JPH11122138A - Portable transmitter receiver - Google Patents

Abstract

PROBLEM TO BE SOLVED: To eliminate disturbance due to an image signal even when the device is used in a hand by providing an attenuating means which attenuates the image signal to a reception signal on the output side of a high-frequency amplifier. SOLUTION: An antenna common unit 1 which separates a transmit and a reception signal is connected to an antenna 1, and a transmitting circuit part 3 and a receiving circuit part 4 are connected to the antenna common unit 2. A signal received by the antenna 1 is amplified by the high-frequency amplifier 6 and converted by a mixer 8 into an intermediate-frequency signal. As the means which attenuates the image signal inputted to the antenna 1, an image trap circuit 10 consisting of an inductor 10a and a capacitor 10b connected to each other in series is provided between a band-pass filter 7 and a mixer 8 provided on the output side of the high-frequency amplifier 6. The high-frequency amplifier 6 functions as a buffer amplifier and variation in the impedance of the antenna 1 is not transmitted directly to the image trap circuit 10.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a portable transceiver such as a cordless telephone and a portable telephone.

[0002]

2. Description of the Related Art FIG. 2 is a schematic circuit diagram of a conventional portable transceiver. An antenna 31 is housed in the portable transceiver, and an antenna duplexer 32 that separates a transmission signal and a reception signal is connected to the antenna 31. The antenna duplexer 32 includes a transmitting circuit section 33 and a receiving circuit section 34.
Are connected. Although not shown, the antenna 31
When the portable transceiver is used, the portable transceiver is drawn out of the storage unit to the outside of the portable transceiver. The antenna duplexer 32 is connected to the base of the antenna 31.

The receiving circuit section 34 includes a band-pass filter 35, a high-frequency amplifier 36, and a band-pass filter 3.
7, a mixer 38, a local oscillator 39 and the like. The band-pass filter 35 is composed of a double-tuned circuit. The first inductor 35a and the first capacitor 35b constitute a primary-side tuned circuit, and the second inductor 35c and the second capacitor 35d constitute a secondary-side tuned circuit. Of the tuning circuit.
The high-frequency amplifier 36 includes a transistor 36 having a common emitter.
a is used. The bandpass filter 37 includes a microstrip line 37a, capacitors 37b,
7c and 7c.

[0004] A signal (received signal) received by the antenna 31 is input to a band-pass filter 35 via an antenna duplexer 32, and the received signal passed through the band-pass filter 35 is amplified by a high-frequency amplifier 36, The signal is input to the mixer 38 via the filter 37. In the mixer 38, the received signal is mixed with the local oscillation signal from the local oscillator 39 and frequency-converted into an intermediate frequency signal. The intermediate frequency signal is demodulated by a demodulator (not shown), and an audio signal is extracted. Although not shown, the transmission circuit section 33 includes a modulator, a power amplifier, and the like. A transmission signal is output from the power amplifier, and the antenna 3
Radiated from 1.

Here, when the portable transceiver is, for example, a cordless telephone, the frequency of the received signal is 380 MHz.
The frequency of the band and the transmission signal is 254 MHz, and the frequency of the intermediate frequency signal (intermediate frequency) is approximately 21 MHz.
It is a belt. Therefore, the local oscillation frequency of the local oscillator 39 is set to about 359 MHz band. For this reason, the local oscillation frequency (359 MHz) and the intermediate frequency (2
338 MHz, which is the difference from 1 MHz), becomes the image frequency. When a signal of this frequency (image signal) is input to the antenna 31, the mixer 38 generates an interference signal.
That is, the image is disturbed. Therefore, means for attenuating the image signal input to the antenna 31 is required in order to eliminate the interference caused by the image signal.
Therefore, an image trap circuit 40 including an inductor 40a and a capacitor 40b connected in series to each other is provided between the antenna duplexer 2 and the bandpass filter 35. Since the image trap circuit 40 needs to greatly attenuate the image signal, the capacitor 40b
Is made as small as possible to increase the Q of the series resonance by the inductor 40a and the capacitor 40b, and the resonance frequency is adjusted to the image frequency.

[0006]

However, the above arrangement has a problem in that, for example, when a cordless telephone handset is used in a hand, image interference occurs. That is, when the cordless telephone is held in a hand, the human body (hand) comes into contact with the antenna 31 or the human body and the antenna 31 are extremely close to each other even if they do not touch.
Of the image trap circuit 40 connected via the antenna duplexer 32, the Q of the resonance decreases. Therefore, the amount of attenuation at the image frequency is reduced, and the image signal is received by the receiving circuit 3.
4 and the image disturbance is increased.

Accordingly, it is an object of the present invention to provide a portable transmitter / receiver which is not affected by an image signal even when used in a hand.

[0008]

In order to solve the above-mentioned problems, a portable transceiver according to the present invention includes an antenna sharing device, and a high-frequency amplifier for amplifying a signal received from the antenna sharing device. Attenuating means for attenuating an image signal corresponding to the above is provided on the output side of the high-frequency amplifier.

Further, in the portable transceiver according to the present invention, the attenuation means is constituted by a series trap circuit of a capacitor and an inductor.

In the portable transceiver according to the present invention, a band-pass filter that passes the received signal is provided between the high-frequency amplifier and the attenuating means.

[0011]

FIG. 1 is a schematic circuit diagram of a portable transceiver according to the present invention. An antenna 1 is housed in the portable transceiver, and an antenna duplexer 2 for separating a transmission signal and a reception signal is connected to the antenna 1. Further, a transmitting circuit unit 3 and a receiving circuit unit 4 are connected to the antenna duplexer 2. Although not shown, the antenna 1 is drawn out of the storage unit to the outside of the portable transceiver when the portable transceiver is used.
Are connected to the base of the antenna 1.

The receiving circuit section 4 includes a band-pass filter 5, a high-frequency amplifier 6, a band-pass filter 7, a mixer 8, a local oscillator 9, and the like. The band-pass filter 5 is constituted by a double-tuned circuit, and the first inductor 5a and the first capacitor 5b constitute a primary-side tuning circuit.
The second-side inductor 5c and the second capacitor 5d constitute a secondary-side tuning circuit. A common emitter transistor 6a is used for the high frequency amplifier 6. The band-pass filter 7 is formed in a π-type with a microstrip line 7a and capacitors 7b and 7c.

The signal (received signal) received by the antenna 1 is input to the band-pass filter 5 via the antenna duplexer 2, and the received signal passing through the band-pass filter 5 is amplified by the high-frequency amplifier 6, and Filter 7
Is input to the mixer 8 via the. In the mixer 8, the received signal is mixed with the local oscillation signal from the local oscillator 9 and frequency-converted to an intermediate frequency signal. The intermediate frequency signal is demodulated by a demodulator (not shown), and an audio signal is extracted. Although not shown, the transmission circuit unit 3 includes a modulator, a power amplifier, and the like. A transmission signal is output from the power amplifier and radiated from the antenna 1 through the antenna duplexer 2.

Here, when the portable transceiver is, for example, a cordless telephone, the frequency of the received signal is 380 MHz.
The frequency of the band and the transmission signal is 254 MHz, and the frequency of the intermediate frequency signal (intermediate frequency) is approximately 21 MHz.
It is a belt. Therefore, the local oscillation frequency of the local oscillator 9 is set to a band of about 359 MHz. Therefore, the local oscillation frequency (359 MHz) and the intermediate frequency (21
338 MHz, which is a difference from the frequency of the antenna 1, is the image frequency.
, A disturbing signal is generated by the mixer 8. That is,
You will be disturbed by the image. So, this image
A means for attenuating the image signal input to the antenna 1 is required to eliminate the interference due to the digital signal. In the transceiver of the present invention, this attenuating means is connected to the mixer 8 on the output side of the high-frequency amplifier. It is provided between them. That is, an image trap circuit 10 comprising an inductor 10a and a capacitor 10b connected in series with each other is a means for attenuating an image signal. 8 is provided between the band-pass filter 7 and the mixer 8 provided on the output side.

The image trap circuit 10 needs to greatly attenuate the image signal.
The capacitance value of b is made as small as possible to increase the Q of the series resonance by the inductor 10a and the capacitor 10b, and the resonance frequency is adjusted to the image frequency.

By providing the image trap circuit 10 on the output side of the high-frequency amplifier 8, the high-frequency amplifier 8 functions as a buffer amplifier, and the change in the impedance of the antenna 1 is directly changed.
Will not be transmitted. Therefore, even when the portable transceiver of the present invention is used by hand, the Q of the image trap circuit 10 does not decrease and the attenuation does not decrease. Therefore, no image disturbance occurs.

The inductor 10a and the capacitor 10
Since the trap circuit is a trap circuit based on series resonance with b, a large amount of attenuation can be obtained. Further, since the band pass filter 7 is provided between the image trap circuit 10 and the high-frequency amplifier 8, the band pass filter 7 is also used. Since it becomes a buffer band for the impedance change of the antenna 1, a decrease in Q of the image trap circuit is further reduced.

[0018]

As described above, the portable transceiver of the present invention includes the antenna duplexer and the high-frequency amplifier for amplifying the signal received from the antenna duplexer, and attenuates the image signal for the received signal. Since the attenuating means is provided on the output side of the high-frequency amplifier, the high-frequency amplifier functions as a buffer amplifier, and the change in the impedance of the antenna is not directly transmitted to the attenuating means. Therefore, even when the portable transmitter / receiver is used in a hand, the attenuation amount of the attenuation means does not decrease. Therefore, no image disturbance occurs.

Further, in the portable transceiver according to the present invention, since the attenuation means is constituted by a series trap circuit of a capacitor and an inductor, the Q value of the trap circuit can be increased by reducing the capacitance value of the capacitor, and the attenuation is reduced. Greatly obtained.

In the portable transceiver of the present invention, a band-pass filter for passing the received signal is provided between the high-frequency amplifier and the attenuating means. Since it becomes a buffer band against the change, the decrease in the Q of the attenuation means is further reduced.

[Brief description of the drawings]

FIG. 1 is a schematic circuit configuration diagram of a portable transceiver according to the present invention.

FIG. 2 is a schematic circuit configuration diagram of a conventional portable transceiver.

[Explanation of symbols]

 REFERENCE SIGNS LIST 1 antenna 2 antenna duplexer 3 transmission circuit section 4 reception circuit section 5 bandpass filter 5 a first inductor 5 b first capacitor 5 c second inductor 5 d second conductor 6 high-frequency amplifier 6 a transistor 7 bandpass filter 7 a microstrip Line 8 Mixer 9 Local oscillator 10 Image trap circuit 11

Claims (3)

[Claims] 1. An antenna duplexer comprising: a high-frequency amplifier for amplifying a signal received from the antenna duplexer; and attenuating means for attenuating an image signal corresponding to the received signal provided on an output side of the high-frequency amplifier. A portable transceiver, characterized in that: 2. The portable transceiver according to claim 1, wherein said attenuating means comprises a series trap circuit of a capacitor and an inductor. 3. The portable transceiver according to claim 1, further comprising a band-pass filter that passes the received signal between the high-frequency amplifier and the attenuation unit.