M442623 五、新型說明: k【新型所屬之技術領域】 •本創作為提供-種U S B母座連接器,尤指—種有 =連接器所產生的串音干擾問題及可提供較大的電M442623 V. New description: k [New technical field] • This creation provides a kind of U S B female connector, especially the type of crosstalk generated by the connector and can provide a large amount of electricity.
GH POWER)的US B母座連接器改良。 电>導通(HI 【先前技術】 按’連接H之運財常廣泛,所及包含U s B料 B連接器方面則是不斷的改良、進步,並同時增加=傳= ^望然+電磁波對於某些領域上係非常有幫助,如電信通訊或是雷 f =磁波可能影響,設備的運行,此種現象即稱為電 中電磁串音干擾疋指任何在電磁場伴隨著電壓、電流的作“ 產生會降低某個裝置、設備或系統的性能,或可能對生物或 2影Ϊ之電磁現象,尤其針對連接器於傳輸訊號時亦會受到ίί的 包Ϊ漏之問題或訊號衰退使訊號不良等問題。因此了電 擾,並防止對包括電奸件的設備本身和周圍其它ΐ子ίί 產=a=此仍不盡理想,且其中’電磁干擾中又 ,,其指的是相鄰通道之間信號干擾,當資料傳輸距離 =^接近或彼此訊_度差距過鱗,串音干擾發生的可能n 與從=行創作之創作人 【新型内容】 ΞΓ ί 並以從事於此行㈣積之多年鎌,經由不斷試作及 及可提供較大的電顧電流導通_ 之創作人有鏗於上述敝,乃搜集相Μ料,經由多 M442623 良新型專利者。 本創f之主^目的在於藉由第一電源傳輸導體及第二電源傳輸導 t有效解決高頻訊號連接器所產生的串音干擾問題及可提供較大 的氣壓與電流導通(HIGH P0TOO。 ^創作之次要目的在於透過第一偵測傳輸導體及第二偵測傳輸導 體使其達到具有對外傳輸電力之功能。 六;έ·為,士^目的本創作主要結構包括一屏蔽外殼,屏蔽外殼係收 二f至f一絕緣膠體,絕緣膠體乃結合一接地傳輸導體,接地傳輸導 有一第一差分訊號傳輸導體,第一差分訊號傳輸導體背離接 =導體:側設有—第二差分訊號傳輸導體,而接地傳輸導體另一 二=一第三差分峨傳輸導體’第三差分峨傳輸導體背離接地傳 =體;"側則設有—第岭分訊號傳輸導體,又接地傳輸導體與第-刀A號傳輸導體之間設有—第—訊號傳輸導體及—第二訊號傳輸導 地傳輸導體與第三齡訊號傳輸導體之_設有—第三訊號 Ϊίί及—第四訊賴輸導體,另第—喊傳輸導體及第二訊號傳 Ϊίίί間設有—第—電源傳輸導體,第三訊號傳輸導體及第四訊號 ^值有—第二電源傳輸導體,又第—電源傳輸導體與第二 之間設有第―_傳輸賴,第二電轉輸導體與第四 訊遽傳輸導體之間設有第二偵測傳輸導體,藉此,透過第— ·=====頻訊號連接器所產生的串音测題 不良的問雜加以突破,達到本創作如上述優點之實用進步性。 【實施方式】 述目的及功效’本創作所細之技術手段及構造,兹繪 =====肖佩了,雜全了解: 立體圖、側視透_及局部示意圖4,由計可清楚看出本創|係包^ M442623 ' 一屏蔽外殼1; • 至少一收容於該屏蔽外殼1内的絕緣膠體2,絕緣膠體2係為印 刷電路板(Printed Circuit Board, PCB )、立體電路板(3D Circu it Board)或絕緣塑膠體其中之一者; 一與該絕緣膠體2結合之接地傳輸導體2 0,其一端係界定一為 平板狀態樣之接地接觸部2 〇1 ; 一與該絕緣膠體2結合'並設於該接地傳輸導體2 0—側之第一 差分訊號傳輸導體21,其一端係界定一為平板狀態樣之第一差分訊 號接觸部21 1 ; 鲁一與該絕緣膠體2結合、並設於該第一差分訊號傳輸導體2工背 離該接地傳輸導體2 〇一侧之第二差分訊號傳輸導體2 2,其一端係 界定-為平板狀態樣之第二差分訊號接卿2 2丄; 體2結合、並設於該接地傳輸導體2◦背離該第一 1 :側之第三差分訊號傳輸導體2 3 ’其一端係 疋為千板狀&樣之第三差分訊號接觸部2 31 ; 離該接ΪίϊίΕΠ、並設於該第三差分訊號傳輸導體2 3背 界定===則:第,差分訊號傳輸導體2 4,其-端係 饞-盥二&差分訊號接觸部2 4 1 ; 訊號傳i導體“之間導體2 0與第一差分 彈性狀態樣之第-訊號接觸部2=輸導體2 5,其一端係界定-為 的傳輸導體25與第一 訊號傳輸導體2 3之間的第:輪導體2 0與第三差分 彈性狀態樣之第三訊號接輸導體2 7,其一端係界定一為 一與該絕緣膠體2結人、 ’ 一 差分訊號傳輸導體2 的 M442623 厂為彈性狀態樣之第四訊號接觸部2 8i ; ,笛與該絕緣膠體2結合、並設於該第—訊號傳輸導體2 h 餘輸導體2 6之間的第一電源傳輸導體2 9,該第—電源i 1〗;及2 9 一端係界定有至少一為彈性狀態樣之第一電源接觸部2 9 m 與該絕緣膠體2結合、並設於該第三訊號傳輸導體2 7盘 =訊就傳輸8之間的第二電源傳輸導體3 〇,該第 2 T導體3 0 一端係界定有至少一為彈性狀態樣之第二電源 ΐ設於該第一電源傳輸導體2 9與第二 間的第一偵測傳輸導體31,該第一_傳輸導 係向上突出該絕緣膠體2並朝該第—差分訊號接觸^ 1方向延伸而形成一第一偵測傳輸接觸部311;及 -與該絕緣膠體2結合、並設於該第二電源傳輸導體3◦ =傳輸導體2 8之間的第二偵測傳輸導體3 2,該第二 «2-端係向上突出該絕緣膠體2並朝該第三差分訊號接觸蓄 伸21,再者,該接地接觸 匕丄弟差刀訊唬接觸邛211、第二差分訊號接觸部22] 二第三差分訊號細部2 3 1及細差分減接觸部2 4 i乃位^ 丨C觸:2 51、第二訊號接觸部2 6工、第三訊號接觸 7 1、第四訊號接觸部2 8 !、第一_傳輸接觸部3 i i及第二债 測傳輸接觸部3 2 1前側處,而該第—電雜觸部2 9 i及第二電源 f觸。Ο)乃位於該第一訊號接觸部2 5 1、第二訊號接觸部2 6 1、第二訊號接觸部2 71、第四訊號接觸部2 8丄、第一福測傳輸 接觸部3 1 1及第二_傳輸接觸部3 2 i後側處,又第_偵測傳輸 接觸部3 1 1及第二細傳輸接觸部3 2 i彼此之間的位置乃相互錯 開設置。 並且由第-圖可看出’接地接觸部2 〇丄、第一差分訊號接觸部 ^11、第^差分訊號接觸部2 2 i、第三差分訊號接觸部2 3工及 第四差分訊號接觸部2 41係為平板狀態樣,而該第—訊號接觸部2 6 M442623 1、第二訊號接觸部2 6 1、第三訊號接觸部2 7 1、第四訊號接 觸部2 81、第一電源接觸部2 91、第二電源接觸部3 〇1、第一 •偵測傳輸接觸部311及第二偵測傳輸接觸部3 21係為彈性狀態樣 ,再該接地接觸部2〇1、第一差分訊號接觸部211、第二差分訊 魂接觸部2 21、第二差分訊號接觸部2 31及第四差分訊號接觸部 2 41乃位於該第一訊號接觸部2 51、第二訊號接觸部2 61、第 二訊號接觸部2 71、第四訊號接觸部2 81上側處,而該第一電源 接觸部2 91及第二電源接觸部3 〇丄乃位於該第一訊號接觸部2 5 1、第二訊號接觸部2 61、第三訊號接觸部271、第四訊號接觸 部2 81下側處,又該第一偵測傳輸接觸部3 i i及第二偵測傳輸接 觸部3 21係位於該接地接觸部2 〇1、第一差分訊號接觸部2工工 、第二差分訊號接觸部2 21、第三差分訊號接觸部2 31及第四差 刀訊破接觸部2 41之上側處。 請參閱第三圖及第四圖所示’係為本創作較佳實施例之局部示意 圖及接設印刷電路板之實施示意圖,由圖中可清楚看出,第一偵。 傳輪導體31、第二偵測傳輸導體3 2、接地傳輸導體2 〇、第1差 分訊號傳輸導體21、第二差分訊號傳輸導體2 2、第三差分对缺值 ,體3、第四差分訊號傳輸導體2 4、第一訊號傳^導體^傳 ,二訊號傳輸導體2 6、第三訊號傳輸導體2 7、細訊號傳輸導體 ^ 8 '第一電源傳輸導體2 9及第二電源傳輸導體3 〇係於一端處以 =-排之排列方式共同接設—印刷電路板4,其接設方 貼附(SMT )、單排插接設置(DIP )、雙排表面貼附表= ,插接設置(DIP )、向上弯折延伸(板上)、向下·彎折延 $ i上伸,板)其中之一者’又其板上包含有板上平貼或 j墊冋其中之—者,而其板下又包括有板下平貼或板下塾高呈中之 一者,另其沉板包括有正向沉板或反向沉板其中之一 二 可為垂直平貼、垂直墊高、垂直沉板、直立墊高、直立平貼 =乃舉例以單排表面貼附()及連“ 請參閱第三圖及第五圖所示,7係為本創作較佳實施例之局部示意 M442623 、圖及插置公頭連接器之實施示意圖,由圖中可清楚看出,俾 f連頭連接器5上的傳輸導通部乃與接地接觸部2 s •1、第-差力訊號接觸部211、第二差分訊號接觸部22 ^ 差分訊號接觸部2 31、第四差分訊號接觸部2 4工、第 二 部2 51、第二訊號接觸部2 61、第三訊號接觸部2 7丄°、^觸 號接觸部2 8 1、第-電源接觸部2 9 i及第二電源接觸部3 互對應抵觸,贼其導通接地雜_2 Q、第 ^GH POWER) US B female connector is improved. Electric > conduction (HI [previous technology] According to the connection of H, the wealth is often extensive, and the U s B material B connector is continuously improved, improved, and simultaneously increased = pass = ^ look for + electromagnetic wave It is very helpful for some fields, such as telecommunication communication or lightning f = magnetic wave may affect the operation of the equipment. This phenomenon is called electromagnetic electromagnetic crosstalk interference. Any electromagnetic field is accompanied by voltage and current. “There is a problem that can degrade the performance of a device, device or system, or may affect the biological or 2, especially for the connector to transmit signals, or the signal may be degraded and the signal is poor. And so on. Therefore, the electrical disturbance, and to prevent the device itself including the gangster piece and other scorpions around it = = =================================================================== Between the signal interference, when the data transmission distance = ^ close or mutual _ degree gap over the scale, the possibility of crosstalk interference n and the creator of the creation of the line [new content] ΞΓ ί and engaged in this line (four) product Many years later, by The creators who continue to try and provide a larger power-on current _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ The power transmission conductor and the second power transmission guide t effectively solve the crosstalk interference problem generated by the high frequency signal connector and provide a large air pressure and current conduction (HIGH P0TOO.) The secondary purpose of the creation is to pass the first detection. The transmission conductor and the second detection transmission conductor are configured to have the function of transmitting power externally. The main structure of the creation includes a shielded casing, and the shielded casing is received by two f to f-insulating colloid, and the insulation is insulated. The colloid is combined with a grounded transmission conductor, and the grounding transmission leads to a first differential signal transmission conductor. The first differential signal transmission conductor is separated from the conductor=the conductor side is provided with a second differential signal transmission conductor, and the grounded transmission conductor is another two=one. The third differential 峨 transmission conductor 'the third differential 峨 transmission conductor is away from the ground transmission body; the side is provided with a - ridge division signal transmission conductor, and the ground transmission conductor and the first knife A transmission Between the transmission conductors - a - signal transmission conductor and - a second signal transmission ground transmission conductor and a third-age signal transmission conductor - provided - the third signal Ϊ ίί - and the fourth ray transmission conductor, the other - Between the transmission conductor and the second signal transmission, the first-power transmission conductor, the third signal transmission conductor and the fourth signal have a second power transmission conductor, and the first power transmission conductor and the second There is a first transmission transmission, and a second detection transmission conductor is disposed between the second electrical transmission conductor and the fourth transmission conductor, thereby transmitting the string generated by the first--=====frequency signal connector The breakthrough of the sound test questions is a breakthrough, and the practical progress of the above-mentioned advantages is achieved. [Embodiment] The purpose and function of the present work are detailed. The technical means and structure of the work are drawn. ===== Xiao Pei , the complete understanding: stereoscopic view, side view through _ and partial schematic 4, from the meter can clearly see the original | package ^ M442623 'a shielded outer casing 1; • at least one insulating colloid 2 contained in the shielded outer casing 1, Insulating gel 2 is a printed circuit board (Printed Circuit) One of the board, the PCB, the three-dimensional circuit board (3D Circu it Board) or the insulating plastic body; a grounding transmission conductor 20 combined with the insulating colloid 2, one end of which defines a ground contact portion in a flat state 2 〇1; a first differential signal transmission conductor 21 coupled to the insulating colloid 2 and disposed on the ground transmission conductor 20 side, one end of which defines a first differential signal contact portion 21 1 in a flat state Lu Yi is coupled to the insulating colloid 2 and disposed on the second differential signal transmission conductor 2 2 on the side of the first differential signal transmission conductor 2 away from the ground transmission conductor 2, one end of which is defined as a flat state The second differential signal is connected to the second side; the body 2 is coupled to the third differential signal transmission conductor 2 3 ' of the grounding transmission conductor 2 and facing away from the first first side; The third differential signal contact portion 2 31; is separated from the interface and disposed on the third differential signal transmission conductor 2 3 back defined === then: the differential signal transmission conductor 2 4, the end system -盥二& differential signal contact 2 4 1 ; signal transmission "Between the conductor 20 and the first differential elastic state of the first - signal contact portion 2 = the transmission conductor 25, one end of which is defined as the: between the transmission conductor 25 and the first signal transmission conductor 23: The third signal transmission conductor 2 7 of the conductor 20 and the third differential elastic state is defined as an elastic state of the M442623 factory which is connected to the insulating colloid 2 and the 'differential signal transmission conductor 2 a fourth signal contact portion 2 8i ; , a first power transmission conductor 2 9 , which is coupled to the insulating glue 2 and disposed between the first signal transmission conductor 2 h and the residual conductor 2 6 , the first power source i 1 And the second power supply contact portion 2 9 m defining at least one elastic state is combined with the insulating colloid 2 and disposed between the third signal transmission conductor 27 and the transmission 8 The second power transmission conductor 3 〇, the second T conductor 30 has a second power source defined by at least one elastic state, and the first detection of the first power transmission conductor 29 and the second detection a transmission conductor 31, the first transmission guide protrudes upwardly from the insulating colloid 2 and faces the first difference The sub-signal contact ^ 1 extends to form a first detecting transmission contact portion 311; and - the second detecting combined with the insulating colloid 2 and disposed between the second power transmitting conductor 3 ◦ = the transmitting conductor 28 Measure the transmission conductor 3 2, the second «2-end protrudes upwardly from the insulating colloid 2 and contacts the second differential signal contact storage 21, and further, the ground contact 匕丄 差 刀 唬 邛 邛 211, the first Two differential signal contact portion 22] Two third differential signal detail portion 2 3 1 and fine differential subtraction contact portion 2 4 i is a bit ^ 丨 C touch: 2 51, second signal contact portion 2 6 work, third signal contact 7 1 The fourth signal contact portion 2 8 , the first transmission contact portion 3 ii and the second debt transmission transmission portion 3 2 1 are at the front side, and the first electrical contact portion 2 9 i and the second power source f are touched. The first signal contact portion 2 5 1 , the second signal contact portion 2 6 1 , the second signal contact portion 2 71 , the fourth signal contact portion 2 8 , and the first measurement transmission contact portion 3 1 1 And at the rear side of the second_transmission contact portion 3 2 i, the positions between the first detecting transmission contact portion 31 and the second thin transmission contact portion 3 2 i are mutually offset. And as can be seen from the first figure, the ground contact portion 2, the first differential signal contact portion 11, the second differential signal contact portion 2 2 i, the third differential signal contact portion 2, and the fourth differential signal contact The portion 2 41 is a flat state, and the first signal contact portion 2 6 M442623 1 , the second signal contact portion 2 6 1 , the third signal contact portion 2 7 1 , the fourth signal contact portion 2 81 , and the first power source The contact portion 2 91, the second power contact portion 3 〇1, the first detecting transmission contact portion 311, and the second detecting transmission contact portion 321 are elastic state, and then the ground contact portion 2〇1, the first The differential signal contact portion 211, the second differential semaphore contact portion 2 21, the second differential signal contact portion 2 31, and the fourth differential signal contact portion 2 41 are located at the first signal contact portion 2 51 and the second signal contact portion 2 61, the second signal contact portion 2 71, the fourth signal contact portion 2 81 at the upper side, and the first power contact portion 2 91 and the second power contact portion 3 位于 are located at the first signal contact portion 251 The second signal contact portion 2 61, the third signal contact portion 271, and the fourth signal contact portion 2 81 are at the lower side, and the second The detection transmission contact portion 3 ii and the second detection transmission contact portion 3 21 are located at the ground contact portion 2 〇1, the first differential signal contact portion 2, the second differential signal contact portion 21, and the third differential signal. The contact portion 2 31 and the fourth differential knife break the contact portion 2 41 at the upper side. Please refer to the third and fourth figures for a partial schematic view of the preferred embodiment and a schematic diagram of the implementation of the printed circuit board. It can be clearly seen from the figure that the first detection. The transmission conductor 31, the second detection transmission conductor 3, the ground transmission conductor 2, the first differential signal transmission conductor 21, the second differential signal transmission conductor 2, the third differential pair missing value, the body 3, and the fourth difference The signal transmission conductor 2 4, the first signal transmission conductor, the second signal transmission conductor 26, the third signal transmission conductor 27, the fine signal transmission conductor ^ 8 'the first power transmission conductor 29 and the second power transmission conductor 3 〇 is connected at one end in the order of =- row - printed circuit board 4, its attached side attach (SMT), single row plug-in setting (DIP), double row surface attached table =, plug One of the setting (DIP), the upward bending extension (on the board), the downward bending and the bending extension $ i, the board), and the board on which the board is flat or j-padd. And the underside of the board includes one of the flat under the board or one of the lower ones of the board, and the other of the boards includes a positive or negative counterplate, one of which may be vertical flat, vertical, vertical, vertical Sinking, erecting, erect and flat affixing = is an example of a single row of surface attached () and even "Please refer to the third and fifth 7 is a schematic diagram showing the implementation of the preferred embodiment of the preferred embodiment of the M442623, the figure and the plug male connector. It can be clearly seen from the figure that the transmission conduction portion on the 连f connector 5 is Ground contact portion 2 s • 1, first-differential signal contact portion 211, second differential signal contact portion 22 ^ differential signal contact portion 31 31, fourth differential signal contact portion 2, second portion 2 51, second The signal contact portion 2 61, the third signal contact portion 2 7丄°, the ^ contact portion 2 8 1 , the first power contact portion 2 9 i and the second power contact portion 3 correspond to each other, and the thief turns on the ground _ 2 Q, the first ^
2 1、第二差分訊號傳輸導體2 2、第三差分ικ ^ 導J 四差分訊號傳輸導體2 4、第-訊號傳輸導體 體2 6、第三訊號傳輸導體2 7、第四訊號傳輸導體J8、第士, 擾得以透過第一電源傳輪導體2心 源傳輸導體3 Q和τ解決’胡時因第—電源傳輸導 ^ 源傳輸導體3 0之體積大於其他傳輸導體 j 電流導通(HIGH POWER)。 。』扠伢权大的電壓與 另外,當公頭連接器5插接後,即抵觸導通第 3 1 1及第二偵測傳輸接觸部3 2丄,俾:弟接觸部 «四訊號傳輸導體2 8開始對公頭連接“電3:導^二 ,_型電腦)休眠或關機時,同㈡ 子裝置進行充電;倘若,由外部雷雜&鮮又Α頭連接益5的電 一屏蔽外殼; 4別ΤΜ乐巴栝· 至少一收容於該屏蔽外殼内的絕緣 印刷電路板(Printed Circuit Board ^8,絕緣膠體2 3係為 cuit Board)或絕緣塑膠體立中之一^ 、立體電路板(3D Cir -與舰緣雜2a料之接^輪導體2心,其—端係界定2 1. The second differential signal transmission conductor 2, the third differential ικ^, the J-differential signal transmission conductor 2, the first signal transmission conductor 2, the third signal transmission conductor 2, and the fourth signal transmission conductor J8 , the taxi, the disturbance can be solved by the first power transmission conductor 2 the core source transmission conductors 3 Q and τ. The volume of the transmission conductor 30 is larger than that of the other transmission conductors. ). . The voltage of the fork has a large voltage and, in addition, when the male connector 5 is plugged, it is in contact with the conduction of the third and first detection transmission contacts 3 2, 俾: the contact portion «four signal transmission conductor 2 8 begins to charge the male connector "Electric 3: Guide 2, _ type computer" when sleeping or shutting down, and charging with the (2) sub-device; if it is connected by external thunder &fresh; 4 别别乐巴栝 · At least one insulated printed circuit board (Printed Circuit Board ^8, insulating colloid 2 3 is cuit board) or one of insulating plastic body ^, three-dimensional circuit board (3D Cir - connected to the ship's edge 2a material ^ wheel conductor 2 core, its - end system definition
M4420U 一為平板狀態樣之接地接觸部2 〇1a . '—與該絕緣膠體2 a結合、jp ^ . •第-差分訊號傳輸導體2 1 a,其輸導體2 ◦ 3 一側之 差分訊號接麟2 1 1 a ; 1 為平板狀態樣之第- 一與該絕緣膠體2 a結合、並設於兮货 ^ n y,於5亥第一差分訊號傳輸導體2 1 ίί= 第二差分訊號傳輸導體2 2 a, 其-1界疋-奸板狀祕之第二差分 一與該絕緣膠體2 a結合、並今於兮拉iiL油: μ—总八却。^ 該接地傳輸導體2 〇 a背離該 ί 一f ^ 3 一側之第三差分訊號傳輸導體2 3 3, 其-祕界疋-為平板狀錄之第三差分訊號接觸部2 3丄a ; #:Ϊ=ίΪί 2 3結合、並設於該第三差分訊號傳輸導體2 3 a皮離雜地傳輸導體2 0 a-側之第四差分訊號傳輸導體24 a, 其一鈿係界疋一為平板狀態樣之第四差分訊號接觸部2 41a ; 一與該絕緣膠體2 a結合、並設於該接地傳輸導體2 〇 a斑第一 差分訊號傳輸1 3之_第-訊號傳輸導體2 5 a,其二端係 界定一為彈性狀態樣之第一訊號接觸部2 51 a ; 一與該絕緣膠體2 a結合、並設於該第一訊號傳輸導體2 5 a與 第一差分訊號傳輪導體21 a之間的第二訊號傳輸導體2 6 a,其一 端係界定一為彈性狀態樣之第二訊號接觸部2 61 a ; • 一與該絕緣膠體2 a結合、並設於該接地傳輸導體2 0 a與第三 差分訊號傳輸導體2 3 a之間的第三訊號傳輸導體2 7 a,其一端係 界定一為彈性狀態樣之第三訊號接部觸2 71 a ; 一與該絕緣膠體2 a結合、並設於該第三訊號傳輸導體2 7 a與 第三差分訊號傳輪導體2 3 a之間的第四訊號傳輸導體2 8 a,其一 端係界定一為彈性狀態樣之第四訊號接觸部2 81 a ; 至少一與該絕緣膠體2 a結合、並設於該第一訊號傳輸導體2 5 a與第二訊號傳輸導體2 6 a之間的第一電源傳輸導體2 9 a,該第 一電源傳輸導體2 9 a—端係界定有至少一為彈性狀態樣之第一電源 接觸部2 91 a ;及 至少一與該絕緣膠體2 a結合、並設於該第三訊號傳輸導體2 7 9 M442623 a與第四訊號傳輸導體2 8 a之間的第二電源傳輸導體3 0 a,該第 二電源傳輸導體3 Q a—端係界定有至少一為彈性狀態樣之第二電源 •接觸部3 0 1 a。 且由第六圖可看出接地接觸部2 01 a、第一差分訊號接觸部2 1 1 a、第二差分訊號接觸部2 21 a、第三差分訊號接觸部2 31 a及第四差分訊號接觸部2 41 a乃位於該第一訊號接觸部2 51 a 、第二訊號接觸部2 6 ^ a、第三訊號接觸部2 7 i a及第四訊號接 觸部2 81 a前側處,而該第一電源接觸部2 9丄3及第二電源接觸 部3 Ο 1 a乃位於該第一訊號接觸部2 51a、第二訊號接觸部2 6 1 a、第二訊號接觸部2 71 a及第四訊號接觸部2 81 a後侧處, 又可從第七圖看出接地接觸部2 〇1a、第一差分訊號接觸部211 ,、第二差分訊號接觸部2 21 a、第三差分訊號接觸部2 31 a及 第四差分訊號接觸部241 a乃位於該第一訊號接觸部2 51 a、第 二訊號接觸部2 6 1 a、第三減接觸部2 7 1 a及第四訊號接觸部 請參閱第七®及第人®所示,係為本_第—較佳實施例之局部The M4420U is a flat-state ground contact 2 〇1a. '-bonded to the insulating colloid 2 a, jp ^ . • The first-differential signal transmission conductor 2 1 a has a differential signal on the side of the conductor 2 ◦ 3 Lin 2 1 1 a ; 1 is the first state of the flat state - one is combined with the insulating colloid 2 a and is set in the goods, ny, the first differential signal transmission conductor at 5 hai 2 2 ίί = second differential signal transmission conductor 2 2 a, its -1 boundary - the second difference of the slab-like secret one combined with the insulating colloid 2 a, and now in the iiL oil: μ - total eight. ^ The grounding transmission conductor 2 〇a is away from the third differential signal transmission conductor 2 3 3 on the side of the ί −f ^ 3, and the secret line 为 is the third differential signal contact portion 2 3 丄 a of the flat picture; #:Ϊ=ίΪί 2 3 is coupled to and disposed on the third differential signal transmission conductor 2 3 a to the fourth differential signal transmission conductor 24 a on the side of the transmission conductor 2 0 a- a fourth differential signal contact portion 2 41a in a flat state; a _ first-signal transmission conductor 25 that is coupled to the insulating colloid 2 a and disposed on the ground transmission conductor 2 〇a first differential signal transmission 13 a, the two ends define a first signal contact portion 2 51 a of an elastic state; a combination with the insulating colloid 2 a and disposed on the first signal transmission conductor 25 a and the first differential signal transmission wheel a second signal transmission conductor 2 6 a between the conductors 21 a, one end of which defines a second signal contact portion 2 61 a which is in an elastic state; • is coupled to the insulating colloid 2 a and is disposed on the ground transmission a third signal transmission conductor 2 7 a between the conductor 20 a and the third differential signal transmission conductor 2 3 a, one end of which defines a The third signal contact portion of the elastic state is contacted with 2 71 a; and is coupled to the insulating colloid 2 a and disposed between the third signal transmission conductor 2 7 a and the third differential signal transmission conductor 2 3 a The fourth signal transmission conductor 28 8 a has a fourth signal contact portion 2 81 a defining an elastic state at one end thereof; at least one is coupled to the insulating glue 2 a and disposed on the first signal transmission conductor 2 5 a and a first power transmission conductor 2 9 a between the second signal transmission conductors 2 6 a, the first power transmission conductor 2 9 a-end defines at least one first power contact portion 2 91 a which is an elastic state; And at least one second power transmission conductor 3 0 a coupled to the insulating paste 2 a and disposed between the third signal transmission conductor 2 7 9 M442623 a and the fourth signal transmission conductor 2 8 a, the second power source The transmission conductor 3 Q a-end defines at least one second power supply contact portion 3 0 1 a which is in an elastic state. The sixth grounding contact portion 201a, the first differential signal contact portion 2 1 1 a, the second differential signal contact portion 2 21 a, the third differential signal contact portion 2 31 a and the fourth differential signal can be seen from the sixth figure. The contact portion 2 41 a is located at the front side of the first signal contact portion 2 51 a , the second signal contact portion 2 6 ^ a, the third signal contact portion 2 7 ia and the fourth signal contact portion 2 81 a, and the A power contact portion 2 9 丄 3 and a second power contact portion 3 Ο 1 a are located at the first signal contact portion 51 51a, the second signal contact portion 2 6 1 a, the second signal contact portion 2 71 a and the fourth At the rear side of the signal contact portion 2 81 a, the ground contact portion 2 〇1a, the first differential signal contact portion 211, the second differential signal contact portion 21a, and the third differential signal contact portion can be seen from the seventh figure. 2 31 a and the fourth differential signal contact portion 241 a are located at the first signal contact portion 2 51 a, the second signal contact portion 2 6 1 a, the third minus contact portion 2 7 1 a, and the fourth signal contact portion. Referring to the seventh and the person®, it is a part of the preferred embodiment.
有正向沉板或反向沉板其中之一者, 2 81 a上側處,而該第一電源接觸部2 g ^ a及第二電源接觸部3 01^乃位於該第一訊號接觸部2 51 a、第二訊號接觸部2 61a 、第二訊號接觸部2 71 a及第四訊號接觸部2 81 a下側處。 η卞入二~ | ”〇叫饥上登尚其中之一者 •下墊高其中之-者’另其沉板包括 又接設方式可為垂直平貼、垂直 jj442623 φ Λ 墊高、垂直沉板、直立墊高、直立平貼或直立沉板其中之一者,而本 •實施例乃舉例以單排表面貼附(SMT )及連續彎折延伸(沉板)為實 -施態樣。 請參閱第九圖及第十圖所示,係為本創作第二較佳實施例之侧視 透明圖及局部示意圖’由圖中可清楚看出,主要結構包括: 一屏蔽外殼; 至少一收容於該屏蔽外殼内的絕緣膠體2b; 一與該絕緣膠體2 b結合之接地傳輸導體2 〇 b,其一端係界定 一為平板狀態樣之接地接觸部2 〇1b ; 一與該絕緣膠體2 b結合、並設於該接地傳輸導體2 〇 b 一侧之 看第一差分訊號傳輸導體21b,其一端係界定一為平板狀態樣之第一 差分訊號接觸部2 lib; * 一與該絕緣膠體2 b結合、並設於該第一差分訊號傳輸導體21 b背離該接地傳輸導體2 〇 b —側之第二差分訊號傳輸導體2 2 b, 其一端係界定一為平板狀態樣之第二差分訊號接觸部2 21b ; 一與該絕緣膠體2 b結合、並設於該接地傳輸導體2 〇 b背離該 第一差分訊號傳輸導體21b—側之第三差分訊號傳輸導體2 3 b, 其一端係界定一為平板狀態樣之第三差分訊號接觸部2 31b ; 一與該絕緣膠體2 b結合、並設於該第三差分訊號傳輸導體2 3 籲b背離該接地傳輸導體2 〇 b—側之第四差分訊號傳輸導體2 4 b, 其一端係界定一為平板狀態樣之第四差分訊號接觸部2 41b ; 一與該絕緣膠體2 b結合、並設於該接地傳輸導體2 0 b與第一 差分訊號傳輸導體21b之間的第一訊號傳輸導體2 5 b,其一端係 界定一為彈性狀態樣之第一訊號接觸部2 51b ; 一與該絕緣膠體2 b結合、並設於該第一訊號傳輸導體2 5 b與 第一差分訊號傳輸導體21b之間的第二訊號傳輸導體2 6 b,其一 端係界定一為彈性狀態樣之第二訊號接觸部2 61b ; 一與該絕緣膠體2 b結合、並設於該接地傳輸導體2 0 b與第三 差分訊號傳輸導體2 3 b之間的第三訊號傳輸導體2 7 b,其一端係 界定一為彈性狀態樣之第三訊號接部觸2 71b ; M442623 、一^該,緣膠體2 b結合、並設於該第三訊號傳輸導體2 7 b與 第三差分訊號傳輸導體23b之間的第四訊號傳輸導體2 8b,其一 ,端係界定一為彈性狀態樣之第四訊號接觸部2 8 i b ; ^ 一f該絕緣膠體2 b結合、並設於該第一訊號傳輸導體2 5 b與 第二訊號傳輸導體2 6 b之間的第一偵測傳輸導體31b,該第一偵 測傳輸導體31b—端係向上突出該絕緣膠體2b並朝該第一差分訊 號接觸部211b方向延伸而形成一第一偵測傳輸接觸部311b; 及 一與該絕緣膠體2 b結合、並設於該第三訊號傳輸導體2 7 b與 第四訊號傳輸導體2 8 b之間的第二偵測傳輸導體3 2 b,該第二偵 攀測傳輸導體3 2 b—端係向上突出該絕緣膠體2 b並朝該第三差分訊 號接觸部2 31b方向延伸而形成一第二偵測傳輸接觸部3 21b。 且由第十圖可看出接地接觸部2 〇1b、第一差分訊號接觸部2 1 1b、第二差分訊號接觸部2 21b、第三差分訊號接觸部2 31 b及第四差分訊號接觸部2 41b乃位於該第一訊號接觸部2 51b 、第二訊號接觸部2 61b、第三訊號接觸部2 71b、第四訊號接 觸部2 81b、第一偵測傳輸接觸部311b及第二偵測傳輸接觸部 3 21b前側處’又可從第九圖看出第一訊號接觸部2 51b、第二 訊號接觸部2 61b、第三訊號接觸部2 71b及第四訊號接觸部2 擊81乃位於該接地接觸部2 〇1b、第一差分訊號接觸部211b、 第一差分訊號接觸部2 21b、第三差分訊號接觸部2 31b '第四 差分訊號接觸部2 41b下側處,而該第一偵測傳輸接觸部及第二偵 測傳輸接觸部乃位於該接地接觸部2 〇1b、第一差分訊號接觸部2 1 1b、第二差分訊號接觸部2 21b、第三差分訊號接觸部2 31 b、第四差分訊號接觸部2 41b上侧處,又第一偵測傳輸接觸部3 1 1b及第一侦測傳輸接觸部3 21b彼此之間的位置乃相互錯開設 置。 。又 另外,第一偵測傳輸導體31b、第二偵測傳輸導體3 2 b、 地傳輸導體2 0 b、第一差分訊號傳輸導體21b、第二差分訊號傳 輸導體2 2 b、第三差分訊號傳輸導體2 3 b、第四差分訊號傳^導 M442623 體24b、第-訊號傳輸導體25b、第二訊號傳輸導 三訊號傳輸導體2 7 b、第四訊號傳輸導體2 8 b係於一】fThe first power contact portion 2 g ^ a and the second power contact portion 3 01 are located at the first signal contact portion 2, which is one of a positive sink plate or a reverse sink plate 51 a, the second signal contact portion 2 61a , the second signal contact portion 2 71 a and the fourth signal contact portion 2 81 a at the lower side. η卞入二~ | 〇 饥 饥 上 登 登 • • • • • • • • • • 下 下 另 另 另 另 另 另 另 另 另 另 另 另 另 另 另 另 另 另 另 另 另 另 另 另 另 另 另 另 另 另 另 另 另 另 另One of the plate, the upright pad, the upright flat or the upright plate, and the embodiment is exemplified by a single row surface attachment (SMT) and a continuous bending extension (sinking plate). Please refer to the ninth and tenth drawings, which are a side view transparent view and a partial schematic view of the second preferred embodiment of the present invention. As can be clearly seen from the figure, the main structure includes: a shielded outer casing; at least one housing An insulating colloid 2b in the shielding case; a grounding transmission conductor 2b combined with the insulating colloid 2b, one end of which defines a ground contact portion 2 〇1b in a flat state; and an insulating colloid 2 b The first differential signal transmission conductor 21b is connected to one side of the ground transmission conductor 2 〇b, and one end defines a first differential signal contact portion 2 lib which is a flat state; * and the insulating colloid 2 b is combined and disposed on the back of the first differential signal transmission conductor 21 b a second differential signal transmission conductor 2 2 b on the side of the ground transmission conductor 2 〇b, one end of which defines a second differential signal contact portion 21b of a flat state; a combination with the insulating colloid 2 b The third differential signal transmission conductor 2 3 b is disposed on the side of the grounding transmission conductor 2 〇b away from the first differential signal transmission conductor 21b, and one end defines a third differential signal contact portion 2 31b which is a flat state; a fourth differential signal transmission conductor 2 4 b coupled to the insulating dielectric 2 b and disposed on the side of the third differential signal transmission conductor 2 3 away from the ground transmission conductor 2 , b, one end of which is defined as a fourth differential signal contact portion 2 41b of the flat state; a first signal transmission conductor 25 coupled to the insulating paste 2 b and disposed between the ground transmission conductor 2 0 b and the first differential signal transmission conductor 21b And a first signal contact portion 2 51b is defined at one end thereof; and is coupled to the insulating glue 2 b and disposed on the first signal transmission conductor 25 b and the first differential signal transmission conductor 21b. Second signal transmission conductor 2 6 b, one end of which defines a second signal contact portion 2 61b which is an elastic state; a combination with the insulating colloid 2 b and is disposed on the ground transmission conductor 2 0 b and the third differential signal transmission conductor 2 3 b The third signal transmission conductor 2 7 b is defined by a third signal contact portion 2 71b which is an elastic state at one end; M442623, the edge colloid 2 b is combined, and is disposed on the third signal a fourth signal transmission conductor 28b between the transmission conductor 27b and the third differential signal transmission conductor 23b, wherein the end defines a fourth signal contact portion 8 8 ib which is an elastic state; ^ a f the insulation The first detection transmission conductor 31b is coupled between the first signal transmission conductor 2 5 b and the second signal transmission conductor 2 6 b, and the first detection transmission conductor 31b protrudes upward. The insulating colloid 2b extends toward the first differential signal contact portion 211b to form a first detecting transmission contact portion 311b; and is coupled to the insulating colloid 2b and disposed on the third signal transmission conductor 2 7 b a second detection transmission conductor 3 2 b between the fourth signal transmission conductor 2 8 b The second measuring climbing detect transmission line conductor 3 2 b- end projecting upwardly of the insulation body 2 b 2 31b and extending toward the direction of the third differential information number to form a contact portion in contact with a second detecting transmission portion 3 21b. The ground contact portion 2 〇1b, the first differential signal contact portion 2 1 1b, the second differential signal contact portion 21b, the third differential signal contact portion 31b, and the fourth differential signal contact portion can be seen from the tenth figure. 2 41b is located in the first signal contact portion 2 51b , the second signal contact portion 2 61b , the third signal contact portion 2 71b , the fourth signal contact portion 2 81b , the first detection transmission contact portion 311 b and the second detection At the front side of the transmission contact portion 3 21b, it can be seen from the ninth view that the first signal contact portion 2 51b, the second signal contact portion 2 61b, the third signal contact portion 2 71b, and the fourth signal contact portion 2 are located at The ground contact portion 2 〇1b, the first differential signal contact portion 211b, the first differential signal contact portion 21b, and the third differential signal contact portion 31bb are at the lower side of the fourth differential signal contact portion 41b, and the first The detecting transmission contact portion and the second detecting transmission contact portion are located at the ground contact portion 2 〇 1b, the first differential signal contact portion 2 1 1b, the second differential signal contact portion 21b, and the third differential signal contact portion 2 31 b, at the upper side of the fourth differential signal contact portion 41b, and the first detection transmission connection The first portion 3 1 1b and the contact portion 3 21b detects transmission positions between the open fault is the opposite to each other. . In addition, the first detection transmission conductor 31b, the second detection transmission conductor 3 2 b, the ground transmission conductor 2 0 b, the first differential signal transmission conductor 21b, the second differential signal transmission conductor 2 2 b, and the third differential signal The transmission conductor 2 3 b, the fourth differential signal transmission M442623 body 24b, the first signal transmission conductor 25b, the second signal transmission guide three signal transmission conductor 2 7 b, and the fourth signal transmission conductor 2 8 b are connected to one
,排之排列〒式共同接設一印刷電路板’其接設方式為單排表面貼二 SMT )、單排插接設置(DIP )、雙排表面貼附(游)排插 設置(DIP )、向上彎折延伸(板上)、向下彎 巧插J ==延伸^板)其t之-者,X其板上包含有===上ί 南其中之一者,而其板下又包括有板下平貼或板下墊高其中之一者, 另其沉板包括有正向沉板或反向沉板其中之一者,又i 直平貼、垂直墊高、垂直沉板、直立墊高、直立平貼或直立 之-者’ X ’印刷電路板上係進—步接設有轉接端子組,該轉接端子 組係可為表面貼附(SMT )、插接設置(DIP )或夾板設置(Clamp )其中之一者。 、請參閱第十-圖及針二圖所*,係為本解第三較佳實施例之 側視透明圖及局部示意圖,由圖中可清楚看出,主要結構包括: 一屏蔽外殼; 至少一收容於該屏蔽外殼内的絕緣膠體2 c,絕緣膠體2 c係為 印刷電路板(Printed Circuit Board,PCB )、立體電路板(3D Cir cuit Board)或絕緣塑膠體其中之一者; 一與该絕緣膠體2 c結合之接地傳輸導體2 〇 c ,其一端係界定 鲁一為平板狀態樣之接地接觸部2 〇1c ; 一與該絕緣膠體2 c結合、並設於該接地傳輸導體2 〇 c —側之 第一差分訊號傳輪導體21c,其一端係界定一為平板狀態樣之第一 差分訊號接觸部211c; 北一與該絕緣膠體2 c結合、並設於該第一差分訊號傳輸導體21 c背離該接地傳輪導體2 〇 c 一側之第二差分訊號傳輸導體2 2 c, 其一端係界定一為平板狀態樣之第二差分訊號接觸部2 21c ; 於—與該絕緣膠體2 c結合、並設於該接地傳輸導體2 〇 c背離該 第一差分訊號傳輸導體21c—侧之第三差分訊號傳輸導體2 3 c, 其一端係界定一為平板狀態樣之第三差分訊號接觸部2 31c ; 與該絕緣膠體2 c結合、並設於該第三差分訊號傳輸導體2 3 13 傳^ c 一侧之第四差分訊號傳輸導體2 4 c, 其If疋一為平板狀態樣之第四差分訊號接觸部2 4 i c ; 差分‘ΐΞί ISc結合、並設於該接地傳輪導體2 ◦c與第一 傳輸導體2 1 C之間的第-訊號傳輸導體2 5 c,其一端係 界疋一為彈性狀態樣之第一訊號接觸部2 5 楚一緣膠體2 C結合、並設於該第—訊號傳輸導體2 5 c與 第了差为訊號傳輸導體21c之間的第二訊號傳輪導體2 6 c,其一 端係界定一為彈性狀態樣之第二訊號接觸部2 6 i c ; 一與該絕緣膠體2 c結合、並設於該接地傳輪導體2 〇 c與第三 差勿訊號傳輸導體2 3 c之間的第三訊號傳輸導體2 7 c,其一端係 界定一為彈性狀態樣之第三訊號接部觸2 71c ; 、 一與該絕緣膠體2 c結合、並設於該第三訊號傳輸導體2 7 c與 第二差分訊號傳輸導體2 3 c之間的第四訊號傳輸導體2 8 c,其一 端係界定一為彈性狀態樣之第四訊號接觸部2 8 i c ;再者,由第十 一圖可看出該接地接觸部2〇1c、第一差分訊號接觸部211c、 第二差分訊號接觸部2 21c、第三差分訊號接觸部2 31c及第四 差分訊號接觸部2 41c乃位於該第一訊號接觸部2 51c、第二訊 號接觸部2 61c、第三訊號接觸部2 71c、第四訊號接觸部2 8 1 c前側處。 |另外,該接地接觸部2 〇1c、第一差分訊號接觸部21 1c、 第二差分訊號接觸部2 21c、第三差分訊號接觸部2 31c及第四 差分訊號接觸部2 41c乃位於該第一訊號接觸部2 51c、第二訊 號接觸部2 61c、第三訊號接觸部2 71c及第四訊號接觸部2 8 1 c上側處。The arrangement of the rows is connected to a printed circuit board, which is connected by a single row of surface mounts (SMT), single row plug-in settings (DIP), and double-row surface mount (tour) plug-in settings (DIP). , bending up and extending (on the board), bending down and inserting J == extension ^ board), where the t is, X has one of the === upper ί on the board, and its under the board Including one of the lower plate or the lower plate, the other plate includes one of a positive plate or a reverse plate, and i straight, vertical, vertical, vertical, vertical Padded, erect or erect - 'X' printed circuit board splicing - stepped with adapter terminal set, which can be surface mount (SMT), plug-in settings (DIP) ) or one of the clapper settings (Clamp). Please refer to the tenth-figure and the second diagram, which are side view transparent diagrams and partial schematic diagrams of the third preferred embodiment of the present solution. As can be clearly seen from the figure, the main structure includes: a shielding shell; An insulating colloid 2 c received in the shielding case, and the insulating colloid 2 c is one of a printed circuit board (PCB), a three-dimensional circuit board (3D Cir cuit Board) or an insulating plastic body; The grounding conductor 2 〇c of the insulating colloid 2 c is combined with one end defining a ground contact portion 2 〇 1c of a flat state; and is coupled to the insulating colloid 2 c and disposed on the ground transmitting conductor 2 The first differential signal transmitting conductor 21c on the side of the c-side defines a first differential signal contact portion 211c in a flat state; the north is coupled to the insulating colloid 2c and disposed on the first differential signal transmission The conductor 21c faces away from the second differential signal transmission conductor 2 2 c on the side of the grounding conductor 2 〇c, and one end defines a second differential signal contact portion 21c of a flat state; and the insulating colloid 2 c combined and set in the connection The transmission conductor 2 〇c faces away from the first differential signal transmission conductor 21c-side of the third differential signal transmission conductor 2 3 c, one end of which defines a third differential signal contact portion 2 31c which is a flat state; and the insulating colloid 2 c is coupled to the fourth differential signal transmission conductor 2 4 c on the side of the third differential signal transmission conductor 2 3 13 , and the fourth differential signal contact portion 4 4 is a flat state The first signal-transmission conductor 2 5 c, which is disposed between the grounding conductor 2 ◦c and the first transmission conductor 2 1 C, has an elastic state. The first signal contact portion 2 5 is coupled to the first signal transmission conductor 2 5 c and the second signal transmission conductor 2 6 c between the first signal transmission conductor 2 5 c and the signal difference transmission conductor 21 c. One end defines a second signal contact portion 6 ic which is an elastic state; a combination with the insulating colloid 2 c and is disposed on the grounding conductor 2 〇c and the third differential signal transmission conductor 2 3 c The third signal transmission conductor 2 7 c is defined at one end as an elastic state a third signal contact portion 2 71c; a fourth signal transmission conductor coupled to the insulating paste 2 c and disposed between the third signal transmission conductor 27c and the second differential signal transmission conductor 2 3 c 2 8 c, one end of which defines a fourth signal contact portion 8 8 ic which is an elastic state; further, the ground contact portion 2〇1c, the first differential signal contact portion 211c, The second differential signal contact portion 21c, the third differential signal contact portion 2c, and the fourth differential signal contact portion 41c are located at the first signal contact portion 51c, the second signal contact portion 61c, and the third signal contact portion. 2 71c, the fourth signal contact portion 2 8 1 c at the front side. In addition, the ground contact portion 〇1c, the first differential signal contact portion 21 1c, the second differential signal contact portion 21c, the third differential signal contact portion 31c, and the fourth differential signal contact portion 2 41c are located at the first A signal contact portion 2 51c, a second signal contact portion 2 61c, a third signal contact portion 2 71c, and a fourth signal contact portion 2 8 1 c are on the upper side.
而上述之接地傳輸導體2 〇 c、第一差分訊號傳輸導體21c、 第二差分訊號傳輸導體2 2 c、第三差分訊號傳輸導體2 3 c、第四 差分訊號傳輸導體2 4 c、第一訊號傳輸導體2 5 c、第二訊號傳輸 導體2 6 c、第三訊號傳輸導體2 7 c、第四訊號傳輸導體2 8 c係 於一端處以單一排之排列方式共同接設一印刷電路板,其接設方式為 單排表面貼附(SMT )、單排插接設置(DIP )、雙排表面貼附(S M442623 接設置(DIP)、向上彎折延伸(板上)、向下彎折延 以者,另其沉板包括有正=;=== Hi ii直平ϊ、垂直塾高、垂直沉板、直立^直 設置附(smt )、插接設置(贈)或失板 h i,以上所述僅為本創作讀佳實施例而已,非因此即侷太創 實存在下=全部附圖所示,本創作使用時,與習用技術相較,著 電流導通咖瞧)。 干制极可提供較大的電壓與 到具導體31及第二偵測傳輸導«2使其達 -如?ΐ所述,本創作之U S Β母座連接11改良於使㈣,為確眚-•ί!,及目的,故本創作誠為-實用性優異之創作為 障創作人之辛苦創作,齡•局審委有賜; ,創作人定當竭力配合,實感德便。 月不吝來函私示 M442623 【圖式簡單說明】 ‘第一圖係為本創作較佳實施例之立體圖。 •第二圖係為本創作較佳實施例之側視透明圖。 第三圖係為本創作較佳實施例之局部示意圖。 第四圖係為本創作接設印刷電路板之實施示意圖。 第五圖係為本創作插置公頭連接器之實施示意圖。 第六圖係為本創作第一較佳實施例之侧視透明圖。 第七圖係為本創作第一較佳實施例之局部示意圖。 第八圖係為本創作第一較佳接設印刷電路板之實施示意圖。 第九圖係為本創作第二較佳實施例之側視透明圖。 ®第十圖係為本創作第二較佳實施例之局部示意圖。 第十一圖係為本創作第三較佳實施例之側視透明圖。 第十二圖係為本創作第三較佳實施例之局部示意圖。 【主要元件符號說明】 屏蔽外殼........1 絕緣膠體........2、2a、2b、2c 接地傳輸導體......20、20a、20b、20c 接地接觸部.......201、201a、201b、201c 鲁第一差分訊號傳輸導體··21、21a、21b、21c 第一差分訊號接觸部···211、211a、211b、211c 第二差分訊號傳輸導體··22、22a、22b、22c 第二差分訊號接觸部···221、221a、221b、221c 第三差分訊號傳輸導體·.23、23a、23b、23c 第三差分訊號接觸部·· ·231、231a、231b、231c 第四差分訊號傳輸導體··24、24a、24b、24c 第四差分訊號接觸部···241、241a、241b、241c 第一訊號傳輸導體· · · ·25、253、25ΐ3、25〇 第一訊號接觸部.....251、251a、251b、251c 第二訊號傳輸導體···.26、26a、26b、26c 16 M442623 第二訊號接觸部·· 第三訊號傳輸導體· -第三訊號接觸部·· 第四訊號傳輸導體· 第四訊號接觸部·· 第一電源傳輸導體· 第一電源接觸部·· 第二電源傳輸導體· 第二電源接觸部·· 第一偵測傳輸導體· ®第一偵測傳輸接觸部 第二偵測傳輸導體· 第二偵測傳輸接觸部 印刷電路板···· 公頭連接器····The grounding transmission conductor 2 〇c, the first differential signal transmission conductor 21c, the second differential signal transmission conductor 2 2 c, the third differential signal transmission conductor 2 3 c, the fourth differential signal transmission conductor 2 4 c, the first The signal transmission conductor 2 5 c, the second signal transmission conductor 2 6 c, the third signal transmission conductor 2 7 c, and the fourth signal transmission conductor 2 8 c are connected to a printed circuit board at a single end in a single row arrangement. The connection method is single row surface attachment (SMT), single row plug setting (DIP), double row surface attachment (S M442623 connection setting (DIP), upward bending extension (on board), downward bending In addition, the sinker includes positive =; === Hi ii straight flat, vertical high, vertical sink, upright straight set attached (smt), plug-in settings (gift) or lost board hi, The above description is only for the preferred embodiment of the creation of the present invention, and therefore, it is not too complicated to be present. All the drawings are shown. When the present creation is used, compared with the conventional technology, the current is turned on. The dry pole can provide a larger voltage and the conductor 31 and the second detection transmission guide «2 to achieve - as described above, the creation of the US Β maternal connection 11 is improved to make (four), for the sake of -•ί!, and purpose, so this creation is sincerely - the creation of excellent practicality is the hard work of the creator of the imperative, and the trial committee of the age and the bureau has a gift; the creator will try his best to cooperate and feel the virtue. The month of the letter is private. M442623 [Simple description of the drawing] ‘The first figure is a perspective view of the preferred embodiment of the creation. • The second figure is a side view transparent view of the preferred embodiment of the present invention. The third drawing is a partial schematic view of a preferred embodiment of the present invention. The fourth figure is a schematic diagram of the implementation of the printed circuit board for the author. The fifth figure is a schematic diagram of the implementation of inserting a male connector for the author. The sixth drawing is a side view transparent view of the first preferred embodiment of the creation. The seventh drawing is a partial schematic view of the first preferred embodiment of the creation. The eighth figure is a schematic diagram of the implementation of the first preferred printed circuit board for the creation. The ninth drawing is a side view transparent view of the second preferred embodiment of the present invention. The tenth figure is a partial schematic view of the second preferred embodiment of the present creation. The eleventh figure is a side view transparent view of the third preferred embodiment of the present invention. Figure 12 is a partial schematic view of a third preferred embodiment of the present invention. [Explanation of main component symbols] Shielding enclosure........1 Insulating colloid........2, 2a, 2b, 2c Grounding transmission conductors...20, 20a, 20b, 20c Ground contact portion....201, 201a, 201b, 201c Lu first differential signal transmission conductor··21, 21a, 21b, 21c First differential signal contact portion···211, 211a, 211b, 211c Two differential signal transmission conductors··22, 22a, 22b, 22c Second differential signal contact unit···221, 221a, 221b, 221c Third differential signal transmission conductor·.23, 23a, 23b, 23c Third differential signal contact 231, 231a, 231b, and 231c Fourth differential signal transmission conductors·24, 24a, 24b, and 24c Fourth differential signal contact parts 241, 241a, 241b, and 241c First signal transmission conductors · · ·25, 253, 25ΐ3, 25〇 first signal contact part.....251, 251a, 251b, 251c Second signal transmission conductor···.26, 26a, 26b, 26c 16 M442623 Second signal contact part· · Third signal transmission conductor · - Third signal contact part · · Fourth signal transmission conductor · Fourth signal contact part · · First power transmission conductor · First power supply contact part · · Two power transmission conductors · Second power supply contact part · First detection transmission conductor · First detection transmission contact part Second detection transmission conductor · Second detection transmission contact part Printed circuit board ···· Male Connector····
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