P
USRE41380EExpiredUtilityPatentIndex 62

Constrained-envelope digital-communications transmission system and method therefor

Assignee: SICOM INCPriority: Aug 28, 1998Filed: Nov 19, 2003Granted: Jun 15, 2010
Est. expiryAug 28, 2018(expired)· nominal 20-yr term from priority
Inventors:MCCALLISTER RONALD DCOCHRAN BRUCE ABADKE BRADLEY P
H04L 25/03834H04L 27/2614H04L 27/3494H04B 1/719H04B 1/717H04L 27/3411H04L 27/2627H04L 27/363H04B 2201/70706
62
PatentIndex Score
1
Cited by
33
References
39
Claims

Abstract

A constrained-envelope digital-communications transmitter circuit ( 22 ) in which a binary data source ( 32 ) provides an input signal stream ( 34 ), a phase mapper ( 44 ) maps the input signal stream ( 34 ) into a quadrature phase-point signal stream ( 50 ) having a predetermined number of symbols per unit baud interval ( 64 ) and defining a phase point ( 54 ) in a phase-point constellation ( 46 ), a pulse-spreading filter ( 76 ) filters the phase-point signal stream ( 50 ) into a filtered signal stream ( 74 ), a constrained-envelope generator ( 106 ) generates a constrained-bandwidth error signal stream ( 108 ) from the filtered signal stream ( 74 ), a delay element ( 138 ) delays the filtered signal stream ( 74 ) into a delayed signal stream ( 140 ) synchronized with the constrained-bandwidth error signal stream ( 108 ), a complex summing circuit ( 110 ) sums the delayed signal stream ( 140 ) and the constrained-bandwidth error signal stream ( 108 ) into a constrained-envelope signal stream ( 112 ), and a substantially linear amplifier ( 146 ) amplifies the constrained-envelope signal stream ( 112 ) and transmits it as a radio-frequency broadcast signal ( 26 ).

Claims

exact text as granted — not AI-modified
1. A constrained-envelope digital communication transmitter circuit comprising:
 a pulse-spreading filter configured to receive a quadrature phase-point signal stream of digitized quadrature phase points and produce a filtered signal stream, said filtered signal stream exhibiting energy corresponding to each phase point spread throughout a plurality of unit baud intervals;    a constrained-envelope generator coupled to said pulse-spreading filter and configured to produce a constrained-bandwidth error signal stream;    a combining circuit coupled to said pulse-spreading filter and to said constrained-envelope generator, said combining circuit configured to combine said filtered signal stream and said constrained-bandwidth error signal stream to produce a constrained-envelope signal stream; and    a substantially linear amplifier having an input coupled to said combining circuit.    
     
     
       2. A digital communications transmitter circuit as claimed in claim  1    6  wherein said pulse-spreading filter is a Nyquist-type filter. 
     
     
       3. A digital communications transmitter circuit as claimed in claim  1    6  wherein said combining circuit is configured to combine said filtered signal stream and said constrained-bandwidth error signal stream to reduce a peak magnitude component of said filtered signal stream. 
     
     
       4. A digital communications transmitter circuit as claimed in  claim 3  wherein said combining circuit is a complex summing circuit. 
     
     
       5. A digital communications transmitter circuit as claimed in  claim 1  wherein:
 said pulse-spreading filter is a first pulse-spreading filter;    said transmitter circuit additionally comprises a delay element coupled between said first pulse-spreading filter and said combining circuit; and    said constrained-envelope generator comprises a second pulse-spreading filter coupled to said combining circuit.    
     
     
       6. A digital communications transmitter circuit as claimed in  claim 5   A constrained- envelope digital communications transmitter circuit comprising:  
   a pulse - spreading filter configured to receive a quadrature phase - point signal stream of digitized quadrature phase points and produce a filtered signal stream, said filtered signal stream exhibiting energy corresponding to each phase point spread throughout a plurality of unit baud intervals;    
   a constrained - envelope generator coupled to said pulse - spreading filter and configured to produce a constrained - bandwidth error signal stream;    
   a combining circuit coupled to said pulse - spreading filter and to said constrained envelope generator, said combining circuit configured to combine said filtered signal stream and said constrained - bandwidth error signal stream to produce a constrained envelope signal stream; and    
   a substantially linear amplifier having an output and having an input coupled to said combining circuit;    
   wherein:    
   said pulse - spreading filter is a first pulse - spreading filter;    
   said transmitter circuit additionally comprises a delay element coupled between said first pulse - spreading filter and said combining circuit; and    
   said constrained - envelope generator comprises a second pulse - spreading filter coupled to said combining circuit;    
 wherein:  
 said first pulse-spreading filter is configured so that each phase point is transformed into a Nyquist-type datum burst extending over a plurality of unit baud intervals, having a datum-burst peak value occurring in one of said plurality of unit baud intervals and datum-burst zero values occurring substantially at integral unit baud intervals away from said datum-burst peak value, so that said filtered signal stream in each unit baud interval substantially equals the sum of said Nyquist-type datum bursts from a plurality of phase points; and  
 said constrained-envelope generator is configured so that said second pulse-spreading filter receives error pulses, transforms each error pulse into a Nyquist-type error burst extending over a plurality of unit baud intervals, having an error-burst peak value occurring in one of said plurality of unit baud intervals and error-burst zero values occurring substantially at integral unit baud intervals away from said error-burst peak value, so that said constrained-bandwidth error signal stream in each unit baud interval substantially equals the sum of said Nyquist-type error bursts from a plurality of error pulses.  
 
     
     
       7. A digital communications transmitter circuit as claimed in  claim 6  wherein said constrained-envelope generator is configured so that said Nyquist-type error bursts exhibit said error-burst peak values and said error-burst zero values at instances in time when said Nyquist-type datum bursts exhibit neither said datum-burst peak values nor said datum-burst zero values. 
     
     
       8. A digital communications transmitter circuit as claimed in  claim 7  wherein said constrained-envelope generator is configured so that said error-burst peak values and said error-burst zero values occur approximately midway between said datum-burst peak values and said datum-burst zero values. 
     
     
       9. A digital communications transmitter circuit as claimed in  claim 5  wherein said first and second pulse-spreading filters exhibit substantially equivalent transfer characteristics. 
     
     
       10. A digital communications transmitter circuit as claimed in  claim 5   A constrained- envelope digital communications transmitter circuit comprising:  
   a pulse - spreading filter configured to receive a quadrature phase - point signal stream of digitized quadrature phase points and produce a filtered signal stream, said filtered signal stream exhibiting energy corresponding to each phase point spread throughout a plurality of unit baud intervals;    
   a constrained - envelope generator coupled to said pulse - spreading filter and configured to produce a constrained - bandwidth error signal stream;    
   a combining circuit coupled to said pulse - spreading filter and to said constrained envelope generator, said combining circuit configured to combine said filtered signal stream and said constrained - bandwidth error signal stream to produce a constrained - envelope signal stream; and    
   a substantially linear amplifier having an input coupled to said combining circuit and having an output;    
   wherein:      said pulse - spreading filter is a first pulse - spreading filter;        said transmitter circuit additionally comprises a delay element coupled between said first pulse - spreading filter and said combining circuit; and      
   said constrained - envelope generator comprises a second pulse - spreading filter coupled to said combining circuit;   
 wherein:  
 said first pulse-spreading filter receives one quadrature phase point per unit baud interval and produces two complex samples of said filtered signal stream per unit baud interval;  
 said constrained-envelope generator evaluates one of said two complex samples of said filtered signal stream produced by said first pulse-spreading filter per unit baud interval; and  
 said second pulse-spreading filter receives one error pulse per unit baud interval and produces two complex samples of said constrained-envelope error-signal stream per unit baud interval.  
 
     
     
       11. A digital communications transmitter circuit as claimed in  claim 1  wherein:
 said filtered signal stream is a stream of complex digital values, with each of said complex digital values exhibiting a peak magnitude component; and    said constrained-envelope generator is configured to determine when ones of said peak magnitude components exceed a threshold value.    
     
     
       12. A digital communications transmitter circuit as claimed in  claim 11  wherein:
 said transmitter circuit additionally comprises a phase mapped coupled to said pulse-spreading filter and configured to select said digitized quadrature phase points from a phase-point constellation, said phase-point constellation having a maximum-magnitude phase point; and    said threshold value is a magnitude value approximately equal to a magnitude of said maximum-magnitude phase point.    
     
     
       13. A digital communications transmitter circuit as claimed in  claim 1  additionally comprising an interleaver coupled to said phase mapper. 
     
     
       14. A digital communications transmitter circuit as claimed in  claim 1   A constrained- envelope digital communications transmitter circuit comprising:  
   a pulse - spreading filter configured to receive a quadrature phase - point signal stream of digitized quadrature phase points and produce a filtered signal stream, said filtered signal stream exhibiting energy corresponding to each phase point spread throughout a plurality of unit baud intervals;    
   a constrained - envelope generator coupled to said pulse - spreading filter and configured to produce a constrained - bandwidth error signal stream;    
   a combining circuit coupled to said pulse - spreading filter and to said constrained envelope generator, said combining circuit configured to combine said filtered signal stream and said constrained - bandwidth error signal stream to produce a constrained envelope signal stream; and    
   a substantially linear amplifier having an output and having an input coupled to said combining circuit;    
 wherein:  
 said constrained-envelope generator is an off-time constrained-envelope generator;  
 said constrained-bandwidth error signal stream is an off-time constrained-bandwidth error signal stream;  
 said transmitter circuit additionally comprises an on-time constrained-envelope generator coupled to said pulse-spreading filter and configured to produce an on-time constrained-bandwidth error signal stream; and  
 said combining circuit is coupled to said pulse-spreading filter, to said off-time constrained-envelope generator, and to said on-time constrained-envelope generator, and said combining circuit is configured to combine said filtered signal stream, said off-time constrained-bandwidth error signal stream, and said on-time constrained-bandwidth error signal stream to produce said constrained-envelope signal stream.  
 
     
     
       15. A digital communications transmitter circuit as claimed in  claim 1  wherein said substantially linear amplifier comprises;
 a digital linearizer configured to pre-distort said constrained-envelope signal stream into a pre-distorted digital signal stream;    a digital-to-analog converter coupled to said digital linearizer and configured to produce an analog baseband signal from said pre-distorted digital signal stream; and    a radio-frequency amplifying circuit configured to generate a radio-frequency broadcast signal from said analog baseband signal.    
     
     
       16. In a digital communications system, a method for the transmission of a constrained-envelope communications signal, said transmission method comprising the steps of:
 filtering a quadrature phase-point signal stream to produce a filtered signal stream, said filtering step spreading energy from each phase point in said filtered signal stream over a plurality of unit baud intervals;    generating a constrained-bandwidth error signal stream from said filtered signal stream and a threshold signal;    combining said filtered signal stream and said constrained-bandwidth error signal stream to produce a constrained-envelope signal stream;    linearly amplifying said constrained-envelope signal stream to produce said constrained-envelope communications signal; and    transmitting said constrained-envelope communications signal.    
     
     
       17. A transmission method as claimed in  claim 16  wherein said combining step comprises the step of reducing a peak magnitude component of said filtered signal stream. 
     
     
       18. A transmission method as claimed in  claim 16  wherein:
 said generating step comprises the step of filtering an error signal stream having one error pulse per unit baud interval to produce said constrained-bandwidth error signal stream, said filtering step spreading energy from each error pulse in said error signal stream over a plurality of unit baud intervals;    said transmission method additionally comprises the step of delaying said filtered signal stream to produce a delayed signal stream; and    said combining step combines said delayed signal stream and said constrained-bandwidth error signal stream to produce said constrained-envelope signal stream.    
     
     
       19. A transmission method as claimed in  claim 16   In a digital communications system, a method for the transmission of a constrained- envelope communications signal, said transmission method comprising the steps of:  
   filtering a quadrature phase - point signal stream to produce a filtered signal stream, said filtering step spreading energy from each phase point in said filtered signal stream over a plurality of unit baud intervals;    
   generating a constrained - bandwidth error signal stream from said filtered signal stream and a threshold signal;    
   combining said filtered signal stream and said constrained - bandwidth error signal stream to produce a constrained - envelope signal stream;    
   linearly amplifying said constrained - envelope signal stream to produce said constrained - envelope communications signal; and    
   transmitting said constrained - envelope communications signal;   
 wherein:  
 said filtering step comprises the step of receiving one quadrature phase point per unit baud interval;  
 said filtering step additionally comprises the step of producing two complex samples of said filtered signal stream per unit baud interval;  
 said generating step comprises the step of evaluating one of said two complex samples of said filtered signal stream per unit baud interval to produce an error signal stream having one error pulse per unit baud interval; and  
 said generating step additionally comprises the step of filtering said error signal stream to produce said constrained-bandwidth error signal stream having two complex samples of said constrained-bandwidth error signal stream per unit baud interval.  
 
     
     
       20. A transmission method as claimed in  claim 19  wherein said generating step additionally comprises the steps of:
 providing said threshold signal; and  
 determining when ones of peak magnitude components of a stream of complex digital values of said filtered signal stream exceed a threshold value of said threshold signal.  
 
     
     
       21. A transmission method as claimed in  claim 16  wherein:
 said filtered signal stream includes two or more complex digital values per unit baud interval, said complex digital values in said filtered signal stream exhibiting local peak magnitudes; and    said generating step is configured so that said constrained-bandwidth error signal stream includes two or more complex values per unit baud interval; said complex values in said constrained-bandwidth error signal stream being responsive to said local peak magnitudes of said filtered signal stream so as to spread energy from selected ones of said local peak magnitudes over a plurality of unit baud intervals of said constrained-bandwidth error signal stream.    
     
     
       22. A transmission method as claimed in  claim 16  wherein said transmitting step continuously transmits said constrained-envelope communications signal. 
     
     
       23. A constrained-envelope digital-communications transmitter circuit comprising:
 a binary data source configured to provide a binary input signal stream;    a phase mapper coupled to said binary data source and configured to produce a quadrature phase-point signal stream, wherein said phase-point signal stream has a predetermined number of symbols per unit baud interval, said predetermined number of symbols defining a phase point in a phase-point constellation;    a Nyquist-type filter coupled to said phase mapper and configured to produce a filtered signal stream;    a constrained-envelope generator coupled to said Nyquist-type filter and configured to produce a constrained-bandwidth error signal stream;    a delay element coupled to said Nyquist-type filter and configured to produce a delayed signal stream synchronized with said constrained-bandwidth error signal stream;    a complex summing circuit coupled to said delay element and said constrained-envelope generator and configured to produce a constrained-envelope signal stream; and    a substantially linear amplifier coupled to said complex summing circuit and configured to produce a radio-frequency broadcast signal.    
     
     
       24. A digital-communications transmitter circuit as claimed in  claim 23   A constrained- envelope digital - communications transmitter circuit comprising:  
   a binary data source configured to provide a binary input signal stream;    
   a phase mapper coupled to said binary data source and configured to produce a quadrature phase - point signal stream, wherein said phase - point signal stream has a predetermined number of symbols per unit baud interval, said predetermined number of symbols defining a phase point in a phase - point constellation;    
   a Nyquist - type filter coupled to said phase mapper and configured to produce a filtered signal stream;    
   a constrained - envelope generator coupled to said Nyquist - type filter and configured to produce a constrained - bandwidth error signal stream;    
   a delay element coupled to said Nyquist - type filter and configured to produce a delayed signal stream synchronized with said constrained - bandwidth error signal stream;    
   a complex summing circuit coupled to said delay element and said constrained envelope generator and configured to produce a constrained - envelope signal stream; and    
   a substantially linear amplifier coupled to said complex summing circuit and configured to produce a radio - frequency broadcast signal;   
 wherein said Nyquist-type filter is a first Nyquist-type filter, said filtered signal stream includes a first filtered-signal data stream and a second filtered-signal data stream, and said complex summing circuit is a first complex summing circuit, wherein said transmitter circuit additionally comprises a quadrature threshold generator configured to-provide  to provide a threshold signal, said threshold signal having a threshold value, and wherein said constrained-envelope generator comprises:  
 a second complex summing circuit coupled to said first Nyquist-type filter and said quadrature threshold generator and configured to produce a difference signal stream, wherein said difference signal stream is a stream of difference pulses having difference-pulse values of a first polarity and difference-pulse values of a second polarity;  
 a discriminator coupled to said second complex summing circuit and configured to produce an error signal stream from said difference signal stream, wherein said error signal stream is a stream of error pulses substantially coincident with said difference pulses of said difference signal stream, and wherein, when ones of said difference pulses have said first-polarity difference-pulse values, said coincident error pulses have error-pulse values substantially equal to said first-polarity difference-pulse values, and when ones of said difference pulses have said second-polarity difference-pulse values, said coincident error pulses have error-pulse values substantially equal to zero; and  
 a second Nyquist-type filter coupled to said discriminator and configured to produce said constrained-bandwidth error signal stream.  
 
     
     
       25. A digital-communications transmitter circuit as claimed in  claim 24  wherein said transmitter circuit additionally comprises:
 a convolutional encoder coupled to said binary data source and configured to produce an encoded signal stream; and  
 an interleaver coupled to said convolutional encoder and configured to produce an interleaved signal stream by temporally decorrelating said encoded signal stream.  
 
     
     
       26. A digital-communications transmitter circuit as claimed in  claim 24  wherein:
 said filtered signal stream is a quadrature signal stream having a locus that passes proximate one of said phase points of said phase-point constellation at integral unit baud intervals;  
 said first filtered-signal data stream comprises on-time samples of said filtered signal stream, each of said on-time samples occurring substantially coincidentally with said passage of said filtered signal locus proximate one of said phase points of said phase-point constellation; and  
 said second filtered-signal data stream comprises off-time samples of said filtered signal stream wherein each of said off-time samples occurs between adjacent ones of said on-time samples.  
 
     
     
       27. A digital-communications transmitter circuit as claimed in  claim 26  wherein each of said off-time samples occurs substantially midway between adjacent ones of said on-time samples. 
     
     
       28. A digital-communications transmitter circuit as claimed in claim  23    24  additionally comprising an interleaver coupled to said binary data source and configured to provide an interleaved signal stream. 
     
     
       29. A digital-communications transmitter circuit as claimed in claim  23    24  wherein said constellation is an amplitude and phase shift keying constellation. 
     
     
       30. A digital communications transmitter circuit as claimed in  claim 6  wherein:
   said filtered signal stream is a stream of complex digital values, with each of said complex digital values exhibiting a peak magnitude component; and        said constrained - envelope generator is configured to determine when ones of said peak magnitude components exceed a threshold value.     
     
     
       31. A digital communications transmitter circuit as claimed in  claim 30  wherein:
   said transmitter circuit additionally comprises a phase mapper coupled to said pulse - spreading filter and configured to select said digitized quadrature phase points from a phase - point constellation, said phase - point constellation having a maximum magnitude phase point; and        said threshold value is a magnitude value approximately equal to a magnitude of said maximum - magnitude phase point.     
     
     
       32. A digital communications transmitter circuit as claimed in  claim 31  additionally comprising an interleaver coupled to said phase mapper. 
     
     
       33. A constrained- envelope digital communications transmitter circuit comprising:      a pulse - spreading filter configured to receive a quadrature phase - point signal stream of digitized quadrature phase points and produce a filtered signal stream, said filtered signal stream exhibiting energy corresponding to each phase point spread throughout a plurality of unit baud intervals;        a constrained - envelope generator coupled to said pulse - spreading filter and configured to produce a constrained - bandwidth error signal stream;        a combining circuit coupled to said pulse - spreading filter and to said constrained envelope generator, said combining circuit configured to combine said filtered signal stream and said constrained - bandwidth error signal stream to produce a constrained envelope signal stream;        a substantially linear amplifier having an input coupled to said combining circuit and having an output; and        a delay element coupled between said pulse - spreading filter and said combining circuit;        wherein:        said constrained - envelope generator is an off - time constrained - envelope generator;        said constrained - bandwidth error signal stream is an off - time constrained bandwidth error signal stream;        said transmitter circuit additionally comprises an on - time constrained - envelope generator coupled to said pulse - spreading filter and configured to produce an on - time constrained - bandwidth error signal stream; and        said combining circuit is coupled to said pulse - spreading filter, to said off - time constrained - envelope generator, and to said on - time constrained - envelope generator, and said combining circuit is configured to combined said filtered signal stream, said off - time constrained - bandwidth error signal stream, and said on - time constrained bandwidth error signal stream to produce said constrained - envelope signal stream.     
     
     
       34. In a digital communications system, a method for the transmission of a constrained- envelope communications signal, said transmission method comprising the steps of:      filtering a quadrature phase - point signal stream to produce a filtered signal stream, said filtering step spreading energy from each phase point in said filtered signal stream over a plurality of unit baud intervals;        delaying said filtered signal streams;        generating a constrained - bandwidth error signal stream from said filtered signal stream and a threshold signal;        combining said filtered signal stream and said constrained - bandwidth error signal stream to produce a constrained - envelope signal stream;        linearly amplifying said constrained - envelope signal stream to produce said constrained - envelope communications signal; and        transmitting said constrained - envelope communications signal;        wherein:        said filtering step comprises the step of receiving one quadrature phase point per unit baud interval;        said filtering step additionally comprises the step of producing two complex samples of said filtered signal stream per unit baud interval;        said generating step comprises the step of evaluating one of said two complex samples of said filtered signal stream per unit baud interval to produce an error signal stream having one error pulse per unit baud interval; and        said generating step additionally comprises the step of filtering said error signal stream to produce said constrained - bandwidth error signal stream having two complex samples of said constrained - bandwidth error signal stream per unit baud interval.     
     
     
       35. A transmission method as claimed in  claim 34  wherein said generating step additionally comprises the steps of:
   providing said threshold signal; and        determining when ones of peak magnitude components of a stream of complex digital values of said filtered signal stream exceed a threshold value of said threshold signal.     
     
     
       36. A transmission method as claimed in  claim 34  wherein:
   said filtered signal stream includes two or more complex digital values per unit baud interval, said complex digital values in said filtered signal stream exhibiting local peak magnitudes; and        said generating step is configured so that said constrained - bandwidth error signal stream includes two or more complex values per unit baud interval, said complex values in said constrained - bandwidth error signal stream being responsive to said local peak magnitudes of said filtered signal stream so as to spread energy from selected ones of said local peak magnitudes over a plurality of unit baud intervals of said constrained bandwidth error signal stream.     
     
     
       37. A transmission method as claimed in  claim 34  wherein said transmitting step continuously transmits said constrained- envelope communications signal.   
     
     
       38. A transmission method as claimed in  claim 34  wherein said combining step comprises the step of reducing a peak magnitude component of said filtered signal stream. 
     
     
       39. A transmission method as claimed in  claim 34  wherein:
   said generating step comprises the step of filtering an error signal stream having one error pulse per unit baud interval to produce said constrained - bandwidth error signal stream, said step of filtering an error signal spreading energy from each error pulse in said error signal stream over a plurality of unit baud intervals;        said step of delaying said filtered signal stream comprises producing a delayed signal stream; and        said combining step combines said delayed signal stream and said constrained bandwidth error signal stream to produce said constrained - envelope signal stream.

Cited by (0)

No later patents cite this yet.

References (0)

No backward citations on record.