KR910009484Y1 - Selection circuit of broad band and narrow band - Google Patents

Abstract

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Description

Wideband and narrowband selection circuit

1 is a circuit diagram of the present invention.

2 is a frequency gain state diagram passing through the narrowband filter and the broadband filter of the present invention.

* Explanation of symbols for the main parts of the drawings

1 amplifier 2 mixing unit

3: oscillation voltage control unit 4: narrowband filter

10: signal detector 20: signal switching unit

30: broadband filter 40: micom

50 control part R1-R9 resistance

D1-D3: Diode Q1: Transistor

The present invention relates to a wideband and narrowband selection circuit for selecting and outputting an audio frequency received at different bandwidths through an antenna as a wideband or narrowband according to a bandwidth of a reception frequency.

The bandwidth of the audio frequency received through the antenna is applied to the band or broadband frequency depending on the broadcasting station. However, in the case of a broadband frequency that widens the frequency band width by outputting the reception frequency as it is, a signal clip is generated. In the case of a narrow band frequency narrowing the frequency bandwidth, a large signal noise is generated, so it is necessary to pass a filter suitable for the reception frequency bandwidth to eliminate the occurrence of signal clip or signal noise.

In consideration of the above, the present invention selectively passes the wideband filter and narrowband filter according to the bandwidth of the received frequency, but the selection of the wideband filter and narrowband filter is controlled by a microcomputer that recognizes a remote control signal. For example, if the reception frequency bandwidth is narrow band, it passes the narrow band filter, and if it is wide band, it passes the wide band filter.

The present invention for this purpose is described in detail by the accompanying drawings as follows.

The present invention amplifies the signal received by the antenna (ANT) in the amplifier (1) and then the signal detection unit 10 for detecting the signal by mixing the oscillation frequency of the oscillation voltage control unit 3 and the mixing unit (3) In the configured audio output circuit. Signals and signals passing through the narrow band filter 4 of the signal detection unit 10 and the signal switching unit 20 for switching the passage of the narrow band filter 4 of the signal detected by the signal detector 10 The wideband filter 30 through which the signal detected by the detector 10 passes, and the driving of the transistor Q1 is controlled by the narrowband / wideband selection signal of the microcomputer 4 (1) to control the driving of the signal switching unit 20. The control unit 50 selects a switching operation.

Here, the signal switching unit 30 is connected so that the signal detected by the signal detector 10 is applied to the cathode of the diode D1 and the diode D2 of the anode, and the cathode of the transistor Q1 is connected to the cathode of the diode D1. The collector of the transistor Q1 and the wideband filter are connected to the cathode of the diode D4, which connects the collector and the input side of the narrowband filter 4 and the output side of the narrowband filter 4 of the anode of the diode D2 is connected to the anode. The input side of 30) is connected.

Referring to the effects of the present invention configured in this way in detail as follows.

First, the microcomputer 40 selects the output level of the output terminal P1 according to the input of the narrowband / wideband selection key of the remote controller. When the wideband sun rack key is pressed, the microcomputer 40 outputs the low level to the output terminal P1 and narrowband. When the selection key is pressed, the high level is output to the output terminal P1.

The signal detector 10 amplifies the signal received by the antenna ANT in the amplifier 1 and then detects the signal by mixing the oscillation frequency of the oscillation voltage control unit 3 with the mixing unit B. FIG.

In this case, the signal detected by the signal detector 109 is output as a signal having a narrow frequency band and a wide frequency band according to a broadcasting station, so that a signal having a narrow frequency band is a narrowband filter in order to listen to a normal audio signal. The signal passing through 4) and having a wide frequency band must pass through the broadband filter 30.

Here, the passage of the narrowband filter 4 and the passage of the wideband filter 30 are controlled by the selection signal outputted to the output terminal P1 of the microcomputer 40 in response to the narrowband / wideband selection key input. By turning the transistor Q1 of < RTI ID = 0.0 > 1 < / RTI > on and off, the diodes D1, D2, and D4 of the signal switching section 20 become conductive and non-conductive to select respective filter passes. .

That is, when the frequency band width of the received signal detected by the signal detector 10 is wide, the wide band selection key is pressed to output a low level to the output terminal P1 of the microcomputer 40. Turn off "so that the power source B 'through the resistor R7 passes through the dew point A and B and through the resistors R3 and R6 to the cathode of the diode D1 and the diode D2. It is applied to the anode side with a high level voltage.

Accordingly, the diode D1 is not conducting and the diode D2 is conducting. Accordingly, the signal detected by the signal detector 10 is not applied to the narrowband filter 4 and the broadband filter 30 is passed through the diode D2. ) Is applied.

Therefore, the wideband filter 30 filters the signal detected by the signal detector 10 to a wide frequency band, as shown in FIG. 2A, thereby solving the problem that some signal frequencies are clipped as in the prior art.

That is, when the frequency detection band of the detection signal is wide in the signal detector 10, the wideband filter has a wide bandwidth by detecting the detection signal of the signal detector 10 by conducting the diode D3 of the signal switching unit 20 by pressing the broadband selection key. It is output through 30.

However, when the frequency band width of the received signal detected by the signal detector 10 is narrow, the narrow band selection key of the remote controller is pressed to output a high level to the output terminal P1 other than the microcomputer 40, and thus the transistor Q1. ) Is' turned on 'so that power B' applied through resistor R7 flows to ground to be applied at low level voltage to the cathode side of diodes D1 and D4 and the anode side of diode D3. do.

Therefore, since the diode D2 is not conducting and the diodes D1 and D4 are conducting, the signal detected by the signal detector 10 is applied to the narrowband filter 4. Since the signal detected by the signal detector 10 is filtered into a narrow frequency band as shown in FIG. 2A, the problem of generating some signal noise as in the related art is solved.

In addition, the signal passing through the narrowband filter 4 is output through the diode D4 and then through the wideband filter 30. However, a signal filtered at a narrow frequency by the narrowband filter 4 is first transmitted to the wideband filter 30. Since it is applied, even if the signal which passed the narrowband filter 4 passes through the wideband filter 30, there will be no problem.

However, when the signal passing through the wideband filter 30 passes through the narrowband filter 4, the frequency band is narrowed, which causes a problem.

As described above, according to the present invention, the signal detected by the signal detector is selectively passed through the wideband filter and the narrowband filter by pressing the narrowband / wideband selection key of the remote controller according to the frequency band of the signal detected by the signal detector. The detection frequency will have the effect of preventing signal clip phenomena and the narrowband detection frequency to prevent signal noise.

Claims (2)

Audio output comprising a signal detector 10 for amplifying the signal received by the antenna ANT in the amplifier 1 and mixing the oscillation frequency of the oscillation voltage controller 3 and the mixer 2 to detect a signal. In the circuit, a signal switching section 20 for switching the passage of the narrowband filter 4 of the signal detected by the signal detector 10 and a narrowband filter 4 of the signal switching section 20 pass through. The signal switching unit 20 controls the driving of the transistor Q1 with a wideband filter 30 through which one signal and the signal detected by the signal detector 10 pass, and a narrowband / wideband selection signal of the microcomputer 40. A wideband and narrowband selection circuit which drives the control unit 50 for selecting the switching operation of the. According to claim 1, The signal switching unit 20 is connected to the signal detected by the signal detector 10 is applied to the anode of the diode (D1) and the cathode of the diode (D2) and to the cathode of the diode (D1) The collector of transistor Q1 is connected to the cathode of diode D2, and the cathode of diode D1 is connected to the collector of transistor Q1 and the input side of narrowband filter 4 and connected to the cathode of diode D2. A wideband and narrowband selection circuit comprising a collector of transistor Q1 and an input side of a wideband filter 30 connected to a cathode of a diode D4 whose output side of the anode and narrowband filter 4 are connected to the anode.