KR970007889B1 - A receiver tuner for satellite broadcast and cable broadcast - Google Patents

Abstract

The oscillation frequency and the phase of a first and a second local oscillator are controlled simultaneously and a first local oscillator is used as a tuner in common for both satellite and cable broadcasting. The tuner is composed of varistor BPF(40), the first BPF(5), a first local oscillator(100), and a second local oscillator(140). A first local oscillator includes oscillator(104), divider(105) which divides output of the oscillator, phase detector(106) which compares the reference frequency with the output of the divider, and loop filter(107) which controls the oscillator.A second oscillator includes oscillator(141), divider(142), phase detector(143), and loop filter(144).

Description

Satellite and cable tuner

1 is a schematic diagram of a satellite and cable broadcast tuner according to the present invention.

2 is a schematic diagram of a conventional satellite and cable broadcast tuner.

* Explanation of symbols for main parts of the drawings

10: first switch 20: first amplifier

30: first automatic gain controller 40: varistor band pass filter

50: first band filter 60: second amplifier

70 second automatic gain controller 80 second band filter

90: second switch 100: the first local oscillator

101: satellite broadcasting oscillator 102: cable broadcasting oscillator

103: third switch 104: oscillator

105: frequency divider 106: phase detector

107 loop filter 110 first mixer

120: first intermediate frequency amplifier 130: third band filter

140: second local oscillator 141: oscillator

142: frequency divider 143: phase detector

144 loop filter 150 second mixer

155: second intermediate frequency amplifier 160: fourth band filter

170: automatic gain detector 180: tuning circuit

190: mood oscillator 200: demodulation circuit

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a tuner for both satellite and cable broadcasting. In particular, the oscillation frequency and phase of the first local oscillator and the second local oscillator used in the tuner are controlled at the same time while the first local oscillator is one oscillator. The present invention relates to a satellite tuner and a cable broadcast tuner.

In general, satellite broadcasting holds video signals up to 4.5MHz, and audio signals use PCM audio signals to phase modulate audio carriers 5.7MHz to FM modulate the video signals and audio signals. 12GHz is used.

By FM modulation and transmission as described above, it becomes stronger to noise and distortion and obtains high picture quality.

The reception of the satellite broadcast is arranged to focus the parabola so that the radio wave received by the parabola antenna starting from the parabola receiving antenna is collected in the primary copier. Until this stage, circularly polarized waves are converted into linearly polarized waves, which are then converted into a first intermediate frequency of 12 GHz to 1 GHz by the BS converter.

The BS converter drops the received 12 GHz to 1 GHz to reduce the loss by coaxial cable to the BS tuner. The higher the frequency, the greater the loss of the cable. If the gain of the preamplifier is high, the mixer and the noise figure after the frequency conversion can be ignored.

On the other hand, cable broadcasting was originally set up to solve the astigmatism, and in the 1970s, cable television was rapidly used by using a distribution method by the head end of a certain area, that is, by means of the cable's distribution point again, using a communication satellite. Spread.

In the above-mentioned cable television, since satellite communication uses FM, the frequency bandwidth is 27-36 MHz, which is 4.5-6 times the terrestrial broadcast wave. In case of transmitting signals through cable television, there are two types of AM transmission method, which is the same as terrestrial wave, and FM transmission method which transmits in FM state.

In the FM transmission method, the intermediate frequency of the 1GHz band of the BS converter is transmitted as it is, and demodulated by the BS receiver on the receiving side, and modulated into a mid band of 180 to 170 MHz or a super high band of 222 to 470 MHz.

As shown in FIG. 2, a schematic configuration diagram of a conventional satellite broadcasting and cable broadcasting tuner for receiving the satellite broadcasting cable broadcasting includes: a first switch 10 for selecting a cable broadcasting signal; A first amplifier 20 for amplifying the cable broadcast signal input through the first switch 10, a first for automatically adjusting the gain so that the cable broadcast signal amplified and output from the first amplifier 20 is constant The desired channel is extracted from the satellite broadcasting signal output from the automatic gain controller 30, the bar list band filter 40 which extracts and outputs a desired channel from the cable broadcasting signal output from the first automatic gain controller 30, and the BS converter. A first band filter 50 to be output, a second amplifier 60 to amplify the channel signal output from the first band filter 50, and a channel signal amplified and output from the second amplifier 60 to be constant Gain auto The second automatic gain controller 70 for adjusting to the second, the second band filter 80 for removing the channel noise from the channel signal output from the second automatic gain controller 70 and outputs from the varistor band filter 40 A second switch 90 for selectively outputting the channel signal of the cable broadcasting signal and the channel signal of the satellite broadcasting signal output from the second band filter 80, and the oscillating frequency for satellite broadcasting and the oscillating frequency for cable broadcasting. A local oscillator 100 and the channel signal output through the second switch 90 and the oscillation frequency output from the first local oscillator 100 are mixed to remove the upper band signal and the first intermediate of the lower band signal. A first mixer 110 for outputting a frequency, an intermediate frequency amplifier 120 for amplifying and outputting a first intermediate frequency output from the first mixer 110, and a second amplifier amplified and output in the intermediate frequency amplifier 120 Frequency operation of 1 intermediate frequency In the third band filter 130 for removing the sound, the second local oscillator 140 for outputting the oscillation frequency, the first intermediate frequency and the second local oscillator 40 output from the third band filter 130 The second mixer 150 to remove only the upper band signal by mixing with the oscillation frequency output and to output only the second intermediate frequency of the lower band signal, and to remove the frequency noise of the second intermediate frequency output from the second mixer 150. Detects the gain of the output signal of the fourth band filter 160 and the fourth band filter 160 and outputs the demodulation circuit 200 to control the automatic gain control 30, 70 according to the detected gain. Controlling the automatic gain detector 170 and the varistor band filter 40 to output a control signal to select a cable broadcast signal channel, and controlling the first band filter 50 to select a satellite broadcast signal channel. On the other hand, for selecting the oscillation frequency of the first local oscillator 100 Outputting a control signal is configured to include a line Assembly 180. The

In the conventional satellite broadcasting and cable broadcasting combined tuner, when the cable broadcasting signal is selected and output through the first switch 10, the cable broadcasting signal input through the first switch 10 is the first amplifier 20. Amplified and output by the first automatic gain controller 30, the first automatic gain controller 30 automatically adjusts and outputs a gain so that the cable broadcast signal amplified and output from the first amplifier 20 is constant, and outputs the first automatic gain controller ( The cable broadcast signal output from 30 is extracted from the varistor band filter 40 and outputs a desired channel.

When a desired channel of the satellite broadcast signals output from the BS converter is extracted and output from the first band filter 50, the channel signal output from the first band filter 50 is amplified by the second amplifier 60. The automatic gain controller 70 automatically adjusts gain so that the channel signal amplified by the second amplifier 60 and output is constant, and the channel signal output from the second automatic gain controller 70 is a second band. The channel noise is removed from the filter 80 and output.

The channel signal of the cable broadcast signal output from the varistor band filter 40 and the channel signal of the satellite broadcast signal output from the second band filter 80 are output only one signal selectively from the second switch 90, This signal is mixed in the oscillation frequency output from the first local oscillator 100 and the first mixer 110 so that the upper band signal is removed and only the first intermediate frequency of the lower band signal is output. The intermediate frequency amplifier 120 amplifies and outputs the first frequency, and the first intermediate frequency amplified and output from the intermediate frequency amplifier 120 is output by removing frequency noise from the third band filter 130. The first intermediate frequency output from the third band filter 130 and the oscillation frequency output from the second local oscillator 40 are mixed in the second mixer 150 to remove the upper band signal, and to remove the second band signal. Only intermediate frequencies are output.

The second intermediate frequency is output to the demodulation circuit 200 by removing the frequency noise from the fourth band filter 160, and is output to the automatic gain detector 170 to control the automatic gain controllers 30 and 70. You can do it.

On the other hand, the channel selection circuit 180 controls the varistor band filter 40 to select a cable broadcast signal channel, and controls the first band filter 50 to select a satellite broadcast signal channel, The oscillation frequency of the local oscillator 100 is controlled.

However, as the first local oscillator 100 and the second local oscillator 140 are operated separately as described above, the oscillation frequency and the phase difference between the first local oscillator 100 and the second local oscillator 140 are generated and phased. There was a problem that a lot of noise occurs.

In addition, the first local oscillator 100 is the oscillation frequency output from the satellite broadcasting oscillator 101, the cable broadcasting oscillator 102 and the satellite broadcasting oscillator 101 and the oscillation frequency output from the cable broadcasting oscillator 102 Since the oscillation frequency is selectively output and the third switch 103 is configured to selectively output the oscillation frequency output from the cable broadcasting oscillator 102, two oscillators are required, and the hardware configuration is complicated as well. There was a problem of rising costs.

Accordingly, the present invention is to solve the above-mentioned conventional problems, while simultaneously controlling the oscillation frequency and phase of the first local oscillator and the second local oscillator used in the tuner, while the first local oscillator The purpose is to provide a satellite and cable broadcast tuner consisting of one oscillator.

Satellite and cable broadcast tuner of the present invention for achieving the above object, by comparing the oscillation frequency of the first local oscillator used in the tuner according to the control signal of the tuning circuit to compare the phase with the reference frequency output from the reference oscillator Next, the DC voltage is input to the first local oscillator again to control the first local oscillator according to the detected phase difference through the loop filter, while the oscillation frequency of the second local oscillator is divided to divide the reference frequency and the phase output from the reference oscillator. After comparison, the DC voltage is inputted to the second local oscillator to control the second local oscillator according to the phase difference detected through the loop filter, thereby simultaneously controlling the oscillation frequency and phase of the first local oscillator and the second local oscillator. In addition, the frequency divider of the first local oscillator is controlled by a control signal of a tuning circuit so that the first local oscillator Songyong oscillation frequency and cable broadcasting is characterized in that the oscillation scanning pureul to output respectively.

That is, a gain is automatically adjusted so that a first switch for selecting a cable broadcast signal, a first amplifier for amplifying the cable broadcast signal input through the first switch, and a cable broadcast signal amplified and output from the first amplifier are constant. A first automatic gain controller for controlling a signal, a bar list band filter for extracting and outputting a desired channel from the cable broadcasting signal output from the first automatic gain controller, and a second channel for extracting and outputting a desired channel from the satellite broadcasting signal output from the BS converter. A first band filter, a second amplifier for amplifying the channel signal output to the first band filter, a second automatic gain controller for automatically adjusting the gain so that the channel signal amplified and output from the second amplifier is constant and the second automatic A second band filter for removing channel noise among the channel signals output from the gain controller and outputting the cable band output from the varistor band filter. A second switch for selectively outputting a channel signal of the signal and a channel signal of the satellite broadcasting signal output from the second band pass filter, a first local oscillator for outputting an oscillation frequency for satellite broadcasting and an oscillation frequency for cable broadcasting, and the second switch A first mixer which removes an upper band signal by mixing the channel signal outputted through the oscillation frequency output from the first local oscillator and outputs a first intermediate frequency of the lower band signal; a first intermediate output from the first mixer A first intermediate frequency amplifier for amplifying and outputting a frequency; a third band filter for removing frequency noise of the first intermediate frequency amplified and output from the first intermediate frequency amplifier; and a second local oscillator for outputting an oscillation frequency; The upper band signal is removed by mixing the first intermediate frequency output from the 3-band filter and the oscillation frequency output from the second local oscillator, and the lower band signal A second mixer for outputting only a second intermediate frequency of the second mixer; a second intermediate frequency amplifier for amplifying and outputting a second intermediate frequency output from the second mixer; and a frequency noise of a second intermediate frequency output from the second intermediate frequency amplifier A fourth band filter outputting the demodulation circuit by removing the signal and a second band frequency output from the fourth band filter, and outputting a control signal for controlling the automatic gain controller according to the detected gain. A control signal for selecting a cable broadcasting signal channel by controlling the gain detector and the varistor band filter, selecting a satellite broadcasting signal channel by controlling the first band filter, and selecting a oscillation frequency of the first local oscillator. In a satellite and cable broadcast tuner including an output tuning circuit, the first local oscillator outputs an oscillation frequency. And a divider for dividing and outputting the oscillation frequency according to a control signal of a tuning circuit, a phase detector for outputting a phase comparison between a reference frequency and a signal divided and output from the divider, and a phase difference from the signal output from the phase detector. The second local oscillator comprises: an oscillator for outputting an oscillation frequency, a divider for dividing and outputting the oscillation frequency, a reference frequency and the divider; A phase detector which compares the oscillation frequency divided by the period and outputs the phase, a loop filter which detects a phase difference from the signal output from the phase detector and outputs a DC voltage according to the phase difference, wherein the first local oscillator or the first And a reference oscillator for outputting a reference frequency input to each phase detector of the two local oscillators.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

1 is a schematic configuration diagram of a tuner for both satellite and cable broadcasting according to the present invention, and includes a first switch 10 for selecting a cable broadcast signal and a cable broadcast signal input through the first switch 10. A first amplifier 20 for amplifying the first, a first automatic gain controller 30 for automatically adjusting the gain so that the cable broadcast signal amplified and output from the first amplifier 20, the first automatic gain controller ( A varistor band filter 40 which extracts and outputs a desired channel from the cable broadcasting signal output from 30), a first band filter 50 which extracts and outputs a desired channel from the satellite broadcasting signal output from the BS converter, and the first band A second amplifier 60 for amplifying the channel signal output from the filter 50, the second automatic gain controller 70 for automatically adjusting the gain so that the channel signal amplified and output from the second amplifier 60 is constant , The second automatic gain controller ( A second band filter 80 which removes and outputs channel noise among the channel signals output from the 70 signal, and outputs the channel signal of the cable broadcasting signal output from the varistor band filter 40 and the second band filter 80 A second switch 90 for selectively outputting a channel signal of the satellite broadcast signal, a first local oscillator 100 for outputting a satellite broadcasting oscillation frequency and a cable broadcasting oscillation frequency, and outputted through the second switch 90 The first mixer 110 and the first mixer 110 which remove the upper band signal by mixing the channel signal and the oscillation frequency output from the first local oscillator 100 and output the first intermediate frequency of the lower band signal. A first intermediate frequency amplifier 120 amplifying and outputting the first intermediate frequency output from the third band filter to remove frequency noise of the first intermediate frequency amplified and output from the first intermediate frequency 120 ( 130) to output the oscillation frequency By mixing the first local frequency output from the second local oscillator 140 and the third band filter 130 and the oscillation frequency output from the second local oscillator 40, the upper band signal is removed and the lower band signal A second mixer 150 for outputting only two intermediate frequencies, a second intermediate frequency amplifier 155 for amplifying and outputting a second intermediate frequency output from the second mixer 150, and the second intermediate frequency amplifier 155 The automatic gain controller extracts a gain from the output signal of the fourth band filter 160 and the fourth band filter 160 to remove the frequency noise of the second intermediate frequency output from the output to the demodulation circuit 200 By controlling the automatic gain detection unit 170 and the varistor band filter 40 for outputting a control signal for controlling the 30 and 70, the cable broadcast signal channel is selected, and the first band filter 50 is controlled. Selecting the satellite broadcast signal channel, the first local oscillator 100 And a tuning circuit 180 for outputting a control signal for selecting a true frequency.

In addition, the first local oscillator 100 divides the oscillator 104 for outputting the oscillation frequency and the divider 105 for dividing the oscillation frequency according to the control signal of the tuning circuit 180, the reference frequency and the The mixer 106 which divides and outputs the oscillation frequency divided by the divider 105 and outputs the phase difference from the signal output from the phase detector 106, and outputs a DC voltage according to the phase difference to output the oscillator. The second local oscillator 140 includes an oscillator 141 for outputting an oscillation frequency, a divider 142 for dividing the oscillation frequency, and outputting the oscillation frequency. Phase detector 143 for comparing the reference frequency and the oscillation frequency divided and output from the frequency divider 142 and outputting the phase difference from the signal output from the phase detector 143, the DC voltage according to the phase difference To output It consists of a loop filter 144 for controlling the oscillator 141, and comprises a reference oscillator 190 for outputting a reference frequency input to each phase detector (106, 143) of the local oscillator (100, 140). .

Hereinafter will be described in detail the operation and effects of the present invention configured as described above.

When the cable broadcast signal is selected and output through the first switch 10, the cable broadcast signal input through the first switch 10 is amplified and output from the first amplifier 20, and the first automatic gain controller ( 30 automatically adjusts and outputs a gain such that the cable broadcast signal amplified by the first amplifier 20 is constant, and the cable broadcast signal output from the first automatic gain controller 30 is a varistor band filter ( In 40), a desired channel is extracted and output.

When a desired channel of the satellite broadcast signals output from the BS converter is extracted and output from the first band filter 50, the channel signal output from the first band filter 50 is amplified by the second amplifier 60. The automatic gain controller 70 automatically adjusts the movement so that the channel signal amplified and output from the second amplifier 60 is constant, and the channel signal output from the second automatic gain controller 70 is a second band. The channel noise is removed from the filter 80 and output.

The channel signal of the cable broadcast signal output from the varistor band filter 40 and the channel signal of the satellite broadcast signal output from the second band filter 80 are output only one signal selectively from the second switch 90, This signal is mixed with the oscillation frequency output from the first local oscillator 100 and the first mixer 110 to remove the upper band signal, and only the first intermediate frequency of the lower band signal is output. The first intermediate frequency amplifier 120 amplifies and outputs the first frequency, and the first intermediate frequency amplified and output from the first intermediate frequency amplifier 120 removes frequency noise from the third band filter 130. The first intermediate frequency output from the third band filter 130 and the oscillation frequency output from the second local oscillator 40 are mixed in the second mixer 150 to remove the upper sideband signal, and to remove the lower sideband. Only the second intermediate frequency of the signal is output.

The second intermediate frequency is amplified by the second intermediate frequency amplifier 155, the frequency noise is removed from the fourth band filter 160, and output to the demodulation circuit 200, while the automatic gain detector 170 It is output to control the automatic gain controller (30, 70).

The tuning circuit 180 controls the varistor band filter 40 to select a cable broadcast signal channel, and controls the first band filter 50 to select a satellite broadcast signal channel. The oscillation frequency of the local oscillator 100 is controlled.

On the other hand, the first local oscillator 100, the oscillation frequency of the oscillator 104 in accordance with the control signal of the tuner circuit 180 and the frequency divided by the reference frequency output from the frequency divider reference oscillator 190 The phase comparator 106 compares the phase and applies the DC voltage back to the oscillator 104 according to the phase difference detected through the loop filter 107 to control the oscillator 104, while the second local oscillator 140 oscillator The oscillation frequency of 141 is divided and phase compared with the reference frequency output from the reference oscillator 190, and then the DC voltage is applied to the oscillator 141 again according to the phase difference detected through the loop filter 144 to generate an oscillator ( 141 to control the number of oscillations and phases of the oscillations 140 and 141 at the same time, and the divider 105 is controlled by the control signal of the tuning circuit 180 so that the oscillator 104 is a satellite. Output oscillation frequency for broadcasting and oscillation frequency for cable broadcasting respectively It can be.

As described above, according to the present invention, the oscillation frequency and phase of the first local oscillator and the second local oscillator used in the tuner are simultaneously controlled at the same time, while the first local oscillator is composed of one oscillator, In addition to eliminating phase noise, the first local oscillator can be simply configured, thereby lowering the manufacturing cost.

Claims (1)

A varistor band filter 40 for extracting and outputting a desired channel from the cable broadcasting signal output from the first automatic gain controller 30, and a first band filter for extracting and outputting a desired channel from the satellite broadcasting signal output from the BS converter ( 50), a satellite and cable broadcast tuner comprising a first oscillator 100 for outputting an oscillation frequency for satellite broadcasting, an oscillation frequency for cable broadcasting, and a second local oscillator 140 for outputting an oscillation frequency; The first local oscillator 100 includes an oscillator 104 for outputting an oscillation frequency, a divider 105 for dividing the oscillation frequency according to a control signal of a tuning circuit 180, a reference frequency and the Phase difference is detected from the phase detector 106 for comparing and outputting the signal divided and output from the divider 105 and the signal output from the phase detector 106, and the DC voltage is phased according to the phase difference. It consists of a loop filter 107 is applied to the oscillator 104 to control the oscillator 104, the first local oscillator 140 is an oscillator 141 for outputting an oscillation frequency and the oscillation frequency Phase difference from the signal output from the phase detector 143 and the signal output from the phase detector 143 by dividing and outputting the phase frequency divider 142, the reference frequency and the signal divided and output from the frequency divider 142 And a loop filter 144 for controlling the oscillator 141 by applying a DC voltage to the oscillator 141 according to the phase difference, and is input to each phase detector 106 or 143 of the local oscillator 100 or 140. Combined satellite and cable broadcast tuner, characterized in that it comprises a reference oscillator (190) for outputting a reference frequency.