CN118299871A - Cable connector and connector assembly - Google Patents

Abstract

The invention discloses a cable connector, comprising: an insulating housing, a conductive contact, and a non-ground cable; the conductive contact body is arranged in the insulating body, the non-ground wire cable comprises one or more groups of signal units, and each group of signal units comprises two signal wires which are arranged side by side, a shielding layer coated outside all the signal wires and an insulating outer coating coated outside the shielding layer; the end of the signal line is exposed to be electrically connected to the conductive contact. The invention further comprises a connector assembly adopting the cable connector. The cable connector or the connector component adopts the cable without the ground wire, the cable shielding layer is not connected with the grounding piece, and all performance parameters of the cable connector meet the requirements, so that the production efficiency is effectively improved, the production cost is reduced, the size of the cable connector is reduced, and the miniaturization structural design is facilitated.

Description

Cable connector and connector assembly

Technical Field

The invention relates to the field of electric connectors, in particular to a cable connector without a ground wire and a connector assembly.

Background

In the prior art, the high-speed signal cable connectors all adopt cable connectors with ground wires, one or two ground wires are arranged in a group of core wires, and as disclosed in the patent with publication number CN115482964A, a cable, a combined cable and a cable connector assembly are disclosed, namely, a first core wire comprises a first ground wire, and only one first ground wire is arranged. The cable connector with ground wire often has the following disadvantages during application assembly: when welding, the ground wire is required to be welded, the welding efficiency is low, and under the condition of the same wire number, the size of the cable with the ground wire is larger than that of the cable without the ground wire, so that the space of the chassis is occupied.

At present, the prior art also discloses some technical schemes of a non-ground wire cable connector, for example, a patent with publication number CN209929522U discloses a non-ground wire cable connector, and a patent with publication number CN109411918a discloses a non-ground wire ultra-high speed signal cable connector and an assembling method thereof, but in order to improve shielding effect, shielding layers of the cable are required to be conducted with a grounding piece, so that the manufacturing difficulty and the production cost of the connector are increased intangibly.

Disclosure of Invention

The invention aims to provide a cable connector, which adopts a cable without a ground wire, and a cable shielding layer does not need to be conducted with a grounding piece, so that the welding efficiency is improved, the cable size is reduced, the production cost is reduced, and all parameters of the electrical performance of the cable connector meet the standard requirements.

In order to achieve the above purpose, the present invention adopts the following technical scheme:

the invention discloses a cable connector, comprising: an insulating housing, a conductive contact, and a non-ground cable; the conductive contact body is arranged in the insulating body, the non-ground wire cable comprises one or more groups of signal units, and each group of signal units comprises two signal wires which are arranged side by side, a shielding layer coated outside all the signal wires and an insulating outer coating coated outside the shielding layer; the end of the signal line is exposed to be electrically connected to the conductive contact.

In some embodiments, the conductive contact is a PCB board, on which signal pads are disposed, and ends of the signal lines are soldered to the signal pads.

In other embodiments, the conductive contacts are conductive terminal sets and the ends of the signal lines are soldered to the conductive terminal sets.

The signal units are arranged in a plurality of groups, the signal units are horizontally arranged in a row to form a flat cable, or the signal units are arranged in a plurality of groups to form a circular axis cable in a surrounding mode.

The signal wire comprises a conductor and a coating layer, wherein the conductor is one of a pure copper conductor, a silver-plated copper conductor and a tin-plated copper conductor.

Further, the coating layer is an insulating layer, or the coating layer comprises an insulating layer and a first Mylar layer, the insulating layer is made of any one of PE, PP, PTFE, FEP, foamed PE, foamed PP and foamed FEP, at least two identification colors are arranged on the first Mylar layer, and each identification color is arranged at intervals.

Preferably, the first mailer layer is wrapped outside the insulating layer in a straight wrapping or spiral wrapping mode.

In some embodiments, the insulating coating layer is one or several second mylar layers, and the material of the second mylar layers is a PET polyester film.

Preferably, the second mailer layer is wrapped outside the shielding layer in a spiral wrapping manner, and is overlapped and wound with each other along one end of the cable along the other end, the total area of the wrapping area of each layer is a, and the total area of the wrapping area is B, so that a=30%b-50%b.

Further, an inner mold for coating the electric connection part of the non-ground wire cable and the conductive contact body is arranged in the insulating shell.

The invention further comprises a connector assembly adopting the cable connection.

Due to the adoption of the structure, the cable connector or the connector assembly has the following beneficial effects: the cable connector provided by the invention adopts the cable without the ground wire, the cable shielding layer is not connected with the grounding piece, and all electric performance parameters of the cable connector are in accordance with the requirements, so that the production efficiency is effectively improved, the production cost is reduced, the size of the cable connector is reduced, and the miniaturization structural design is facilitated.

Drawings

Fig. 1 is a schematic structural view of the present invention.

Fig. 2 is a schematic structural view of a non-ground cable.

Fig. 3 is a schematic diagram of the structure of a group of signal units of a non-ground cable.

Fig. 4 is a schematic diagram of the installation of the PCB board of the cable connector of fig. 1 with an insulating housing.

Fig. 5 is a graph of Insertion Loss (IL) test experimental results.

Fig. 6 is a graph of Return Loss (RL) test experimental results.

Fig. 7 is a graph of PSNEXT test experimental results.

FIG. 8 is a graph of PSFEXT test results.

Fig. 9 is a graph of the experimental results of the TDR impedance test.

FIG. 10 is a graph of SCD test results.

Fig. 11 is a graph of ILD test results.

Fig. 12 is a schematic structural view of the third embodiment.

Description of main reference numerals:

1: insulating housing, 11: spring slot, 12: chute track, 2: PCB board, 20: guide block, 21: signal pad, 3: a non-ground cable, 30: signal unit, 31: signal line, 32: shielding layer, 33: insulating outer coating, 311: conductor, 312: coating layer, 4: glue injection hole, 5: and the elastic sheet.

Detailed Description

In order to enable those skilled in the art to better understand the technical solutions of the present invention, the present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.

As described above, in the prior art, it is generally considered by those skilled in the art that at least one ground wire needs to be disposed in the cable connector, or a scheme without a ground wire is adopted, and the shielding layer of the cable needs to be conducted with the grounding member to achieve the grounding effect, but the inventors have unexpectedly found that the cable connector does not need a ground wire, and meanwhile, the shielding layer of the cable does not need to be connected with the grounding member, so that the obtained cable connector is smaller in size, meets the requirement of miniaturization, and also remarkably reduces the production cost; meanwhile, all the parameters of the electrical performance of the cable connector meet the standard requirements, and even part of the performance parameters are more excellent than those of the cable with one ground wire. The applicant has generated the present case.

Example 1

As shown in fig. 1, the present embodiment discloses a cable connector, including: an insulating housing 1, a conductive contact and a non-ground cable 3.

As shown in connection with fig. 2, the non-ground cable 3 comprises one or more sets of signal units 30, which sets of signal units 30 are horizontally arranged in a row to form a flat cable in the present embodiment. In other embodiments, multiple sets of signal units 30 may also be looped to form a circular axis cable.

As shown in fig. 3, each signal unit 30 includes two signal lines 31 arranged side by side, a shielding layer 32 covering all the signal lines 31, and an insulating coating layer 33 covering the shielding layer 32. The signal line 31 includes a conductor 311 and a cladding 312, and the conductor 311 is one of a pure copper conductor, a silver-plated copper conductor, and a tin-plated copper conductor. In this embodiment, the cladding layer 312 is an insulating layer, and the insulating layer is made of any one of PE, PP, PTFE, FEP, foamed PE, foamed PP, and foamed FEP.

As shown in fig. 4, the conductive contact is disposed inside the insulating body, and the conductive contact may be a PCB board 2 or a conductive terminal set. When the conductive contact body is the PCB board 2, the signal pad 21 is disposed on the PCB board, and the end portion of the conductor 311 of the signal line 31 is exposed and soldered to the signal pad 21. In other embodiments, the conductive contacts may be conductive terminal sets, and the conductor ends of the signal wires 31 are exposed and soldered to the conductive terminal sets, so as to electrically connect the conductive contacts to the non-ground wire cable 3.

The insulating housing 1 comprises a front housing and a rear housing, a plurality of clamping grooves are formed in the rear portion of the front housing, a plurality of buckles are arranged in the front portion of the rear housing, and the rear housing is assembled with the front housing into a whole through the cooperation of the buckles and the clamping grooves. The top of the front shell is provided with a spring plate groove 11, and a spring plate 5 used for being clamped with the board end connector is arranged in the spring plate groove 11. The front shell is internally provided with a chute track 12, two sides of the PCB 2 are respectively provided with a guide block 20, and the PCB 2 is arranged on the chute track 12 through the guide blocks 20. An inner mold (not shown in the figure) is provided inside the insulating housing 1 to cover the electrical connection portion between the non-ground cable 3 and the PCB board 2. As shown in fig. 1, a glue injection hole 4 is formed on the side of the insulating housing 1, and after the conductive contact body and the non-ground wire cable 3 are mounted, glue is injected through the glue injection hole 4, so that the inner mold is filled into the welding position of the conductor 311 of the insulating housing and the non-ground wire cable 3, and the PCB board 2.

The inventive non-ground cable 3 does not include a ground wire and the shield layer of the cable is not connected to a ground member, and in order to verify the performance of the present invention with the existing cable with a ground wire (including one ground wire), the following experiment was performed.

1. Insertion Loss (IL) test and Return Loss (RL) test

Insertion Loss (IL) refers to the loss of signal power that occurs somewhere in the transmission system due to the insertion of a device. Return Loss (RL) is the loss of power due to the discontinuity in the transmission link resulting in the reflection of a portion of the signal back to the source. The measurement results are shown in fig. 5 and 6.

2. Integrated near end crosstalk (PSNEXT) testing

Crosstalk refers to mutual leakage of signals between pairs of wires when a cable transmits data, and is similar to noise near-end crosstalk, which can be understood as noise generated inside a cable system, and seriously affects correct transmission of signals. PSNEXT testing was performed on the inventive non-ground cable with the existing cable with one ground, and the results are shown in fig. 7.

3. Far-end crosstalk (PSFEXT) test

The inventive non-ground cable was tested PSFEXT with a conventional cable with one ground, the results of which are shown in fig. 8.

4. TDR impedance test

The requirements of cables on the speed of each interface are higher and higher, the requirements on the signal integrity are higher and tighter, the impedance is controlled, the requirements on the signal integrity are one of the important requirements, and the TDR is the evaluation requirement for measuring the characteristic impedance. Impedance measurements were made using a TDR test equipment. The measurement results are shown in fig. 9.

5. SCD test

SCD represents the relationship between differential excitation and response of common mode output, and the measurement results are shown in fig. 10.

6. ILD testing

ILD represents the insertion loss fluctuation electrical performance of the cable, and the measurement result is shown in fig. 11.

From the above test results, it is known that each parameter of the electrical performance of the cable without the ground wire meets the standard requirement, and part of the performance parameters of the cable without the ground wire are more excellent than those of the cable with one ground wire.

Example two

The embodiment discloses a cable connector, including: an insulating housing 1, a conductive contact and a non-ground cable 3. The non-ground wire cable 3 of the present embodiment differs from the first embodiment in that: in this embodiment, the coating layer 312 includes an insulating layer and a first mailer layer, where the first mailer layer is coated outside the insulating layer by a straight wrapping or a spiral wrapping manner. The insulating layer is made of any one of PE, PP, PTFE, FEP, foamed PE, foamed PP and foamed FEP, at least two identification colors are arranged on the first Mylar layer, and each identification color is arranged at intervals. By providing the identification color on the first mailer layer, when the non-ground cable comprises a plurality of sets of signal units 30, different signal pairs can be identified by the difference in the identification color of the first mailer layer.

Example III

The embodiment discloses a cable connector, including: an insulating housing 1, a conductive contact and a non-ground cable 3. As shown in fig. 12, the non-ground cable 3 of the present embodiment is different from the first embodiment in that: in this embodiment, the insulating coating layer 33 is one or several second mylar layers, and the material of the second mylar layers is PET polyester film.

The second mailer layer is wrapped around the shielding layer 32 in a spiral wrapping manner. The second mailer layer may be coated with one layer or with two layers.

As shown in fig. 12, the areas of the overlapping areas during the spiral winding process when the second mailer layer is wound are A1, A2, A3, A4, A5, and A6, respectively, the total area of the overlapping areas is a=a1+a2+ … … +a6, the total area of the covering area is B, and the total area of the covering area is the total outer surface area of the cable at this time, a=30% -50% B. By coating with such an overlap ratio, the SI performance of the cable can be improved.

The invention further comprises a connector assembly adopting the cable connector, and the connector assembly comprises the cable connector and a board end connector.

The present invention is not limited to the above-mentioned embodiments, and any changes or substitutions that can be easily understood by those skilled in the art within the technical scope of the present invention are intended to be included in the scope of the present invention.

Claims (11)

1. A cable connector, comprising: an insulating housing, a conductive contact, and a non-ground cable; the conductive contact body is arranged in the insulating body, the non-ground wire cable comprises one or more groups of signal units, and each group of signal units comprises two signal wires which are arranged side by side, a shielding layer coated outside all the signal wires and an insulating outer coating coated outside the shielding layer; the end of the signal line is exposed to be electrically connected to the conductive contact.

2. The cable connector of claim 1, wherein: the conductive contact body is a PCB board, a signal pad is arranged on the PCB board, and the end part of the signal wire is welded with the signal pad.

3. The cable connector of claim 1, wherein: the conductive contact body is a conductive terminal group, and the end part of the signal wire is welded with the conductive terminal group.

4. The cable connector of claim 1, wherein: the signal units are provided with a plurality of groups, the signal units are horizontally arranged in a row to form a flat cable, or the signal units are wound to form a circular axis cable.

5. The cable connector of claim 1, wherein: the signal wire comprises a conductor and a coating layer, wherein the conductor is one of a pure copper conductor, a silver-plated copper conductor and a tin-plated copper conductor.

6. The cable connector of claim 5, wherein: the coating is an insulating layer, or the coating comprises an insulating layer and a first Mylar layer, the insulating layer is made of any one of PE, PP, PTFE, FEP, foamed PE, foamed PP and foamed FEP, at least two identification colors are arranged on the first Mylar layer, and each identification color is arranged at intervals.

7. The cable connector of claim 6, wherein: the first Mylar layer is coated outside the insulating layer in a straight wrapping or spiral wrapping mode.

8. The cable connector of claim 1, wherein: the insulating outer coating layer is one or a plurality of second Mylar layers, and the second Mylar layers are made of PET polyester films.

9. The cable connector of claim 8, wherein: the second mailer layer is wrapped outside the shielding layer in a spiral wrapping mode, one end of the wire is overlapped and wound with the other end of the wire, the total area of the total wrapping area of each layer is A, and the total wrapping area is B, so that A=30%B-50%B.

10. The cable connector of claim 1, wherein: and an inner die for coating the electric connection part of the non-ground wire cable and the conductive contact body is arranged in the insulating shell.

11. A connector assembly comprising a cable connector and a board-end connector, characterized in that: the cable connector is the cable connector according to any one of claims 1-10.