KR910008727Y1 - Taner band switching circuit for satellite broadcasting receiver - Google Patents

Abstract

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Description

Band switching circuit of tuner for satellite broadcasting reception

1 is a conventional satellite broadcast receiving tuner.

2 is a circuit diagram of the present invention.

* Explanation of symbols for main parts of the drawings

RF: broadcast frequency 1F: intermediate frequency

RY: Relay 1: RF Amplifier

2: blender 3: bandpass filter

4: IF amplifier 5: automatic gain controller

6: demodulator 7: voltage controlled oscillator

8: relay driving circuit 10: switching circuit

20: CPU 30: Tuner for satellite broadcasting reception

The present invention relates to a band switching circuit of a satellite broadcast receiving tuner for switching bands to receive satellite broadcasts broadcast in both C-band and KU-band.

In general, satellite broadcasting frequencies are broadcast in two types, C-band (3.7-4.2 Hz) and KU-band (11.7-12.2 Hz). Since the tuner has only one RF input terminal (IN) as shown in FIG. 1, only one output applied from the LNB (Low Noise Block Locker) (hereinafter referred to as LNB) of the front end can be connected.

Therefore, when using a conventional tuner for a satellite broadcast receiver, there is only one RF input terminal (IN), which is inconvenient to replace according to the desired band to watch.

That is, in the conventional tuner for satellite broadcasting reception, as shown in FIG. 1, the RF amplifier 1 connected to the input terminal IN is connected to the mixer 2 and the mixer 2 is amplified by the RF amplifier 1. The signal and the oscillation frequency generated by the voltage controlled oscillator 7 connected to the CPU 20 are mixed and connected to the band pass filter 3 to obtain an IF signal, and the band pass filter 3 is an IF amplifier 4 ) And the amplification and gain of the IF signal, which is connected to the automatic gain controller 5 connected to take feedback thereof, is stabilized and applied to the demodulator 6 connected to the IF amplifier 5 to separate and output the amplified IF signal. It is configured to output the separated signal through the terminal (CUT).

The RF signal generated from the LNB at the front end input in FIG. 1 configured as described above is applied to the RF amplifier 1 through the input terminal IN, and the signal is amplified and then applied to the mixer 2.

When tuning is performed in order to watch the satellite broadcast received by the satellite broadcasting receiving antenna, the CPU 20 adjusts the tuning voltage and applies the voltage controlled oscillator 7 to the oscillation frequency to adjust the oscillation frequency. 2) is applied.

On the other hand, in the mixer 2, the RF signal amplified by the RF amplifier 1 and the oscillation frequency applied by the voltage controlled oscillator 7 are mixed and applied to the band pass filter 3, and the band pass filter 3 is applied. Since only the IF signal of the mixed signal components is filtered and output, the reception channel for the input signal is selected.

Then, the IF signal selected by the band pass filter (3) amplifies the signal through the IF amplifier (5) and the feedback of the automatic gain controller (5) to stabilize the gain of the IF amplified signal applied to the demodulator (6). In the demodulator 6, the amplified IF signal is separated into an image frequency signal and an audio frequency signal and output through the output terminal OUT.

The conventional satellite broadcast receiving tuner 30 has only one input terminal IN, so that only one band of satellite broadcasts of C-band and KU-band can be received, and both modes are received. In order to change the signal line according to the desired band had a disadvantage.

In addition, when the switching circuit for receiving both bands is installed outside the receiver, the appearance is not beautiful and the connection line becomes complicated, which is affected by external noise and increases in price.

In view of the above, the present invention provides two input terminals inside the tuner to receive both C-band and KU-band satellite broadcasts so that the satellite broadcast signals of the two bands are inputted to the respective input terminals. By using the relay of the switching circuit to select the input terminal according to the desired band selection to receive the satellite broadcasting signals of both bands.

This will be described in detail with reference to the accompanying drawings.

2 is a circuit diagram of the present invention, in which an IF signal is obtained by mixing an RF amplifier 1 for amplifying an RF signal passing through the LNB, an RF signal of the RF amplifier 1, and an oscillation frequency of the voltage controlled oscillator 7. An IF for outputting the mixer 2 and an IF signal outputted from the mixer 2 and passed through the band pass filter 3 to be amplified and applied to the demodulator 6 and controlling the gain by the automatic gain controller 5. In the satellite broadcast reception tuner 30 composed of an amplifier 4, a relay driving circuit 8 in which driving is selected by a band selection signal of a CPU 20 that recognizes band selection, and the relay driving circuit ( A switching circuit 10 which is operated by driving of 8) and is composed of a relay RY for selectively applying RF signals of the C-band and KU-band of the input terminals I1 and I2 to the RF amplifier 1. It is configured to be connected to the front end of the satellite broadcast receiving tuner 30.

In the present invention configured as described above, when the user presses a C-band selection terminal such as a remote control transmitter, which is not shown, to receive the C-band satellite broadcast during the C-band and KU-band satellite broadcasting, the CPU 20 in the TV receiver receives this. By sensing and applying a band selection signal to the relay driving circuit 8 of the switching circuit 10, the relay driving circuit 8 is activated. Accordingly, the relay RY is driven so that the relay contact C contacts the contact a. It is connected to the to receive the satellite broadcast of the C-band applied to the input terminal (I1) connected to the contact (a).

In addition, if the KU-band selection terminal of the remote control transmitter is pressed to receive the KU-band satellite broadcast, the CPU 20 in the TV receiver also detects this and changes the control signal according to the band selection to be relayed in the CPU 20. By applying to the driving circuit 8, the operation of the relay driving circuit 8 is changed and accordingly the driving of the relay RY is changed so that the relay contact C is switched to the contact b while the relay contact C is connected to the contact a. The KU-band satellite broadcast of the input terminal 12 connected to the contact point b can be received.

As such, the input RF signal for each band selected by the switching operation of the relay RY is applied to the RF amplifier 1 of the tuner circuit 30 for general satellite broadcasting reception through the relay RY contact C. In the general satellite broadcast receiving tuner circuit 30, a signal is transmitted by a signal transmission method as in the related art. However, as both satellite broadcasts of two bands are selected, the CPU 20 adjusts the tuning voltage to adjust the voltage controlled oscillator (7). ) Is applied.

In other words, when the C-band RF signal is received, the tuning frequency generated by the CPU 20 is applied to the voltage controlled oscillator 7 when the tuning is performed. The oscillation frequency is determined and applied to the mixer 2, and the mixer In 2), the RF signal amplified by the front end RF amplifier 1 and the oscillation frequency generated by the voltage controlled oscillator 7 are mixed and applied to the band pass filter 3 so that the band pass filter 3 is mixed. Only the IF signal of the signal components is filtered.

That is, the reception channel for receiving the C-band input signal is selected here.

When the RF input signal of the KU-band is received, the channel must be switched and the oscillation frequency is determined by applying the tuning voltage of the CPU 20 to the control oscillator 7 accordingly.

Therefore, in the same way as in the C-band, the mixer 2 mixes the amplified RF signal and oscillation frequency of the KU-band, and the mixed signal is filtered by the band pass filter 3 to generate an IF signal. To be chosen.

The IF signal for the reception channel of each band thus selected is amplified by the IF amplifier 4 and fed back by the automatic gain controller 5 so that the gain of the amplified IF signal is stabilized and applied to the demodulator 6. .

The demodulator 6 separates the input IF amplified signal into an image frequency signal and an audio frequency signal and outputs the same through an output terminal OUT.

As such, the switching circuit 10 is tuned to drive the switching operation of two input terminals I1 and I2 and a relay RY to select the two satellite broadcasts of the C-band and the KU-band. By inserting the inside of the woofer, the user can select both satellite broadcasts without the inconvenience of changing the input terminal, and the switching circuit 10 is inserted inside the tuner, thereby simplifying the connection line and reducing the price, The switching circuit can be eliminated, so that the appearance can be exquisitely provided.

Claims (1)

A mixer 2 for mixing an RF signal amplified by the RF amplifier 1 and the oscillation frequency of the voltage controlled oscillator 7 and outputting an IF signal through the LNB, and a band pass filter outputted from the mixer 2. In the satellite broadcast reception tuner 30 constituted by the IF amplifier 4 whose amplification is applied to the demodulator 6 and the gain is controlled by the automatic gain controller 5, the band selection is performed. The relay driving circuit 8 is controlled by the band selection signal of the CPU 20, and the relay driving circuit 8 is operated by driving the relay driving circuit 8 and receives the RF signals of the input terminals I1 and I2. Band switching circuit of the satellite broadcasting reception tuner, characterized in that the switching circuit 10 consisting of a relay (RY) for selectively applying to the RF amplifier (1) connected to the front end of the satellite broadcasting reception tuner (30) .