Apparatus and method for detecting an NTSC signal in an HDTV transmission signal
First Claim
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1. An apparatus for detecting an NTSC signal in a baseband signal comprising:
- at least one comb-filter, a portion of the baseband signal applied to the comb-filter to generate a filtered baseband signal portion;
a first noise power accumulator for accumulating a noise power of the baseband signal portion;
a second noise power accumulator for accumulating a noise power of the filtered baseband signal portion;
a difference generator which forms a difference between the noise powers of the baseband signal and filtered baseband signal portions; and
a comparator for detecting the NTSC signal when the difference exceeds a threshold T, wherein the threshold T during detection is related to a product of a measured signal power of the baseband signal and an inverted minimum carrier to noise ratio of the baseband signal.
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Abstract
A system detects the presence of NTSC co-channel interference and enables NTSC comb-filtering when the NTSC signal is detected. The system comb-filters the baseband signal to generate a filtered baseband signal, and accumulates the noise power of the baseband and filtered baseband signals. The noise power of the baseband and filtered baseband signals is compared by forming a difference between the two noise powers, and the system detects the NTSC signal when the difference exceeds a threshold T. The threshold T is related to a product of a signal power of the baseband signal and a minimum carrier to noise ratio for the ATSC system.
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Citations
10 Claims
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1. An apparatus for detecting an NTSC signal in a baseband signal comprising:
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at least one comb-filter, a portion of the baseband signal applied to the comb-filter to generate a filtered baseband signal portion;
a first noise power accumulator for accumulating a noise power of the baseband signal portion;
a second noise power accumulator for accumulating a noise power of the filtered baseband signal portion;
a difference generator which forms a difference between the noise powers of the baseband signal and filtered baseband signal portions; and
a comparator for detecting the NTSC signal when the difference exceeds a threshold T, wherein the threshold T during detection is related to a product of a measured signal power of the baseband signal and an inverted minimum carrier to noise ratio of the baseband signal. - View Dependent Claims (2, 3, 4, 5)
first and second subtractors, the first subtractor forming a difference of the data field sync signal and the data field sync reference pattern, the difference provided to the first noise power accumulator, and the second subtractor forming a difference of the filtered data field sync signal and the filtered data field sync reference pattern, the difference provided to the second noise power accumulator.
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4. The apparatus as recited in claim 3, wherein each comb-filter comprises a subtractor and a delay, the delay providing a delayed the baseband signal, and the subtractor forming a difference of the baseband and delayed baseband signals to provide the filtered baseband signal.
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5. The apparatus as recited in claim 4, wherein the apparatus is included in a video receiver having a mux, the baseband signal is an encoded video signal having a data signal and the data field sync signal, the first comb-filter further filters the data signal, and the comparator provides a control signal to the mux to select the filtered data signal and filtered data field sync signal when the NTSC signal is detected and to select the baseband signal when the NTSC signal is not detected.
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6. A method of detecting an NTSC signal in a baseband signal comprising the steps of:
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a) comb-filtering a portion of the baseband signal to generate a filtered baseband signal;
b) generating an expected value related to a noise power of the baseband signal portion;
c) generating an expected value related to the noise power of the filtered baseband signal portion;
d) forming a difference between the expected values of the baseband signal and the filtered baseband signal portions; and
e) detecting the NTSC signal when the difference exceeds a threshold T, wherein T during detection is related to a product of a measured signal power of the baseband signal and an inverted minimum carrier to noise ratio of the baseband signal. - View Dependent Claims (7, 8, 9)
a1A) comb-filtering the portion of the baseband signal corresponding to the data field sync signal;
a1B) comb-filtering a data field sync reference pattern a1C) removing the data field sync signal from the portion of the baseband signal based on the data field sync reference pattern; and
a1C) removing the filtered data field sync signal from the filtered portion of the baseband signal based on the filtered data field sync reference pattern.
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8. The method of detecting an NTSC signal as recited in claim 7, wherein the generating step b) generates the expected value related to the noise power of the portion of baseband signal corresponding to the data field sync signal and the generating step c) generates the expected value related to the noise power of the filtered portion of baseband signal corresponding to the filtered data field sync signal.
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9. The method of detecting an NTSC signal as recited in claim 8, wherein the baseband signal having a data signal and the data field sync signal is an encoded video signal, the comb-filtering step a) further comprises step a2) of comb-filtering a remaining portion of the baseband signal corresponding to the data signal, and the method further comprises the step of providing the filtered baseband signal when the NTSC signal is detected by the detecting step e) and providing the baseband signal when the NTSC signal is not detected by the detecting step e).
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10. An apparatus for detecting an NTSC signal in a baseband signal comprising:
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comb-filtering means for comb-filtering a portion of the baseband signal to generate a filtered baseband signal portion;
first accumulating means for accumulating a noise power of the baseband signal portion;
second accumulating means for accumulating a noise power of the filtered baseband signal portion;
difference means for forming a difference between the noise powers of the baseband and filtered baseband signal portions; and
comparing means for comparing the difference with a threshold T, the NTSC signal detected when the difference exceeds the threshold T, wherein T during detection is related to a product of a measured signal power of the baseband signal and an inverted minimum carrier to noise ratio.
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Specification
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Current AssigneeAvago Technologies International Sales Pte Limited (Broadcom, Inc.)
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Original AssigneeLucent Technologies, Inc. (Nokia Corporation)
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InventorsRambaud, Marta M., Raghunath, Kalavai J.
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Primary Examiner(s)Luu, Matthew
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Assistant Examiner(s)Sajous, Wesner
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Application NumberUS09/105,783Time in Patent Office991 DaysField of SearchH04/N.700, 348/21, 348/558, 348/535, 348/554, 348/555, 348/556, 348/607, 348/618, 348/622, 348/665, 348/667, 348/454, 348/92, 348/130, 348/142, 375/346, 375/350, 375/285, 455/63, 455/296, 455/306, 382/143, 382/160, 355/101, 355/106, 355/107US Class Current348/558CPC Class CodesH04N 21/426 Internal components of the ...H04N 21/42607 for processing the incoming...H04N 5/21 Circuitry for suppressing o...
