JP3082922B2 - Radio receiver - Google Patents

Description

The present invention relates to a radio receiver capable of preventing an erroneous stop during an automatic channel selection operation.

(B) Conventional technology A radio receiver having a wideband AGC circuit for controlling a gain of an RF (radio frequency) amplifier circuit using a wideband IF (intermediate frequency) signal obtained at an output terminal of a mixing circuit is known. . The wideband AGC circuit reduces the gain of the RF amplifier circuit when the level of the wideband IF signal increases, and lowers the level of the RF signal applied to the mixing circuit, thereby preventing saturation of the mixing circuit. And the intermodulation interference characteristic can be improved.

(C) Problems to be Solved by the Invention However, when the wideband AGC circuit is applied, gain control is performed when a desired signal is weak and an interference signal is strong,
There is a problem that sensitivity suppression for a desired signal occurs.

In order to prevent the sensitivity suppression, the electric field strength of the received signal (desired signal) may be detected, and the wideband AGC signal may be controlled accordingly. For example, when the level of the desired signal is small, the suppression of the sensitivity of the desired signal can be prevented by suppressing the wideband AGC signal and deteriorating the AGC performance. However, in this case, if there is no desired signal, AGC is not applied, and there is a problem that the automatic stop causes an erroneous stop on the interference signal channel.

(D) Means for Solving the Problems The present invention has been made in view of the above points, and has been made in consideration of the above-described problems.
It is characterized by comprising a C circuit, a control circuit for controlling the wideband AGC circuit according to the electric field strength of the received signal, and a stopping means for forcibly stopping the operation of the control circuit during automatic channel selection.

(E) Operation According to the present invention, at the time of automatic channel selection, the stop means operates and only the wideband AGC circuit operates, so that normal wideband AGC operation is performed, and automatic channel selection is performed by the interference signal channel. To prevent an erroneous stop. Also, at the time of reception, since the wideband AGC circuit and the control circuit operate, it is possible to simultaneously improve the intermodulation interference characteristics and the suppression of the sensitivity of the desired signal.

(F) Embodiment FIG. 1 is a circuit diagram showing one embodiment of the present invention.
Is the antenna, (2) is the RF received by the antenna (1)
An RF amplifier circuit for amplifying a signal; (3) a mixing circuit for mixing an output signal of the RF amplifier circuit (2) and an output signal of a local oscillation circuit (4) to generate an IF signal; IF amplifier circuit for amplifying the IF signal, (6) is the IF amplifier circuit (5)
(7) generates an AGC signal corresponding to the wideband IF signal obtained from the mixing circuit (3) and controls the gain of the RF amplifier circuit (2).
A circuit, (8) a control circuit for controlling the wideband AGC circuit (7) in accordance with a signal indicating the electric field strength of the received signal obtained from the IF amplifier circuit (5), and (9) a circuit for automatic channel selection. An input terminal to which a stop signal for stopping the operation of the control circuit (8) is applied. Note that an RF signal applied to the mixing circuit (3) may be used as an input of the wideband AGC circuit (7).

Now, if the radio receiver is in the automatic tuning state,
The stop signal is applied to the input terminal (9), and the control circuit (8)
Operation is forcibly stopped. Therefore, the wideband AGC circuit (7) operates based only on the wideband IF signal obtained from the mixing circuit (3), and the wideband AGC circuit (7) operates even when a strong interfering signal is present. (3) can be prevented from being saturated. Further, since the level of the interference signal is sufficiently suppressed by the AGC operation, it is possible to prevent the automatic tuning from being stopped in the interference signal channel, and to prevent the erroneous stop.

When the automatic tuning stops in response to the received signal (desired signal), the radio receiver enters a receiving state, but the stop signal is not applied to the input terminal (9) in response thereto, and the control circuit (8) operates. Start. The control circuit (8) controls the wideband AGC circuit (7) according to a signal indicating the electric field strength of the received signal obtained from the IF amplifier circuit (5). If the signal indicating the electric field strength is a large level, the control circuit (8)
Controls the wideband AGC circuit (7) so that the gain of the RF amplifier circuit (2) is sufficiently reduced. If the signal indicating the electric field strength is at a low level, the control circuit (8) controls the wideband AGC circuit (7) so as not to lower the gain of the RF amplifier circuit (2). Therefore, at the time of reception, the two-signal characteristics are improved by the operation of the control circuit (8), and good reception characteristics are obtained.

FIG. 2 shows a specific circuit example of the present invention. A wide-band IF signal applied to an input terminal (10) is detected by a level detection circuit (11) and amplified by a first transistor (12). RF amplification circuit (2) from the collector as AGC signal
Is applied to the second gate of the FET (13). If the output signal level of the level detection circuit (11) is high,
The collector voltage of the first transistor (12) decreases,
Since the voltage of the second gate of the FET (13) decreases, the gain of the RF amplifier circuit decreases. In addition, the level detection circuit (1
If the output signal level of 1) is low, the collector voltage of the first transistor (12) increases and the voltage of the second gate of the FET (13) increases, so that the gain of the RF amplifier circuit increases.

On the other hand, a signal indicating the electric field strength of the received signal from the IF amplifier circuit is applied to the input terminal (14). When the signal is large, the second and third transistors (15) and (16) are turned off, and the base of the fourth transistor (17) is connected to the resistor (1).
Biased by 8) and (19) and diode (20), the fourth transistor (17) is turned on. Accordingly, the first transistor (12) is not limited by the collector current of the fourth transistor (17) and performs a wideband AGC operation according to the output signal of the level detection circuit (11). When the signal applied to the input terminal (14) becomes small, the second and third transistors (15) and (16)
Starts conducting, and the base bias current of the fourth transistor (17) decreases. Therefore, when the output signal level of the level detection circuit (11) increases, the first transistor (12) cannot flow a collector current corresponding to the output signal level, and the first transistor (12) , The AGC attenuation of the broadband AGC circuit is restricted. When the signal applied to the input terminal (14) becomes extremely small, all the current flowing through the resistor (18) becomes the third current.
The current flows to the transistor (16), and the fourth transistor (17) is turned off. Therefore, the emitter current path of the first transistor (12) is not formed, and the wide band AGC signal is not generated. Therefore, the RF amplifier operates at the maximum gain,
The received signal is sufficiently amplified.

At the time of automatic channel selection, a stop signal is applied to the input terminal (21), and at the time of reception, no stop signal is applied to the input terminal (21). When a stop signal is applied to the input terminal (21), the fifth transistor (22) turns on, and the sixth and seventh transistors (23) and (24) also turn on. Therefore, a current flows through the resistor (25), the base voltage of the second transistor (15) increases, and the second transistor (15) is forcibly turned off. When the stop signal is not applied to the input terminal (21), the fifth to seventh transistors (22) to (2)
4) is turned off, and the control circuit performs an operation according to the signal applied to the input terminal (14).

(G) Effects of the Invention As described above, according to the present invention, since the wideband AGC circuit is provided, the intermodulation interference characteristic can be improved. Further, since the control circuit is provided to control the wideband AGC circuit according to the electric field strength of the received signal, it is possible to prevent the sensitivity of the received signal (desired signal) from being suppressed due to the interference signal.
Further, since the operation of the control circuit is stopped at the time of automatic channel selection, erroneous stop of automatic channel selection can be prevented.

[Brief description of the drawings]

FIG. 1 is a circuit diagram showing an embodiment of the present invention, and FIG. 2 is a circuit diagram showing a specific circuit example. (7) ... broadband AGC circuit, (8) ... control circuit,
(9) ... input terminal.

Claims (3)

(57) [Claims] 1. A radio receiver comprising a wide-band AGC circuit and a control circuit for controlling the degree of the wide-band AGC circuit according to the electric field strength of an IF signal, the operation of the control circuit is forcibly performed during automatic channel selection. A radio receiver, wherein only the wideband AGC circuit is operated. 2. The wideband AGC circuit is applied to a wideband IF signal obtained at an output terminal of the mixing circuit or to the mixing circuit.
2. The radio receiver according to claim 1, wherein the level of the RF signal is detected and the gain of the RF amplifier circuit is controlled. 3. The control circuit according to claim 1, further comprising a detection circuit for detecting an electric field intensity of the received signal, wherein the output signal of the detection circuit decreases to prevent an AGC signal from being generated from the wideband AGC circuit. The radio receiver according to claim 1, wherein the radio receiver performs control.