CN205104596U - Communication device - Google Patents

Abstract

The utility model provides a communication device, including a strip line circulator and an at least coupling spare, wherein, strip line circulator includes: magnetic component, including a magnetic component and the 2nd magnetic component, a magnetic component and the 2nd magnetic component are relatively in order to produce magnetic field, electrically conductive connecting piece lies in between a magnetic component and the 2nd magnetic component, and electrically conductive connecting piece includes that the outer peripheral edges that lie in magnetic component are just at the center conductor of magnetic field within range and the at least three wiring arm that outwards extends from center conductor, every coupling spare include one lie in magnetic component outer peripheral edges and in the first coupling portion of magnetic field within range, in the space of first coupling position between a magnetic component and the 2nd magnetic component, first coupling portion and the arm looks opposition of working a telephone switchboard, production coupling. The utility model discloses a communication device can be together integrated with coupler and circulator on the space to full reflection loss and the insertion loss under the connection status has been reduced.

Description

A kind of communication device

Technical field

The utility model relates to a kind of communication device field, the integrated communication device of especially a kind of integrated coupler and circulator.

Background technology

At present, in the communications field, commonly use the assembling device of coupler and circulator.Circulator is a multiport device, wherein electromagnetic transmission can only be gone in ring along one direction, to only have the circulator of three ports (1. port, 2. port and 3. port), signal can only, along 1. port → 2. port → 3. port → 1. port direction transmission, be isolation in the other direction.Modern age radar and micro multi-channel communication system in all to go in ring by one direction the device of characteristic.Such as, share conventional circulator in the radar system of common antenna at transceiver and make duplexer.In micro multi-channel communication system, the signal of different frequency can be separated with circulator.

The principle of circulator is still magnetic field bias Ferrite Material anisotropic properties.Microwave structure has microstrip-type, waveguide type, strip line and coaxial-type, maximum wherein with micro-band three end circulator, makes medium, above puts conduction band structure, add stationary magnetic field, just have belt characteristic with Ferrite Material.If change the direction of bias magnetic field, belt direction will change.

And at present on the assembling device of coupler and circulator, easily there is power loss, and there is unnecessary extraneoas loss and expense because of the transmission lines being configured for connection (matching) coupler and circulator, such as: loss at total reflection and insertion loss.Therefore, in order to remove this unnecessary loss and expense, require the integration of coupler and circulator and integrated.

In view of this, the integrated communication device of a kind of integrated coupler and circulator is inventor provided.

Summary of the invention

The purpose of this utility model is to provide a kind of communication device, and coupler and circulator can spatially integrate by it, and loss at total reflection under decreasing connection status and insertion loss.

According to an aspect of the present utility model, a kind of communication device is provided, comprises:

Strip line circulator, comprising:

Magnet assembly, comprises the first magnet assembly and the second magnet assembly, and described first magnet assembly is relative to described second magnet assembly to produce magnetic field;

Conductive connection part, between described first magnet assembly and described second magnet assembly, described conductive connection part comprises the outer peripheral edges that are positioned at magnet assembly and at the center conductor of described magnetic field range, and from least three wiring arms that described center conductor outwards extends; And

At least one male part, each described male part comprise one be positioned at magnet assembly outer peripheral edges and at the first coupling part of described magnetic field range, in the space of described first coupling part between described first magnet assembly and described second magnet assembly, described first coupling part is opposite with wiring arm described in, produces coupling.

Preferably, described first coupling part is parallel to opposite described wiring arm.

Preferably, described first coupling part and the same plane of described conductive connection part all between described first magnet assembly and described second magnet assembly.

Preferably, described male part also comprises the reciprocal broken line of an increase described male part impedance in magnetic field range, in the space of described reciprocal broken line between described first magnet assembly and described second magnet assembly.

Preferably, described first coupling part is 10dB to 30dB with the degree of coupling of opposite described wiring arm.

Preferably, described strip line circulator also comprises:

Housing, described housing has sidewall and bottom, to form the spatial accommodation of the first coupling part holding described magnet assembly, conductive connection part and described male part in described housing; And

Cap, described cap is connected with described housing, closes described spatial accommodation.

Preferably, the sidewall of described housing has some peristomes, and the wiring arm of described conductive connection part respectively stretches out described sidewall in peristome described in.

Preferably, described male part has first end and the second end, and the first end of described male part stretches out described sidewall jointly with the second end and opposite described wiring arm from peristome described in.

Preferably, described wiring arm comprises:

Inductor wire, described inductor wire outwards extends from described center conductor, and described inductor wire is coupled with described first coupling part; And

Contact chip, described contact chip has first end and the second end, and the first end of described contact chip connects described inductor wire, and the second end stretches out described sidewall in described peristome.

Preferably, described wiring arm also comprises at least one capacitance part, and described capacitance part is connected to the first end of described contact chip.

Preferably, described capacitance part is sticked in the inner side of described peristome respectively.

Preferably, the first end of described male part is vertical with opposite described contact chip, and the second end of described male part is parallel with opposite described contact chip.

Preferably, described male part also comprises one second coupling part, and described second coupling part is outside the outer peripheral edges of described magnet assembly, and described second coupling part and described contact chip produce coupling.

Preferably, described first magnet assembly is included in the first permanent magnet, the first resistance to thermofin and the first ferrite medium that stack gradually on conductive connection part 103 direction; And

Described second magnet assembly is included in the second ferrite medium, the second resistance to thermofin and the second permanent magnet that the direction of described conductive connection part dorsad stacks gradually;

Wherein, described first ferrite medium and described second ferrite medium clamp described male part and described conductive connection part jointly.

Preferably, described first resistance to thermofin and the second resistance to thermofin are iron plate.

Preferably, described first resistance to thermofin and the second resistance to thermofin are mild steel sheet.

Preferably, described first resistance to thermofin and the second resistance to thermofin are floppy disc.

Preferably, at least one described peristome is provided with at least one resistor, and described resistor connects the described male part or wiring arm that stretch out in described peristome.

Preferably, the first end of described male part connects described resistor, and described male part forms directional coupler with opposite wiring arm.

Preferably, described strip line circulator is an isolator, and a wiring arm of described conductive connection part connects described resistor.

Preferably, described strip line circulator also comprises an anti-rotation location-plate, described anti-rotation location-plate is between described cap and the second magnet assembly, and the periphery of described anti-rotation location-plate has the projection of some different directions, and described projection location is sticked in the different openings portion of described sidewall.

Preferably, described strip line circulator also comprises one the 3rd resistance to thermofin, and described 3rd resistance to thermofin is between described anti-rotation location-plate and described magnet assembly.

Preferably, described conductive connection part and described male part are the copper sheet of electroplate.

Preferably, described conductive connection part has three wiring arms, and the angle between wantonly two adjacent described wiring arms is 120 °.

Owing to employing above technology, coupler and circulator can spatially integrate by communication device of the present utility model, and loss at total reflection under decreasing connection status and insertion loss.

Accompanying drawing explanation

Below in conjunction with the drawings and specific embodiments, the technical solution of the utility model is described in detail, to make characteristic of the present utility model and advantage more obvious.

Fig. 1 is the three-dimensional combination figure of the communication device of the utility model first embodiment;

Fig. 2 is the three-dimensional exploded view of the communication device of the utility model first embodiment;

Fig. 3 is the structural representation of male part and conductive connection part in the communication device of the utility model first embodiment;

Fig. 4 is the enlarged drawing of a-quadrant in Fig. 3;

Fig. 5 is the three-dimensional exploded view of the communication device of the utility model second embodiment;

Fig. 6 is the structural representation of male part and conductive connection part in the communication device of the utility model second embodiment;

Fig. 7 is the enlarged drawing in B region in Fig. 6;

Fig. 8 is the three-dimensional combination figure of the communication device of the utility model the 3rd embodiment;

Fig. 9 is the three-dimensional exploded view of the communication device of the utility model the 3rd embodiment;

Figure 10 is the structural representation of male part and conductive connection part in the communication device of the utility model the 3rd embodiment;

Figure 11 is the three-dimensional exploded view of the communication device of the utility model the 4th embodiment; And

Figure 12 is the structural representation of male part and conductive connection part in the communication device of the utility model the 4th embodiment.

Reference numeral

1a; 1b; 1c; 1d communication device

10 strip line circulators

101 first magnet assemblies

1011 first permanent magnets

1012 first resistance to thermofins

1013 first ferrite media

102 second magnet assemblies

1021 second ferrite media

1022 second resistance to thermofins

1023 second permanent magnets

103 conductive connection parts

1031 center conductors

1032 wiring arms

10321 inductor wires

10322 contact chips

10323 capacitance part

104 housings

1041 sidewalls

Bottom 1042

1043 spatial accommodations

1044 peristomes

1045; 1046 resistors

105 caps

106 anti-rotation location-plates

1061 is protruding

107 the 3rd resistance to thermofins

11; 11 ' male part

110 spaces

111 first coupling parts

112 first ends

113 second ends

114 reciprocal broken lines

115 second coupling parts

Embodiment

Below will provide detailed description to embodiment of the present utility model.Although the utility model will carry out setting forth and illustrating in conjunction with some embodiments, it should be noted that the utility model is not merely confined to these execution modes.On the contrary, the amendment carry out the utility model or equivalent replacement, all should be encompassed in the middle of right of the present utility model.

In addition, in order to better the utility model is described, in embodiment hereafter, give numerous details.It will be understood by those skilled in the art that do not have these details, the utility model can be implemented equally.In other example, known structure and parts are not described in detail, so that highlight purport of the present utility model.

Exemplary embodiment of the present utility model is described in detail now with reference to accompanying drawing.The each exemplary embodiment of the utility model is also only to have the strip line circulator of three ports.But the utility model can be implemented in many ways, and should not be construed as to be limited to and the embodiments set forth herein.More properly, provide these embodiments to make this disclosure complete and complete, and fully pass on scope of the present utility model to those skilled in the art.In the accompanying drawings, for clarity sake can exaggerate shape and size, and will identical Reference numeral be used from start to finish to indicate same or analogous parts.

Fig. 1 is the three-dimensional combination figure of the communication device of the utility model first embodiment.Fig. 2 is the three-dimensional exploded view of the communication device of the utility model first embodiment.As depicted in figs. 1 and 2, the communication device 1a of the utility model first embodiment comprises: strip line circulator 10 and the male part 11 be integrated in strip line circulator 10.In the present embodiment, an only integrated male part in a circulator, but the utility model is not as limit.

Strip line circulator 10 comprises housing 104 and cap 105.Housing 104 has the sidewall 1041 of annular and the bottom 1042 of rectangle, to form columniform spatial accommodation 1043 in housing 104.Together with cap 105 to be removably screwed on housing 104 by screw thread, cover cap spatial accommodation 1043.

The sidewall 1041 of housing 104 has three peristomes 1044, but not as limit.A peristome 1044 is provided with a resistor 1045, and the resistance of resistor 1045 can be 50 ohm of industry standard, but not as limit.

Strip line circulator 10 also comprises and is placed in magnet assembly in spatial accommodation 1043 and conductive connection part 103.It is positioned opposite to each other to produce magnetic field that described magnet assembly comprises the first magnet assembly 101 and the second magnet assembly 102, first magnet assembly 101 and the second magnet assembly 102.

In the present embodiment, the first magnet assembly 101 comprises the first permanent magnet 1011, first resistance to thermofin 1012 and the first ferrite medium 1013 along stacking gradually towards conductive connection part 103 direction.Upper and lower describing mode second magnet assembly 102 is avoided to comprise the second ferrite medium 1021, second resistance to thermofin 1022 and the second permanent magnet 1023 stacked gradually along connecting piece 103 direction of leading dorsad.First ferrite medium 1013 and the second ferrite medium 1021 clamp male part 11 and conductive connection part 103 jointly.Because temperature when strip line circulator 10 works is very high, the first magnet assembly 101 of its inside and the second magnet assembly 102 must be all exotic materials.Wherein, the first resistance to thermofin 1012 and the second resistance to thermofin 1022 can be resistant to elevated temperatures conductive metallic material, such as: iron plate, mild steel sheet or floppy disc etc., but not as limit.First magnet assembly 101 and the second magnet assembly 102 form magnetic field jointly in spatial accommodation 1043.By changing the first resistance to thermofin 1012 and the second resistance to thermofin 1022 of different-thickness, can specifically change the intensity in magnetic field.The thickness of the first resistance to thermofin 1012 and/or the second resistance to thermofin 1022 is thicker, then the intensity in magnetic field is more weak; The thickness of the first resistance to thermofin 1012 and/or the second resistance to thermofin 1022 is thinner, then the intensity in magnetic field is stronger.

In addition, as one of Alternate embodiments, time in order to avoid rotating cap 105 on housing 104, the cap 105 rotated drives the parts (the first magnet assembly 101, second magnet assembly 102, conductive connection part 103 and male part 11) in spatial accommodation 1043 to offset, between cap 105 and the second magnet assembly 102, arrange an anti-rotation location-plate 106.The periphery of anti-rotation location-plate 106 has the projection 1061 of three different directions, and the direction of the protruding direction of 1061 and three peristomes 1044 of sidewall 1041 matches, and makes protruding 1061 can locate and is sticked in three peristomes 1044 of sidewall 1041.When cap 105 rotates, the anti-rotation location-plate 106 that cannot rotate has cut off the revolving force going down of cap 105.Ensure that the parts in spatial accommodation 1043 can not offset.Further, the 3rd resistance to thermofin 107 can also be set between anti-rotation location-plate 106 and magnet assembly 102, further cut off the revolving force going down of cap 105.

Conductive connection part 103 is between the first magnet assembly 101 and the second magnet assembly 102.Fig. 3 is the structural representation of male part and conductive connection part in the communication device of the utility model first embodiment.As shown in Figure 3, conductive connection part 103 comprises the outer peripheral edges that are positioned at magnet assembly and at the center conductor 1031 of magnetic field range, and from three wiring arms 1032 that center conductor 1031 outwards extends.

In the present embodiment, three wiring arms 1032 are uniformly distributed in a circumferential direction, that is: the angle between two-phase abutment line arm 1032 is 120 °.Three wiring arms 1032 of conductive connection part 103 respectively stretch out sidewall 1041 in peristome 1044.The quantity of the wiring arm 1032 of conductive connection part 103 and the quantity in sidewall 1041 upper shed portion 1044 with mate.

Every root wiring arm 1032 comprises: inductor wire 10321, contact chip 10322 and an at least one capacitance part 10323.Inductor wire 10321 outwards extends from center conductor 1031, and inductor wire 10321 is coupled with the first coupling part 111.Contact chip 10322 has first end and the second end, and the first end of contact chip 10322 connects inductor wire 10321, second end and stretch out sidewall 1041 in peristome 1044.Such as: every root wiring arm 1032 can have one or two capacitance part 10323 to be connected to the first end of contact chip 10322.Capacitance part 10323 on every root wiring arm 1032 matches with contact chip 10322, is sticked in the inner side of peristome 1044 respectively, so that locating conductive connecting piece 103 more accurately, prevents conductive connection part 103 displacement.Conductive connection part 103 and male part 11 are the copper sheet of electroplate, but not as limit.

Fig. 4 is the enlarged drawing of a-quadrant in Fig. 3.Unlike the prior art, as shown in Figure 4, male part 11 to be included in magnetic field range and to be positioned at the first coupling part 111 within the outer peripheral edges of magnet assembly 101,102.In the space 110 of the first coupling part 111 in the utility model between the first magnet assembly 101 and the second magnet assembly 102, first coupling part 111 is opposite with the inductor wire 10321 of a wiring arm 1032, under magnetic fields between the first magnet assembly 101 and the second magnet assembly 102, the first coupling part 111 produces coupling with inductor wire 10321.With this, by setting up male part 11 in magnetic field range in strip line circulator 10, a coupler can not only be formed in strip line circulator 10, and, have benefited from the structure that this height is integrated, the loss that circuit between strip line circulator 10 of the present utility model and coupler simplifies greatly, caused by connection reduces greatly, decreases the loss at total reflection under connection status and insertion loss.

First coupling part 111 can near and be parallel to opposite inductor wire 10321, to obtain best coupling effect, but not as limit.First coupling part 111 also can be arranged near inductor wire 10321 with approximately parallel direction.

From space angle, the first coupling part 111 and conductive connection part 103 same plane (as shown in Figure 3) all between the first magnet assembly 101 and the second magnet assembly 102.On basis of the present utility model, in adjustment magnetic field, the technical scheme of the first coupling part 111 of male part 11 and the position relationship of conductive connection part 103, also drops within protection range of the present utility model.

In the utility model, the first coupling part 111 and the degree of coupling of opposite wiring arm 1032 are 10dB to 30dB (decibel, decibel), can change both degrees of coupling according to actual needs, not as limit.First coupling part 111 and the coupling effect of inductor wire 10321 can be subject to the impact of many factors, and such as: the size of the air line distance D between the first coupling part 111 and inductor wire 10321, air line distance D is nearer, then coupling effect is larger; Air line distance D is far away, then coupling effect is less.Or, the width W of the line body of inductor wire 10321, the width W of inductor wire 10321 is larger, then coupling effect is larger; The width W of inductor wire 10321 is less, then coupling effect is less.Basis of the present utility model being strengthened by changing above-mentioned parameter the technical scheme of coupling effect, also dropping within protection range of the present utility model.

Continue with reference to shown in accompanying drawing 2 and Fig. 4, male part 11 has first end 112 and the second end 113, and the first end 112 of male part 11 stretches out sidewall 1041 jointly with the second end 113 and opposite wiring arm 1032 from a peristome 1044.Further, the first end 112 of male part 11 is vertical with opposite contact chip 10322, and the second end 113 of male part 11 is parallel with opposite contact chip 10322.The first end 112 contact resistance device 1045 of the male part 11 stretched out in peristome 1044, so that male part 11 forms Embedded directional coupler with opposite wiring arm 1032 (see Fig. 3).Further, in installation process, along with cap 105 and housing 104 screw, the direct resistor contact 1045 of first end 112 meeting of male part 11, ensures electrical connection.

Male part 11 can also have the second coupling part 115, second coupling part 115 be mainly positioned at outside magnetic field range and can be formed between the second end 113 of male part 11 and the first coupling part 111.Second coupling part 115 is positioned at outside the outer peripheral edges of magnet assembly 101,102, and the second coupling part 115 is parallel and near contact chip 10322, magnetic field outside and contact chip 10322 produce coupling, to strengthen the overall coupling effect of male part 11 further.Certainly, the coupling that the first coupling part 111 is formed in magnetic field will be better than the coupling that the second coupling part 115 can be formed greatly.

Fig. 5 is the three-dimensional exploded view of the communication device of the utility model second embodiment.Fig. 6 is the structural representation of male part and conductive connection part in the communication device of the utility model second embodiment.Fig. 7 is the enlarged drawing in B region in Fig. 6.As shown in Figs. 5 to 7, with the first embodiment unlike, in the communication device 1b of the utility model second embodiment, male part 11 ' can also comprise the reciprocal broken line 114 of an increase male part 11 ' impedance in magnetic field range, in the space 110 of reciprocal broken line 114 between the first magnet assembly 101 and the second magnet assembly 102.The impedance of male part 11 ' can be changed further, to reach the object of the coupling effect strengthening male part 11 ' and inductor wire 10321 by length, back and forth spacing etc. of changing reciprocal broken line 114.Other technologies feature is all identical with content in Fig. 1 to Fig. 4, repeats no more herein.

Fig. 8 is the three-dimensional combination figure of the communication device of the utility model the 3rd embodiment.Fig. 9 is the three-dimensional exploded view of the communication device of the utility model the 3rd embodiment.Figure 10 is the structural representation of male part and conductive connection part in the communication device of the utility model the 3rd embodiment.As shown in Fig. 8 to Figure 10, with the first and second embodiments unlike, in the communication device 1c of the 3rd embodiment of the present utility model, strip line circulator 10 is all an isolator.In the communication device 1c of the 3rd embodiment, male part 11 is identical with the male part 11 in the communication device 1a of the first embodiment.Male part 11 and strip line circulator 10 form directional coupler, two peristomes 1044 are respectively equipped with resistor, first end 112 except male part 11 connects except one of them resistor 1045, one wiring arm 1032 of conductive connection part 103 also can connect another resistor 1046, makes strip line circulator 10 form an isolator.Other technologies feature is all identical with content in Fig. 1 to Fig. 4, repeats no more herein.

Figure 11 is the three-dimensional exploded view of the communication device of the utility model the 4th embodiment.Figure 12 is the structural representation of male part and conductive connection part in the communication device of the utility model the 4th embodiment.As shown in Fig. 8 to Figure 12, with the first and second embodiments unlike, in the communication device 1d of the 4th embodiment of the present utility model, strip line circulator 10 is all an isolator.In the communication device 1d of the 4th embodiment, male part 11 ' is identical with the male part 11 ' in the communication device 1b of the second embodiment.Male part 11 ' and strip line circulator 10 form directional coupler, two peristomes 1044 are respectively equipped with resistor, first end 112 except male part 11 ' connects except one of them resistor 1045, one wiring arm 1032 of conductive connection part 103 also can connect another resistor 1046, makes strip line circulator 10 form an isolator.Other technologies feature is all identical with content in Fig. 5 to Fig. 7, repeats no more herein.

Continue with reference to Figure 10, in order to state the operation principle of communication device of the present utility model, if three ends in conductive connection part 103 are respectively E end, F end and G end.The first end 112 of male part 11 is H end, and the second end 113 is I end.For the degree of coupling of male part 11 and electrical coupling part 103 for 30dB,

When the electric current forward with 100 watts of power flows through isolator, when namely flowing through F end from the E end of conductive connection part 103, first coupling part 111 of male part 11 is by being coupled with the inductor wire 10321 of conductive connection part 103, the H end of male part 11 obtains about 0.1 watt of power, when isolation is 30dB, I end also obtains about 0.1 watt of power.When electric current arrives F end by E end, after being absorbed a part of power by the material of conductive connection part 103, substantially still can keep more than 90 watt of power.

When electric current flows counterflow through isolator, when namely flowing through E end from the F end of conductive connection part 103, receive the deflecting action of isolator, the power current of a part can flow to the G end of conductive connection part 103, absorbed by the resistance 1046 that G holds, the power current of all the other fractions can flow to E end, and the first coupling part 111 being coupled again part 11 is coupled, if the H end of male part 11 and I end obtain the electric current after being coupled respectively, the resistance 1045 of I end continues the power absorbing reverse current further.

In summary, coupler and circulator can spatially integrate by communication device of the present utility model, and loss at total reflection under decreasing connection status and insertion loss.

Below be only embody rule example of the present utility model, protection range of the present utility model is not constituted any limitation.In addition to the implementation, the utility model can also have other execution mode.All employings are equal to the technical scheme of replacement or equivalent transformation formation, all drop within the utility model scope required for protection.

Claims (22)

1. a communication device, is characterized in that, comprising:

Strip line circulator, comprising:

Magnet assembly, comprises the first magnet assembly and the second magnet assembly, and described first magnet assembly is relative to described second magnet assembly to produce magnetic field;

Conductive connection part, between described first magnet assembly and described second magnet assembly, described conductive connection part comprises the outer peripheral edges that are positioned at magnet assembly and at the center conductor of described magnetic field range, and from least three wiring arms that described center conductor outwards extends; And

At least one male part, each described male part comprise one be positioned at magnet assembly outer peripheral edges and at the first coupling part of described magnetic field range, in the space of described first coupling part between described first magnet assembly and described second magnet assembly, described first coupling part is opposite with wiring arm described in, produces coupling.

2. communication device as claimed in claim 1, is characterized in that: described first coupling part is parallel to opposite described wiring arm.

3. communication device as claimed in claim 1, is characterized in that: described first coupling part and the same plane of described conductive connection part all between described first magnet assembly and described second magnet assembly.

4. communication device as claimed in claim 1, it is characterized in that: described male part also comprises the reciprocal broken line of an increase described male part impedance in magnetic field range, in the space of described reciprocal broken line between described first magnet assembly and described second magnet assembly.

5. as the communication device in Claims 1-4 as described in any one, it is characterized in that: described first coupling part is 10dB to 30dB with the degree of coupling of opposite described wiring arm.

6. as the communication device in Claims 1-4 as described in any one, it is characterized in that, described strip line circulator also comprises:

Housing, described housing has sidewall and bottom, to form the spatial accommodation of the first coupling part holding described magnet assembly, conductive connection part and described male part in described housing; And

Cap, described cap is connected with described housing, closes described spatial accommodation.

7. communication device as claimed in claim 6, it is characterized in that: the sidewall of described housing has some peristomes, the wiring arm of described conductive connection part respectively stretches out described sidewall in peristome described in.

8. communication device as claimed in claim 7, it is characterized in that: described male part has first end and the second end, the first end of described male part stretches out described sidewall jointly with the second end and opposite described wiring arm from peristome described in.

9. communication device as claimed in claim 8, it is characterized in that, described wiring arm comprises:

Inductor wire, described inductor wire outwards extends from described center conductor, and described inductor wire is coupled with described first coupling part; And

Contact chip, described contact chip has first end and the second end, and the first end of described contact chip connects described inductor wire, and the second end stretches out described sidewall in described peristome.

10. communication device as claimed in claim 9, is characterized in that: described wiring arm also comprises at least one capacitance part, and described capacitance part is connected to the first end of described contact chip.

11. communication devices as claimed in claim 10, is characterized in that: described capacitance part is sticked in the inner side of described peristome respectively.

12. communication devices as claimed in claim 11, is characterized in that: the first end of described male part is vertical with opposite described contact chip, and the second end of described male part is parallel with opposite described contact chip.

13. communication devices as claimed in claim 12, is characterized in that: described male part also comprises one second coupling part, described second coupling part is outside the outer peripheral edges of described magnet assembly, and described second coupling part and described contact chip produce coupling.

14., as the communication device in Claims 1-4 as described in any one, is characterized in that: described first magnet assembly is included in the first permanent magnet, the first resistance to thermofin and the first ferrite medium that stack gradually on conductive connection part direction; And

Described second magnet assembly is included in the second ferrite medium, the second resistance to thermofin and the second permanent magnet that the direction of described conductive connection part dorsad stacks gradually;

Wherein, described first ferrite medium and described second ferrite medium clamp described male part and described conductive connection part jointly.

15. communication devices as claimed in claim 14, is characterized in that: described first resistance to thermofin and the second resistance to thermofin are iron plate.

16. communication devices as claimed in claim 7, is characterized in that: at least one described peristome is provided with at least one resistor (1045; 1046), described resistor (1045; 1046) the described male part stretched out in described peristome or wiring arm is connected.

17. communication devices as claimed in claim 16, it is characterized in that: the first end of described male part connects described resistor, described male part forms directional coupler with opposite wiring arm.

18. communication devices as claimed in claim 16, is characterized in that: described strip line circulator is an isolator, a wiring arm of described conductive connection part connects described resistor.

19. communication devices as claimed in claim 7, it is characterized in that: described strip line circulator also comprises an anti-rotation location-plate, described anti-rotation location-plate is between described cap and the second magnet assembly, the periphery of described anti-rotation location-plate has the projection of some different directions, and described projection location is sticked in the different openings portion of described sidewall.

20. communication devices as claimed in claim 19, is characterized in that: described strip line circulator also comprises one the 3rd resistance to thermofin, and described 3rd resistance to thermofin is between described anti-rotation location-plate and described magnet assembly.

21., as the communication device in Claims 1-4 as described in any one, is characterized in that: described conductive connection part and described male part are the copper sheet of electroplate.

22., as the communication device in Claims 1-4 as described in any one, is characterized in that: described conductive connection part has three wiring arms, and the angle between wantonly two adjacent described wiring arms is 120 °.