JPH0418261Y2 - - Google Patents

Description

[Detailed Description of the Invention] [Industrial Application Field] This invention relates to a booster amplifier connection signal transmission circuit that connects a portable wireless device and a booster amplifier.

[Prior Art] Classes of in-vehicle radio devices and portable radio devices (hereinafter referred to as portable radio devices) used in automobile radio systems and the like are defined based on the magnitude of nominal transmission output. For example, in the case of a cellular radiotelephone system, the nominal transmission power is 4 watts (referred to as a class) in 8 stages, 1.6 watts (in the same class) in 7 stages, and 0.6 watts (in the same class).
The class to which your own station belongs is stored in the signal processing circuit as a station class mark. A code informing the station of the class is being sent.

Also, to increase the nominal transmission output, connect a booster amplifier (power amplifier) to the portable radio device, but since the class changes when the booster amplifier is connected, this is done in the signal processing circuit. A booster/amplifier connection signal transmission circuit is provided for notification.

A conventional circuit of this type is shown in FIG. Figure 2 is a connection diagram showing the configuration of a conventional booster amplifier connection signal transmission circuit. In the figure, 1 is a booster amplifier, 2 is a portable wireless device, and 3
is a coaxial cable, 4 is an earth signal, 7 and 8 are coaxial connectors, 11 is an antenna connection terminal for booster amplifier 1, and 12 is a duplexer (drawing symbol is DUP).
), 13 is a reception high frequency amplification section (the drawing symbol is
AMP), 14 is a duplexer (the drawing symbol is
15 is a power amplifier (designated as DUP), 15 is a power amplifier (drawing symbol is
16 is a connection terminal, 21 is a duplexer (the drawing symbol is DUP), 22 is the receiver (the drawing symbol is RX), 23 is a signal processing circuit (the drawing symbol is LOGIC) , 24 is a transmission modulation section (the drawing symbol is MOD), 25 is a transmission excitation section (the drawing symbol is EX), and 26 is a power amplifier (the drawing symbol is EX).
PA), 27 is a connection terminal.

For example, when the portable radio device 2 is a 0.6 Watt class radio device, if the booster amplifier 1 is connected as shown in Fig. 2, the nominal transmission output will be increased, and the Therefore, it is necessary to set a station class mark for the class in the signal processing circuit 23. Therefore, a signal indicating that the class has been changed by connecting the booster amplifier 1 is sent as the earth signal 4 to the signal processing circuit 23 via the connection terminal 16 and the connection terminal 27.
The station class mark for the class is set.

The station class mark has a different digital code specified for each class, and the station class mark is designated by a different digital code for each class.
When notifying the mark, the signal processing circuit 23 outputs this digital code through the transmitter circuit and transmits it to the base station.

[Problems to be solved by the invention] Since the conventional booster/amplifier connection signal transmission circuit as described above is configured as described above,
Although a coaxial cable is connected between the booster amplifier and the portable radio device, it is necessary to provide a new cable for transmitting the earth signal and a connection terminal to connect it. There is,
There has been a problem in that the progress of making portable wireless devices smaller and lighter has been slowed down.

This idea was made to solve this problem, and it is possible to create a booster/amplifier connection signal transmission circuit that can be made smaller and lighter without the need for new cables and connection terminals to connect them. The purpose is to obtain.

[Means for solving the problem] The booster/amplifier connection signal transmission circuit according to this invention uses a coaxial cable to transmit an earth signal, and the electrical influence of this earth signal on a high frequency transmission line is We decided to provide a means to avoid this.

[Function] In this invention, we decided to use a coaxial cable to transmit the earth signal, and we decided to provide a means to avoid the electrical influence of this earth signal on the high frequency transmission line. There is no need to provide a connection terminal for connecting the two.

[Example] Hereinafter, an example of this invention will be described with reference to the drawings. FIG. 1 is a connection diagram showing the configuration of a booster-amplifier connection signal transmission circuit according to this invention. In the figure, the same symbols as in FIG. 2 indicate the same or equivalent parts,
5 is a high frequency blocking circuit on the booster amplifier 1 side (the drawing symbol is I), 6 is a DC blocking circuit on the booster amplifier 1 side (the drawing symbol is C), and 9 is the high frequency blocking circuit on the portable wireless device 2 side. A blocking circuit (designated as I in the drawing), 10 is a DC blocking circuit (designated as C in the drawing) on the side of the portable wireless device 2.

The booster/amplifier connection transmission circuit according to this invention utilizes the coaxial cable 3 as shown in FIG. This has been made unnecessary.

That is, in this invention, the earth signal 4 is transmitted through the high frequency blocking circuit 5, the coaxial plug 7, the coaxial cable 3, and the coaxial plug 8.
and the signal processing circuit 23 via the high frequency blocking circuit 9.
will be given to In this case, earth signal 4
In order to avoid the electrical influence on the high frequency transmission circuit of the booster amplifier 1 and the portable wireless device 2, the coaxial cable 3 and the respective duplexers 14 and 21 DC blocking circuits 6 and 10 are provided between them.

[Effects of the invention] As explained above, this invention uses a coaxial cable to transmit an earth signal, and is equipped with a means to avoid the electrical influence of this earth signal on a high frequency transmission line. Therefore, there is no need to provide a new cable and a connection terminal for connecting it, and there is an effect that the portable wireless device can be made more compact.

[Brief explanation of the drawing]

FIG. 1 is a connection diagram showing the configuration of a circuit according to this invention, and FIG. 2 is a connection diagram showing the configuration of a conventional circuit. 1 is a booster amplifier, 2 is a portable radio device,
3 is a coaxial cable, 4 is an earth signal, 5 is a high frequency blocking circuit, 6 is a DC blocking circuit, 7 and 8 are coaxial plugs,
9 is a high frequency blocking circuit, and 10 is a direct current blocking circuit. Note that the same reference numerals in each figure indicate the same or corresponding parts.

Claims (1)

[Claims for Utility Model Registration] A coaxial connector for high frequency input/output on the side of the portable radio device for connecting a booster amplifier to the portable radio device for the purpose of increasing the nominal transmission output of the portable radio device; The booster amplifier is used for the purpose of changing the station class mark stored in the signal processing circuit of the portable wireless device and the coaxial cable installed between the coaxial connector for high frequency input and output on the booster amplifier side. In a booster/amplifier connection signal transmission circuit having a means for transmitting an earth signal from an amplifier to the signal processing circuit, the earth signal and a coaxial plug on the booster/amplifier side are transmitted through a high frequency blocking circuit. a DC blocking circuit provided between the coaxial plug on the booster amplifier side and the high frequency input/output circuit of the booster amplifier, and a coaxial connection on the portable radio device side. means for electrically connecting the plug and the signal processing circuit via a high frequency blocking circuit; and a means provided between the coaxial plug on the side of the portable radio device and the high frequency input/output circuit of the portable radio device. and a direct current blocking circuit that transmits the earth signal to the coaxial plug on the portable wireless device side via the high frequency blocking circuit on the booster/amplifier side and the coaxial plug on the booster/amplifier side. A booster/amplifier connection signal transmission circuit characterized in that the signal is transmitted via a coaxial cable, and is sent from the coaxial plug on the side of the portable wireless device to the signal processing circuit via a high frequency blocking circuit.