TWM479497U - Cable shield structure of preventing common mode interference by resistance factor - Google Patents
Cable shield structure of preventing common mode interference by resistance factor Download PDFInfo
- Publication number
- TWM479497U TWM479497U TW103203670U TW103203670U TWM479497U TW M479497 U TWM479497 U TW M479497U TW 103203670 U TW103203670 U TW 103203670U TW 103203670 U TW103203670 U TW 103203670U TW M479497 U TWM479497 U TW M479497U
- Authority
- TW
- Taiwan
- Prior art keywords
- line
- layer
- signal
- common mode
- interference
- Prior art date
Links
- 239000010410 layer Substances 0.000 claims description 45
- RYGMFSIKBFXOCR-UHFFFAOYSA-N Copper Chemical compound [Cu] RYGMFSIKBFXOCR-UHFFFAOYSA-N 0.000 claims description 17
- 239000010949 copper Substances 0.000 claims description 12
- 229910052802 copper Inorganic materials 0.000 claims description 10
- 229920002799 BoPET Polymers 0.000 claims description 8
- 239000005041 Mylar™ Substances 0.000 claims description 8
- 239000011241 protective layer Substances 0.000 claims description 6
- 229910000831 Steel Inorganic materials 0.000 claims description 4
- 239000010959 steel Substances 0.000 claims description 4
- 229910052782 aluminium Inorganic materials 0.000 claims description 3
- XAGFODPZIPBFFR-UHFFFAOYSA-N aluminium Chemical group [Al] XAGFODPZIPBFFR-UHFFFAOYSA-N 0.000 claims description 3
- 239000011889 copper foil Substances 0.000 claims description 3
- 239000011888 foil Substances 0.000 claims description 3
- 229910000597 tin-copper alloy Inorganic materials 0.000 claims description 3
- 229910000881 Cu alloy Inorganic materials 0.000 claims description 2
- 239000004020 conductor Substances 0.000 description 10
- 230000005672 electromagnetic field Effects 0.000 description 7
- 230000005684 electric field Effects 0.000 description 6
- 229910052751 metal Inorganic materials 0.000 description 6
- 239000002184 metal Substances 0.000 description 6
- 230000005540 biological transmission Effects 0.000 description 5
- 238000009413 insulation Methods 0.000 description 4
- 230000000694 effects Effects 0.000 description 3
- 230000002452 interceptive effect Effects 0.000 description 3
- 230000036961 partial effect Effects 0.000 description 3
- 238000004891 communication Methods 0.000 description 2
- 238000010586 diagram Methods 0.000 description 2
- 230000005674 electromagnetic induction Effects 0.000 description 2
- 230000000873 masking effect Effects 0.000 description 2
- 238000005259 measurement Methods 0.000 description 2
- 239000007769 metal material Substances 0.000 description 2
- 239000004065 semiconductor Substances 0.000 description 2
- 241000209140 Triticum Species 0.000 description 1
- 235000021307 Triticum Nutrition 0.000 description 1
- 230000015556 catabolic process Effects 0.000 description 1
- 238000006243 chemical reaction Methods 0.000 description 1
- 238000010276 construction Methods 0.000 description 1
- 230000008878 coupling Effects 0.000 description 1
- 238000010168 coupling process Methods 0.000 description 1
- 238000005859 coupling reaction Methods 0.000 description 1
- 238000013461 design Methods 0.000 description 1
- 238000009792 diffusion process Methods 0.000 description 1
- 230000005670 electromagnetic radiation Effects 0.000 description 1
- 238000002955 isolation Methods 0.000 description 1
- 239000000463 material Substances 0.000 description 1
- 238000000034 method Methods 0.000 description 1
- 230000004048 modification Effects 0.000 description 1
- 238000012986 modification Methods 0.000 description 1
- 230000002093 peripheral effect Effects 0.000 description 1
- 230000035699 permeability Effects 0.000 description 1
- 230000002441 reversible effect Effects 0.000 description 1
- 238000000926 separation method Methods 0.000 description 1
- 230000008054 signal transmission Effects 0.000 description 1
- 230000007480 spreading Effects 0.000 description 1
Landscapes
- Insulated Conductors (AREA)
Description
本新型係有關於一種防止共模信號干擾的電纜屏蔽結構,特別是指一種以電阻因素防止共模信號干擾的電纜屏蔽結構。The present invention relates to a cable shielding structure for preventing common mode signal interference, and more particularly to a cable shielding structure for preventing common mode signal interference by a resistance factor.
如第三圖所示,習知差模信號(Differential-Mode Single)又稱為常模、串模、線間感應和對稱信號等,在兩線電纜傳輸回路,每一線對地電壓用符號V1 和V2 來表示。差模信號分量是VDIFF 。純差模信號是V1 =-V2 ,其大小相等,相位相差180°,VDIFF =V1 -V2 ,因為V1 和V2 對地是對稱的,所以地線上沒有電流流過,差模信號的電路如第三圖所示。所有的差模電流(IDIFF )全流過負載。差模干擾侵入往返兩條信號線,方向與信號電流方形一致,其一種是由信號源產生,另一種是傳輸過程中由電磁感應產生,它和信號串在一起且同相位,這樣的干擾一般難以抑制。As shown in the third figure, the differential-mode Single is also called normal mode, series mode, line-to-line sensing, and symmetrical signal. In the two-wire cable transmission loop, each line-to-ground voltage is represented by the symbol V. 1 and V 2 are indicated. The differential mode signal component is V DIFF . The pure differential mode signal is V 1 =-V 2 , which are equal in magnitude, 180° out of phase, V DIFF =V 1 -V 2 , because V 1 and V 2 are symmetrical to ground, so no current flows through the ground. The circuit of the differential mode signal is shown in the third figure. All differential mode currents (I DIFF ) flow through the load. Differential mode interference invades the two signal lines, and the direction is consistent with the signal current square. One is generated by the signal source, and the other is generated by electromagnetic induction during transmission. It is in phase with the signal and is in phase. Hard to suppress.
共模信號(Common-Mode Single)又稱為對地感應信號或不對稱信號,共模信號分量是Vcom ,純共模信號是:Vcom =V1 =V2 ,大小相等,相位差為0°。V3 =0。共模信號的電路如第四圖所示。干擾信號侵入線路和接地之間,干擾電流在兩條線上各流過二分之一,以地為公共回路,原則上講,這種干擾是比較容易消除的。在實際電路中由於線路阻抗不平 衡,使共模信號干擾(Common-mode Interference)會轉化為不易消除的串擾干擾。Common-Mode Single is also called ground-sensing signal or asymmetric signal. The common-mode signal component is V com , and the pure common-mode signal is: V com =V 1 =V 2 , the size is equal, and the phase difference is 0°. V 3 =0. The circuit of the common mode signal is as shown in the fourth figure. When the interference signal invades between the line and the ground, the interference current flows through one-half of each of the two lines, and the ground is a common circuit. In principle, the interference is relatively easy to eliminate. In the actual circuit, the common-mode interference (Common-mode Interference) is converted into crosstalk interference that is difficult to eliminate due to the unbalanced line impedance.
電壓電流的變化通過導線傳輸時有二種形態,我們將此稱做「共模」和「差模」設備的電源線,電話等的通信線,與其它設備或週邊設備相互交換的通訊線路,至少有兩根導線,這兩根導線作為往返線路輸送電力或信號但在這兩根導線之外通常還有第三導體,這就是「地線」。干擾電壓和電流分為兩種:一種是兩根導線分別做為往返線路傳輸;另一種是兩根導線做去路,地線做返回路傳輸。前者叫「差模」(Differential-Mode),後者叫「共模」(Common-Mode)。There are two kinds of changes in voltage and current through the wire. We call this the power line of "common mode" and "differential mode" equipment, the communication line of telephone, etc., and the communication line exchanged with other equipment or peripheral equipment. There are at least two conductors that carry power or signals as a round trip line but usually have a third conductor in addition to the two conductors. This is the "ground". There are two types of interference voltage and current: one is that two wires are respectively transmitted as round-trip lines; the other is that two wires are used as paths, and the ground wires are used for return path transmission. The former is called "Differential-Mode" and the latter is called "Common-Mode".
干擾類型通常按干擾模式不同,可分為共模干擾(Common-Mode Interference)和差模干擾(Differential-Mode Interference)。共模干擾和差模干擾是一種比較常用的分類方法。共摸干擾是信號對地的電位差,主要由電網串入、地電位差及空間電磁輻射在信號線上感應的共態(同方向)電壓迭加所形成,共模電壓有時較大,特別是採用隔離性能差的配電器供電室,變送器輸送的共模電壓普遍較高。共模電壓通過不對稱電路可轉換成差模電壓,直接影響測控信號,造成元器件損壞(這就是一些系統I/O模件損壞率較高的主要原因),這種共模干擾可為直流、亦可為交流。差模干擾是指作用於信號兩極間的干擾電壓,主要由空間電磁場在信號間耦合感應及不平衡電路轉換共模干擾所形成的電壓,這種讓直接疊加在信號上,直接影響測量與控制精度。Interference types are usually classified into common mode interference (Common-Mode Interference) and differential mode interference (Differential-Mode Interference) according to different interference modes. Common mode interference and differential mode interference are a common classification method. Common touch interference is the potential difference between the signal and the ground, which is mainly formed by the grid-in, ground potential difference and the common-state (same-direction) voltage induced by the space electromagnetic radiation on the signal line. The common-mode voltage is sometimes large, especially In the power supply room of the distributor with poor isolation performance, the common mode voltage delivered by the transmitter is generally higher. The common mode voltage can be converted into a differential mode voltage through an asymmetric circuit, which directly affects the measurement and control signals, causing component damage (this is the main reason for the high damage rate of some system I/O modules). This common mode interference can be DC. It can also be an exchange. Differential mode interference refers to the interference voltage acting between the two poles of the signal. It is mainly caused by the coupling of the space electromagnetic field between the signals and the conversion of the common mode interference by the unbalanced circuit. This is directly superimposed on the signal and directly affects the measurement and control. Precision.
遮罩就是對兩個空間區域之間進行金屬的隔離,以控制電場、 磁場和電磁波由一個區域對另一個區域的感應和輻射。具體講,就是用遮罩體將元部件、電路、組合件、電纜或整個系統的干擾源包圍起來,防止干擾電磁場向外擴散;用遮罩體將接收電路、設備或系統包圍起來,防止它們受到外界電磁場的影響。因為遮罩體對來自導線、電纜、元部件、電路或系統等外部的干擾電磁波和內部電磁波均產生吸收能量(渦流損耗)、反射能量(電磁波在遮罩體上的介面反射)和抵消能量(電磁感應在遮罩層上產生反向電磁場,可抵消部分干擾電磁波)的作用,所以遮罩體具有減弱干擾的功能。A mask is a metal separation between two spatial regions to control the electric field, Magnetic fields and electromagnetic waves are induced and radiated from one region to another. Specifically, the mask body is used to surround the component, circuit, assembly, cable or the interference source of the whole system to prevent the interference electromagnetic field from spreading outward; the cover circuit is used to surround the receiving circuit, device or system to prevent them. Under the influence of external electromagnetic fields. Because the mask body absorbs energy (eddy current loss), reflected energy (electromagnetic wave reflection on the mask) and cancels energy for external electromagnetic waves and internal electromagnetic waves from wires, cables, components, circuits or systems. The electromagnetic induction generates a reverse electromagnetic field on the mask layer, which can cancel the effect of partially interfering with the electromagnetic wave. Therefore, the mask body has the function of reducing interference.
(1)當干擾電磁場的頻率較高時,利用低電阻率的金屬材料中產生的渦流,形成對外來電磁波的抵消作用,從而達到遮罩的效果。(1) When the frequency of the interfering electromagnetic field is high, the eddy current generated in the metal material of low resistivity is used to form a canceling effect of the external electromagnetic wave, thereby achieving the effect of the mask.
(2)當干擾電磁波的頻率較低時,要採用高導磁率的材料,從而使磁力線限制在遮罩體內部,防止擴散到遮罩的空間去。(2) When the frequency of the interfering electromagnetic wave is low, a material with a high magnetic permeability is used, so that the magnetic field line is confined inside the mask body to prevent diffusion into the space of the mask.
(3)在某些場合下,如果要求對高頻和低頻電磁場都具有良好的遮罩效果時,往往採用不同的金屬材料組成多層遮罩體。(3) In some cases, if high-frequency and low-frequency electromagnetic fields are required to have a good masking effect, different metal materials are often used to form a multilayer mask.
在電纜結構上的所謂「遮罩」,實質上是一種改善電場分佈的措施。電纜導體由多根導線絞合而成,它與絕緣層之間易形成氣隙,導體表面不光滑,會造成電場集中。在導體表面加一層半導電材料的遮罩層,它與被遮罩的導體等電位並與絕緣層良好接觸,從而避免在導體與絕緣層之間發生局部放電,這一層遮罩為內遮罩層;同樣在絕緣表面和護套接觸處也可能存在間隙,是引起局部放電的因素,故在絕緣層表面加一層半導電材料的遮罩層,它與被遮罩的絕緣層有良好接觸,與金屬護套等電位,從而避免在絕緣層與護套之間發生局部放電,這一層遮罩為外遮罩層;沒 有金屬護套的擠包絕緣電纜,除半導電遮罩層外,還要增加用銅帶或銅絲繞包的金屬遮罩層,金屬遮罩有兩個主要作用,一是將電纜通電時產生的電磁場遮罩在絕緣線芯內,以減少對外界產生電磁干擾;二是將系統產生的設計範圍內的故障電流安全引入接地系統,保護系統安全運行。這個金屬遮罩層在正常運行時通過電容電流;當系統發生短路時,作為短路電流的通道,同時也起到遮罩電場的作用。可見,如果電纜中這層外半導體層和銅遮罩不存在,三芯電纜中芯與芯之間發生絕緣擊穿的可能性非常大。製作電纜終端或接頭時剝除一小段遮罩層主要目的是用來保證高壓對地的爬電距離的,這個遮罩斷口處應力十分集中,是薄弱環節!必須採取適當的措施進行應力處理(用應力錐或應力管等)剝除遮罩層的長度以保證爬電距離;增強絕緣表面抗爬電能力為依據。遮罩層剝切過長將增加施工的難度,增加電纜附件的成本完全沒有必要。The so-called "mask" on the cable structure is essentially a measure to improve the electric field distribution. The cable conductor is formed by stranding a plurality of wires, and an air gap is easily formed between the cable conductor and the insulating layer, and the surface of the conductor is not smooth, which causes electric field concentration. A layer of semiconducting material is applied on the surface of the conductor, which is equipotential with the masked conductor and in good contact with the insulating layer, thereby avoiding partial discharge between the conductor and the insulating layer. This mask is an inner mask. The layer may also have a gap at the contact between the insulating surface and the sheath, which is a factor causing partial discharge. Therefore, a mask layer of semi-conductive material is added on the surface of the insulating layer, which has good contact with the masked insulating layer. Equipotential with the metal sheath to avoid partial discharge between the insulating layer and the sheath, this layer of mask is the outer mask layer; In the case of a sheathed insulated cable with a metal sheath, in addition to the semi-conductive mask layer, a metal mask layer wrapped with a copper strip or a copper wire is added. The metal mask has two main functions, one is when the cable is energized. The generated electromagnetic field is shielded in the insulated core to reduce electromagnetic interference to the outside world. Secondly, the fault current in the design range generated by the system is safely introduced into the grounding system to protect the system from safe operation. This metal mask layer passes the capacitive current during normal operation; when the system is short-circuited, it acts as a short-circuit current channel and also acts as a masking electric field. It can be seen that if the outer semi-conductor layer and the copper mask are not present in the cable, the possibility of insulation breakdown between the core and the core in the three-core cable is very large. The main purpose of stripping a small section of the mask layer when making the cable termination or joint is to ensure the creepage distance of the high voltage to the ground. The stress at the fracture of the mask is very concentrated, which is a weak link! Appropriate measures must be taken for stress treatment (using stress cones or stress tubes, etc.) to remove the length of the mask layer to ensure creepage distance; and to enhance the creep resistance of the insulation surface. Excessive stripping of the mask layer will increase the difficulty of construction, and the cost of adding cable accessories is completely unnecessary.
本案創作人有鑑於此,乃於予研究創新,揭示出本新型以電阻因素防止共模信號干擾的電纜屏蔽結構。In view of this, the creators of this case are investigating and innovating, revealing the new cable shielding structure that prevents common-mode signal interference by resistance factors.
本新型之目的旨在於提供一種以電阻因素防止共模信號干擾的電纜屏蔽結構,係包含:至少二條電源線,以便傳輸電源;至少一條信號線,其每條信號線外緣均包繞絕緣層,以便傳輸信號;內地線,係鄰設於信號線的旁邊;內絕緣層,係包繞在同組信號線,或同組信號線與內地線之外圍;外屏蔽層,係包繞在全部電源線、信號線、及內地線之外圍;以及,外表保護層,係包繞在外屏蔽層的外圍;至於本新型申請專利的特 徵在於:當在信號轉輸較強的位置(強電場的場所)時〔例如:USB3.0中的2P信號線(紫線、橙線、黃線、藍線)〕,上述以電阻因素防止共模信號干擾的電纜屏蔽結構進一步包含內屏蔽層,且該內屏蔽層係包覆在內絕緣層的裡面,而該內屏蔽層係選自鋁箔麥拉、銅箔麥拉、雙面導電麥拉。The purpose of the present invention is to provide a cable shielding structure for preventing common mode signal interference by a resistance factor, comprising: at least two power lines for transmitting power; at least one signal line, each of which has an outer layer surrounding the insulating layer In order to transmit signals; the inner ground line is adjacent to the signal line; the inner insulating layer is wrapped around the same group of signal lines, or the same group of signal lines and the inner ground line; the outer shield layer is wrapped around The periphery of the power line, the signal line, and the inner line; and the outer protective layer is wrapped around the outer shield; as for the patent application of the present invention The sign is: when the signal is transmitted to a strong position (a strong electric field) (for example, the 2P signal line (purple line, orange line, yellow line, blue line) in USB3.0), the above resistance is prevented. The cable shielding structure of the common mode signal interference further comprises an inner shielding layer, and the inner shielding layer is coated on the inner insulating layer, and the inner shielding layer is selected from the group consisting of aluminum foil Mylar, copper foil Mylar, double-sided conductive wheat Pull.
本新型所揭示以電阻因素防止共模信號干擾的電纜屏蔽結構,其中內地線係選自銅包鋼、銅包銅、錫銅合金。The present invention discloses a cable shielding structure that prevents common mode signal interference by a resistance factor, wherein the inner ground wire is selected from the group consisting of copper clad steel, copper clad copper, and tin copper alloy.
(10)‧‧‧以電阻因素防止共模信號干擾的電纜屏蔽結構(10) ‧‧‧Cable shielding structure to prevent common mode signal interference by resistance factor
(11)‧‧‧電源線(11)‧‧‧Power cord
(12)(12')‧‧‧信號線(12) (12') ‧ ‧ signal line
(13)‧‧‧內地線(13) ‧‧‧Mainline
(14)‧‧‧內絕緣層(14) ‧‧‧Insulation
(15)‧‧‧內屏蔽層(15) ‧ ‧ inner shield
(16)‧‧‧外屏蔽層(16) ‧‧‧ outer shield
(17)‧‧‧外表保護層(17) ‧‧‧ Exterior protective layer
第一圖:係本新型以電阻因素防止共模信號干擾的電纜屏蔽結構之剖面示意圖。The first picture is a schematic cross-sectional view of the cable shielding structure of the novel with resistance factors preventing common mode signal interference.
第二圖:係習知電纜屏蔽結構之剖面示意圖。Second figure: is a schematic cross-sectional view of a conventional cable shielding structure.
第三圖:係習知差模信號之示意圖。The third picture is a schematic diagram of the conventional differential mode signal.
第四圖:係習知共模信號之示意圖。Figure 4: Schematic diagram of the conventional common mode signal.
請參閱第一圖所示,本新型有關於一種以電阻因素防止共模信號干擾的電纜屏蔽結構(10),係包含:至少二條電源線(11);至少一條信號線(12)、內地線(13)、內絕緣層(14)、外屏蔽層(16),及外表保護層(17)等結構。Referring to the first figure, the present invention relates to a cable shielding structure (10) for preventing common mode signal interference by a resistance factor, comprising: at least two power lines (11); at least one signal line (12), a ground line (13), an inner insulating layer (14), an outer shield layer (16), and an outer protective layer (17).
請參閱第一圖所示,本新型所揭示以電阻因素防止共模信號干擾的電纜屏蔽結構(10),其中二條電源線(11)〔紅線及黑線〕係傳輸電源。至於每條信號線(12)(12')外緣均包繞絕緣層,以便傳輸信號〔例如: USB2.0中的2P信號線(12')為白線與綠線;至於USB3.0中的2P信號線(12)(紫線、橙線、黃線、藍線)〕。而上述內地線(13)係鄰設於USB3.0中的2P信號線(12)的旁邊。至於內絕緣層(14)則係包繞在同組信號線(12)〔即USB3.0中的2P信號線(12)(紫線、橙線、黃線、藍線)〕及內地線(13)之外圍;或僅包繞在同組信號線(12')〔即USB2.0中的2P信號線(12')(白線與綠線)〕之外圍。前述之外屏蔽層(16)係包繞在全部信號線(12)(12')及內地線(13)之外圍。而外表保護層(17)係包繞在外屏蔽層(16)的外圍。〔由於USB2.0中的2P信號線(12')為白線與綠線的傳輸信號較弱,所以只需要包覆內絕緣層(14)即已足夠〕。Referring to the first figure, the present invention discloses a cable shielding structure (10) that resists common mode signal interference by a resistance factor, wherein two power lines (11) [red line and black line] are transmission power sources. As for the outer edge of each signal line (12) (12'), the insulating layer is wrapped to transmit signals (for example: The 2P signal line (12') in USB2.0 is white line and green line; as for the 2P signal line (12) (purple line, orange line, yellow line, blue line) in USB3.0. The above-mentioned inland line (13) is adjacent to the 2P signal line (12) in USB 3.0. As for the inner insulating layer (14), it is wrapped around the same group of signal lines (12) (ie 2P signal lines (12) (purple lines, orange lines, yellow lines, blue lines) in USB 3.0) and the inner lines ( 13) The periphery; or only around the same group of signal lines (12') [ie, the 2P signal line (12') (white line and green line) in USB2.0. The outer shield layer (16) is wrapped around the entire signal line (12) (12') and the inner ground line (13). The outer protective layer (17) is wrapped around the outer shield (16). [Because the 2P signal line (12') in USB2.0 is weaker for the transmission signals of the white line and the green line, it is sufficient to cover the inner insulating layer (14).
至於本新型申請專利的特徵在於:當在信號傳輸較強的位置 (強電場的場所)時〔例如:USB3.0中的2P信號線(紫線、橙線、黃線、藍線)〕,上述以電阻因素防止共模信號干擾的電纜屏蔽結構(10)進一步包含內屏蔽層(15),且該內屏蔽層(15)係包覆在內絕緣層(14)的裡面,而該內屏蔽層(15)係選自鋁箔麥拉、銅箔麥拉、雙面導電麥拉。As for the novel patent application, it is characterized in that when the signal transmission is strong (When a strong electric field is used) (for example, 2P signal line (purple line, orange line, yellow line, blue line) in USB3.0), the above-mentioned cable shielding structure (10) that prevents common mode signal interference by a resistance factor The inner shielding layer (15) is covered, and the inner shielding layer (15) is coated on the inner insulating layer (14), and the inner shielding layer (15) is selected from aluminum foil Mylar, copper foil Mylar, double Conductive Mylar.
本新型另外一項申請專利的特徵在於:上述內地線(13)係選 自銅包鋼(註:7/0.127銅包鋼的電阻約為習知鍍錫絞銅線的6倍)、銅包銅、錫銅合金。Another patent of the present invention is characterized in that the above-mentioned inland line (13) is selected From copper clad steel (Note: 7/0.127 copper clad steel resistance is about 6 times that of conventional tinned copper wire), copper clad copper, tin copper alloy.
此外,當佈線時,本新型之以電阻因素防止共模信號干擾的 電纜屏蔽結構(10)應遠離高壓線,更不能將高壓電源線和信號線(12)(12')捆在一起走線。In addition, when wiring, the new type of resistance factor prevents common mode signal interference. The cable shielding structure (10) should be kept away from the high voltage line, and the high voltage power line and the signal line (12) (12') should not be bundled together.
本新型所揭示之結構、形狀,可於本新型之精神或範疇下予 以修飾應用,本新型並不予自限。The structure and shape disclosed in the present invention can be given under the spirit or scope of the present invention. For modification applications, the present invention is not self-limiting.
(10)‧‧‧以電阻因素防止共模信號干擾的電纜屏蔽結構(10) ‧‧‧Cable shielding structure to prevent common mode signal interference by resistance factor
(11)‧‧‧電源線(11)‧‧‧Power cord
(12)(12')‧‧‧信號線(12) (12') ‧ ‧ signal line
(13)‧‧‧內地線(13) ‧‧‧Mainline
(14)‧‧‧內絕緣層(14) ‧‧‧Insulation
(15)‧‧‧內屏蔽層(15) ‧ ‧ inner shield
(16)‧‧‧外屏蔽層(16) ‧‧‧ outer shield
(17)‧‧‧外表保護層(17) ‧‧‧ Exterior protective layer
Claims (2)
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
TW103203670U TWM479497U (en) | 2014-03-04 | 2014-03-04 | Cable shield structure of preventing common mode interference by resistance factor |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
TW103203670U TWM479497U (en) | 2014-03-04 | 2014-03-04 | Cable shield structure of preventing common mode interference by resistance factor |
Publications (1)
Publication Number | Publication Date |
---|---|
TWM479497U true TWM479497U (en) | 2014-06-01 |
Family
ID=51394817
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
TW103203670U TWM479497U (en) | 2014-03-04 | 2014-03-04 | Cable shield structure of preventing common mode interference by resistance factor |
Country Status (1)
Country | Link |
---|---|
TW (1) | TWM479497U (en) |
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
DE102015102121A1 (en) * | 2015-02-13 | 2016-08-18 | Aimmet Industrial Co., Ltd. | HIGH-SPEED SIGNALING DEVICE |
US9455540B2 (en) | 2015-01-19 | 2016-09-27 | Aimmet Industrial Co., Ltd. | High-speed signal transmission device |
-
2014
- 2014-03-04 TW TW103203670U patent/TWM479497U/en not_active IP Right Cessation
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US9455540B2 (en) | 2015-01-19 | 2016-09-27 | Aimmet Industrial Co., Ltd. | High-speed signal transmission device |
DE102015102121A1 (en) * | 2015-02-13 | 2016-08-18 | Aimmet Industrial Co., Ltd. | HIGH-SPEED SIGNALING DEVICE |
Similar Documents
Publication | Publication Date | Title |
---|---|---|
US8546688B2 (en) | High speed data cable with shield connection | |
JP5277661B2 (en) | Cable with shielding layer | |
JP2006508589A (en) | Inductive coupler structure for power line transmission | |
TWM479497U (en) | Cable shield structure of preventing common mode interference by resistance factor | |
TWM479496U (en) | Cable shield structure of preventing common mode interference | |
WO2017166673A1 (en) | Transmission line | |
JP2014017084A (en) | Multi-core cable | |
CN205542096U (en) | Insulation shielding cable is maked somebody a mere figurehead to strenghthened type | |
CN203774659U (en) | Cable shielding improved structure preventing common-mode interference with factor of resistance | |
JP2014239054A (en) | Shield layer-provided cable and modular plug-provided cord using the same | |
CN203774010U (en) | Cable shield improving structure for preventing common-mode interference | |
JP5598626B2 (en) | Cable with shielding layer and cord with modular plug using the same | |
JP5644894B2 (en) | Cable with shielding layer using discontinuous conductor shielding tape and cord with modular plug using the same | |
JP5720842B2 (en) | Discontinuous conductor shielding tape | |
JP5516815B2 (en) | Cable with shielding layer and cord with modular plug using the same | |
JP5598625B2 (en) | Cable with shielding layer and cord with modular plug using the same | |
TWM575179U (en) | Wire assembly and cable using the same | |
CN206564143U (en) | Power cable | |
CN108648874A (en) | A kind of double layer screen anti-jamming signal twin-core or quad cable | |
CN103956215A (en) | Shielding cable | |
CN104638465A (en) | Noise suppression component and electronic device with same | |
CN207752805U (en) | Resistant to bending steady phase radio-frequency cable | |
CN208538500U (en) | A kind of anti-flammability compound cable of anti-electromagnetic interference | |
KR102112425B1 (en) | efficient leakage-current prevention cable | |
JP2018077978A (en) | Wire Harness |
Legal Events
Date | Code | Title | Description |
---|---|---|---|
MK4K | Expiration of patent term of a granted utility model |