JPH0750628A - Antenna switching type diversity reception circuit - Google Patents

Abstract

PURPOSE:To obtain an antenna switching type diversity reception circuit where power consumption of a power source is little and the isolation of an antenna for both of transmission and reception and an exclusive antenna for reception can be sufficiently taken. CONSTITUTION:This circuit is provided with a synchronizing circuit showing the resistance of the value which is equal to the matching impedance of a shared device for transmission and reception when the reception circuit is synchronized with the frequency band of a reception signal on the side of the input of each transistor for amplification of two amplifier circuits 3 and 4 and a switching circuit d turning ON/OFF each power source (+5V) of the amplifier circuits by the control signals c1 and c2 of a changeover switch 5. When an antenna 1 for both of transmission and reception is used for a reception, the power source of the amplifier circuit is turned ON and when the antenna is not used for reception, the power source of the amplifier circuit is turned OFF.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a microwave diversity receiving circuit, and more particularly to a transmitting / receiving antenna connected to a duplexer and a receiving-only antenna having a space diversity effect different from the installation location of the antenna. ，
Two amplifier circuits for amplifying each received signal of both antennas,
An antenna switching type diversity receiving circuit comprising a switching switch for switching the outputs of the two amplifier circuits according to a control signal from the outside to select the output with the higher output level. The present invention relates to a circuit for compensating for a mismatch in impedance matching of a container.

[0002]

2. Description of the Related Art A block diagram of FIG. 3 shows a configuration example of a conventional antenna switching type diversity receiving circuit. The antenna switching type diversity receiving circuit of this conventional example includes a main antenna for both transmission and reception connected to a duplexer, a reception-only sub-antenna having a space diversity effect different from that of the main antenna, and both antennas. In order to make each low-level received signal strong against switching noise, two amplifier circuits that amplify a fixed gain before switching and the outputs of these two amplifier circuits are output by external control signals C1 and C2. It consisted of an antenna changeover switch to switch and select the output with the higher output level. As will be described later in detail, each of the two amplifier circuits has a power supply + 5v for driving each amplifier circuit in order to maintain the matching impedance of the duplexer regardless of the switching state of the changeover switch. It was always supplied.
That is, there was no power switch to turn on / off the power supply + 5v.

[0003]

However, in order to obtain sufficient isolation between the main antenna for both transmission and reception and the reception-only sub-antenna which has a space diversity effect and has a different installation location, the main antenna is When it is used for transmission but not for reception, the power supply + 5v of the amplification circuit that amplifies the reception signal of the main antenna is cut off to turn off the transistor TR of the amplification circuit. Therefore, it is required that the isolation between the input and the output due to is added to the isolation when the changeover switch itself is turned off and increased. However, when the power supply + 5v of the amplifier circuit is turned off, the input impedance of the transistor TR of the amplifier circuit changes so that the transistor TR of the amplifier circuit becomes inoperative, and the reception filter of the duplexer connected to it changes. Impedance matching occurs, and as a result, the insertion loss (insertion loss) of the transmission filter of the duplexer tends to increase. Therefore, even if the power supply + 5v of the amplification circuit for the reception signal of the main antenna for both transmission and reception is turned off,
The circuit configuration of the amplifier circuit is required so that the matching impedance of the duplexer does not fail to match. FIG. 4 shows the same circuit configuration of the conventional amplifier circuit. In part (a) of the figure, the input impedance when the amplifying transistor TR is operating and the matching impedance of the duplexer are shown in the capacitor C.
_This is a matching circuit that matches the impedance conversion circuit consisting of _{11 to} C ₁₃ , and part (b) shows the output impedance of the amplifying transistor TR and the input impedance of the antenna changeover switch as capacitors C _{21 to} C _23.
Is a matching circuit that is matched by the impedance conversion circuit. The matching circuits of the parts (a) and (b) can both perform impedance matching with the input impedance and the output impedance of the transistor TR in the operating state in which the power source + 5v is supplied to the amplifying transistor TR. To convert impedance like C ₁₁ ~
Since C _13, C ₂₁ ~C ₂₃ is designed, the power supply + 5 v is always a supply state. Therefore, there is no power switch to turn ON / OFF the power supply + 5v, but the power consumption of the diversity receiver circuit was large.

As described above, the conventional antenna switching type diversity receiving circuit constantly supplies a power source of + 5v to the amplifier circuit so that the matching impedance of the duplexer does not go out, and the receiving-only sub-antenna is used. For the sake of simplicity, the power supply + 5v was always supplied to the amplifier circuit of the received signal of, so the overall power consumption of the diversity receiver circuit is increased, and the antenna for both transmission and reception and the antenna for reception only are also increased. There is a problem that the isolation between them can only be isolated by the antenna changeover switch itself. An object of the present invention is to realize an antenna switching type diversity receiving circuit which consumes less power and which can sufficiently isolate the antenna for both transmission and reception and the antenna for reception only.

[0005]

The basic configuration of the present invention for achieving this object is shown in the principle diagram of FIG. In FIG. 1, an amplifier circuit having the same circuit configuration is shown in FIG. 2 (c) is a tuning circuit showing a resistance (50 Ω) equal to the matching impedance of the duplexer when tuned to the frequency band of the received signal, and (d) is the changeover switch (5). ) Is a switching circuit that turns on / off each power supply (+ 5v) of the amplifier circuit (3, 4) by the control signal (C1, C2), and when the transmitting and receiving antenna (1) is used for reception. The power supply (+ 5v) of the amplification circuit (3) is turned on, and the power supply (+ 5v) of the amplification circuit (3) is turned off when not used for reception. As shown in FIG. 2, the basic configuration of the present invention is such that a tuning circuit (c) in the reception frequency band and a switching circuit for turning on / off each drive power source + 5v of the amplification circuit ( This is a configuration in which d) and are added.

[0006]

In the present invention, the tuning circuit (c) added to the input part of the amplification circuit for amplifying the received signal of the main antenna for both transmission and reception connected to the duplexer is the power supply + In the state where 5v is ON and current is supplied, the input impedance of the amplifying transistor TR is dominant and hardly visible.In the non-operating state where the power supply + 5v is OFF and current is not supplied, the input of transistor TR is input. Since the impedance has a high value, 50Ω of the tuning circuit (c) whose value is equal to the impedance of the transmission line between the duplexer and the receiving frequency is tuned. Therefore, the side not selected by the control signal C1 or C2 of the antenna changeover switch, that is, the main antenna is used for transmission,
Even if the driving power supply + 5v of the amplification circuit connected to the reception filter of the main antenna when it is not used for reception is turned off by the switching circuit (d), the tuning circuit (c) added by the present invention presents 50Ω. As a result, the impedance matching state of the reception filter of the duplexer does not collapse.
Moreover, the isolation between the input and output of the transistor TR of the amplifier circuit due to the fact that the drive power supply + 5v of the amplifier circuit is turned off by the switching circuit (d) is added to the isolation when the antenna changeover switch itself is OFF. Therefore, the isolation between the main antenna for both transmission and reception and the sub antenna for reception becomes a large value, and the purpose is achieved.

[0007]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS The principle diagram of the antenna switching type diversity receiving circuit of the present invention of FIG. 1 and the configuration diagram of the amplifier circuit of the present invention of FIG. 2 are the same as the configuration diagram of the diversity receiving circuit of the embodiment of the present invention. As described in detail, the point is that the impedance matching of the duplexer to which the main antennas for both transmission and reception are connected is due to the tuning circuit (C) of the present invention provided in the input section of the amplification circuit for the received signal, ON / OF by the power supply + 5v switching circuit (d) of the amplifier circuit
Regardless of F, it is always terminated by matching impedance of its tuning circuit (C) equal to 50Ω.
In addition, the power supply +5 to the amplification circuit of the sub antenna for reception only.
When the main antenna for both transmission and reception, which is selected as a high output level by the control signal C1 or C2 of the antenna changeover switch, is used for reception by adding the switching circuit (d) that turns v on and off. Supply + 5v power to only the amplification circuit of the main antenna or the amplification circuit of the reception-only sub-antenna to operate. Then, by turning off the power supply + 5v of the amplifier circuit when the main antenna for both transmission and reception is not used for reception or the amplification circuit when the sub antenna for reception only is not used, the entire diversity reception circuit is turned off. Power consumption is reduced. Also, the power supply for the amplifier circuit when the main antenna for both transmission and reception is not used for reception.
By turning off + 5v, the isolation between the main antenna for both transmission and reception and the sub-antenna only for reception becomes the isolation between the input and output of the amplification circuit by turning off the power supply + 5v of the amplification circuit. It becomes the value that the isolation of the changeover switch itself is added,
A sufficiently large isolation will be obtained.

[0008]

As described above, according to the present invention, a tuning circuit in the reception frequency band is added to the input section of both amplification circuits for the reception signals of the main and sub antennas for diversity reception, and both amplification circuits are provided. By adding a switching circuit to turn on / off the drive power supply to the antenna, an antenna switching type diversity receiving circuit with low power consumption and sufficient isolation between the main antenna for both transmission and reception and the sub antenna for reception only can be obtained. The effect that can be realized is obtained.

[Brief description of drawings]

FIG. 1 is a principle diagram showing a basic configuration of an antenna switching type diversity receiving circuit of the present invention.

FIG. 2 is a configuration diagram of an amplifier circuit for a received signal of the antenna switching type diversity receiver circuit of the present invention.

FIG. 3 is a block diagram of a conventional antenna switching type diversity receiving circuit.

FIG. 4 is a configuration diagram of a received signal amplification circuit of a conventional antenna switching type diversity reception circuit.

[Explanation of symbols] is a main antenna for both transmission and reception, is a sub-antenna for reception only, is an amplifier circuit for each received signal, is an antenna changeover switch, (a) is a matching circuit on the input side of the amplifier circuit,
(b) is a matching circuit on the output side of the amplifier circuit, (c) is a tuning circuit in the reception frequency band, and (d) is a switching circuit of power supply + 5v.

Claims (1)

[Claims] 1. An antenna (1) for both transmission and reception connected to a duplexer, an amplification circuit (3) for amplifying a reception signal received by the antenna, and a reception-only device having a space diversity effect different from the installation location of the antenna. Antenna (2) and amplifier circuit (4) for amplifying the received signal received by the antenna (2)
An antenna switching type diversity consisting of a switch (5) for switching between the outputs of the two amplifier circuits (3, 4) by external control signals (C1, C2) to select the output with the higher output level In the receiving circuit, the two amplification circuits
A tuning circuit (C) showing a resistance (50 Ω) equal to the matching impedance of the duplexer when tuned to the frequency band of the received signal at the input side of each amplification transistor (TR) of (3, 4)
And a switching circuit (d) for turning on / off each power supply (+ 5v) of the amplification circuit (3, 4) by the control signal (C1, C2) of the changeover switch (5) When 1) is used for reception, turn on the power (+ 5v) of the amplification circuit (3), and when not used for reception, power (+ 5v) of the amplification circuit (3).
Antenna switching type diversity receiver circuit that turns off.