結構1110C之總有界區域或周長,或僅使第二側壁、線或表面1114B與第五壁、線或表面1114A相交,或僅使第五壁、線或表面1114A與傾斜壁、線或表面1116相交,或僅使第五壁、線或表面1114A與傾斜壁1116和第二側壁、線或表面1114B的相交部相交。第四鍵控結構1110D可位於第七內部肋狀物1136之第七中心線上,鄰近於第七內 部肋狀物1136之第一端且鄰近於第一端壁1109A,使得第七中心線平分第四鍵控結構1110D之總有界區域或周長。第一鍵控結構1110A,第二鍵控結構1110B,第三鍵控結構1110C及第四鍵控結構1110D可各自為完全相同形狀的且/或可各自具有不對稱的形狀或完全不對稱的周長。第一鍵控結構1110A可為第三鍵控結構1110C相對於垂直於縱向中心線CL之中間中心線ML的鏡像。第二鍵控結構1110B可為第四鍵控結構1110D相對於中間中心線ML的鏡像。第一鍵控結構1110A、第二鍵控結構1110B、第三鍵控結構1110C及第四鍵控結構1110D可關於縱向中心線CL對稱地配置,且關於中間中心線ML不對稱地配置,或反之亦然。 The first keying structure 1110A can be located on the second center line of the second inner rib 1131, adjacent to the second end of the second inner rib 1131 and adjacent to the second end wall 1109B, so that the second center line bisects the second end wall 1109B. The total bounded area or perimeter of a keying structure 1110A, or only intersecting the second side wall, line or surface 1114B and the fifth wall, line or surface 1114A, or only intersecting the fifth wall, line or surface 1114A and the inclined wall , The line or surface 1116 intersect, or only intersect the fifth wall, line or surface 1114A and the intersection of the inclined wall 1116 and the second side wall, line or surface 1114B. The second keying structure 1110B can be located on the sixth center line of the sixth internal rib 1135, adjacent to the second end of the sixth internal rib 1135 and adjacent to the second end wall 1109B, so that the sixth center line bisects the second end wall 1109B. The total bounded area or perimeter of the two-keying structure 1110B, or only the second side wall, line or surface 1114B intersecting the fifth wall, line or surface 1114A, or only the fifth wall, line or surface 1114A and the inclined wall , The line or surface 1116 intersect, or only the fifth wall, line or surface 1114A intersects the intersection of the inclined wall, line or surface 1116 and the second side wall, line or surface 1114B. The third keying structure 1110C can be located on the first center line of the first inner rib 1130, adjacent to the first end of the first inner rib 1130 and adjacent to the first end wall 1109A, so that the center line bisects the third key The total bounded area or perimeter of the control structure 1110C, or only the second side wall, line or surface 1114B intersecting the fifth wall, line or surface 1114A, or only the fifth wall, line or surface 1114A and the inclined wall, line Or the surface 1116 intersects, or only the intersection of the fifth wall, line or surface 1114A and the inclined wall 1116 and the second side wall, line or surface 1114B intersect. The fourth keying structure 1110D may be located on the seventh center line of the seventh inner rib 1136, adjacent to the seventh inner The first end of the rib 1136 is adjacent to the first end wall 1109A, so that the seventh center line bisects the total bounded area or perimeter of the fourth keying structure 1110D. The first keying structure 1110A, the second keying structure 1110B, the third keying structure 1110C, and the fourth keying structure 1110D may each have exactly the same shape and/or may each have an asymmetrical shape or a completely asymmetrical circumference. long. The first keying structure 1110A may be a mirror image of the third keying structure 1110C with respect to the middle center line ML perpendicular to the longitudinal center line CL. The second keying structure 1110B may be a mirror image of the fourth keying structure 1110D with respect to the middle center line ML. The first keying structure 1110A, the second keying structure 1110B, the third keying structure 1110C, and the fourth keying structure 1110D can be arranged symmetrically about the longitudinal centerline CL and asymmetrically about the middle centerline ML, or vice versa The same is true.

縱向中心線CL及中間中心線ML將插座連接器1105劃分成四個象限,其中每一象限具有與其他象限中之每一者不同的結構,使得沒有象限可替代其他象限。在縱向中心線CL之一側上可存在相等數目個電接點,且在中間中心線ML之一側可存在相等數目個電接點。 The longitudinal centerline CL and the middle centerline ML divide the socket connector 1105 into four quadrants, where each quadrant has a different structure from each of the other quadrants, so that no quadrant can replace the other quadrants. There may be an equal number of electrical contacts on one side of the longitudinal centerline CL, and an equal number of electrical contacts on one side of the middle centerline ML.

如圖40中所展示,插座連接器1105之安裝界面可包括第一對準栓釘1101及第二對準栓釘1102。縱向中心線CL可穿過第一對準栓釘1101,且第一對準栓釘1101可具有縱向中心線CL穿過之中心點CP。第二對準栓釘1102可經定位於縱向中心線CL之任一側上,使得縱向中心線CL不與第二對準栓釘1102相交。在一個具體實例中,第二對準栓釘1102可完全或部分地定位於第一鍵控結構1110A或第二鍵控結構1110B下方,或可經定位不位於第一鍵控結構1110A或第二鍵控結構1110B下方。第一對準栓釘1101可完全或部分地經定位於第三鍵控結構1110C或第四鍵控結構1110D下方,或可經定位不位於第三鍵控結構1110C或第四鍵控結構1110D下方。第二對準栓釘1102可沿著介於第七插座列1126與第八插座列1127之間的中心線放置,該中心線平行於縱向中心線CL並與縱向中心線CL間隔開。第一對準栓釘1101可具有直徑大約為0.8±0.05mm之圓形,且第二對準栓釘1102可具有直徑大約為0.8±0.05mm及0.6±0.05mm的橢圓形。第一對準栓釘 1101可經定位鄰近於插座殼體1106之第二端壁1109B且鄰近於插座殼體1106之安裝界面。第二對準栓釘1102可經定位鄰近於插座殼體1106之第一端壁1109A且鄰近於插座殼體1106之安裝界面。第一對準栓釘1101及第二對準栓釘1102皆可經定位關於縱向中心線CL及中間中心線ML不對稱。第一插座列1120與第二插座列1121之各別電接點中心之間的第一列間距RP1可為大約2.2±0.005mm、2.2±0.1mm或2.2±0.05mm。第二插座列1121與第三插座列1122的各別電接觸中心之間的第二列間距RP2可為大約2.4±0.005mm、2.4±0.1mm或2.4±0.05mm。第三插座列1122與第四插座列1123之各別電接點中心之間的第三列間距RP3可為大約2.2±0.005mm、2.2±0.1mm或2.2±0.05mm。第四插座列1123與第五插座列1124之各別電接點中心之間的第四列間距RP4可為大約2.4±0.005mm、2.4±0.1mm或2.4±0.05mm。第五插座列1124與第六插座列1125之各別電接觸中心之間的第五列間距RP5可為大約2.2±0.005mm、2.2±0.1mm或2.2±0.05mm。第六插座列1125與第七插座列1126之各別電接觸中心之間的第六列間距RP6可為大約2.4±0.005mm、2.4±0.1mm或2.4±0.05mm。第七插座列1126與第八插座列1127之各別電接點中心之間的第七列間距RP7可為大約2.2±0.005mm、2.2±0.1mm或2.2±0.05mm。第八插座列1127與第九插座列1140之各別電接觸中心之間的第八列間距RP8可為大約2.4±0.005mm、2.4±0.1mm或2.4±0.05mm。第九插座列1140與第十插座列1141之各別電接點中心之間的第九列間距RP9可為大約2.2±0.005mm、2.2±0.1mm或2.2±0.05mm。第十插座列1141與第十一插座列1142之各別電接觸中心之間的第十列間距RP10可為大約2.4±0.005mm、2.4±0.1mm或2.4±0.05mm。第十一插座列1142與第十二插座列1143之各別電接觸中心之間的第十一列間距RP11可為大約2.2±0.005mm、2.2±0.1mm或2.2±0.05mm。第十二插座列1143與第十三插座列1144之各別電接觸中心之間的第十二列間距RP12可為大約2.4±0.005mm、2.4±0.1mm或2.4±0.05mm。第十三插座列1144與第十四插座列 1145之各別電接觸中心之間的第十三列間距RP13為大約2.2±0.005mm、2.2±0.1mm或2.2±0.05mm。第十四插座列1145與第十五插座列1146之各別電接觸中心之間的第十四列間距RP14為大約2.4±0.005mm、2.4±0.1mm或2.4±0.05mm。第十五插座列1146與第十六插座列1147之各別電接觸中心之間的第十五列間距RP15可為大約2.2±0.005mm、2.2±0.1mm或2.2±0.05mm。 As shown in FIG. 40, the installation interface of the socket connector 1105 may include a first alignment peg 1101 and a second alignment peg 1102. The longitudinal centerline CL may pass through the first alignment peg 1101, and the first alignment peg 1101 may have a center point CP through which the longitudinal centerline CL passes. The second alignment peg 1102 may be positioned on either side of the longitudinal centerline CL such that the longitudinal centerline CL does not intersect the second alignment peg 1102. In a specific example, the second alignment peg 1102 may be completely or partially positioned under the first keying structure 1110A or the second keying structure 1110B, or may be positioned not at the first keying structure 1110A or the second keying structure 1110A. Below the keying structure 1110B. The first alignment peg 1101 may be completely or partially positioned under the third keying structure 1110C or the fourth keying structure 1110D, or may be positioned not under the third keying structure 1110C or the fourth keying structure 1110D . The second alignment peg 1102 may be placed along a centerline between the seventh socket row 1126 and the eighth socket row 1127, the centerline being parallel to the longitudinal centerline CL and spaced apart from the longitudinal centerline CL. The first alignment peg 1101 may have a circular shape with a diameter of about 0.8±0.05 mm, and the second alignment peg 1102 may have an oval shape with a diameter of about 0.8±0.05 mm and 0.6±0.05 mm. First alignment peg 1101 can be positioned adjacent to the second end wall 1109B of the socket housing 1106 and adjacent to the installation interface of the socket housing 1106. The second alignment peg 1102 can be positioned adjacent to the first end wall 1109A of the socket housing 1106 and adjacent to the installation interface of the socket housing 1106. Both the first alignment peg 1101 and the second alignment peg 1102 can be positioned asymmetrically about the longitudinal centerline CL and the intermediate centerline ML. The first row spacing RP1 between the respective electrical contact centers of the first socket row 1120 and the second socket row 1121 may be approximately 2.2±0.005mm, 2.2±0.1mm or 2.2±0.05mm. The second row pitch RP2 between the respective electrical contact centers of the second socket row 1121 and the third socket row 1122 may be approximately 2.4±0.005 mm, 2.4±0.1 mm, or 2.4±0.05 mm. The third row spacing RP3 between the centers of the respective electrical contact points of the third socket row 1122 and the fourth socket row 1123 may be approximately 2.2±0.005mm, 2.2±0.1mm, or 2.2±0.05mm. The fourth row spacing RP4 between the respective electrical contact centers of the fourth socket row 1123 and the fifth socket row 1124 may be approximately 2.4±0.005mm, 2.4±0.1mm or 2.4±0.05mm. The fifth row spacing RP5 between the respective electrical contact centers of the fifth socket row 1124 and the sixth socket row 1125 may be approximately 2.2±0.005mm, 2.2±0.1mm, or 2.2±0.05mm. The sixth row pitch RP6 between the respective electrical contact centers of the sixth socket row 1125 and the seventh socket row 1126 may be approximately 2.4±0.005mm, 2.4±0.1mm or 2.4±0.05mm. The seventh row pitch RP7 between the centers of the respective electrical contact points of the seventh socket row 1126 and the eighth socket row 1127 may be approximately 2.2±0.005mm, 2.2±0.1mm, or 2.2±0.05mm. The eighth row spacing RP8 between the respective electrical contact centers of the eighth socket row 1127 and the ninth socket row 1140 may be approximately 2.4±0.005mm, 2.4±0.1mm or 2.4±0.05mm. The ninth row pitch RP9 between the respective electrical contact centers of the ninth socket row 1140 and the tenth socket row 1141 may be approximately 2.2±0.005mm, 2.2±0.1mm or 2.2±0.05mm. The tenth row pitch RP10 between the respective electrical contact centers of the tenth socket row 1141 and the eleventh socket row 1142 may be approximately 2.4±0.005mm, 2.4±0.1mm or 2.4±0.05mm. The eleventh row spacing RP11 between the respective electrical contact centers of the eleventh socket row 1142 and the twelfth socket row 1143 may be approximately 2.2±0.005mm, 2.2±0.1mm, or 2.2±0.05mm. The twelfth row pitch RP12 between the respective electrical contact centers of the twelfth socket row 1143 and the thirteenth socket row 1144 may be approximately 2.4±0.005mm, 2.4±0.1mm or 2.4±0.05mm. The thirteenth socket row 1144 and the fourteenth socket row The thirteenth row spacing RP13 between the individual electrical contact centers of 1145 is approximately 2.2±0.005mm, 2.2±0.1mm or 2.2±0.05mm. The fourteenth row spacing RP14 between the respective electrical contact centers of the fourteenth socket row 1145 and the fifteenth socket row 1146 is approximately 2.4±0.005mm, 2.4±0.1mm or 2.4±0.05mm. The fifteenth row spacing RP15 between the respective electrical contact centers of the fifteenth socket row 1146 and the sixteenth socket row 1147 may be approximately 2.2±0.005mm, 2.2±0.1mm or 2.2±0.05mm.

圖41為圖39及圖40中所展示之插座連接器1105的俯視透視圖。緊鄰電接點110、110A、120可在0.65±0.05mm中心線上間隔開。插座連接器1105可承載電接點110、110A,120,使得可將800個電接點配置成十六列,每一列含五十個電接點。 FIG. 41 is a top perspective view of the socket connector 1105 shown in FIG. 39 and FIG. 40. The adjacent electrical contacts 110, 110A, 120 can be spaced apart on the center line of 0.65±0.05mm. The socket connector 1105 can carry electrical contacts 110, 110A, and 120, so that 800 electrical contacts can be configured into sixteen rows, and each row contains fifty electrical contacts.

圖42至圖44說明例示性插頭連接器1200。如圖42中所展示,插頭殼體1205或連接器殼體可由兩個平行的間隔開的縱向壁(諸如第一縱向插頭壁1207A及第二縱向插頭壁1207B)以及兩個平行的間隔開的端壁(諸如第一插頭端壁1209A及第二插頭端壁1209B)界定。第一插頭端壁1209A及第二插頭端壁1209B之長度可短於兩個第一縱向插頭壁1207A及第二縱向插頭壁1207B。縱向中心線CL3延伸穿過第一插頭端壁1209A及第二插頭端壁1209B,平行於第一縱向插頭壁1207A及第二縱向插頭壁1207B。插頭連接器1200或插頭殼體1205之配合界面可包括第一插頭鍵控結構1210A、第二插頭鍵控結構1210B及第三鍵控結構1210C。第一鍵控結構1210A可位於中心線CL3上,使得中心線平分第一鍵控結構1210A之總有界區域或周長。第二鍵控結構1210B及第三鍵控結構1210C可經定位於中心線CL3之相對側上,使得中心線CL3不與第二鍵控結構1210B或第三鍵控結構1210C中之任一者相交。 42-44 illustrate an exemplary plug connector 1200. FIG. As shown in Figure 42, the plug housing 1205 or connector housing can be formed by two parallel spaced apart longitudinal walls (such as a first longitudinal plug wall 1207A and a second longitudinal plug wall 1207B) and two parallel spaced apart longitudinal walls. The end walls (such as the first plug end wall 1209A and the second plug end wall 1209B) are defined. The length of the first plug end wall 1209A and the second plug end wall 1209B may be shorter than the two first longitudinal plug walls 1207A and the second longitudinal plug wall 1207B. The longitudinal centerline CL3 extends through the first plug end wall 1209A and the second plug end wall 1209B, and is parallel to the first longitudinal plug wall 1207A and the second longitudinal plug wall 1207B. The mating interface of the plug connector 1200 or the plug housing 1205 may include a first plug keying structure 1210A, a second plug keying structure 1210B, and a third keying structure 1210C. The first keying structure 1210A may be located on the center line CL3 such that the center line bisects the total bounded area or perimeter of the first keying structure 1210A. The second keying structure 1210B and the third keying structure 1210C can be positioned on opposite sides of the center line CL3, so that the center line CL3 does not intersect either the second keying structure 1210B or the third keying structure 1210C .

插頭連接器1200可包括電插頭接點308、308A、308B、308C之第一插頭列1220;電插頭接點308、308A、308B、308C之第二插頭列1221;電插頭接點308、308A、308B、308C之第三插頭列1222;電插頭接點308、308A、308B、 308C之第四插頭列1223;電插頭接點308、308A、308B、308C之第五插頭列1224;電插頭接點308、308A、308B、308C之第六插頭列1225;電插頭接點308、308A、308B、308C之第七插頭列1226,及電插頭接點308、308A、308B、308C之第八插頭列1227。插頭連接器1200可包括由經定位鄰近於插頭殼體1205之配合界面之第一插頭肋狀物1230承載的背對背電插頭接點308、308A、308B、308C之第一插頭列1220及第二插頭列1221。插頭連接器1200可包括由鄰近於插頭殼體1205之配合界面之第二插頭肋狀物1231承載的背對背電插頭接點308、308A、308B、308C之第三插頭列1222及第四插頭列1223。插頭連接器1200可包括由鄰近於插頭殼體1205之配合界面之第三插頭肋狀物1232承載的背對背電插頭接點308、308A、308B、308C之第五插頭列1224及第六插頭列1225。插頭連接器1200可包括由鄰近於插頭殼體1205之配合界面之第四插頭肋狀物1233承載的背對背電插頭接點308、308A、308B、308C之第七插頭列1226及第八插頭列1227。電插頭接點308、308A、308B、308C之第一插頭列1220可經定位鄰近於電插頭接點308、308A、308B、308C之第二插頭列1221。電插頭接點308、308A、308B、308C之第三插頭列1222可經定位鄰近於電插頭接點308、308A、308B、308C之第二插頭列1221。電插頭接點308、308A、308B、308C之第四插頭列1223可經定位鄰近於電插頭接點308、308A、308B、308C之第三插頭列1222。電插頭接點308、308A、308B、308C之第五插頭列1224可經定位鄰近於電插頭接點308、308A、308B、308C之第四插頭列1223。電插頭接點308、308A、308B、308C之第六插頭列1225可經定位鄰近於電插頭接點308、308A、308B、308C之第五插頭列1224。電插頭接點308、308A、308B、308C之第七插頭列1226可經定位鄰近於電插頭接點308、308A、308B、308C之第六插頭列1225。電插頭接點308、308A、308B、308C之第八插頭列1227可經定位鄰近於電插頭接點308、308A、308B、308C之第七插頭列1226。 The plug connector 1200 may include a first plug row 1220 of electrical plug contacts 308, 308A, 308B, 308C; a second plug row 1221 of electrical plug contacts 308, 308A, 308B, 308C; electrical plug contacts 308, 308A, The third plug row 1222 of 308B, 308C; electric plug contacts 308, 308A, 308B, The fourth plug row 1223 of 308C; the fifth plug row 1224 of electrical plug contacts 308, 308A, 308B, 308C; the sixth plug row 1225 of electrical plug contacts 308, 308A, 308B, 308C; the electrical plug contacts 308, The seventh plug row 1226 of 308A, 308B, 308C, and the eighth plug row 1227 of electrical plug contacts 308, 308A, 308B, 308C. The plug connector 1200 may include a first plug row 1220 and a second plug of back-to-back electrical plug contacts 308, 308A, 308B, 308C carried by a first plug rib 1230 positioned adjacent to the mating interface of the plug housing 1205 Column 1221. The plug connector 1200 may include a third plug row 1222 and a fourth plug row 1223 of back-to-back electrical plug contacts 308, 308A, 308B, 308C carried by the second plug rib 1231 adjacent to the mating interface of the plug housing 1205 . The plug connector 1200 may include a fifth plug row 1224 and a sixth plug row 1225 of back-to-back electrical plug contacts 308, 308A, 308B, 308C carried by the third plug rib 1232 adjacent to the mating interface of the plug housing 1205 . The plug connector 1200 may include a seventh plug row 1226 and an eighth plug row 1227 of back-to-back electrical plug contacts 308, 308A, 308B, 308C carried by the fourth plug rib 1233 adjacent to the mating interface of the plug housing 1205 . The first plug row 1220 of the electrical plug contacts 308, 308A, 308B, 308C can be positioned adjacent to the second plug row 1221 of the electrical plug contacts 308, 308A, 308B, 308C. The third plug row 1222 of the electrical plug contacts 308, 308A, 308B, 308C can be positioned adjacent to the second plug row 1221 of the electrical plug contacts 308, 308A, 308B, 308C. The fourth plug row 1223 of the electrical plug contacts 308, 308A, 308B, 308C can be positioned adjacent to the third plug row 1222 of the electrical plug contacts 308, 308A, 308B, 308C. The fifth plug row 1224 of the electrical plug contacts 308, 308A, 308B, 308C can be positioned adjacent to the fourth plug row 1223 of the electrical plug contacts 308, 308A, 308B, 308C. The sixth plug row 1225 of the electrical plug contacts 308, 308A, 308B, 308C can be positioned adjacent to the fifth plug row 1224 of the electrical plug contacts 308, 308A, 308B, 308C. The seventh plug row 1226 of the electrical plug contacts 308, 308A, 308B, 308C can be positioned adjacent to the sixth plug row 1225 of the electrical plug contacts 308, 308A, 308B, 308C. The eighth plug row 1227 of the electrical plug contacts 308, 308A, 308B, 308C can be positioned adjacent to the seventh plug row 1226 of the electrical plug contacts 308, 308A, 308B, 308C.

第一插頭肋狀物1230、第二插頭肋狀物1231、第三插頭肋狀物1232、第四插頭肋狀物1233可經間隔開,可彼此平行地定位,且可沿自第一插頭端壁1209A至第二插頭端壁1209B的方向延伸。如圖44中所展示,插頭肋狀物1200之第一插頭肋狀物1230、第二插頭肋狀物1231、第三插頭肋狀物1232、第四插頭肋狀物1233及配合界面1218處之配合端116C可突出超過由插頭殼體1205界定之階部,因此插頭肋狀物1230、1231、1232、1233及配合端116C延伸至由配合插座連接器界定之凹部內並與其配合。 The first plug ribs 1230, the second plug ribs 1231, the third plug ribs 1232, and the fourth plug ribs 1233 can be spaced apart, can be positioned parallel to each other, and can extend from the first plug end The wall 1209A extends in the direction from the second plug end wall 1209B. As shown in Figure 44, the first plug rib 1230, the second plug rib 1231, the third plug rib 1232, the fourth plug rib 1233, and the mating interface 1218 of the plug rib 1200 The mating end 116C can protrude beyond the step defined by the plug housing 1205, so the plug ribs 1230, 1231, 1232, 1233 and the mating end 116C extend into the recess defined by the mating socket connector and engage with it.

再次參考圖42,插頭連接器1200之配合界面1218可包括至少三個鍵控結構,諸如第一插頭鍵控結構1210A、第二插頭鍵控結構1210B及第三插頭鍵控結構1210C。第一插頭鍵控結構1210A可位於一個縱向中心線CL3上,使得縱向中心線CL3平分第一插頭鍵控結構1210A之總有界區域。第二插頭鍵控結構1210B及第三插頭鍵控結構1210C可經定位於插頭連接器1200之配合界面1218處在縱向中心線CL3之相對側上,使得縱向中心線CL3不與第二鍵控結構1210B或第三鍵控結構1210C中之任一者相交。第一插頭鍵控結構1210A可沿著縱向中心線CL3放置,鄰近於第二插頭肋狀物1231及第三插頭肋狀物1232之第二端,鄰近於第二插頭端壁1209B,介於第四插頭列1223與第五插頭列1224之間,且介於第二插頭肋狀物1231與第三插頭肋狀物1232之間,使得穿過整個第四插頭列1223之第一線鄰接第一插頭鍵控結構1210A之一部分,或與該部分重合,或經定位鄰近於該部分,且使得穿過整個第五插頭列1224之第二線鄰接第一插頭鍵控結構1210A之一部分,或與該部分重合,或經定位鄰近於該部分。第二插頭鍵控結構1210B可沿著介於第二插頭列1221與第三插頭列1222之間的中心線放置,鄰近於第一插頭肋狀物1230及第二插頭肋狀物1231之第一端,鄰近於第一插頭端壁1209A,且介於第一插頭肋狀物1230與第二插頭肋狀物1231之間,使得穿過整個第二插頭列1221之第三線鄰接第二插頭鍵控結構1210B的一部分或與該部分重 合,或經定位鄰近於該部分,且使得穿過整個第三插頭列1222之第四線鄰接第二插頭鍵控結構1210B的一部分,或與該部分重合,或經定位鄰近於該部分。第三插頭鍵控結構1210C可沿著介於第六插頭列1225與第七插頭列1226之間的中心線放置,鄰近於第三插頭肋狀物1232及第四插頭肋狀物1233之第一端,鄰近於第一插頭端壁1209A,且介於第三插頭肋狀物1232與第四插頭肋狀物1233之間,使得穿過整個第六插頭列1225之第五線鄰接第三插頭鍵控結構1210C的一部分或與該部分重合,或經定位鄰近於該部分,且使得穿過整個第七插頭列1225之第六線鄰接第三插頭鍵控結構1210C的一部分,或與該部分重合,或經定位鄰近於該部分。第一插頭鍵控結構1210A、第二插頭鍵控結構1210B及第三插頭鍵控結構1210C中之每一者可位於鄰近插頭肋狀物1230、1231、1232、1233中之兩者之間。 Referring again to FIG. 42, the mating interface 1218 of the plug connector 1200 may include at least three keying structures, such as a first plug keying structure 1210A, a second plug keying structure 1210B, and a third plug keying structure 1210C. The first plug keying structure 1210A may be located on a longitudinal centerline CL3, so that the longitudinal centerline CL3 bisects the total bounded area of the first plug keying structure 1210A. The second plug keying structure 1210B and the third plug keying structure 1210C can be positioned on the mating interface 1218 of the plug connector 1200 on the opposite side of the longitudinal center line CL3, so that the longitudinal center line CL3 is not the same as the second keying structure Either 1210B or the third keying structure 1210C intersect. The first plug keying structure 1210A can be placed along the longitudinal centerline CL3, adjacent to the second end of the second plug rib 1231 and the third plug rib 1232, adjacent to the second plug end wall 1209B, and located between the second end Between the four plug rows 1223 and the fifth plug row 1224, and between the second plug ribs 1231 and the third plug ribs 1232, so that the first line passing through the entire fourth plug row 1223 is adjacent to the first A part of the plug keying structure 1210A, or overlaps with this part, or is positioned adjacent to this part, so that the second line passing through the entire fifth plug row 1224 is adjacent to a part of the first plug keying structure 1210A, or is The parts overlap, or are positioned adjacent to the part. The second plug keying structure 1210B can be placed along the center line between the second plug row 1221 and the third plug row 1222, adjacent to the first of the first plug rib 1230 and the second plug rib 1231 End, adjacent to the first plug end wall 1209A, and between the first plug rib 1230 and the second plug rib 1231, so that the third line passing through the entire second plug row 1221 is adjacent to the second plug keying Part of structure 1210B or heavy The junction is or is positioned adjacent to the portion so that the fourth line passing through the entire third plug row 1222 abuts a portion of the second plug keying structure 1210B, or coincides with the portion, or is positioned adjacent to the portion. The third plug keying structure 1210C can be placed along the center line between the sixth plug row 1225 and the seventh plug row 1226, adjacent to the first of the third plug rib 1232 and the fourth plug rib 1233 End, adjacent to the first plug end wall 1209A, and between the third plug rib 1232 and the fourth plug rib 1233, so that the fifth line passing through the entire sixth plug row 1225 is adjacent to the third plug key A part of the control structure 1210C overlaps with this part, or is positioned adjacent to the part so that the sixth line passing through the entire seventh plug row 1225 abuts a part of the third plug keying structure 1210C, or overlaps with this part, Or positioned adjacent to this part. Each of the first plug keying structure 1210A, the second plug keying structure 1210B, and the third plug keying structure 1210C may be located between two of the adjacent plug ribs 1230, 1231, 1232, and 1233.

第一插頭鍵控結構1210A、第二插頭鍵控結構1210B及第三插頭鍵控結構1210C中之每一者可為由插頭殼體1205界定或經定位鄰近於插頭殼體1205之各別的第一突出部1208A、第二突出部1208B或第三突出部1208C。第一插頭鍵控結構1210A、第二插頭鍵控結構1210B及第三插頭鍵控結構1210C中之每一者可界定三個或多於三個壁、線或側面,四個或多於四個壁、線或側面,至少四個或多於四個壁、線或側面,或至少五個或多於五個壁、線或側面,且可包括第一插頭側壁、線或表面1212A,(可與第一插頭側壁1212A垂直相交之)第二插頭側壁、線或表面1214B,(與第二插頭側壁1214B相交之)傾斜插頭側壁、線或表面1216,第四插頭側壁、線或表面1212B及第五插頭側壁1214A。第四插頭側壁、線或表面1212B可與傾斜插頭側壁、線或表面1216及第五插頭側壁、線或表面1214A相交。第五插頭側壁、線或表面1214A可與第四插頭側壁、線或表面1212B及第一插頭側壁、線或表面1212A相交。 Each of the first plug keying structure 1210A, the second plug keying structure 1210B, and the third plug keying structure 1210C may be a respective first that is defined by the plug housing 1205 or positioned adjacent to the plug housing 1205 A protrusion 1208A, a second protrusion 1208B, or a third protrusion 1208C. Each of the first plug keying structure 1210A, the second plug keying structure 1210B, and the third plug keying structure 1210C may define three or more than three walls, lines or sides, four or more than four Walls, lines or sides, at least four or more walls, lines or sides, or at least five or more than five walls, lines or sides, and may include the first plug side wall, line or surface 1212A, (may Intersecting the first plug side wall 1212A perpendicularly) the second plug side wall, line or surface 1214B (intersecting the second plug side wall 1214B) inclined plug side wall, line or surface 1216, the fourth plug side wall, line or surface 1212B and the first plug side wall, line or surface 1214B. Five plug side walls 1214A. The fourth plug side wall, line or surface 1212B may intersect the inclined plug side wall, line or surface 1216 and the fifth plug side wall, line or surface 1214A. The fifth plug side wall, line or surface 1214A may intersect the fourth plug side wall, line or surface 1212B and the first plug side wall, line or surface 1212A.

第一插頭鍵控結構1210A、第二插頭鍵控結構1210B及第三插頭鍵控結構1210C中之每一者經組態以嚙合配合插座連接器之對應第一、第二及第 三鍵控結構。 Each of the first plug keying structure 1210A, the second plug keying structure 1210B, and the third plug keying structure 1210C is configured to engage the corresponding first, second, and first plug of the mating socket connector Three-key control structure.

第一插頭鍵控結構1210A,第二插頭鍵控結構1210B及第三插頭鍵控結構1210C可各自為完全相同形狀的及/或可各自具有不對稱形狀或不對稱外周長。第二鍵控結構1210B及/或第三鍵控結構1210C可為第一鍵控結構1210A相對於垂直於縱向中心線CL3之中間中心線ML3的鏡像。縱向中心線CL3及中間中心線ML3將插頭連接器1205劃分成四個象限,其中每一象限具有與其他象限中之每一者不同的結構,使得沒有象限可替代其他象限。在縱向中心線CL3之一側上可存在相等數目個電接點,且在中間中心線ML3之一側可存在相等數目個電接點。 The first plug keying structure 1210A, the second plug keying structure 1210B, and the third plug keying structure 1210C may each have exactly the same shape and/or may each have an asymmetric shape or an asymmetric outer circumference. The second keying structure 1210B and/or the third keying structure 1210C may be a mirror image of the first keying structure 1210A with respect to the middle center line ML3 perpendicular to the longitudinal center line CL3. The longitudinal centerline CL3 and the middle centerline ML3 divide the plug connector 1205 into four quadrants, where each quadrant has a different structure from each of the other quadrants, so that no quadrant can replace the other quadrants. There may be an equal number of electrical contacts on one side of the longitudinal centerline CL3, and an equal number of electrical contacts may exist on one side of the middle centerline ML3.

圖43為插頭連接器1200的安裝界面1240的仰視圖。未展示的可熔構件可以任何合適的方式附接至電插頭接點308、308A、308B、308C。替代地,電插頭接點308、308A、308B、308C可以J形引線、壓入配合插腳或針眼或其他合適的終端端接。插頭連接器1200以及本文中所描述之任何連接器具體實例可包括插頭墊高部。插頭墊高部可位於插頭殼體1205之四個拐角處。可使用任何數目及任何位置之插頭墊高部。當可熔構件)回焊以將插頭連接器1200連接至基板時,插頭墊高部有助於確保插頭連接器1200與基板之安裝表面間隔開固定距離。插頭連接器1200可包括第一插頭對準栓釘1201及第二插頭對準栓釘1202,該些插頭對準栓釘經組態以容納在預先鑽孔之對準孔中,以使插頭連接器1200之可熔元件與基板之安裝表面上之對應焊墊大致對準。 FIG. 43 is a bottom view of the installation interface 1240 of the plug connector 1200. FIG. Fusible members not shown may be attached to the electrical plug contacts 308, 308A, 308B, 308C in any suitable manner. Alternatively, the electrical plug contacts 308, 308A, 308B, 308C can be terminated with J-shaped leads, press-fit pins or eyelets, or other suitable terminals. The plug connector 1200 and any specific examples of the connectors described herein may include plug bumps. The plug bumper can be located at the four corners of the plug housing 1205. Any number and any position of the plug height can be used. When the fusible member is reflowed to connect the plug connector 1200 to the substrate, the plug bumper helps to ensure that the plug connector 1200 is separated from the mounting surface of the substrate by a fixed distance. The plug connector 1200 may include a first plug alignment peg 1201 and a second plug alignment peg 1202. The plug alignment pegs are configured to be received in pre-drilled alignment holes to connect the plug The fusible element of the device 1200 is roughly aligned with the corresponding pads on the mounting surface of the substrate.

展示第一插頭對準栓釘1201及第二插頭對準栓釘1202,但可使用任何數目的插頭對準栓釘。第一插頭對準栓釘1201及第二插頭對準栓釘1202可具有任何合適的形狀,包括例如圓形、橢圓形、方形等。第一插頭對準栓釘1201及第二插頭對準栓釘1202的形狀可為相同的或不同的。縱向中心線CL3可穿過第一對準栓釘1201,且第一對準栓釘1201可具有縱向中心線CL3穿過之中心點CP。 第二對準栓釘1202可經定位於縱向中心線CL3之任一側上,使得縱向中心線CL3不與第二對準栓釘1202相交。在一個具體實例中,第一插頭對準栓釘1201可完全或部分地經定位於第一插頭鍵控結構1210A之周長下方。第二插頭對準栓釘1202可完全或部分地經定位於第二插頭鍵控結構1210B或第三插頭鍵控結構1210C之周長下方。 The first plug alignment peg 1201 and the second plug alignment peg 1202 are shown, but any number of plug alignment pegs can be used. The first plug alignment peg 1201 and the second plug alignment peg 1202 may have any suitable shape, including, for example, a circular shape, an oval shape, a square shape, and the like. The shapes of the first plug alignment peg 1201 and the second plug alignment peg 1202 may be the same or different. The longitudinal centerline CL3 may pass through the first alignment peg 1201, and the first alignment peg 1201 may have a center point CP through which the longitudinal centerline CL3 passes. The second alignment peg 1202 may be positioned on either side of the longitudinal centerline CL3 so that the longitudinal centerline CL3 does not intersect the second alignment peg 1202. In a specific example, the first plug alignment peg 1201 may be completely or partially positioned below the perimeter of the first plug keying structure 1210A. The second plug alignment peg 1202 may be completely or partially positioned below the perimeter of the second plug keying structure 1210B or the third plug keying structure 1210C.

第一插頭對準栓釘1201可與插頭連接器1200之縱向中心線CL3對準,而第二插頭對準栓釘1202可距插頭連接器1200之縱向中心線CL3介於大約1.2±0.05mm至大約1.3±0.05mm之間的距離。第一插頭對準栓釘1201及第二插頭對準栓釘1202可關於中間中心線ML3不對稱地定位。第一插頭對準栓釘1201可具有直徑大約0.8±0.05mm之圓形形狀,且第二插頭對準栓釘1202可具有直徑為大約0.8±0.05mm及0.6±0.05mm之橢圓形狀。第一插頭列1220與第二插頭列1221之各別電接點中心之間的第一列間距RP1可為大約2.2±0.1mm、2.2±0.05或2.2±0.005mm。第二插頭列1221與第三插頭列1223的各別電接觸中心之間的第二列間距RP2可為大約2.4±0.1mm、2.4±0.05mm或2.4±0.005mm。第三插頭列1222及第四插頭列1223的各個電接觸中心之間的第三列間距RP3可以為大約2.2±0.1mm,2.2±0.05mm或2.2±0.005mm。第四插座列1223與第五插座列1224之各別電接點中心之間的第四列間距RP4可為大約2.4±0.005mm、2.4±0.1mm或2.4±0.05mm。第五插座列1224與第六插座列1225之各別電接觸中心之間的第五列間距RP5可為大約2.2±0.005mm、2.2±0.1mm或2.2±0.05mm。第六插座列1225與第七插座列1226之各別電接觸中心之間的第六列間距RP6可為大約2.4±0.005mm、2.4±0.1mm或2.4±0.05mm。第七插座列1226與第八插座列1227之各別電接點中心之間的第七列間距RP7可為大約2.2±0.005mm、2.2±0.1mm或2.2±0.05mm。 The first plug alignment peg 1201 can be aligned with the longitudinal centerline CL3 of the plug connector 1200, and the second plug alignment peg 1202 can be about 1.2±0.05mm to the longitudinal centerline CL3 of the plug connector 1200. The distance between about 1.3±0.05mm. The first plug alignment peg 1201 and the second plug alignment peg 1202 may be positioned asymmetrically with respect to the middle center line ML3. The first plug alignment peg 1201 may have a circular shape with a diameter of about 0.8±0.05 mm, and the second plug alignment peg 1202 may have an oval shape with a diameter of about 0.8±0.05 mm and 0.6±0.05 mm. The first row spacing RP1 between the centers of the respective electrical contact points of the first plug row 1220 and the second plug row 1221 may be approximately 2.2±0.1 mm, 2.2±0.05, or 2.2±0.005 mm. The second row pitch RP2 between the respective electrical contact centers of the second plug row 1221 and the third plug row 1223 may be approximately 2.4±0.1 mm, 2.4±0.05 mm, or 2.4±0.005 mm. The third row spacing RP3 between the respective electrical contact centers of the third plug row 1222 and the fourth plug row 1223 may be approximately 2.2±0.1 mm, 2.2±0.05 mm, or 2.2±0.005 mm. The fourth row spacing RP4 between the respective electrical contact centers of the fourth socket row 1223 and the fifth socket row 1224 may be approximately 2.4±0.005mm, 2.4±0.1mm or 2.4±0.05mm. The fifth row spacing RP5 between the respective electrical contact centers of the fifth socket row 1224 and the sixth socket row 1225 may be approximately 2.2±0.005mm, 2.2±0.1mm, or 2.2±0.05mm. The sixth row pitch RP6 between the respective electrical contact centers of the sixth socket row 1225 and the seventh socket row 1226 may be approximately 2.4±0.005mm, 2.4±0.1mm or 2.4±0.05mm. The seventh row pitch RP7 between the centers of the respective electrical contact points of the seventh socket row 1226 and the eighth socket row 1227 may be approximately 2.2±0.005mm, 2.2±0.1mm or 2.2±0.05mm.

圖45至圖47說明例示性插頭連接器1400。如圖45中所展示,插頭 殼體1405或連接器殼體可由兩個平行的間隔開的縱向壁(諸如第一縱向插頭壁1407A及第二縱向插頭壁1407B)以及兩個平行的間隔開的端壁(諸如第一插頭端壁1409A及第二插頭端壁1409B)界定。第一插頭端壁1409A及第二插頭端壁1409B之長度短於兩個第一縱向插頭壁1407A及第二縱向插頭壁1407B,或可為與第一縱向插頭壁1407A及第二縱向插頭壁1407B的長度相同。縱向中心線CL3延伸穿過第一插頭端壁1409A及第二插頭端壁1409B,平行於第一縱向插頭壁1407A及第二縱向插頭壁1407B。插頭連接器1400或插頭殼體1405的配合界面1406可包括第一插頭鍵控結構1410A、第二插頭鍵控結構1410B、第三插頭鍵控結構1410C及第四插頭鍵控結構1410D。第一插頭鍵控結構1410A、第二插頭鍵控結構1410B、第三插頭鍵控結構1410C及第四插頭鍵控結構1410D可形成梯形的四個點,該梯形關於插頭殼體1405之中間中心線ML3對稱。 FIGS. 45-47 illustrate an exemplary plug connector 1400. FIG. As shown in Figure 45, the plug The housing 1405 or connector housing can be formed by two parallel spaced apart longitudinal walls (such as a first longitudinal plug wall 1407A and a second longitudinal plug wall 1407B) and two parallel spaced apart end walls (such as a first plug end). The wall 1409A and the second plug end wall 1409B) are defined. The lengths of the first plug end wall 1409A and the second plug end wall 1409B are shorter than the two first longitudinal plug walls 1407A and the second longitudinal plug wall 1407B, or may be the same as the first longitudinal plug wall 1407A and the second longitudinal plug wall 1407B The length is the same. The longitudinal centerline CL3 extends through the first plug end wall 1409A and the second plug end wall 1409B, and is parallel to the first longitudinal plug wall 1407A and the second longitudinal plug wall 1407B. The mating interface 1406 of the plug connector 1400 or the plug housing 1405 may include a first plug keying structure 1410A, a second plug keying structure 1410B, a third plug keying structure 1410C, and a fourth plug keying structure 1410D. The first plug keying structure 1410A, the second plug keying structure 1410B, the third plug keying structure 1410C, and the fourth plug keying structure 1410D can form four points of a trapezoid, the trapezoid being about the middle center line of the plug housing 1405 ML3 is symmetrical.

第一插頭鍵控結構1410A及第二插頭鍵控結構1410B可定位在中心線CL3之相對側上,使得縱向中心線CL3不與第一插頭鍵控結構1410A或第二插頭鍵控結構1410B中之任一者相交。第三插頭鍵控結構1410C及第四插頭鍵控結構1410D可定位於縱向中心線CL3之相對側上,使得中心線CL3不與第三插頭鍵控結構1410C或第四插頭鍵控結構1410D中之任一者相交。與第一插頭鍵控結構1410A及第二插頭鍵控結構1410B相比,第三插頭鍵控結構1410C及第四插頭鍵控結構1410D可分開較大距離(按長度量測)。 The first plug keying structure 1410A and the second plug keying structure 1410B can be positioned on opposite sides of the center line CL3, so that the longitudinal center line CL3 is not in line with the first plug keying structure 1410A or the second plug keying structure 1410B. Either intersect. The third plug keying structure 1410C and the fourth plug keying structure 1410D can be positioned on opposite sides of the longitudinal center line CL3, so that the center line CL3 is not the same as the third plug keying structure 1410C or the fourth plug keying structure 1410D. Either intersect. Compared with the first plug keying structure 1410A and the second plug keying structure 1410B, the third plug keying structure 1410C and the fourth plug keying structure 1410D can be separated by a larger distance (measured by length).

插頭連接器1400可包括電插頭接點308、308A、308B、308C之第一插頭列1420,電插頭接點308、308A、308B、308C之第二插頭列1421,電插頭接點308、308A、308B、308C之第三插頭列1422,電插頭接點308、308A、308B、308C之第四插頭列1423,電插頭接點308、308A、308B、308C之第五插頭列1424,電插頭接點308、308A、308B、308C之第六插頭列1425,電插頭接點308、308A、308B、308C之第七插頭列1426,電插頭接點308、308A、308B、308C之第八插 頭列1427,電插頭接點308、308A、308B、308C之第九插頭列1440,電插頭接點308、308A、308B、308C之第十插頭列1441,電插頭接點308、308A、308B、308C之第十一插頭列1442,電插頭接點308、308A、308B、308C之第十二插頭列1443,電插頭接點308、308A、308B、308C之第十三插頭列1444,電插頭接點308、308A、308B、308C之第十四插頭列1445,電插頭接點308、308A、308B、308C之第十五插頭列1446,以及電插頭接點308、308A、308B、308C之第十六插頭列1447。插頭連接器1400可包括由鄰近於插頭殼體1405之配合界面之第一插頭肋狀物1430承載之背對背電插頭接點308,308A,308B、308C之第一插頭列1420及第二插頭列1421。插頭連接器1400可包括由鄰近於插頭殼體1405之配合界面之第二插頭肋狀物1431承載之背對背電插頭接點308、308A、308B、308C之第三插頭列1422及第四插頭列1423。插頭連接器1400可包括由鄰近於插頭殼體1405之配合界面之第三插頭肋狀物1432承載之背對背電插頭接點308、308A、308B、308C之第五插頭列1424及第六插頭列1425。插頭連接器1400可包括由鄰近於插頭殼體1405之配合界面之第四插頭肋狀物1433承載之背對背電插頭接點308、308A、308B、308C之第七插頭列1426及第八插頭列1427。插頭連接器1400可包括由鄰近於插頭殼體1405之配合界面之第五插頭肋狀物1434承載之背對背電插頭接點308,308A,308B、308C之第九插頭列1440及第十插頭列1441。插頭連接器1400可包括由鄰近於插頭殼體1405之配合界面之第六插頭肋狀物1435承載之背對背電插頭接點308、308A、308B、308C之第十一插頭列1443及第十二插頭列1444。插頭連接器1400可包括由鄰近於插頭殼體1405之配合界面之第七插頭肋狀物1436承載之背對背電插頭接點308、308A、308B、308C之第十三插頭列1444及第十四插頭列1445。插頭連接器1400可包括由鄰近於插頭殼體1405之配合界面之第八插頭肋狀物1437承載之背對背電插頭接點308,308A,308B、308C之第十五插頭列1446及第十六插頭列1447。電插頭接點308、308A、308B、308C之第一插 頭列1420可經定位鄰近於電插頭接點308、308A、308B、308C之第二插頭列1421。電插頭接點308、308A、308B、308C之第三插頭列1422可經定位鄰近於電插頭接點308、308A、308B、308C之第二插頭列1421。電插頭接點308、308A、308B、308C之第四插頭列1423可經定位鄰近於電插頭接點308、308A、308B、308C之第三插頭列1422。電插頭接點308、308A、308B、308C之第五插頭列1424可經定位鄰近於電插頭接點308、308A、308B、308C之第四插頭列1423。電插頭接點308、308A、308B、308C之第六插頭列1425可經定位鄰近於電插頭接點308、308A、308B、308C之第五插頭列1424。電插頭接點308、308A、308B、308C之第七插頭列1426可經定位鄰近於電插頭接點308、308A、308B、308C之第六插頭列1425。電插頭接點308、308A、308B、308C之第八插頭列1427可經定位鄰近於電插頭接點308、308A、308B、308C之第七插頭列1426。電插頭接點308、308A、308B、308C之第九插頭列1440可經定位鄰近於電插頭接點308、308A、308B、308C之第八插頭列1427。電插頭接點308、308A、308B、308C之第十插頭列1441可經定位鄰近於電插頭接點308、308A、308B、308C之第九插頭列1440。電插頭接點308、308A、308B、308C之第十一插頭列1442可經定位鄰近於電插頭接點308、308A、308B、308C之第十插頭列1441。電插頭接點308、308A、308B、308C之第十二插頭列1443可經定位鄰近於電插頭接點308、308A、308B、308C之第十一插頭列1442。電插頭接點308、308A、308B、308C之第十三插頭列1444可經定位鄰近於電插頭接點308、308A、308B、308C之第十二插頭列1443。電插頭接點308、308A、308B、308C之第十四插頭列1445可經定位鄰近於電插頭接點308、308A、308B、308C之第十三插頭列1444。電插頭接點308、308A、308B、308C之第十五插頭列1446可經定位鄰近於電插頭接點308、308A、308B、308C之第十四插頭列1445。電插頭接點308、308A、308B、308C之第十六插頭列1447可經定位鄰近於電插頭接點308、308A、308B、308C之第十五插頭列1446。 The plug connector 1400 may include a first plug row 1420 of electrical plug contacts 308, 308A, 308B, 308C, a second plug row 1421 of electrical plug contacts 308, 308A, 308B, 308C, and electrical plug contacts 308, 308A, The third plug row 1422 of 308B, 308C, the fourth plug row 1423 of electrical plug contacts 308, 308A, 308B, 308C, the fifth plug row 1424 of electrical plug contacts 308, 308A, 308B, 308C, the electrical plug contacts The sixth plug row 1425 of 308, 308A, 308B, 308C, the seventh plug row 1426 of electrical plug contacts 308, 308A, 308B, 308C, the eighth plug of electrical plug contacts 308, 308A, 308B, 308C Head row 1427, ninth plug row 1440 of electrical plug contacts 308, 308A, 308B, 308C, tenth plug row 1441 of electrical plug contacts 308, 308A, 308B, 308C, electrical plug contacts 308, 308A, 308B, The eleventh plug row 1442 of 308C, the twelfth plug row 1443 of electrical plug contacts 308, 308A, 308B, 308C, the thirteenth plug row 1444 of electrical plug contacts 308, 308A, 308B, 308C, the electrical plug contacts The fourteenth plug row 1445 of points 308, 308A, 308B, 308C, the fifteenth plug row 1446 of electrical plug contacts 308, 308A, 308B, 308C, and the tenth electrical plug contacts 308, 308A, 308B, 308C Six plug columns 1447. The plug connector 1400 may include a first plug row 1420 and a second plug row 1421 of back-to-back electrical plug contacts 308, 308A, 308B, 308C carried by the first plug rib 1430 adjacent to the mating interface of the plug housing 1405 . The plug connector 1400 may include a third plug row 1422 and a fourth plug row 1423 of back-to-back electrical plug contacts 308, 308A, 308B, 308C carried by a second plug rib 1431 adjacent to the mating interface of the plug housing 1405 . The plug connector 1400 may include a fifth plug row 1424 and a sixth plug row 1425 of back-to-back electrical plug contacts 308, 308A, 308B, 308C carried by a third plug rib 1432 adjacent to the mating interface of the plug housing 1405 . The plug connector 1400 may include a seventh plug row 1426 and an eighth plug row 1427 of back-to-back electrical plug contacts 308, 308A, 308B, 308C carried by a fourth plug rib 1433 adjacent to the mating interface of the plug housing 1405 . The plug connector 1400 may include a ninth plug row 1440 and a tenth plug row 1441 of back-to-back electrical plug contacts 308, 308A, 308B, 308C carried by the fifth plug rib 1434 adjacent to the mating interface of the plug housing 1405 . The plug connector 1400 may include the eleventh plug row 1443 and the twelfth plug of back-to-back electrical plug contacts 308, 308A, 308B, 308C carried by the sixth plug rib 1435 adjacent to the mating interface of the plug housing 1405 Column 1444. The plug connector 1400 may include the thirteenth plug row 1444 and the fourteenth plug of back-to-back electrical plug contacts 308, 308A, 308B, 308C carried by the seventh plug rib 1436 adjacent to the mating interface of the plug housing 1405 Column 1445. The plug connector 1400 may include back-to-back electrical plug contacts 308, 308A, 308B, 308C carried by the eighth plug rib 1437 adjacent to the mating interface of the plug housing 1405, the fifteenth plug row 1446 and the sixteenth plug Column 1447. The first plug of electric plug contacts 308, 308A, 308B, 308C The header row 1420 may be positioned adjacent to the second plug row 1421 of the electrical plug contacts 308, 308A, 308B, 308C. The third plug row 1422 of the electrical plug contacts 308, 308A, 308B, 308C can be positioned adjacent to the second plug row 1421 of the electrical plug contacts 308, 308A, 308B, 308C. The fourth plug row 1423 of the electrical plug contacts 308, 308A, 308B, 308C can be positioned adjacent to the third plug row 1422 of the electrical plug contacts 308, 308A, 308B, 308C. The fifth plug row 1424 of the electrical plug contacts 308, 308A, 308B, 308C can be positioned adjacent to the fourth plug row 1423 of the electrical plug contacts 308, 308A, 308B, 308C. The sixth plug row 1425 of the electrical plug contacts 308, 308A, 308B, 308C can be positioned adjacent to the fifth plug row 1424 of the electrical plug contacts 308, 308A, 308B, 308C. The seventh plug row 1426 of the electrical plug contacts 308, 308A, 308B, 308C can be positioned adjacent to the sixth plug row 1425 of the electrical plug contacts 308, 308A, 308B, 308C. The eighth plug row 1427 of the electrical plug contacts 308, 308A, 308B, 308C can be positioned adjacent to the seventh plug row 1426 of the electrical plug contacts 308, 308A, 308B, 308C. The ninth plug row 1440 of the electrical plug contacts 308, 308A, 308B, 308C may be positioned adjacent to the eighth plug row 1427 of the electrical plug contacts 308, 308A, 308B, 308C. The tenth plug row 1441 of the electrical plug contacts 308, 308A, 308B, 308C may be positioned adjacent to the ninth plug row 1440 of the electrical plug contacts 308, 308A, 308B, 308C. The eleventh plug row 1442 of the electrical plug contacts 308, 308A, 308B, 308C may be positioned adjacent to the tenth plug row 1441 of the electrical plug contacts 308, 308A, 308B, 308C. The twelfth plug row 1443 of the electrical plug contacts 308, 308A, 308B, 308C may be positioned adjacent to the eleventh plug row 1442 of the electrical plug contacts 308, 308A, 308B, 308C. The thirteenth plug row 1444 of the electrical plug contacts 308, 308A, 308B, 308C may be positioned adjacent to the twelfth plug row 1443 of the electrical plug contacts 308, 308A, 308B, 308C. The fourteenth plug row 1445 of the electrical plug contacts 308, 308A, 308B, 308C can be positioned adjacent to the thirteenth plug row 1444 of the electrical plug contacts 308, 308A, 308B, 308C. The fifteenth plug row 1446 of the electrical plug contacts 308, 308A, 308B, 308C may be positioned adjacent to the fourteenth plug row 1445 of the electrical plug contacts 308, 308A, 308B, 308C. The sixteenth plug row 1447 of the electrical plug contacts 308, 308A, 308B, 308C may be positioned adjacent to the fifteenth plug row 1446 of the electrical plug contacts 308, 308A, 308B, 308C.

插頭肋狀物1430、1431、1432、1433、1434、1435、1436、1437可經間隔開,可彼此平行地定位,且可沿自第一插頭端壁1409A至第二插頭端壁1409B的方向延伸。如圖47中所展示,插頭連接器1400之配合界面1418處之插頭肋狀物1430、1431、1432、1433、1434、1435、1436、1437及配合端116C可突出超過由插頭殼體1405界定之階部,因此插頭肋狀物1430、1431、1432、1433、1434、1435、1436、1437及配合端116C延伸至由配合插座連接器界定之凹部中且在其內配合。 The plug ribs 1430, 1431, 1432, 1433, 1434, 1435, 1436, 1437 can be spaced apart, can be positioned parallel to each other, and can extend in the direction from the first plug end wall 1409A to the second plug end wall 1409B . As shown in FIG. 47, the plug ribs 1430, 1431, 1432, 1433, 1434, 1435, 1436, 1437 and the mating end 116C at the mating interface 1418 of the plug connector 1400 can protrude beyond what is defined by the plug housing 1405 The steps, therefore the plug ribs 1430, 1431, 1432, 1433, 1434, 1435, 1436, 1437 and the mating end 116C extend into and mate within the recess defined by the mating socket connector.

再次參考圖45,插頭連接器1400之配合界面1418可包括至少四個鍵控結構,諸如第一插頭鍵控結構1410A、第二插頭鍵控結構1410B、第三鍵控結構1410C及第四鍵控結構1410D。第一鍵控結構1410A及第二鍵控結構1410B可定位在中心線CL3之相對側上,使得縱向中心線CL3不與第一鍵控結構1410A或第二鍵控結構1410B中之任一者相交。第三鍵控結構1410C及第四鍵控結構1410D可定位於縱向中心線CL3之相對側上,使得縱向中心線CL3不與第三鍵控結構1410C或第四鍵控結構1410D中之任一者相交。與第一鍵控結構1410A及第二鍵控結構1410B相比,第三鍵控結構1410C及第四鍵控結構1410D可分開較大距離(按長度)。第一插頭鍵控結構1410A可沿著經定位平行於第四插頭列1423及第五插頭列1424且介於第四插頭列1423與第五插頭列1424之間的中心線放置,鄰近於第二插頭肋狀物1431及第三插頭肋狀物1432之第二端,鄰近於第二插頭端壁1409B,且介於第二插頭肋狀物1431與第三插頭肋狀物1432之間,使得穿過整個第四插頭列1423之第一線鄰接第一插頭鍵控結構1410A的一部分或與該部分重合,或經定位鄰近於該部分,且使得穿過整個第五插頭列1424之第二線鄰接第一插頭鍵控結構1410A的一部分,或與該部分重合,或經定位鄰近於該部分。第二插頭鍵控結構1410B可沿著經定位平行於第十二插頭列1443及第十三插頭列1444且介於第十二插頭列1443與第十三插頭列1444之間的中心線放置,鄰近 於第六插頭肋狀物1435及第六插頭肋狀物1436之第二端,鄰近於第二插頭端壁1409B,且介於第六插頭肋狀物1435與第七插頭肋狀物1436之間,使得穿過整個第十二插頭列1443之第三線鄰接第二插頭鍵控結構1410B的一部分或與該部分重合,或經定位鄰近於該部分,且使得穿過整個第十三插頭列1444之第四線鄰接第二插頭鍵控結構1410B的一部分,或與該部分重合,或鄰近於該部分。第三插頭鍵控結構1410C可沿著經定位平行於第二插頭列1421與第三插頭列1422且介於第二插頭列1421與第三插頭列1422之間的中心線放置,鄰近於第一插頭肋狀物1430及第二插頭肋狀物1431之第一端,鄰近於第一插頭端壁1409A,且介於第一插頭肋狀物1430與第二插頭肋狀物1431之間,使得穿過整個第二插頭列1421之第五線鄰接第三插頭鍵控結構1410C的一部分或與該部分重合,或經定位鄰近於該部分,且使得穿過整個第三插頭列1422之第六線鄰接第三插頭鍵控結構1410C的一部分,或與該部分重合,或經定位鄰近於該部分。第四插頭鍵控結構1410D可沿著經定位平行於第十四插頭列1445及第十五插頭列1446且介於第十四插頭列1445及第十五插頭列1446之間的中心線放置,鄰近於第七插頭肋狀物1436及第八插頭肋狀物1437之第一端,鄰近於第一插頭端壁1409A,且介於第七插頭肋狀物1436與第八插頭肋狀物1437之間,使得穿過整個第十四插頭列1445之第七線鄰接第四插頭鍵控結構1410D的一部分,或與該部分重合,或經定位鄰近於該部分,且使得穿過整個第十五插頭列1446之第八線鄰接第四插頭鍵控結構1410D的一部分,或與該部分重合,或經定位鄰近於該部分。第一插頭鍵控結構1410A、第二插頭鍵控結構1410B、第三插頭鍵控結構1410C及第四插頭鍵控結構1410D中之每一者可位於鄰近插頭肋狀物1430、1431、1432、1433、1434、1435、1436、1437中之兩者之間。本文中定義的任何插頭鍵控結構或其他鍵控結構可完全位於任何相應的插頭肋狀物或內部肋狀物的對應端寬度內。 Referring again to FIG. 45, the mating interface 1418 of the plug connector 1400 may include at least four keying structures, such as a first plug keying structure 1410A, a second plug keying structure 1410B, a third keying structure 1410C, and a fourth keying structure. Structure 1410D. The first keying structure 1410A and the second keying structure 1410B can be positioned on opposite sides of the centerline CL3, so that the longitudinal centerline CL3 does not intersect either the first keying structure 1410A or the second keying structure 1410B . The third keying structure 1410C and the fourth keying structure 1410D can be positioned on opposite sides of the longitudinal centerline CL3, so that the longitudinal centerline CL3 is not the same as the third keying structure 1410C or the fourth keying structure 1410D intersect. Compared with the first keying structure 1410A and the second keying structure 1410B, the third keying structure 1410C and the fourth keying structure 1410D can be separated by a larger distance (by length). The first plug keying structure 1410A can be placed along a center line positioned parallel to the fourth plug row 1423 and the fifth plug row 1424 and between the fourth plug row 1423 and the fifth plug row 1424, adjacent to the second plug row 1423 and the fifth plug row 1424. The second ends of the plug ribs 1431 and the third plug ribs 1432 are adjacent to the second plug end wall 1409B and between the second plug ribs 1431 and the third plug ribs 1432 so as to pass through The first line passing through the entire fourth plug row 1423 abuts or overlaps with a part of the first plug keying structure 1410A, or is positioned adjacent to the portion so that the second line passing through the entire fifth plug row 1424 abuts A part of the first plug keying structure 1410A may overlap with this part or be positioned adjacent to this part. The second plug keying structure 1410B can be placed along a center line positioned parallel to the twelfth plug row 1443 and the thirteenth plug row 1444 and between the twelfth plug row 1443 and the thirteenth plug row 1444, Adjacent At the second end of the sixth plug rib 1435 and the sixth plug rib 1436, adjacent to the second plug end wall 1409B, and between the sixth plug rib 1435 and the seventh plug rib 1436 , So that the third line passing through the entire twelfth plug row 1443 abuts or overlaps with a part of the second plug keying structure 1410B, or is positioned adjacent to the portion, and passes through the entire thirteenth plug row 1444 The fourth line is adjacent to, coincides with, or is adjacent to a part of the second plug keying structure 1410B. The third plug keying structure 1410C can be placed along a center line positioned parallel to the second plug row 1421 and the third plug row 1422 and between the second plug row 1421 and the third plug row 1422, adjacent to the first The first ends of the plug ribs 1430 and the second plug ribs 1431 are adjacent to the first plug end wall 1409A and between the first plug ribs 1430 and the second plug ribs 1431 so as to pass through The fifth line passing through the entire second plug row 1421 adjoins or overlaps with a part of the third plug keying structure 1410C, or is positioned adjacent to this part so that the sixth line passing through the entire third plug row 1422 abuts A part of the third plug keying structure 1410C either overlaps with this part or is positioned adjacent to this part. The fourth plug keying structure 1410D can be placed along a center line positioned parallel to the fourteenth plug row 1445 and the fifteenth plug row 1446 and between the fourteenth plug row 1445 and the fifteenth plug row 1446, Adjacent to the first ends of the seventh plug rib 1436 and the eighth plug rib 1437, adjacent to the first plug end wall 1409A, and between the seventh plug rib 1436 and the eighth plug rib 1437 In between, the seventh line passing through the entire fourteenth plug row 1445 is adjacent to a part of the fourth plug keying structure 1410D, or overlaps with this part, or is positioned adjacent to this part, and so as to pass through the entire fifteenth plug The eighth line of column 1446 adjoins a part of the fourth plug keying structure 1410D, or overlaps with this part, or is positioned adjacent to this part. Each of the first plug keying structure 1410A, the second plug keying structure 1410B, the third plug keying structure 1410C, and the fourth plug keying structure 1410D may be located adjacent to the plug ribs 1430, 1431, 1432, 1433 , 1434, 1435, 1436, 1437. Any plug keying structure or other keying structure defined herein can be located entirely within the width of the corresponding end of any corresponding plug rib or internal rib.

第一插頭鍵控結構1410A、第二插頭鍵控結構1410B、第三插頭 鍵控結構1410C及第四插頭鍵控結構1410D中之每一者可為由插頭殼體1405界定或經定位鄰近於插頭殼體1405之各別的第一突出部1408A、第二突出部1408B、第三突出部1408C或第四突出部1408D。第一插頭鍵控結構1410A、第二插頭鍵控結構1410B、第三插頭鍵控結構1410C及第四插頭鍵控結構1410D中之每一者可界定三個或多於三個側面,四個或多於四個側面,五個或多於五個側面,至少四個側面,僅五個側面或至少五個側面,且可包括第一插頭側壁、線或表面1412A,(可與第一插頭側壁1412A垂直相交之)第二插頭側壁、線或表面1414B,(與第二插頭側壁1414B相交之)傾斜插頭側壁、線或表面1416,第四插頭側壁、線或表面1412B,及第五插頭側壁1414A。第四插頭側壁、線或表面1412B可與傾斜插頭側壁、線或表面1416及第五插頭側壁、線或表面1414A相交。第五插頭側壁、線或表面1414A可與第四插頭側壁、線或表面1412B及第一插頭側壁、線或表面1412A相交。 First plug keying structure 1410A, second plug keying structure 1410B, third plug Each of the keying structure 1410C and the fourth plug keying structure 1410D may be a respective first protrusion 1408A, a second protrusion 1408B, a respective first protrusion 1408A, a second protrusion 1408B, or a respective one defined by the plug housing 1405 or positioned adjacent to the plug housing 1405 The third protrusion 1408C or the fourth protrusion 1408D. Each of the first plug keying structure 1410A, the second plug keying structure 1410B, the third plug keying structure 1410C, and the fourth plug keying structure 1410D can define three or more sides, four or More than four sides, five or more than five sides, at least four sides, only five sides or at least five sides, and may include the first plug side wall, line or surface 1412A, (may be combined with the first plug side wall 1412A perpendicularly intersecting) second plug side wall, line or surface 1414B, (intersecting second plug side wall 1414B) inclined plug side wall, line or surface 1416, fourth plug side wall, line or surface 1412B, and fifth plug side wall 1414A . The fourth plug side wall, line or surface 1412B may intersect the inclined plug side wall, line or surface 1416 and the fifth plug side wall, line or surface 1414A. The fifth plug side wall, line or surface 1414A may intersect the fourth plug side wall, line or surface 1412B and the first plug side wall, line or surface 1412A.

第一插頭鍵控結構1410A、第二插頭鍵控結構1410B、第三插頭鍵控結構1410C及第四插頭鍵控結構1410D中之每一者經組態以嚙合配合插座連接器之對應第一、第二、第三及第四鍵控結構。 Each of the first plug keying structure 1410A, the second plug keying structure 1410B, the third plug keying structure 1410C, and the fourth plug keying structure 1410D is configured to engage the corresponding first, The second, third and fourth keying structure.

第一插頭鍵控結構1410A、第二插頭鍵控結構1410B、第三插頭鍵控結構1410C及第四插頭鍵控結構1410D可各自為完全相同形狀的且/或可各自具有不對稱形狀,完全不對稱周長或完全不對稱剖面。第三插頭鍵控結構1410C可為第一插頭鍵控結構1410A相對於垂直於縱向中心線CL3之中間中心線ML3的鏡像。第四插頭鍵控結構1410D可為第二插頭鍵控結構1410B相對於中間中心線ML3的鏡像。第一插頭鍵控結構1410A及第二插頭鍵控結構1410B可為關於縱向中心線CL3的鏡像。第三插頭鍵控結構1410C及第四插頭鍵控結構1410D關於縱向中心線CL3。第一插頭鍵控結構1410A、第二插頭鍵控結構1410B、第三插頭鍵控結構1410C及第四插頭鍵控結構1410D可關於中心線CL3不對稱地配置 且關於中心線ML3不對稱地配置。縱向中心線CL3及中間中心線ML3將插頭連接器1405劃分成四個象限,其中每一象限具有與其他象限中之每一者不同的結構,使得沒有象限可替代其他象限。在縱向中心線CL3之一側上可存在相等數目個電接點,且在中間中心線ML3之一側可存在相等數目個電接點。 The first plug keying structure 1410A, the second plug keying structure 1410B, the third plug keying structure 1410C, and the fourth plug keying structure 1410D may each have exactly the same shape and/or may each have an asymmetrical shape, completely different Symmetrical circumference or completely asymmetrical profile. The third plug keying structure 1410C may be a mirror image of the first plug keying structure 1410A with respect to the middle center line ML3 perpendicular to the longitudinal center line CL3. The fourth plug keying structure 1410D may be a mirror image of the second plug keying structure 1410B with respect to the middle center line ML3. The first plug keying structure 1410A and the second plug keying structure 1410B may be mirror images about the longitudinal centerline CL3. The third plug keying structure 1410C and the fourth plug keying structure 1410D are about the longitudinal centerline CL3. The first plug keying structure 1410A, the second plug keying structure 1410B, the third plug keying structure 1410C, and the fourth plug keying structure 1410D may be arranged asymmetrically about the center line CL3 And it is arranged asymmetrically with respect to the center line ML3. The longitudinal centerline CL3 and the middle centerline ML3 divide the plug connector 1405 into four quadrants, where each quadrant has a different structure from each of the other quadrants, so that no quadrant can replace the other quadrants. There may be an equal number of electrical contacts on one side of the longitudinal centerline CL3, and an equal number of electrical contacts may exist on one side of the middle centerline ML3.

圖46為插頭連接器1400的仰視圖。可熔構件可以任何合適的方式附接至電插頭接點308、308A、308B、308C。替代地,電插頭接點308、308A、308B、308C可以J形引線、壓入配合插腳或針眼或其他合適的終端端接。插頭連接器1400可包括插頭墊高部。插頭墊高部可位於插頭殼體1405之四個拐角處。可使用任何數目及任何位置之插頭墊高部。當可熔構件)回焊以將插頭連接器1400連接至基板時,插頭墊高部有助於確保插頭連接器1400與基板之安裝表面間隔開固定距離。插頭連接器1400可包括第一插頭對準栓釘1401及第二插頭對準栓釘1402,該些插頭對準栓釘經組態以容納在預先鑽孔之對準孔中,以使插頭連接器1400之可熔元件與基板之安裝表面上之對應焊墊大致對準。 FIG. 46 is a bottom view of the plug connector 1400. FIG. The fusible member may be attached to the electrical plug contacts 308, 308A, 308B, 308C in any suitable manner. Alternatively, the electrical plug contacts 308, 308A, 308B, 308C can be terminated with J-shaped leads, press-fit pins or eyelets, or other suitable terminals. The plug connector 1400 may include a plug bump. The plug bumper can be located at the four corners of the plug housing 1405. Any number and any position of the plug height can be used. When the fusible member is reflowed to connect the plug connector 1400 to the substrate, the plug bumper helps to ensure that the plug connector 1400 is separated from the mounting surface of the substrate by a fixed distance. The plug connector 1400 may include a first plug alignment peg 1401 and a second plug alignment peg 1402. The plug alignment pegs are configured to be received in pre-drilled alignment holes to connect the plug The fusible element of the device 1400 is roughly aligned with the corresponding pads on the mounting surface of the substrate.

展示第一插頭對準栓釘1401及第二插頭對準栓釘1402,但可使用任何數目的插頭對準栓釘。第一插頭對準栓釘1401及第二插頭對準栓釘1402可具有任何合適的剖面或外部形狀,包括例如圓形、橢圓形、方形等。第一插頭對準栓釘1401及第二插頭對準栓釘1402的形狀可為相同的或不同的。縱向中心線CL3可穿過第一對準栓釘1401,且第一對準栓釘1401可具有縱向中心線CL3穿過之中心點CP。第二對準栓釘1402可經定位於縱向中心線CL3之任一側上,使得縱向中心線CL3不與第二對準栓釘1402相交。在一個具體實例中,第二對準栓釘1402可完全或部分地定位在第三插頭鍵控結構1410C或第四插頭鍵控結構1410D下方,或可不定位在第三插頭鍵控結構1410C或第四插頭鍵控結構1410D下方。第一對準栓釘1401可完全或部分地定位於第一插頭鍵控結構1410A或第二插頭鍵控結構1410B下方,或可經定位不位於第一插頭鍵控結構1410A或第二插頭鍵 控結構1410B下方。 The first plug alignment peg 1401 and the second plug alignment peg 1402 are shown, but any number of plug alignment pegs can be used. The first plug alignment peg 1401 and the second plug alignment peg 1402 may have any suitable cross-section or external shape, including, for example, a circle, an oval, a square, and the like. The shapes of the first plug alignment peg 1401 and the second plug alignment peg 1402 may be the same or different. The longitudinal centerline CL3 may pass through the first alignment peg 1401, and the first alignment peg 1401 may have a center point CP through which the longitudinal centerline CL3 passes. The second alignment peg 1402 may be positioned on either side of the longitudinal centerline CL3 so that the longitudinal centerline CL3 does not intersect the second alignment peg 1402. In a specific example, the second alignment peg 1402 may be completely or partially positioned below the third plug keying structure 1410C or the fourth plug keying structure 1410D, or may not be positioned below the third plug keying structure 1410C or the third plug keying structure 1410C. Below the four-plug keying structure 1410D. The first alignment peg 1401 may be completely or partially positioned below the first plug keying structure 1410A or the second plug keying structure 1410B, or may be positioned not at the first plug keying structure 1410A or the second plug key Below the control structure 1410B.

第一插頭對準栓釘1401可與插頭連接器1400之縱向中心線CL3對準,而第二插頭對準栓釘1402可與插頭連接器1400之縱向中心線CL3間隔介於大約1.2±0.05mm至大約1.3±0.05mm之間的距離。第二插頭對準栓釘1402可具有直徑大約0.8±0.05mm之圓形剖面形狀,且第一插頭對準栓釘1401可具有直徑為大約0.8±0.05mm及0.6±0.05mm之橢圓剖面形狀。第一插頭列1420與第二插頭列1421之各別電接點中心之間的第一列間距RP1可為大約2.2±0.1mm、2.2±0.05或2.2±0.005mm。第二插頭列1421及第三插頭列1423的各個電接觸中心之間的第二列間距RP2可以為大約2.4±0.1mm,2.4±0.05mm或2.4±0.005mm。第三插頭列1422及第四插頭列1423的各個電接觸中心之間的第三列間距RP3可以為大約2.2±0.1mm,2.2±0.05mm或2.2±0.005mm。第四插頭列1423與第五插頭列1424之各別電接點中心之間的第四列間距RP4可為大約2.4±0.005mm、2.4±0.1mm或2.4±0.05mm。第五插頭列1424與第六插頭列1425之各別電接觸中心之間的第五列間距RP5可為大約2.2±0.005mm、2.2±0.1mm或2.2±0.05mm。第六插頭列1425與第七插頭列1426之各別電接觸中心之間的第六列間距RP6可為大約2.4±0.005mm、2.4±0.1mm或2.4±0.05mm。第七插頭列1426與第八插頭列1427之各別電接點中心之間的第七列間距RP7可為大約2.2±0.005mm、2.2±0.1mm或2.2±0.05mm。第八插頭列1427與第九插頭列1440之各別電接觸中心之間的第八列間距RP8可為大約2.4±0.005mm、2.4±0.1mm或2.4±0.05mm。第九插頭列1440與第十插頭列1441之各別電接點中心之間的第九列間距RP9可為大約2.2±0.005mm、2.2±0.1mm或2.2±0.05mm。第十插頭列1441與第十一插頭列1442之各別電接觸中心之間的第十列間距RP10可為大約2.4±0.005mm、2.4±0.1mm或2.4±0.05mm。第十一插頭列1442與第十二插頭列1443之各別電接觸中心之間的第十一列間距RP11可為大約2.2±0.005mm、2.2±0.1mm或2.2±0.05mm。第十二插頭列1443與 第十三插頭列1444之各別電接觸中心之間的第十二列間距RP12可為大約2.4±0.005mm、2.4±0.1mm或2.4±0.05mm。第十三插頭列1444與第十四插頭列1445之各別電接觸中心之間的第十三列間距RP13為大約2.2±0.005mm、2.2±0.1mm或2.2±0.05mm。第十四插頭列1445與第十五插頭列1446之各別電接點中心之間的第十四列間距RP14可為大約2.4±0.005mm、2.4±0.1mm或2.4±0.05mm。第十五插頭列1446與第十六插頭列1447之各別電接點中心之間的第十五列間距RP15可為大約2.2±0.005mm、2.2±0.1mm或2.2±0.05mm。 The first plug alignment peg 1401 can be aligned with the longitudinal centerline CL3 of the plug connector 1400, and the second plug alignment peg 1402 can be spaced from the longitudinal centerline CL3 of the plug connector 1400 by about 1.2±0.05mm To a distance between about 1.3±0.05mm. The second plug alignment peg 1402 may have a circular cross-sectional shape with a diameter of about 0.8±0.05 mm, and the first plug alignment peg 1401 may have an elliptical cross-sectional shape with a diameter of about 0.8±0.05 mm and 0.6±0.05 mm. The first row spacing RP1 between the respective electrical contact centers of the first plug row 1420 and the second plug row 1421 may be approximately 2.2±0.1 mm, 2.2±0.05, or 2.2±0.005 mm. The second row spacing RP2 between the respective electrical contact centers of the second plug row 1421 and the third plug row 1423 may be approximately 2.4±0.1 mm, 2.4±0.05 mm, or 2.4±0.005 mm. The third row spacing RP3 between the respective electrical contact centers of the third plug row 1422 and the fourth plug row 1423 may be approximately 2.2±0.1 mm, 2.2±0.05 mm, or 2.2±0.005 mm. The fourth row spacing RP4 between the respective electrical contact centers of the fourth plug row 1423 and the fifth plug row 1424 may be approximately 2.4±0.005mm, 2.4±0.1mm or 2.4±0.05mm. The fifth row spacing RP5 between the respective electrical contact centers of the fifth plug row 1424 and the sixth plug row 1425 may be about 2.2±0.005mm, 2.2±0.1mm, or 2.2±0.05mm. The sixth row spacing RP6 between the respective electrical contact centers of the sixth plug row 1425 and the seventh plug row 1426 may be approximately 2.4±0.005 mm, 2.4±0.1 mm, or 2.4±0.05 mm. The seventh row pitch RP7 between the respective electrical contact centers of the seventh plug row 1426 and the eighth plug row 1427 may be approximately 2.2±0.005mm, 2.2±0.1mm or 2.2±0.05mm. The eighth row spacing RP8 between the respective electrical contact centers of the eighth plug row 1427 and the ninth plug row 1440 may be approximately 2.4±0.005mm, 2.4±0.1mm or 2.4±0.05mm. The ninth row pitch RP9 between the respective electrical contact centers of the ninth plug row 1440 and the tenth plug row 1441 may be approximately 2.2±0.005mm, 2.2±0.1mm or 2.2±0.05mm. The tenth row pitch RP10 between the respective electrical contact centers of the tenth plug row 1441 and the eleventh plug row 1442 may be approximately 2.4±0.005mm, 2.4±0.1mm or 2.4±0.05mm. The eleventh row pitch RP11 between the respective electrical contact centers of the eleventh plug row 1442 and the twelfth plug row 1443 may be approximately 2.2±0.005mm, 2.2±0.1mm or 2.2±0.05mm. The twelfth plug column 1443 and The twelfth row pitch RP12 between the respective electrical contact centers of the thirteenth plug row 1444 may be approximately 2.4±0.005mm, 2.4±0.1mm, or 2.4±0.05mm. The thirteenth row spacing RP13 between the respective electrical contact centers of the thirteenth plug row 1444 and the fourteenth plug row 1445 is approximately 2.2±0.005mm, 2.2±0.1mm or 2.2±0.05mm. The fourteenth row spacing RP14 between the respective electrical contact centers of the fourteenth plug row 1445 and the fifteenth plug row 1446 may be approximately 2.4±0.005mm, 2.4±0.1mm or 2.4±0.05mm. The fifteenth row spacing RP15 between the respective electrical contact centers of the fifteenth plug row 1446 and the sixteenth plug row 1447 may be approximately 2.2±0.005mm, 2.2±0.1mm or 2.2±0.05mm.

應理解,前述描述僅為對本新型之描述。在不脫離本新型之情況下,所屬技術領域中具有通常知識者可設計出各種替換及修改。因此,本新型旨在涵蓋屬於所附申請專利範圍內之所有此等替代、修改及變化。任何一個具體實例之任何描述可與本文中所揭示之任何其他具體實例之描述組合。 It should be understood that the foregoing description is only a description of the present invention. Without departing from the present invention, a person with ordinary knowledge in the relevant technical field can design various replacements and modifications. Therefore, the present model intends to cover all such substitutions, modifications and changes within the scope of the attached patent application. Any description of any one specific example can be combined with the description of any other specific example disclosed herein.

110:電接點 110: Electric contact

110A:電接點 110A: Electric contact

120:電接點 120: Electric contact

1005:插座連接器 1005: socket connector

Claims (28)

一種電連接器,其包含:一連接器殼體,其包括插頭肋狀物或內部肋狀物和鍵控特徵;及被釘合至該連接器殼體中之至少三個平行的、間隔開的緊鄰線性電接點陣列,其中:一縱向中心線及一中間中心線將該電連接器的一配合界面分為四個象限;該四個象限中之每一者界定與該些其他象限中之每一者不同的一結構,使得沒有象限可替代其他象限;及該些鍵控特徵中之每一者被定位於鄰近於一相應的插頭肋狀物或內部肋狀物。 An electrical connector, comprising: a connector housing including plug ribs or internal ribs and keying features; and at least three parallel and spaced apart pins nailed into the connector housing The adjacent linear electrical contact array, in which: a longitudinal centerline and a middle centerline divide a mating interface of the electrical connector into four quadrants; each of the four quadrants defines and the other quadrants Each of them has a different structure so that no quadrant can replace other quadrants; and each of the keying features is positioned adjacent to a corresponding plug rib or internal rib. 如請求項1所述之電連接器,其中該些鍵控特徵是被位於該些插頭肋狀物或內部肋狀物之端處的插座所界定,或者該些鍵控特徵是被位於該些插頭肋狀物或該些內部肋狀物之間的插頭所界定。 The electrical connector according to claim 1, wherein the keying features are defined by sockets located at the ends of the plug ribs or internal ribs, or the keying features are located at the ends of the plug ribs or internal ribs. Defined by the plug ribs or the plugs between the internal ribs. 如請求項1或2所述之電連接器,其中該縱向中心線及該中間中心線只相交於該些鍵控特徵中之一單一者。 The electrical connector according to claim 1 or 2, wherein the longitudinal centerline and the intermediate centerline only intersect at a single one of the keying features. 如請求項1或2所述之電連接器,其中該至少三個平行的、間隔開的緊鄰線性電接點陣列包括至少八列之平行的、間隔開的緊鄰線性電接點陣列。 The electrical connector according to claim 1 or 2, wherein the at least three parallel spaced adjacent linear electrical contact arrays include at least eight columns of parallel spaced adjacent linear electrical contact arrays. 如請求項4所述之電連接器,其中該至少八個平行的、間隔開的緊鄰線性電接點陣列包括至少十六列之平行的、間隔開的緊鄰線性電接點陣列。 The electrical connector according to claim 4, wherein the at least eight parallel and spaced adjacent linear electrical contact arrays include at least sixteen rows of parallel and spaced adjacent linear electrical contact arrays. 如請求項1或2所述之電連接器,其中該些鍵控特徵中之每一者具有五側。 The electrical connector of claim 1 or 2, wherein each of the keying features has five sides. 如請求項1或2所述之電連接器,其中該些鍵控特徵包含第一、第二、第三、及第四鍵控特徵; 該些第一及第二鍵控特徵分開一第一距離,並定位於該電連接器的一第一端處;該些第三及第四鍵控特徵分開一第二距離,並定位於該電連接器的一第二端處;及該第一距離是不同於該第二距離。 The electrical connector according to claim 1 or 2, wherein the keying features include first, second, third, and fourth keying features; The first and second keying features are separated by a first distance and are positioned at a first end of the electrical connector; the third and fourth keying features are separated by a second distance and are positioned on the At a second end of the electrical connector; and the first distance is different from the second distance. 一種電連接器,其包含:一連接器殼體;至少三個平行的、間隔開的緊鄰線性電接點陣列;及第一及第二鍵控特徵,其中一縱向中心線及一中間中心線將該電連接器分為四個象限;該四個象限中之每一者界定與該些其他象限中之每一者不同的一結構,使得沒有象限可替代其他象限;及該些第一及第二鍵控特徵經定位於該連接器殼體的同一側上,彼此間隔開,各自具有一相同形狀,且各自經定位為關於該縱向中心線或該中間中心線的另一者之一鏡像;該些第一及第二鍵控特徵在該縱向中心線或該中間中心線之相對側上;該些第一及第二鍵控特徵中之每一者界定一支柱;該連接器殼體包括肋狀物;該些第一及第二鍵控特徵中之每一者位於兩個鄰近肋狀物之間;及該至少三個平行的、間隔開的緊鄰線性電接點陣列中之至少一者之電接點是被釘合至該連接器殼體中。 An electrical connector, comprising: a connector housing; at least three parallel and spaced adjacent linear electrical contact arrays; and first and second keying features, including a longitudinal centerline and a middle centerline The electrical connector is divided into four quadrants; each of the four quadrants defines a structure different from each of the other quadrants, so that no quadrant can replace the other quadrants; and the first and The second keying features are positioned on the same side of the connector housing, are spaced apart from each other, each have the same shape, and are each positioned as a mirror image of the other of the longitudinal centerline or the middle centerline The first and second keying features are on opposite sides of the longitudinal centerline or the middle centerline; each of the first and second keying features defines a pillar; the connector housing Includes ribs; each of the first and second keying features is located between two adjacent ribs; and at least one of the at least three parallel, spaced-apart, adjacent linear electrical contact arrays One of the electrical contacts is nailed into the connector housing. 一種電連接器,其包含:一連接器殼體;至少三個平行的、間隔開的緊鄰線性電接點陣列;及 第一及第二鍵控特徵,其中一縱向中心線及一中間中心線將該電連接器分為四個象限;該四個象限中之每一者界定與該些其他象限中之每一者不同的一結構,使得沒有象限可替代其他象限;及該些第一及第二鍵控特徵經定位於該連接器殼體的同一側上,彼此間隔開,各自具有一相同形狀,且各自經定位為關於該縱向中心線或該中間中心線的另一者之一鏡像;該些第一及第二鍵控特徵在該縱向中心線或該中間中心線之相對側上;該些第一及第二鍵控特徵中之每一者界定一凹部;該連接器殼體包括內部肋狀物;該第一鍵控特徵及該第二鍵控特徵中之每一者位於該些內部肋狀物中之一者的一端處;且該至少三個平行的、間隔開的緊鄰線性電接點陣列中之至少一者之電接點是被釘合至該連接器殼體中。 An electrical connector, comprising: a connector housing; at least three parallel and spaced adjacent linear electrical contact arrays; and The first and second keying features, in which a longitudinal centerline and a middle centerline divide the electrical connector into four quadrants; each of the four quadrants defines each of the other quadrants A different structure allows no quadrant to replace other quadrants; and the first and second keying features are positioned on the same side of the connector housing, are spaced apart from each other, each have the same shape, and each has the same shape. Positioned as a mirror image of the other of the longitudinal centerline or the intermediate centerline; the first and second keying features are on opposite sides of the longitudinal centerline or the intermediate centerline; the first and Each of the second keying features defines a recess; the connector housing includes internal ribs; each of the first keying feature and the second keying feature is located on the internal ribs At one end of one of them; and the at least three parallel and spaced apart electrical contacts adjacent to at least one of the linear electrical contact arrays are nailed into the connector housing. 一種電連接器,其包含:一插座殼體,該插座殼體具有一縱向中心線,且包括彼此平行地定向且彼此間隔開的第一、第二及第三內部肋狀物,一第一鍵控結構,其經定位鄰近於該第二內部肋狀物之一第二端,一第二鍵控結構,其經定位鄰近於該第一內部肋狀物之一第一端,及一第三鍵控結構,其經定位鄰近於該第三內部肋狀物之一第一端,其中該第一鍵控結構、該第二鍵控結構和該第三鍵控結構是完全相同形狀的。 An electrical connector, comprising: a socket housing having a longitudinal centerline, and including first, second, and third internal ribs oriented parallel to each other and spaced apart from each other, a first A keying structure, which is positioned adjacent to a second end of the second internal rib, a second keying structure, which is positioned adjacent to a first end of the first internal rib, and a first A three-keying structure, which is positioned adjacent to a first end of the third internal rib, wherein the first keying structure, the second keying structure and the third keying structure are completely the same shape. 一種電連接器,其包含:一插座殼體,該插座殼體具有一縱向中心線,且包括彼此平行地定向且彼此間隔開的第一、第二、第三、第四、第五、第六及第七內部肋狀物, 一第一鍵控結構,其經定位鄰近於該第二內部肋狀物之一第二端,一第二鍵控結構,其經定位鄰近於該第六內部肋狀物之一第二端,一第三鍵控結構,其經定位鄰近於該第一內部肋狀物之一第一端,及一第四鍵控結構,其經定位鄰近於第七內部肋狀物之一第一端。 An electrical connector, comprising: a socket housing having a longitudinal centerline, and including first, second, third, fourth, fifth, and first oriented parallel to each other and spaced apart from each other The sixth and seventh internal ribs, A first keying structure positioned adjacent to a second end of the second internal rib, a second keying structure positioned adjacent to a second end of the sixth internal rib, A third keying structure is positioned adjacent to a first end of the first internal rib, and a fourth keying structure is positioned adjacent to a first end of the seventh internal rib. 一種電連接器,其包含:一插頭殼體,其具有一縱向中心線且包括第一、第二、第三及第四插頭肋狀物,該些插頭肋狀物各自彼此平行地定向且彼此間隔開,一第一插頭鍵控結構,其經定位鄰近於連接器殼體之一第二端且介於該第二插頭肋狀物與該第三插頭肋狀物之間,一第二插頭鍵控結構,其經定位鄰近於該連接器殼體之一第一端且介於該第一插頭肋狀物與該第二插頭肋狀物之間,及一第三插頭鍵控結構,其經定位鄰近於該連接器殼體之該第一端且介於該第三插頭肋狀物與該第四插頭肋狀物之間,其中該第一插頭鍵控結構、該第二插頭鍵控結構和該第三插頭鍵控結構是完全相同形狀的。 An electrical connector, comprising: a plug housing having a longitudinal centerline and comprising first, second, third and fourth plug ribs, the plug ribs are respectively oriented parallel to each other and each other Spaced apart, a first plug keying structure positioned adjacent to a second end of the connector housing and between the second plug rib and the third plug rib, a second plug A keying structure, which is positioned adjacent to a first end of the connector housing and between the first plug rib and the second plug rib, and a third plug keying structure, which Positioned adjacent to the first end of the connector housing and between the third plug rib and the fourth plug rib, wherein the first plug keying structure and the second plug keying The structure and the third plug keying structure are exactly the same shape. 一種電連接器,其包含:一插頭殼體,其具有一縱向中心線,且包括一第一、第二、第三、第四、第五、第六、第七及第八插頭肋狀物,該些插頭肋狀物各自彼此平行地定向且彼此間隔開,一第一插頭鍵控結構,其經定位鄰近於連接器殼體之一第二端且介於該第二插頭肋狀物與該第三插頭肋狀物之間,一第二插頭鍵控結構,其經定位鄰近於該連接器殼體之第二端且介於該第六插頭肋狀物與該第七插頭肋狀物之間,一第三插頭鍵控結構,其經定位鄰近於該連接器殼體之一第一端且介於該 第一插頭肋狀物與該第二插頭肋狀物之間,及一第四插頭鍵控結構,其經定位鄰近於該連接器殼體之該第一端且介於該第七插頭肋狀物與該第八插頭肋狀物之間。 An electrical connector, comprising: a plug housing having a longitudinal centerline and including a first, second, third, fourth, fifth, sixth, seventh, and eighth plug rib , The plug ribs are oriented parallel to each other and spaced apart from each other. A first plug keying structure is positioned adjacent to a second end of the connector housing and between the second plug rib and Between the third plug ribs, a second plug keying structure is positioned adjacent to the second end of the connector housing and between the sixth plug rib and the seventh plug rib In between, a third plug keying structure is positioned adjacent to a first end of the connector housing and between the Between the first plug rib and the second plug rib, and a fourth plug keying structure positioned adjacent to the first end of the connector housing and between the seventh plug rib Between the object and the eighth plug rib. 如請求項10或11所述之電連接器,其中該第一鍵控結構包括鄰接該插座殼體之該縱向中心線之一傾斜側壁。 The electrical connector according to claim 10 or 11, wherein the first keying structure includes an inclined side wall adjacent to the longitudinal center line of the socket housing. 如請求項10或11所述之電連接器,其中該第一鍵控結構包括一第二側壁及一第五側壁,且該插座殼體之該縱向中心線穿過該第二側壁及該第五側壁。 The electrical connector according to claim 10 or 11, wherein the first keying structure includes a second side wall and a fifth side wall, and the longitudinal center line of the socket housing passes through the second side wall and the first side wall Five side walls. 如請求項10或11所述之電連接器,其中該第一鍵控結構包括一第二側壁及一傾斜壁,且該插座殼體之該縱向中心線穿過該第二側壁與該傾斜壁的一相交部。 The electrical connector according to claim 10 or 11, wherein the first keying structure includes a second side wall and an inclined wall, and the longitudinal center line of the socket housing passes through the second side wall and the inclined wall An intersecting part. 如請求項10所述之電連接器,其中該第二鍵控結構及該第三鍵控結構各自經定位於該插座殼體之該縱向中心線之相對側上。 The electrical connector according to claim 10, wherein the second keying structure and the third keying structure are respectively positioned on opposite sides of the longitudinal center line of the socket housing. 如請求項11所述之電連接器,其中該些第一、第二、第三及第四鍵控結構皆與該插座殼體之該縱向中心線及一中間中心線間隔開。 The electrical connector according to claim 11, wherein the first, second, third, and fourth keying structures are all spaced apart from the longitudinal center line and a middle center line of the socket housing. 如請求項10至13及17至18中任一項所述之電連接器,其進一步包含經定位於該縱向中心線上之一第一對準栓釘。 The electrical connector according to any one of claims 10 to 13 and 17 to 18, which further comprises a first alignment peg positioned on the longitudinal centerline. 如請求項10至13及17至18中任一項所述之電連接器,其進一步包含與該縱向中心線間隔開的一第二對準栓釘。 The electrical connector according to any one of claims 10 to 13 and 17 to 18, further comprising a second alignment peg spaced from the longitudinal centerline. 如請求項12所述之電連接器,其中該第一插頭鍵控結構包括一第二插頭側壁及一第五插頭側壁,且該縱向中心線穿過該第二插頭側壁及該第五插頭側壁兩者。 The electrical connector according to claim 12, wherein the first plug keying structure includes a second plug side wall and a fifth plug side wall, and the longitudinal center line passes through the second plug side wall and the fifth plug side wall Both. 如請求項12或21所述之電連接器,其中該第二插頭鍵控結構及該第三插頭鍵控結構皆經定位於該插頭殼體之該縱向中心線之相對側上。 The electrical connector according to claim 12 or 21, wherein the second plug keying structure and the third plug keying structure are both positioned on opposite sides of the longitudinal center line of the plug housing. 如請求項13所述之電連接器,其中該些第一及第二插頭鍵控結構以及該些第三及第四插頭鍵控結構經定位於該縱向中心線之相對側上。 The electrical connector according to claim 13, wherein the first and second plug keying structures and the third and fourth plug keying structures are positioned on opposite sides of the longitudinal centerline. 如請求項10至13、17至18、21及23中任一項所述之電連接器,其中該電連接器為一開放式插腳片電連接器,且所有電接點之所有配合端皆具有一相同形狀。 The electrical connector according to any one of claims 10 to 13, 17 to 18, 21, and 23, wherein the electrical connector is an open pin-slice electrical connector, and all mating ends of all electrical contacts are Have the same shape. 如請求項10至13、17至18、21及23中任一項所述之電連接器,其中該電連接器為一夾層式連接器。 The electrical connector according to any one of claims 10 to 13, 17 to 18, 21 and 23, wherein the electrical connector is a mezzanine connector. 如請求項10至13、17至18、21及23中任一項所述之電連接器,其進一步包含:第一列電接點,其經定位緊鄰於第二列電接點,及第三列電接點,其經定位緊鄰於該第二列電接點,其中該第一列及該第二列分開大約2.2mm之一第一列間距,且該第二列及該第三列分開大約2.4mm之一第二列間距。 The electrical connector according to any one of claims 10 to 13, 17 to 18, 21, and 23, further comprising: a first row of electrical contacts, which are positioned immediately adjacent to the second row of electrical contacts, and a first row of electrical contacts Three rows of electrical contacts, which are positioned adjacent to the second row of electrical contacts, wherein the first row and the second row are separated by a first row pitch of approximately 2.2mm, and the second row and the third row Separate by one second column pitch of approximately 2.4mm. 如請求項11所述之電連接器,其中該些第一、第二、第三及第四鍵控結構界定一梯形的四個點,該梯形的平行側具有不同長度,且該梯形關於該插座殼體之一中間中心線對稱。 The electrical connector according to claim 11, wherein the first, second, third, and fourth keying structures define four points of a trapezoid, the parallel sides of the trapezoid have different lengths, and the trapezoid is related to the The center line of one of the socket shells is symmetrical. 如請求項13所述之電連接器,其中該些第一、第二、第三及第四插頭鍵控結構界定一梯形的四個點,該梯形的平行側具有不同長度,且該梯形關於該插座殼體之一中間中心線對稱。 The electrical connector according to claim 13, wherein the first, second, third, and fourth plug keying structures define four points of a trapezoid, the parallel sides of the trapezoid have different lengths, and the trapezoid is about The center line of one of the socket shells is symmetrical.
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