RU94046427A - PARALLEL OPERATIONAL OUTPUT - Google Patents

Claims (18)

1. Parallel aperiodic frequency amplifiers receiving signals from the first detector through input filters for a television receiver containing a radio frequency amplifier for receiving a television signal including a radio frequency image carrier with a side band of amplitude modulation and a radio frequency sound carrier with a side band of frequency modulation, and the radio frequency the amplifier is made with the possibility of gain control by the corresponding control signal, characterized in that has a downconverter configured to generate an intermediate frequency output signal based on a received television signal, first, second, third and fourth adjustable amplifiers, each of which has a corresponding gain controlled by a corresponding control signal, the third adjustable amplifier being similar to the first adjustable amplifier in gain control structure and characteristics, and the fourth adjustable amplifier is similar to the second control to the amplifier according to the structure and characteristics of gain control, means for filtering the output signal of the intermediate frequency generated on the basis of the television signal for extracting from the output signal of the intermediate frequency a part of the television signal including the sound carrier with a side frequency-modulation frequency band, the first amplifier path for creating an amplified the output signal based on the selected part of the television signal containing the sound carrier and its side band h a frequency modulation frequency, and this first amplifier path includes a first adjustable amplifier, in series with which a second adjustable amplifier is connected, means for filtering an intermediate frequency signal obtained from a television signal to extract from it a portion of the television signal that contains the image carrier and its sideband amplitude modulation frequencies, the second path is amplified to amplify the selected part of the television signal containing the image carrier and its side frequency band of the amplitude mode dilation, and the second path of the amplifier contains a third adjustable amplifier, in series with which a fourth adjustable amplifier is connected, means for further conversion with decreasing frequency of the amplified output signal of the intermediate frequency obtained on the basis of that part of the television signal that contains the sound carrier and its side frequency band frequency modulation coming from the first path of the amplifier to generate an output signal of sound accompaniment of an intermediate frequency, means for flowing / highlighting / information about the sound contained in the frequency modulation of the output signal of the intermediate frequency, and the tool contains means for suppressing in the output signal of the tool that allocates sound information, the reaction to fluctuations in the amplitude of the output signal of the intermediate frequency of the sound, video detector for extraction from the output signal intermediate frequency of the part of the television signal that contains the image carrier and its sideband of the amplitude modulation as well as for generating, based on the signal from the second path of the IF amplifier, a video signal, including clock pulses, an AGC detector for detecting the peaks of clock pulses contained in the video signal and generating an automatic gain control signal, means for supplying the AGC signal to the second and fourth adjustable amplifiers as a control signal intended for them, means for delaying the AGC signal for the same period of time in relation to the first and third adjustable amplifiers, and means for Derzhko AGC signal before it is supplied to the RF amplifier as a control signal intended for him.  2. The device according to claim 1, characterized in that the first path of the IF amplifier and the second path of the IF amplifier are mounted in the volume of a monolithic integrated circuit together with a means for further down-conversion and a video detector.  3. The device according to p. 2, characterized in that the first path of the amplifier further comprises a first amplifier with a fixed gain, sequentially connected after the second adjustable amplifier, and also that the second path of the amplifier further comprises a second voltage amplifier with a fixed gain, sequentially connected after fourth adjustable amplifier.  4. The device according to p. 1, characterized in that the first path of the amplifier further comprises a first voltage amplifier with a fixed gain, connected in series after the second adjustable amplifier, and also that the second path of the amplifier further comprises a second voltage amplifier with a fixed amplifier, connected in series after the fourth adjustable amplifier.  5. The device according to p. 1 for a television receiver with sound on a differential carrier, characterized in that the means for filtering the output signal of the intermediate frequency obtained on the basis of the television signal to highlight the part of the television signal that includes the sound carrier and its side bands frequency modulation frequency, contains means for filtering the output signal of the intermediate frequency generated on the basis of the television signal, to highlight that part of the television a signal that contains the image carrier and its side bands of the amplitude modulation frequencies, as well as the sound carrier and its side bands of the frequency modulation frequencies, in response to which the first path of the IF generates an amplified intermediate frequency output signal based on the part of the television signal containing the image carrier and a carrier sound with its side frequency bands of frequency modulation, as well as the fact that the means for converting with further lowering the frequency of the amplified output of the intermediate frequency signal generated on the basis of a part of the television signal containing the sound carrier and its side frequency modulation side bands, generating the output sound signal on the intermediate frequency, comprises means sensitive to the amplified intermediate frequency output signal formed on the basis of the part of the television signal containing the image carrier and the sound carrier with its side bands of frequency modulation, used for mixed a carrier image with a sound carrier and its side bands of frequency modulation in order to form the output signal of the sound of the intermediate frequency of the type of differential carrier.  6. The device according to claim 5, characterized in that the means for filtering the output signal of the intermediate frequency generated on the basis of the television signal in order to extract a part of the television signal containing the image carrier, as well as the sound carrier with its side frequency modulation band, contains a first filter on acoustic surface waves (SAW filter).  7. The device according to claim 6, characterized in that the first SAW filter has a frequency response with a minimum of attenuation in the first frequency range, including the sound carrier with its lateral frequency modulation band in translation to the intermediate frequency, and in the second frequency range, including at least at the edge of the range, the image carrier in terms of the intermediate frequency, and with the maximum attenuation of the sound carrier along the adjacent channel in IF, and also with the attenuation of the image carrier his channel and its sideband AM in terms of the drive.  8. The device according to p. 7, characterized in that the frequency response of the first SAW filter provides for attenuation of frequencies between the first and second ranges.  9. The device according to claim 6, characterized in that the means for filtering the output signal of the intermediate frequency formed on the basis of the television signal, emitting a part of the television signal containing mainly the image carrier and its AM sideband, contains a second filter on surface acoustic waves.  10. Parallel aperiodic frequency amplifiers, receiving signals through the input filters from the first detector of the TV receiver, containing the first and second terminals for receiving the operating supply voltage, a detection circuit with input and output terminals for supplying the control voltage of the AGC gain control, characterized in that they contain the first and the second paths of the inverter with a similar design and performance that have the corresponding balanced inputs and outputs for a similar response to the voltage of the AGC, and means for feeding a signal appearing on the balanced output of the first amplifier path to the input output of the detection circuit to supply the first amplification path with AGC voltage, this means containing first means for dividing the supply voltage applied between the first and second terminals, while the first means for dividing the operating voltage consists of the first element for the formation of a voltage drop on it, the first terminal of which is connected to the first terminal, and the first intermediate voltage is created at the second terminal under the action of the operating supply voltage applied between the first and second terminals, as well as from the second element to form a voltage drop on it, the first output of which is connected to the second output of the first element, and the second intermediate voltage is created at the second output under the influence of the operating supply voltage applied between the first and second terminals, the first voltage follower, sensitive to the voltage supplied to its input terminal from the first means of dividing the operating voltage of the supply in order to issue from the output terminal of the voltage equal to the second intermediate voltage, the first resistive element, the first terminal of which is combined with the output terminal of the first repeater, also having a second terminal, means sensitive to the AGC voltage, which is closer in magnitude to the voltage at the first terminal than the second intermediate voltage , and causing the current to flow in the first resistive element through its second output, the first and second adjustable amplifiers, each of which has a corresponding voltage gain between the inputs balanced output and output balanced output, and this gain is controlled by the corresponding control signal, differential supplied between the first and second control terminals, while the first control terminal of the first controlled amplifier is supplied with voltage from the second terminal of the first resistive element, and its second control terminal is supplied the first intermediate voltage, and the first control terminal of the second controlled amplifier is supplied with voltage from the second terminal of the first resistive element, and in the second control terminal is supplied with a second intermediate voltage and means for directly connecting the balanced output terminal of the first adjustable amplifier with the balanced input terminal of the second adjustable amplifier.  11. The device according to p. 10, characterized in that the second amplification path comprises second means for dividing the operating supply voltage applied between the first and second terminals, which includes a third element for generating a voltage drop on it, whose first terminal is connected to the first terminal, while on its second output a third intermediate voltage is formed under the influence of the operating supply voltage applied between the first and second terminals, as well as the fourth element for the formation of a voltage drop on it, the first the first output of which is connected to the second output of the third element for a voltage drop, while the fourth intermediate voltage is created on its second output under the influence of the operating supply voltage applied between the first and second terminals, and means for ensuring the forward bias current to flow between the second output of the fourth differential element voltage and the second terminal connected to the source of the operating supply voltage, the second voltage follower is sensitive to the voltage supplied to its input output from the second means of dividing the operating supply voltage in order to output from the output of this repeater a voltage equal to the fourth intermediate voltage, a second resistive element, the first output of which is combined with the output terminal of the second voltage repeater, and which has a second output, means sensitive to AGC voltage, more close to the voltage of the first terminal than the second intermediate voltage, and causing the flow of current in the second resistive element through its second output, the third and fourth adjustable devices or motors, each of which has a certain gain between the balanced input terminal and the balanced output terminal, moreover, this voltage gain is controlled by a corresponding control signal differentially applied between the first and second control terminals, while the voltage from the second terminal is applied to the first control input of the first adjustable amplifier the second resistive element, while the third intermediate voltage is applied to its second control input, and the fourth reg a voltage amplifier is supplied from the second terminal of the second resistive element, while the fourth intermediate voltage is applied to the second control terminal, and means for directly connecting the balanced output terminal of the third adjustable amplifier to the balanced input output of the fourth adjustable amplifier.  12. The device according to p. 11, characterized in that it further comprises a frequency converter for generating an output signal with a converted frequency under the influence of a signal received at its input, a first filter that outputs a filtered filtered signal generated from the signal with the converted frequency to the first path amplification as its corresponding input signal, and a second filter issuing a second filtered signal generated from the signal with the converted frequency to the second amplification path as its corresponding th input signal.  13. The device according to p. 12, characterized in that the second and fourth intermediate voltages have the same nominal rated value, and the fourth adjustable amplifier is similar to the second adjustable voltage amplifier in design and performance.  14. The device according to p. 13, characterized in that the first and third intermediate voltages have the same rated rated value, and the third adjustable voltage amplifier is similar to the first adjustable voltage amplifier in design and operational characteristics.  15. The device according to p. 11, characterized in that the second and fourth intermediate voltages have the same nominal rated value, and the fourth adjustable voltage amplifier is similar to the second adjustable voltage amplifier in design and in operational characteristics.  16. The device according to p. 15, characterized in that the first and third intermediate voltages have the same rated rated value, and the third adjustable voltage amplifier is similar to the first adjustable voltage amplifier both in design and in operational characteristics.  17. The device according to p. 11, characterized in that it contains an overload detector with input and output terminals for receiving and outputting voltages intended for it, means for supplying a signal generated on the balanced output terminal of the second amplifier path to the input terminal of the overload detector, and means that responds to the voltage of the overload detector, closer in magnitude to the voltage at the first terminal than the second intermediate voltage, and causing a current to flow in the second resistive element through its second terminal.  18. The device according to p. 10, characterized in that the first amplifier path contains a first amplifier with a fixed gain, connected in series to the output of the second adjustable amplifier, and the second amplifier path contains a second voltage amplifier with a fixed gain, connected in series to the output of the fourth adjustable amplifier.