This application is based upon and claims the benefit of priority from Japanese Patent Application No. 2007-312435, filed on Dec. 3, 2007, the disclosure of which is incorporated herein in its entirety by reference.
1. Technical Field
The present invention relates to a coaxial connector connecting structure connecting a coaxial connector provided on a housing of a high-frequency circuit and a high-frequency circuit module case accommodated in the housing, and a high frequency device equipped with the coaxial connector connecting structure.
2. Background Art
A high-frequency device such as wireless transmitter and receiver, a radio transmitter, a radio receiver and a linear amplifier is provided with a coaxial structural section of a high-frequency circuit which treats a high-frequency signal such as microwave. Such a coaxial structural section may have to perform plating treatment to an inner wall around a central conductor in order to secure a high signal characteristic by reducing loss due to a skin effect.
However, owing to the nature of the plating treatment, unnecessary plating is inevitable for the entire region composing the space of the coaxial structural member and thereby increasing the cost of the plating treatment. When a high frequency circuit is used in outdoor equipment, waterproof treatment is needed so that water does not enter its interior so as not to generate corrosion caused by water such as rainwater adhered to an electric potential difference part between the plating material and the other metal contacted thereto.
In order to solve the above-mentioned problem, the plating treatment area should be made minimal while the structure excellent in signal characteristic should be realized.
Technological examples related to connecting structure of a high-frequency circuit are disclosed in following patent documents 1-6.
The patent document 1 (Japanese Utility Model Registered No. 2561038) discloses a high-frequency signal connecting unit where a coaxial connector provided on a box-shaped metal case is designed to have a tapered outer surface of a sleeve structure. One end of this sleeve is arranged to pass through a side of the metal case and fixed to the metal case by using a nut located in the case. The other side of this sleeve is fitted in between an insulator and an outer conductor of a coaxial cable. Accordingly, a central conductor of the coaxial cable is arranged such that, at the outside of the metal case, it is completely covered with the sleeve which entirely touched with the outer conductor, and in the inside of the metal case, the central conductor is completely covered with the metal case.
In the patent document 2 (Japanese Utility Model Application Laid-Open No. SHO-59(1984)-041980), a connecting structure between two high-frequency circuit chassis is disclosed where a connecting tool of a thick cylindrical conductor is inserted in a connecting location between opposing side walls of two chassis and being fixed to the chassis by using nuts, respectively. Each wall attached with the connecting tool is provided with a hole having a diameter which is equal to the inside diameter of the connecting tool internal space or rather somewhat larger than that, and an insulated wire is fitted through the internal space of the connecting tool such that the insulated wire has a central conductor of a diameter by which the characteristic impedance would be Z0.
The patent document 3 (Japanese Utility Model Application Laid-Open No. HEI-06(1998)-048920) discloses a fixing structure for electronic parts or the like in which the electronic part or the like is inserted into an attachment hole provided in a metal casing and being fixed by soldering. The metal casing is fabricated by using a metal plate which is performed plating processing on its surface. An inserting portion of the electronic part or the like is inserted into the attachment hole such that the insetting portion is elastically supported by a contact arm. Then the insert portion is fixed to the metal casing by using a solder.
The patent document 4 (Japanese Patent Application Laid-Open No. 2000-059140) discloses a high frequency transmitting/receiving device in which an antenna board and a transmitting/receiving circuit board are provided on a front surface and back surface of a base plate, respectively, and they are connected each other by using a coaxial line which penetrates the base plate.
Since the antenna and transmitting/receiving circuit is separated by the base plate, workability of the entire assembling process is improved when the area of the transmitting/receiving circuit is small enough compared with the area of the antenna.
The patent document 5 (Japanese Patent Application Laid-Open No. HEI-02(1990)-135901) discloses a mounting structure of an electronic part for microwave circuits.
An external connection pin of the electronic part is used as an inner conductor while a metallic chassis and a conductor plating part of a through hole are used as an outer conductor so as to form a coaxial line. Thus the electronic part is connected to an external connection member through this coaxial line.
The patent document 6 (Japanese Patent Application Laid-Open No. HEI-04(1992)-069913) discloses a feed through capacitor in which a synthetic resin coated with a metallic film is used for an outer casing electrode and a penetration electrode.
Because of such structure, elastic modulus and coefficient of linear expansion of those electrodes are almost equal to that of complex dielectrics filled in the outer casing electrode, and thus not causing a gap between the complex dielectrics and the two electrodes even in a thermal stress at the time of a temperature cycle of the hot and cold. Moreover, it is disclosed that a decline of the capacitance does not occur and crack occurrence of complex dielectrics can also be prevented.
An exemplary object of the invention is to provide a coaxial connector connecting structure which does not require plating treatment to a whole housing, and which does not have much occurrence of corrosion at the time of being used at outdoor.
A coaxial connector connecting structure according to an exemplary aspect of the invention includes a coaxial connector provided on an outer surface of a housing accommodating a module case of a high-frequency circuit, wherein the module case has a thick side wall with a first through-hole to provide a coaxial space forming portion as a pipe structure so as to be separated from the housing.
A high frequency circuit apparatus equipped with a coaxial connector connecting structure according to another exemplary aspect of the invention includes:
a housing provided with a first through-hole to be connected to the coaxial connector;
a module case of a high-frequency circuit accommodated in the housing and being provided with a second through-hole on a side wall adjacent to the first through-hole such that a thickness of the side wall is thicker than a side wall of the housing with the first through-hole;
a pipe member attached to the first through-hole so as to reach the second through-hole;
a module of a high-frequency circuit accommodated in the module case; and
a central conductor for signals passing through the pipe and the second through-hole and being connected to a central conductor of the coaxial connector and the module electrically.
Exemplary features and advantages of the present invention will become apparent from the following detailed description when taken with the accompanying drawings in which:
Exemplary embodiments of the present invention will now be described in detail in accordance with the accompanying drawings.
The present invention enables to omit plating process for entire housing by separating only a member portion of forming a space of a coaxial structure (referred to as a coaxial space forming member) as a pipe structure. In the coaxial structural section of a high frequency circuit apparatus such as wireless transmitting/receiving device for a high-frequency signal (microwave signal, for example), a housing member needs to be treated with plating process in order to secure signal characteristic.
The connecting structure includes a coaxial connector 12 which is a device interface provided on an outer side surface of a housing 11 of a high frequency circuit apparatus such as a radio receiver-transmitter, a radio transmitter, a radio receiver, a transponder and a linear amplifier. The connecting structure for the coaxial connector further includes an antenna or a coaxial cable of a high-frequency circuit module (not shown) which is installed within a module case 10 accommodated in the housing 11. The module case 10 is provided with a through-hole 14 at a side wall 10a adjacent to the coaxial connector 12. The side wall 10a of the module case 10 has a predetermined thickness (e.g., 40 mm so as to prevent infiltration of water) and thereby separating a coaxial space forming part 14a (see
The housing 11 can be made of either one of such material as copper, aluminum, iron and resin.
The module case 10 can be made of either one of such material as copper and aluminum.
As an example of the coaxial connector 12, a receptor of N type connector can be used. The coaxial connector 12 is provided with a flange 12b so as to be fixed to the housing 11 by using fixing screws 12c as shown in
The coaxial space forming part 14b is constructed with the through-hole 14 and a pipe 13 with a flange connected thereto. More specifically, the through-hole 14 is formed so as to extend between an outer wall 10c and an inner wall 10b of the side wall 10a of the module case 10. The pipe 13 is connected to the through-hole 14 through a through-hole 11a formed into the housing 11.
The through-hole 14 is provided with a threaded groove 14a such as a female screw on an internal circumference adjacent to the outer wall 10c. The pipe 13 is provided with another threaded groove 13a such as a male screw on an outer circumference thereof so as to be screwed together with the threaded groove 14a. The threaded groove 14a on the through-hole 14 may be a female screw while the threaded groove 13a may be a female screw. The housing 11 is provided with an opening 11a to allow the pipe 13 to pass therethrough. The opening 11a has a concave part lib (see
Silver plating (gold plating is also available) is performed respectively on both inside and outside of the module case 10, the through-hole 14 and the pipe 13. This is because to suppress a signal transmission loss owing to a skin effect in minimum. According to this exemplary embodiment, the silver plating is not performed on the housing 11 at all to save the cost of plating process.
One end (in
The outside diameter of the central conductor 15 and the inside diameter of the through-hole 14 are set to have the value that can correspond to impedance (50Ω or 75Ω, for example) of a coaxial cable connected to the coaxial connector 12. This is because the reflection loss is made to be minimal.
Assembly of a high-frequency circuit having the coaxial connector connecting structure will be described.
As shown in
The pipe 13 is inserted in the opening 11a of the housing 11 from outside of the housing 11 as shown in
The coaxial connector 12 is fixed to the housing 11 by using the screw 12c so that the pin 12a is inserted in the opening of the pipe 13 which is inserted in the opening 11a of the housing 11 as shown in
As shown in
As shown in
As is described above, a surrounding area of the central conductor 15 for signals is provided with the space 14b separated from the housing 11. The space 14b is formed with the through-hole 14 and the pipe 13 both plated with silver inside thereof so as to secure the signal characteristic. Since the pipe 13 and the module case 10 for the radio transmission and reception circuits need to be the same electric potential for a signal characteristic, threads of the male/female structure are formed on respective members and mechanically connected each other, e.g., the externally threaded pipe 13 and the internally threaded through-hole 14 are screwed together, and successive silver plating areas are formed so as to secure the same electric potential.
As shown in
The plated separated coaxial structures shown in
The embodiment mentioned above indicates an example of the preferred embodiment of the present invention and without limiting to the subject thereof, and the present invention may have various transformable implementations in the range that does not deviate from the point of the invention.
(1) In this exemplary embodiment, although the coaxial space forming part has been described by the cylinder (pipe) style shape, the present invention is not limited to this, and it may be a square tube.
(2) In this exemplary embodiment, although the cross-sectional shape of the central conductor for signals is a circle shape, the present invention is not limited to this, and it may be a square shape. It may be the shape with the circle projection of a plurality of diameter differences on a bar having a round cross-section.
(3) In this exemplary embodiment, although the plated separated coaxial structure is only one portion, the present invention is not limited to this, and they may be a plurality of numbers.
(4) In this exemplary embodiment, although the space forming materials is made of metal, the present invention is not limited to metal, but it may be the material excellent in other signal characteristic such as conductive resin.
(5) In this exemplary embodiment, although the pipe and the module case for radio transmission and reception circuits have described in case of implementation by a connection by a tap of male and female, the present invention is not limited to this, and they may be pressed-in structure as shown in
In
In the telecommunications sector on the manufacturing industry, the present invention can be used as mounted structural section of a high frequency circuit apparatus such as a communication apparatus, i.e., a wireless transmitter and receiver.
The related art described in the background art causes a problem, such as corrosion, because when using it outdoors, water such as rainwater tends to adhere, and when water adheres, there is a fear that the corrosion becomes easy to occur. In addition, the whole housing needs to be plated because the connector and the conductor are connected directly.
According to the exemplary embodiment of the present invention, a coaxial connector connecting structure without needing whole plating of the housing and little occurrence of corrosion when it is used in outdoor can be realized by forming the side wall of the module case on the coaxial connector side into the predetermined thickness and forming the through-hole at the side wall in the position of the coaxial connector, because the coaxial space forming part is separated as a pipe structure.
An exemplary advantage according to the invention is that the cost for plating process is decreased because of that the necessity of plating the entire surface of the housing is not needed by separating only the coaxial space forming part which must be plated as a pipe structure. When the device is used as an outdoor equipment, although water such as rainwater adheres to an electric potential difference part between the plating material of the housing part and the coaxial connector and generates corrosion in the related arts, the present invention realizes the structure that enables to connect the central conductor at a place where water does not adhere by separating the pipe from the housing.
While the invention has been particularly shown and described with reference to exemplary embodiments thereof, the invention is not limited to these embodiments. It will be understood by those of ordinary skill in the art that various changes in form and details may be made therein without departing from the spirit and scope of the present invention as defined by the claims.
Further, it is the inventor's intention to retain all equivalents of the claimed invention even if the claims are amended during prosecution.
Number | Date | Country | Kind |
---|---|---|---|
2007-312435 | Dec 2007 | JP | national |
Number | Name | Date | Kind |
---|---|---|---|
4368940 | Sugiura | Jan 1983 | A |
5283853 | Szegda | Feb 1994 | A |
6386913 | Mohammad et al. | May 2002 | B1 |
Number | Date | Country |
---|---|---|
198441980 | Mar 1984 | JP |
1990135901 | May 1990 | JP |
199269913 | Mar 1992 | JP |
199448920 | Dec 1994 | JP |
2561038 | Oct 1997 | JP |
200059140 | Feb 2000 | JP |
Number | Date | Country | |
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20090142960 A1 | Jun 2009 | US |