JP2632269B2 - Signal processor for retransmission transmission in joint hearing system - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a signal processor for retransmission transmission used for fixed co-channel conversion at a head end of a joint hearing system, for example.

[0002]

2. Description of the Related Art Conventionally, there is a signal processor for retransmission transmission in a joint hearing system as shown in FIG. In FIG. 4, a television broadcast signal input from an input terminal 101 is mixed with a local oscillation signal after being amplified by a first amplifier 102. This local oscillation signal is supplied from the PLL local oscillation unit X via the distributor 111 to the first local oscillation signal.
It is supplied to the mixer 103. The PLL local oscillating unit X includes a voltage controlled oscillating unit 113 that generates a local oscillating signal, a frequency divider 114 that divides the local oscillating signal from the voltage controlled oscillating unit 113 branched by the splitter 112, and a frequency dividing unit. Vessel 1
The divided signal and the reference signal from 14 and the phase comparator, and a phase comparator 115 that controls the voltage controlled oscillator 113 in accordance with the comparison value. This reference signal is generated by dividing the signal from reference signal oscillator 117 by frequency divider 116. A sum signal or a difference signal of the amplified television broadcast signal and the local oscillation signal by the first mixer 103 is separated into a video intermediate frequency signal and an audio intermediate frequency signal by a separator 104, and the first and the second signals are respectively separated. Second
The amplification is adjusted by the amplification adjustment units 105 and 106, and is synthesized by the synthesizer 107. The synthesized intermediate frequency signal at the second mixer 108, subjected through the distributor 111
The difference signal or the sum signal of the sheet has been station unit oscillating signal. That is, it has the same frequency as the input television broadcast signal. The difference signal or the sum signal is amplified by the amplifier 109 and output from the output terminal 110.

[0003]

By the way, in the above-mentioned conventional apparatus, the frequency band of the intermediate frequency signal IF is generally 54 to 60 MHz which is the same as the intermediate frequency signal band of the television receiver.
The z band is used. In this case, a specific channel cannot be converted. For example, 108-114 MHz
In the mid-band c13 channel, which is the frequency band of, the problem that high frequency distortion twice as large as the intermediate frequency signal IF occurs as a spurious signal in the output band has occurred.

SUMMARY OF THE INVENTION The present invention has been made in view of the above-mentioned conventional problems.
It is an object of the present invention to provide a signal processor for retransmission transmission in a joint hearing system capable of converting any frequency in a frequency band transmitted to a V line.

[0005]

Means for Solving the Problems The present first inventions, the input and output channels are the same channel, co acousto-optic A retransmission transmission signal processor in the system, the television broadcast which is input from the input terminal A first mixer that mixes a signal with a first local oscillation signal to convert the signal into a first intermediate frequency signal, a first local oscillator that generates the first local oscillation signal, and a frequency-converted first intermediate frequency signal To separate the first and second audio signals into a video first intermediate frequency signal and an audio first intermediate frequency signal.
A second amplification adjuster, a synthesizer for synthesizing the respective amplified and adjusted signals, and a second higher than the transmission frequency of the joint hearing system by mixing the synthesized signal and a second local oscillation signal. A second mixer for converting the signal into an intermediate frequency signal, a second local oscillator for generating the second local oscillation signal, and a signal obtained by summing a signal from the first local oscillator and a signal from the second local oscillator. A third mixer that generates a third local oscillation signal, a fourth mixer that mixes the third local oscillation signal and the second intermediate frequency signal and converts the frequency, and outputs an output signal of the fourth mixer. And an output terminal.

[0006] Also, the second inventions, input and output channels are the same channel, co acousto-optic A retransmission transmission signal processor in the system, the television broadcast signal and the first input from the input terminal A first mixer that mixes the local oscillation signal and converts it into a first intermediate frequency signal, and a second mixer that generates a difference signal between the third and second local oscillation signals to generate the first local oscillation signal. A separator for separating the frequency-converted first intermediate frequency signal into a video first intermediate frequency signal and an audio first intermediate frequency signal; and first and second amplification adjustments for amplifying and adjusting the separated signals. Unit, a combiner for combining the respective amplified and adjusted signals, a third mixer for mixing the combined signal and the second local oscillation signal, and a second local unit for generating the second local oscillation signal Oscillator and The output signal of the third mixer, the joint acousto-optic second higher than the transmission frequency of the system
A fourth mixer that mixes an intermediate frequency signal and a third local oscillation signal; a third local oscillator that generates the third local oscillation signal; and an output terminal that outputs an output signal of the fourth mixer. Things.

Furthermore, the third inventions, the input and output channels are the same channel, co acousto-optic A retransmission transmission signal processor in the system, a television broadcast signal input from the input terminal first a first mixer for converting the first intermediate frequency signal by mixing a local oscillation signal, a first local oscillator for generating said first local oscillation signal, the upper Symbol first intermediate frequency signal which is frequency converted image A separator for separating the first intermediate frequency signal and the audio first intermediate frequency signal, first and second amplification adjustment units for amplifying and adjusting the separated signals, and synthesizing the respective amplified and adjusted signals. A combiner, a third mixer for mixing the combined signal and the second local oscillation signal, and a third mixer for generating a difference signal between the third and first local oscillation signals to generate the second local oscillation signal. 2
A fourth mixer for mixing a second intermediate frequency signal, which is an output signal of the third mixer and higher than a transmission frequency of the co-listening system, and a third local oscillation signal;
A third local oscillation section for generating a local oscillation signal; and an output terminal for outputting an output signal of the fourth mixer.

[0008]

According to the present first inventions uses a higher frequency than the transmission frequency of the co acousto-optic system to a second intermediate frequency signal, the television broadcast signal is input, a first local oscillation signal
The signals are mixed by a first mixer , separated by a separator into a video first intermediate frequency signal and an audio first intermediate frequency signal, respectively amplified and adjusted, and then synthesized by a synthesizer. The combined signal is mixed with the second local oscillation signal and the second mixer, converted into a second intermediate frequency signal, and then the third local oscillation signal which is a sum signal of the first local oscillation signal and the second local oscillation signal. The signal and the second intermediate frequency signal are mixed, and an output signal having the same frequency as the input frequency is output from the output terminal.

[0009] In the present second inventions, uses a frequency higher than the transmission frequency of the co acousto-optic system to a second intermediate frequency signal, the television broadcast signal input, the third local oscillation signal and the The first local oscillation signal, which is the difference signal between the two local oscillation signals, is mixed in the first mixer, and the first
The intermediate frequency signal and the audio first intermediate frequency signal are separated, amplified and adjusted, and synthesized by a synthesizer. The synthesized signal is mixed with the second local oscillation signal by the third mixer and converted into a second intermediate frequency signal. Then
The second intermediate frequency signal is mixed with the third local oscillation signal by the fourth mixer, and an output signal having the same frequency as the input frequency is output from the output terminal.

Furthermore, in this third inventions, uses a frequency higher than the transmission frequency of the co acousto-optic system to a second intermediate frequency signal, the television broadcast signal input, the first local oscillation signal and the 1 Miki Sa engaged mixed in, the separator is separated into a video first intermediate frequency signal and the audio first intermediate frequency signal,
Each is amplified and adjusted, and synthesized by a synthesizer. The combined signal is mixed with a second local oscillation signal, which is a difference signal between the third local oscillation signal and the first local oscillation signal, and is converted into a second intermediate frequency signal. Then, this second
The intermediate frequency signal is mixed with the third local oscillation signal by the fourth mixer, and an output signal having the same frequency as the input frequency is output from the output terminal.

[0011]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS A first embodiment according to the present invention will be described with reference to the drawings. FIG. 1 is a block diagram of the first embodiment.
In FIG. 1, 1 is an input terminal, 2 is an input signal amplifier, 3
Is a first mixer, 4 is a branching device, 5 is a branching device, 6 is a voltage controlled oscillator, 7 is a frequency divider, 8 is a phase comparator, 9 is a frequency divider, 1
0 is a reference signal oscillator, 11 is a separator, 12 is a video first intermediate frequency amplification adjustment unit, 13 is an audio first intermediate frequency amplification adjustment unit, 14 is a synthesizer, 15 is a second mixer, 16 is a branching device,
17 is a second local oscillator, 18 is a second intermediate frequency amplifier, 1
9 is a fourth mixer, 20 is an output signal amplifier, 21 is an output terminal, 22 is a third mixer, 23 is a bandpass filter, X
Is a PLL local oscillator.

Next, the operation of the first embodiment will be described. In FIG. 1, for example, a television broadcast signal R having a transmission band of 90 to 550 MHz input from an input terminal 1 is shown.
Fin is amplified by the input signal amplifier 2. This amplified signal is mixed with the first local oscillation signal f _LI passing through the branching unit 4 from the PLL local oscillation unit X and the first intermediate frequency signal IF ₁ that becomes f _LI −RFin by being mixed by the first mixer 3.
Is frequency-converted. The first intermediate frequency signal IF ₁ frequency-converted is separated more video first intermediate frequency signal and the audio first intermediate frequency signal to the separator 11. The video first intermediate frequency signal is amplified and adjusted by the video first intermediate frequency amplification adjustment unit 12, and the audio first intermediate frequency signal is amplified and adjusted by the audio first intermediate frequency amplification adjustment unit 13.
This amplification adjustment is used, for example, when the audio level and the video level are different from the predetermined values, or for intentionally lowering the audio level from the predetermined value in order to send the output channel adjacently. Here, the PLL local oscillating unit X will be described. A voltage controlled oscillating unit 6 for generating a local oscillating signal and a frequency divider for dividing the local oscillating signal from the voltage controlled oscillating unit 6 branched by the splitter 5 7
And a phase comparator 8 that compares the phase of the frequency-divided signal from the frequency divider 7 with the reference signal, and controls the voltage-controlled oscillator 6 according to the comparison value. It is generated by dividing the signal from the signal oscillator 10 by the frequency divider 9.

The amplified first video intermediate frequency signal and audio first intermediate frequency signal are combined by a combiner 14. This synthesized signal is combined with the second local oscillation signal f _L2 coming from the second local oscillator 17 through the branching device 16 and the second local oscillation signal f _L2 .
Are mixed in a mixer _15, is frequency-converted into second intermediate frequency signal IF ₂ as the IF 1 _{+ f L2.} The second intermediate-frequency
Signals I F ₂ are co acousto-optic has been converted to a higher frequency than the transmission frequency of the system, it is amplified by a second intermediate frequency amplifying unit 18. The amplified second intermediate-frequency signal
Includes a second local oscillation signal f _L2 which is branched from the splitter 16 and the first local oscillation signal f _LI which is branched from the branching unit 4 adds the third mixer 22, a band-pass filter 23
And the fourth local oscillator signal f _L3 passing through the third mixer 19
, And frequency-converted to a frequency of f _L3 −IF ₂ . The frequency-converted signal is amplified by the output signal amplifying unit 20 and output from the output terminal 21 as the output signal RFout. That is, it is converted to the same frequency as the input television broadcast signal RFin.

From the above conversion steps, f _LI -RFin = IF ₁ IF ₁ + f _L2 = IF ₂ f _L3 −IF ₂ = RFout Since RFin = RFout, f _L3 = f _LI from the above equation (3). The relationship of + f _L2 holds.

In a signal processor having the same input / output frequency, if a difference occurs in the carrier frequency of the input / output television broadcast signal, the same channel beat occurs in the image of the joint viewing system terminal. In the signal processor according to the present invention, since the third local oscillation signal is created from the sum signal of the first local oscillation signal and the second local oscillation signal, the first local oscillation signal is generated due to a temperature change around the device. Even when a frequency change occurs in the local oscillation signal and the second local oscillation signal, they are canceled by the third local oscillation signal, and the equipment input / output television broadcast signal carrier waves completely match,
In the joint hearing system terminal, the same channel beat does not occur in the image. The second embodiment differs from the first embodiment in that the first local oscillation signal is the difference between the third local oscillation signal and the second local oscillation signal. The third embodiment is different from the third embodiment in that the second local oscillation signal is the difference between the third local oscillation signal and the first local oscillation signal.

A second embodiment of the present invention will be described with reference to the drawings. FIG. 2 is a block diagram of the second embodiment. In FIG. 2, 31 is an input terminal, 32 is an input signal amplifying unit, 33 is a first mixer, 34 is a separator, 35 is a video first intermediate frequency amplification adjusting unit, 36 is an audio first intermediate frequency amplification adjusting unit, 37 Is a combiner, 38 is a third mixer, 39 is a branching device, 40 is a second local oscillator, 41 is a second intermediate frequency amplifier, 42 is a fourth mixer, 43 is a branching device, 44 is a branching device,
45 is a voltage controlled oscillator, 46 is a frequency divider, 47 is a phase comparator, 48 is a frequency divider, 49 is a reference signal oscillator, 50 is an output signal amplifier, 51 is an output terminal, 52 is a second mixer, 53
Is a bandpass filter, and X is a PLL local oscillator.

Next, the operation of the second embodiment will be described. In FIG. 2, a television broadcast signal RFin input from an input terminal 31 is amplified by an input signal amplifier 32. This amplified signal is the first local oscillation signal f _L1
And the first intermediate frequency signal IF ₁
, And sent to the separator 34. The frequency-converted first intermediate frequency signal IF ₁ is separated by the separator 34 into a video first intermediate frequency signal and an audio first intermediate frequency signal. The video first intermediate frequency signal is amplified and adjusted by the video first intermediate frequency amplification adjustment unit 35, and the audio first intermediate frequency signal is amplified and adjusted by the audio first intermediate frequency amplification adjustment unit 36. This amplification adjustment is used, for example, when the audio level and the video level are different from the predetermined values, or for intentionally lowering the audio level from the predetermined value in order to send the output channel adjacently. Here, the first local oscillation signal f _L1 is converted by the second mixer 52 into the third local oscillation signal f _L from the PLL local oscillation section X.
_{From L3} , the second local oscillation signal f from the second local oscillator 40
_This is a signal obtained by passing the signal obtained by subtracting _L2 through the band-pass filter 53.

The amplified first video intermediate frequency signal and audio first intermediate frequency signal are combined by a combiner 37. The synthesized signal is combined with the second local oscillation signal f _L2 coming from the second local oscillator 40 through the branch 39 and the third local oscillation signal f _L2 .
Is frequency-converted into second intermediate-frequency signal IF ₂ are mixed in a mixer 38. The second intermediate frequency signal IF ₂ is converted to a frequency higher than the transmission frequency of the co acousto-optic system, is amplified by a second intermediate frequency amplifying unit 41. The second intermediate-frequency signal is amplified I F ₂ is mixed third local oscillation signal f _L3 having passed through the PLL local oscillator X or <br/> et splitter 43 and the fourth mixer 42. Then, the mixed output signal RFout is amplified by the output signal amplifier 50 and output from the output terminal 51. Here, the PLL local oscillating unit X will be described. 46, and a phase comparator 47 that compares the phase of the frequency-divided signal from the frequency divider 46 with the reference signal and controls the voltage-controlled oscillator 45 in accordance with the comparison value. It is generated by dividing the signal from the reference signal oscillator 49 by the frequency divider 48.

From the above conversion steps, f _L1 −RFin = IF ₁ IF ₁ + f _L2 = IF ₂ f _L3 −IF ₂ = RFout Since RFin = RFout, f _L1 = f _L3 from the above equation ( _3). −f _L2 holds.

As described above, due to the above equation, the carrier frequencies of the input and output television broadcast signals are completely the same, and the co-viewing system terminal does not generate the same channel beat in the image.

Next, a block diagram of the third embodiment is shown in FIG. 3, reference numeral 61 denotes an input terminal, 62 denotes an input signal amplifying unit, 63 denotes a first mixer, 64 denotes a splitter, 65 denotes a splitter, 66 denotes a voltage controlled oscillator , 67 denotes a phase comparator, 68,
69 is a frequency divider, 70 is a reference signal oscillator , 71 is a separator,
72 The first intermediate peripheral Namizo width adjusting unit image, 73 the first intermediate peripheral Namizo width adjusting unit voice, 74 synthesizer, 75 the third mixer,
76 is a bandpass filter, 77 is a second mixer, 78 is a second intermediate frequency amplifier, 79 is a fourth mixer, 80 is a branching device, 81 is a first local oscillator, 82 is an output signal amplifier, 8
3 is an output terminal, and X is a PLL local oscillator.

As a third embodiment, a second mixer for generating a difference signal between the third local oscillation signal and the first local oscillation signal is provided in order to generate a second local oscillation signal, as shown in the second embodiment. The second local oscillation section for generating the second local oscillation signal is eliminated, and a first local oscillation section for generating the first local oscillation signal is provided. In that case, the other configuration is the same as that of the second embodiment.

[0023]

According to the present invention, when the input and output channels are the same, the third local oscillation signal is formed by the sum signal of the first and second local oscillation signals, or the first local oscillation signal is generated by the first local oscillation signal. By using the difference signal between the second and third local oscillation signals, or creating the second local oscillation signal using the difference signal between the first and third local oscillation signals and using the second intermediate frequency signal, The same channel conversion is possible at any frequency in the frequency band transmitted on the CATV line, and no spurious signal is generated in the output signal.

[Brief description of the drawings]

FIG. 1 is a block diagram of one embodiment of the present invention.

FIG. 2 is a block diagram of one embodiment of the present invention according to claim 2;

FIG. 3 is a block diagram of a third embodiment of the present invention;

FIG. 4 is a block diagram of a signal processor for retransmission transmission in a conventional joint hearing system.

[Explanation of symbols]

Reference Signs List 1 input terminal 3 first mixer 11 separator 12 video first intermediate frequency amplification adjustment unit (first amplification adjustment unit) 13 audio first intermediate frequency amplification adjustment unit (second amplification adjustment unit) 14 synthesizer 15 second Mixer 17 Second local oscillator 19 Fourth mixer 21 Output terminal 22 Third mixer 31 Input terminal 33 First mixer 34 Separator 35 Video first intermediate frequency amplification adjustment unit (first amplification adjustment unit) 36 Audio first intermediate Frequency amplification adjustment unit (second amplification adjustment unit) 37 Combiner 38 Third mixer 40 Second local oscillator 42 Fourth mixer 51 Output terminal 52 Second mixer X PLL local oscillator 61 Input terminal 63 First mixer 71 Separation Device 72 video first intermediate frequency amplification adjustment unit (first amplification adjustment unit) 73 audio first intermediate frequency amplification adjustment unit (second amplification adjustment unit) 74 synthesizer 75 third mixer 77 second mixer 9 fourth mixer 81 first local oscillator 83 output terminal

Claims (3)

(57) [Claims] An input / output channel is the same channel, a signal processor for retransmission transmission in a co-listening system, wherein a television broadcast signal input from an input terminal is mixed with a first local oscillation signal to generate a first local oscillation signal. A first mixer that converts the signal into an intermediate frequency signal, a first local oscillator that generates the first local oscillation signal, and a first frequency-converted first oscillator.
A separator that separates the intermediate frequency signal into a video first intermediate frequency signal and an audio first intermediate frequency signal; first and second amplification adjustment units that amplify and adjust the separated signals; A second mixer for mixing the synthesized signal and a second local oscillation signal and converting the mixed signal into a second intermediate frequency signal higher than the transmission frequency of the co-listening system; and 2nd local oscillator signal
A local oscillator, a third mixer for generating a third local oscillation signal comprising a sum signal of a signal from the first local oscillator and a signal from the second local oscillator, and the third local oscillation signal; Fourth, which performs frequency conversion by mixing with the second intermediate frequency signal
A signal processor for retransmission transmission in a joint hearing system, comprising: a mixer; and an output terminal for outputting an output signal of the fourth mixer. 2. A signal processor for retransmission transmission in a co-listening system, wherein the input and output channels are the same channel, wherein a television broadcast signal input from an input terminal and a first local oscillation signal are mixed. A first mixer for converting the signal into an intermediate frequency signal, a second mixer for generating a difference signal between a third and a second local oscillation signal for generating the first local oscillation signal, and a frequency-converted first mixer. A separator that separates the intermediate frequency signal into a video first intermediate frequency signal and an audio first intermediate frequency signal; first and second amplification adjustment units that amplify and adjust the separated signals; A combiner for combining the combined signal, a third mixer for mixing the combined signal and the second local oscillation signal,
A second local oscillator for generating the second local oscillation signal;
A fourth mixer that is an output signal of the third mixer and mixes a second intermediate frequency signal higher than a transmission frequency of the joint hearing system with a third local oscillation signal; and generates the third local oscillation signal. A signal processor for retransmission transmission in a joint hearing system, comprising: a third local oscillator; and an output terminal for outputting an output signal of the fourth mixer. 3. A signal processor for retransmission transmission in a co-listening system, wherein the input and output channels are the same channel, and wherein a television broadcast signal input from an input terminal is mixed with a first local oscillation signal . 1 intermediate a first mixer for converting the frequency signal, a first local oscillator for generating said first local oscillation signal, the upper Symbol first frequency-converted
A separator for separating the intermediate frequency signal to a video first intermediate frequency signal and the audio first intermediate frequency signal, a first, second amplification adjustment section for amplifying adjust their signals separated, each amplification adjustment A combiner for combining the combined signal, a third mixer for mixing the combined signal and the second local oscillation signal, and a third and a first local oscillation signal for generating the second local oscillation signal. A second mixer that generates a difference signal, a fourth mixer that mixes a second intermediate frequency signal that is an output signal of the third mixer and that is higher than a transmission frequency of the joint hearing system and a third local oscillation signal, A signal processor for retransmission transmission in a joint hearing system, comprising: a third local oscillation unit that generates the third local oscillation signal; and an output terminal that outputs an output signal of the fourth mixer.