Sound channel circuit for digital television receivers
First Claim
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1. A sound channel circuit for digital television receivers, said sound channel circuit receiving a baseband analog sound and video signal developed by a television receiver and outputting an analog audio signal, the video portion of such baseband signal including a chrominance-subcarrier frequency, and the audio portion of said baseband signal having a predetermined bandwidth associated with a television-standard-dependent sound carrier frequency, said sound channel circuit comprising:
- an analog antialiasing low-pass filter having an input receiving said baseband signal and low-pass filtering said baseband signal;
an analog-to-digital converter having an input coupled to the output of said analog antialiasing low-pass filter and having a sampling signal frequency on the order of four times the chrominance-subcarrier frequency of said baseband signal;
a digital bandpass filter having an input coupled to the output of said analog-to-digital converter, and having a midfrequency and bandwidth equal, respectively, to the received television-standard-dependent sound carrier frequency and the bandwidth associated therewith;
a decimation stage having an input coupled to the output of said bandpass filter, and having a clock signal derived by dividing the frequency of said sampling signal by a predetermined integer chosen such that said bandwidth is not affected by the decimation;
a digital low-pass filter having an input coupled to the output of said decimation stage, and having a frequency characteristic which is substantially flat in the pass region to pass the bandwidth of such television-standard-dependent sound carrier;
a phase splitter having an input coupled to the output of said digital low-pass filter, and having a 0°
output and a 90°
output;
a phase discriminator having an input coupled to the output of said phase splitter, and having an absolute-value output and a phase-angle output;
a digital frequency demodulation circuit including a DQPSK interface for processing DPSK data pairs and having an input coupled to the output of said phase discriminator, a decoder for the "NICAM" standard having an input coupled to the output of said DQPSK interface, and at least one differentiating stage having an input coupled to the output of said phase discriminator; and
first, second, and third digital-to-analog converters having their inputs coupled, respectively, to said absolute-value output of said phase discriminator, to the output of said decoder, and to the output of said differentiating stage.
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Abstract
A circuit capable of handling all television sound transmission standards, including the "NICAM" standard. The circuit contains an analog antialiasing low-pass filter which is fed by the analog sound and video signal and followed by an analog-to-digital converter. The output of the latter is freed from the video signal by a filter circuit. The digital sound signal is applied to a phase splitter having a 0° output and a 90° output which are connected to a phase discriminator. An absolute-value output of the phase discriminator provides the amplitude-demodulated sound signal, while a phase-angle output feeds the DQPSK portion of a "NICAM" decoder and a differentiating stage, which delivers the frequency-modulated sound signal.
23 Citations
6 Claims
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1. A sound channel circuit for digital television receivers, said sound channel circuit receiving a baseband analog sound and video signal developed by a television receiver and outputting an analog audio signal, the video portion of such baseband signal including a chrominance-subcarrier frequency, and the audio portion of said baseband signal having a predetermined bandwidth associated with a television-standard-dependent sound carrier frequency, said sound channel circuit comprising:
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an analog antialiasing low-pass filter having an input receiving said baseband signal and low-pass filtering said baseband signal; an analog-to-digital converter having an input coupled to the output of said analog antialiasing low-pass filter and having a sampling signal frequency on the order of four times the chrominance-subcarrier frequency of said baseband signal; a digital bandpass filter having an input coupled to the output of said analog-to-digital converter, and having a midfrequency and bandwidth equal, respectively, to the received television-standard-dependent sound carrier frequency and the bandwidth associated therewith; a decimation stage having an input coupled to the output of said bandpass filter, and having a clock signal derived by dividing the frequency of said sampling signal by a predetermined integer chosen such that said bandwidth is not affected by the decimation; a digital low-pass filter having an input coupled to the output of said decimation stage, and having a frequency characteristic which is substantially flat in the pass region to pass the bandwidth of such television-standard-dependent sound carrier; a phase splitter having an input coupled to the output of said digital low-pass filter, and having a 0°
output and a 90°
output;a phase discriminator having an input coupled to the output of said phase splitter, and having an absolute-value output and a phase-angle output; a digital frequency demodulation circuit including a DQPSK interface for processing DPSK data pairs and having an input coupled to the output of said phase discriminator, a decoder for the "NICAM" standard having an input coupled to the output of said DQPSK interface, and at least one differentiating stage having an input coupled to the output of said phase discriminator; and first, second, and third digital-to-analog converters having their inputs coupled, respectively, to said absolute-value output of said phase discriminator, to the output of said decoder, and to the output of said differentiating stage. - View Dependent Claims (2)
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3. A sound channel circuit for digital television receivers, said sound channel circuit receiving a baseband analog sound and video signal developed by a television receiver and outputting an analog audio signal, the video portion of such baseband signal including a chrominance-subcarrier frequency, and the audio portion of said baseband signal having a predetermined bandwidth associated with a television-standard-dependent sound carrier frequency, said sound channel circuit comprising:
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an analog antialiasing low-pass filter having an input receiving said baseband signal and low-pass filtering said baseband signal; a single analog-to-digital converter having an input coupled to the output of said analog antialiasing low-pass filter and having a sampling signal frequency on the order of four times the chrominance-subcarrier frequency of said baseband signal; a mixer having an input coupled to the output of said analog-to-digital converter, for separating the audio portion of said baseband signal from the video portion of said baseband signal; a first digital low-pass filter having an upper frequency characteristic which falls off to zero just below one-half the sampling frequency reduced by the predetermined bandwidth of the audio portion of said baseband signal; a decimation stage having an input coupled to the output of said first low-pass filter, and having a clock signal derived by dividing the frequency of said sampling signal by four; a second digital low-pass filter having an input coupled to the output of said decimation stage, and having a frequency characteristic falling off to zero just above said bandwidth and substantially flat in the pass region to pass said bandwidth; a phase splitter having an input coupled to the output of said second low-pass filter and having a 0°
output and a 90°
output;a phase discriminator having an input coupled to the output of said phase splitter, and having an absolute-value output and a phase-angle output; a digital frquency demodulation circuit including a DQPSK interface for processing DPSK data pairs and having an input coupled to the output of said phase discriminator, a decoder for the "NICAM" standard having an input coupled to the output of said DQPSK interface, and at least one differentiating stage having an input coupled to the output of said phase discriminator; and first, second, and third digital-to-analog converters having their inputs coupled, respectively, to said absolute-value output of said phase discriminator, to the output of said decoder, and to the output of said differentiating stage. - View Dependent Claims (4)
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5. A sound channel for digital television receivers, said sound channel circuit receiving a baseband analog sound and video signal developed by a television receiver and outputting an analog audio signal, the video portion of such baseband signal including a chrominance-subcarrier frequency and the audio portion of said baseband signal having a predetermined bandwidth associated with a television-standard-dependent sound carrier frequency said sound channel circuit comprising:
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an analog antialiasing low-pass filter having an input receiving said baseband signal and low-pass filtering said baseband signal; a single analog-to-digital converter having an input coupled to the output of said analog antialiasing low-pass filter and having a sampling signal at a frequency on the order of four times the chrominance-subcarrier frequency of said baseband signal; a quadrature mixture having an input coupled to the output of said analog-to-digital converter for separating out the sound signal portion of said band pass video and sound signal, said quadrature mixture including a sine mixer stage and a cosine mixer stage; first and second digital low-pass filters having inputs coupled to, respectively, the outputs of said sine mixture stage and said cosine mixer stage, and having high frequency characteristics falling off to zero just below one-half the sampling frequency reduced by the predetermined bandwidth of the audio portion of said baseband signal; first and second decimation stages having inputs connected, respectively, to the outputs of said first and second low-pass filters, said decimation stages having a common clock signal at a frequency equal to one quarter that of the frequency of the sampling signal; third and fourth digital low-pass filters having inputs coupled, respectively, to the outputs of said first and second decimation stages, said third and fourth low-pass filters having frequency characteristics falling off to zero just above said bandwidth and substantially flat in the pass region to pass said bandwidth; a phase descriminator having first and second inputs coupled to said third and fourth low-pass filters, respectively, and having an absolute-value output and a phase-angle output; a digital frquency demodulation circuit including a DQPSK interface for processing DPSK data pairs and having an input coupled to the output of said phase discriminator, a decoder for the "NICAM" standard having an input coupled to the output of said DQPSK interface, and at least one differentiating stage having an input coupled to the output of said phase discriminator; and first, second, and third digital-to-analog converters having their inputs coupled, respectively, to said absolute-value output of said phase discriminator, to the output of said decoder, and to the output of said differentiating stage. - View Dependent Claims (6)
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Specification
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Current AssigneeDeutsche ITT Industries GmbH
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Original AssigneeDeutsche ITT Industries GmbH
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InventorsPfeifer, Heinrich, Hilpert, Thomas, Mehrgardt, Sonke
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Primary Examiner(s)Groody, James J.
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Assistant Examiner(s)Murrell, Jeffrey S.
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Application NumberUS07/455,348Time in Patent Office1,310 DaysField of Search358/198, 358/197, 358/188, 329/310, 329/306, 357/84, 364/731US Class Current348/738CPC Class CodesH04N 5/605 according to the NICAM system
