JP2006302771A - Wireless device and connector incorporating matching circuit - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To reduce development costs by facilitating a wireless tuning operation. <P>SOLUTION: A board-side connector 13 is mounted to a printed board 11 having a wireless circuit 21 thereon, and a base-end portion of a terminal 17 in the board-side connector 13 is connected to a strip line 15 that is connected to the wireless circuit 21 on the printed board 11. A counterpart connector 23 to be engaged with the board-side connector 13 incorporates a matching circuit 25 to be connected to the terminal 17, and has an antenna 30 extending out from the matching circuit 25. <P>COPYRIGHT: (C)2007,JPO&INPIT

Description

  The present invention relates to a wireless device and a matching circuit built-in connector, and more particularly to a remote keyless entry system (RKE) mounted on a vehicle, or a device suitably used for wireless communication such as GPS, VICS, and ETC.

  2. Description of the Related Art Conventionally, a keyless entry system capable of locking and unlocking a vehicle door without inserting a key into a keyhole and operating the same has been provided. And doors are locked / unlocked remotely. In this way, a large number of wireless devices are mounted on the vehicle, and the antenna structure is disclosed in Japanese Patent Laid-Open Nos. 9-214224 and 8-222924. For example, in the antenna structure shown in FIG. 3, an antenna 3 having a connecting structure in which a large number of connection terminals 2 are connected to each other is accommodated in a connector housing 1. It protrudes to the side and is connected to a printed wiring board (not shown) having a wireless circuit.

However, in the case of the antenna structure, in order to perform impedance matching in order to prevent loss due to energy reflection between the antenna 3 on the connector side and the circuit pattern on the printed wiring board side, a coil or a capacitor is used on the printed wiring board. It is necessary to provide a matching circuit. Impedance matching is required to be performed in the actual use state mounted on the vehicle, but if you want to tune the matching circuit in relation to other on-vehicle electronic components that exist around the antenna, you must change it for each printed wiring board. Therefore, there is a problem that the tuning work becomes large and the development cost increases.
JP-A-9-214224 JP-A-8-222924

  The present invention has been made in view of the above problems, and an object of the present invention is to facilitate wireless tuning work and reduce development costs.

In order to solve the above problems, the present invention attaches a board-side connector to a printed circuit board having a circuit for wireless communication, and connects terminals in the board-side connector to the circuit for wireless communication on the printed circuit board.
The mating connector fitted to the board-side connector has a built-in matching circuit connected to the terminal, and an antenna is extended from the matching circuit.

  With the above configuration, the matching circuit disposed between the antenna and the wireless communication circuit is provided on the mating connector side instead of the printed circuit board side. When tuning tuning, it is only necessary to change the mating connector outside the board, and it is not necessary to change an expensive printed board. Therefore, the matching circuit can be easily tuned and the development cost can be reduced. Further, since there is no need to provide a matching circuit in the printed board, the space on the printed board can be used effectively.

The housing of the board-side connector and the mating connector is preferably shared with a connector for performing a wired connection between a signal circuit on the printed board and an external electric wire.
In other words, the number of components and installation space can be reduced by sharing the connector for installing the antenna outside the printed circuit board with the connector for other applications (such as when signals are wired between the printed circuit board and external wires). can do.

Preferably, the wireless device is mounted on a vehicle for wireless communication of a vehicle, and the external electric wire is a wire harness routed in a vehicle body.
In other words, a large number of electronic components are mounted on the vehicle, and the reception sensitivity of the wireless device is likely to exhibit different characteristics between the state where it is used alone and the actual state where it is mounted on the vehicle. A device for providing a matching circuit on the mating connector side to facilitate tuning work is very effective.

Further, the present invention is a mating connector for fitting and connecting to a board-side connector that accommodates a terminal connected to a wireless circuit on a printed board,
Providing a wireless matching circuit built-in connector characterized by having a built-in matching circuit connected to the terminal by fitting with the board-side connector and extending an antenna from the matching circuit. Yes.

  As is clear from the above description, according to the present invention, since the matching circuit disposed between the antenna and the wireless communication circuit is provided on the counterpart connector side instead of the printed circuit board side, the impedance matching tuning operation is performed. In this case, it is not necessary to change the printed circuit board only by changing the mating connector outside the board. Therefore, the matching circuit can be easily tuned and the development cost can be reduced. In addition, since there is no need to provide a matching circuit in the printed circuit board, a circuit wiring space on the printed circuit board can be afforded, which contributes to easier circuit design and smaller board size.

Embodiments of the present invention will be described with reference to the drawings.
The wireless device 10 of the present embodiment is used as a receiver such as a remote keyless entry system (RKE), GPS, VICS, ETC, etc. mounted on a vehicle. As shown in FIGS. 1 and 2, the wireless device 10 has a board-side connector 13 attached to a printed board 11 on which a wireless IC 21 (wireless communication circuit) is mounted on a board 12. On the board 12, the strip line 15 (print pattern) and the GND pattern 16 connected to the wireless IC 21 are printed and wired, and the pattern circuit 19 connected to another signal circuit (not shown) is printed and wired. Yes.

  The board-side connector 13 houses the distal ends of inverted L-shaped male terminals 17, 18, and 20 in the housing 14, and the base end portions 17a, 18a, and 20a of the male terminals 17, 18, and 20 respectively. The strip line 15 is connected to the GND pattern 16 and the pattern circuit 19. The housing 14 includes a radio communication space 14a for housing the antenna male terminal 17 and a GND (ground) male terminal 18 and a wired communication space 14b for housing the male terminal 20 for transmitting and receiving signals. Are divided. That is, the housing 14 of the board-side connector 13 is shared with a wired connection connector.

  The counterpart connector 23 (matching circuit built-in connector) fitted to the board-side connector 13 accommodates female terminals 26, 27, and 31 in a housing 24 and is shared with a connector for wired connection. The electric wire 32 which comprises a wire harness is connected to the female terminal 31 connected with the male terminal 20 for signal circuits.

  A harness antenna 30 is soldered or crimped to a female terminal 26 connected to the antenna male terminal 17 and extends to the outside. The harness antenna 30 is set to a length of about λ / 4 where λ is the wavelength of the received wave, and is formed using a flexible copper wire, a wire-like metal wire or the like. An electric wire or the like is not connected to the female terminal 27 connected to the male terminal 18 for GND. The matching circuit 25 is configured by connecting the female terminal 26 for antenna and the female terminal 27 for GND in parallel by a coil 28 and a capacitor 29. That is, the matching circuit 25 for impedance matching interposed between the antenna 30 and the radio circuit IC 21 is built in the counterpart connector 23.

  With the above configuration, the matching circuit 25 disposed between the antenna 30 and the wireless IC 21 is provided not on the printed circuit board 11 side but on the counterpart connector 23 side, so that the wireless device 10 is mounted on the vehicle in actual use. When tuning impedance matching in the state, it is not necessary to change the expensive printed board 11 only by changing the mating connector 23. Therefore, the matching circuit 25 can be easily tuned and the development cost can be reduced. Further, since there is no need to provide the matching circuit 25 in the printed circuit board 11, there is an advantage that a space on the printed circuit board 11 can be afforded, and circuit arrangement in the circuit board is facilitated. Furthermore, since the connectors 13 and 23 for providing the antenna 30 outside the printed circuit board 11 are shared with the connector for wired communication which is another application, the number of components and the installation space can be reduced as a whole. .

It is a perspective view which shows the radio | wireless apparatus of embodiment of this invention. It is a top view which shows the radio | wireless apparatus of embodiment. It is a perspective view which shows a prior art example.

Explanation of symbols

DESCRIPTION OF SYMBOLS 10 Radio | wireless apparatus 11 Printed circuit board 12 Board | substrate part 13 Board | substrate side connector 14, 24 Housing 15 Strip line 16 GND pattern 17, 18, 20 Male terminal 21 Circuit for radio | wireless communication (radio IC)
23 Counterpart connector (connector with matching circuit)
25 Matching circuits 26, 27, 31 Female terminal 28 Coil 29 Capacitor 30 Antenna

Claims (4)

A board-side connector is attached to a printed circuit board having a wireless communication circuit, and a terminal in the board-side connector is connected to the wireless communication circuit on the printed circuit board,
A mating connector that fits into the board-side connector has a built-in matching circuit that connects to the terminal, and extends an antenna from the matching circuit.   2. The wireless device according to claim 1, wherein housings of the board-side connector and the counterpart connector are shared with a connector that performs a wired connection between a signal circuit on the printed board and an external electric wire.   The wireless device according to claim 2, wherein the wireless device is mounted on a vehicle for wireless communication, and the external electric wire includes a wire harness arranged in a vehicle body. A mating connector that fits and connects to a board-side connector that accommodates a terminal connected to a wireless communication circuit on a printed circuit board,
A wireless matching circuit built-in connector, characterized in that a matching circuit connected to the terminal by fitting with the board side connector is built in, and an antenna is extended from the matching circuit.

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