THE DFT FREQUENCY RESPONSE TO A REAL COSINE INPUT

Now that we know what the DFT frequency response is to a complex sinusoidal input, it's easy to determine the DFT frequency response to a real input sequence. Say we want the DFT's response to a real cosine sequence, like that shown in Figure 3-40(a), expressed as

where k is the integral number of complete cycles occurring in the N samples. Remembering Euler's relationship cos(ø) = (ejø + e–jø)/2, we can show the desired DFT as Xr(m) where

Equation 3-72

Fortunately, in the previous section we just finished determining the closed form of a summation expression like those in Eq. (3-72), so we can write the closed form for Xr(m) as

Equation 3-73

We show the magnitude of those two ratio of sines terms as the sinc functions in Figure 3-43. Here again, the DFT is sampling the input cosine sequence's continuous spectrum and, because k = m, only one DFT bin is nonzero. Because the DFT's input sequence is real, Xr(m) has both positive and negative frequency components. The positive frequency portion of Figure 3-43 corresponds to the first ratio of sines term in Eq. (3-73) and the second ratio of sines term in Eq. (3-73) produces the negative frequency components of Xr(m).

Figure 3-43. N-point DFT frequency magnitude response to a real cosine having integral k cycles in the N-point time sequence xr(n) = cos(2pnk/N).

 

 

DFT leakage is again demonstrated if our input sequence frequency were shifted from the center of the kth bin to k+0.25 as shown in Figure 3-44. (We used this concept of real input DFT amplitude response to introduce the effects of DFT leakage in Section 3.8.)

Figure 3-44. N-point DFT frequency magnitude response showing spectral leakage of a real cosine having k+0.25 cycles in the N-point time sequence xr(n).

In Table 3-4, the various mathematical expressions for the (positive frequency) amplitude response of the DFT to a real cosine input sequence are simply those expressions in Table 3-3 reduced in amplitude by a factor of 2.

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Chapter One. Discrete Sequences and Systems Chapter One. Discrete Sequences and Systems DISCRETE SEQUENCES AND THEIR NOTATION SIGNAL AMPLITUDE, MAGNITUDE, POWER SIGNAL PROCESSING OPERATIONAL SYMBOLS INTRODUCTION TO DISCRETE LINEAR TIME-INVARIANT SYSTEMS DISCRETE LINEAR SYSTEMS TIME-INVARIANT SYSTEMS THE COMMUTATIVE PROPERTY OF LINEAR TIME-INVARIANT SYSTEMS ANALYZING LINEAR TIME-INVARIANT SYSTEMS REFERENCES Chapter Two. Periodic Sampling Chapter Two. Periodic Sampling ALIASING: SIGNAL AMBIGUITY IN THE FREQUENCY DOMAIN SAMPLING LOW-PASS SIGNALS SAMPLING BANDPASS SIGNALS SPECTRAL INVERSION IN BANDPASS SAMPLING REFERENCES Chapter Three. The Discrete Fourier Transform Chapter Three. The Discrete Fourier Transform UNDERSTANDING THE DFT EQUATION DFT SYMMETRY DFT LINEARITY DFT MAGNITUDES DFT FREQUENCY AXIS DFT SHIFTING THEOREM INVERSE DFT DFT LEAKAGE WINDOWS DFT SCALLOPING LOSS DFT RESOLUTION, ZERO PADDING, AND FREQUENCY-DOMAIN SAMPLING DFT PROCESSING GAIN THE DFT OF RECTANGULAR FUNCTIONS THE DFT FREQUENCY RESPONSE TO A COMPLEX INPUT THE DFT FREQUENCY RESPONSE TO A REAL COSINE INPUT THE DFT SINGLE-BIN FREQUENCY RESPONSE TO A REAL COSINE INPUT INTERPRETING THE DFT REFERENCES Chapter Four. The Fast Fourier Transform Chapter Four. The Fast Fourier Transform RELATIONSHIP OF THE FFT TO THE DFT HINTS ON USING FFTS IN PRACTICE FFT SOFTWARE PROGRAMS DERIVATION OF THE RADIX-2 FFT ALGORITHM FFT INPUT/OUTPUT DATA INDEX BIT REVERSAL RADIX-2 FFT BUTTERFLY STRUCTURES REFERENCES Chapter Five. Finite Impulse Response Filters Chapter Five. Finite Impulse Response Filters AN INTRODUCTION TO FINITE IMPULSE RESPONSE (FIR) FILTERS CONVOLUTION IN FIR FILTERS LOW-PASS FIR FILTER DESIGN BANDPASS FIR FILTER DESIGN HIGHPASS FIR FILTER DESIGN REMEZ EXCHANGE FIR FILTER DESIGN METHOD HALF-BAND FIR FILTERS PHASE RESPONSE OF FIR FILTERS A GENERIC DESCRIPTION OF DISCRETE CONVOLUTION REFERENCES Chapter Six. Infinite Impulse Response Filters Chapter Six. Infinite Impulse Response Filters AN INTRODUCTION TO INFINITE IMPULSE RESPONSE FILTERS THE LAPLACE TRANSFORM THE Z-TRANSFORM IMPULSE INVARIANCE IIR FILTER DESIGN METHOD BILINEAR TRANSFORM IIR FILTER DESIGN METHOD OPTIMIZED IIR FILTER DESIGN METHOD PITFALLS IN BUILDING IIR FILTERS IMPROVING IIR FILTERS WITH CASCADED STRUCTURES A BRIEF COMPARISON OF IIR AND FIR FILTERS REFERENCES Chapter Seven. Specialized Lowpass FIR Filters Chapter Seven. Specialized Lowpass FIR Filters FREQUENCY SAMPLING FILTERS: THE LOST ART INTERPOLATED LOWPASS FIR FILTERS REFERENCES Chapter Eight. Quadrature Signals Chapter Eight. Quadrature Signals WHY CARE ABOUT QUADRATURE SIGNALS? THE NOTATION OF COMPLEX NUMBERS REPRESENTING REAL SIGNALS USING COMPLEX PHASORS A FEW THOUGHTS ON NEGATIVE FREQUENCY QUADRATURE SIGNALS IN THE FREQUENCY DOMAIN BANDPASS QUADRATURE SIGNALS IN THE FREQUENCY DOMAIN COMPLEX DOWN-CONVERSION A COMPLEX DOWN-CONVERSION EXAMPLE AN ALTERNATE DOWN-CONVERSION METHOD REFERENCES Chapter Nine. The Discrete Hilbert Transform Chapter Nine. The Discrete Hilbert Transform HILBERT TRANSFORM DEFINITION WHY CARE ABOUT THE HILBERT TRANSFORM? IMPULSE RESPONSE OF A HILBERT TRANSFORMER DESIGNING A DISCRETE HILBERT TRANSFORMER TIME-DOMAIN ANALYTIC SIGNAL GENERATION COMPARING ANALYTIC SIGNAL GENERATION METHODS REFERENCES Chapter Ten. Sample Rate Conversion Chapter Ten. Sample Rate Conversion DECIMATION INTERPOLATION COMBINING DECIMATION AND INTERPOLATION POLYPHASE FILTERS CASCADED INTEGRATOR-COMB FILTERS REFERENCES Chapter Eleven. Signal Averaging Chapter Eleven. Signal Averaging COHERENT AVERAGING INCOHERENT AVERAGING AVERAGING MULTIPLE FAST FOURIER TRANSFORMS FILTERING ASPECTS OF TIME-DOMAIN AVERAGING EXPONENTIAL AVERAGING REFERENCES Chapter Twelve. Digital Data Formats and Their Effects Chapter Twelve. Digital Data Formats and Their Effects FIXED-POINT BINARY FORMATS BINARY NUMBER PRECISION AND DYNAMIC RANGE EFFECTS OF FINITE FIXED-POINT BINARY WORD LENGTH FLOATING-POINT BINARY FORMATS BLOCK FLOATING-POINT BINARY FORMAT REFERENCES Chapter Thirteen. Digital Signal Processing Tricks Chapter Thirteen. Digital Signal Processing Tricks FREQUENCY TRANSLATION WITHOUT MULTIPLICATION HIGH-SPEED VECTOR MAGNITUDE APPROXIMATION FREQUENCY-DOMAIN WINDOWING FAST MULTIPLICATION OF COMPLEX NUMBERS EFFICIENTLY PERFORMING THE FFT OF REAL SEQUENCES COMPUTING THE INVERSE FFT USING THE FORWARD FFT SIMPLIFIED FIR FILTER STRUCTURE REDUCING A/D CONVERTER QUANTIZATION NOISE A/D CONVERTER TESTING TECHNIQUES FAST FIR FILTERING USING THE FFT GENERATING NORMALLY DISTRIBUTED RANDOM DATA ZERO-PHASE FILTERING SHARPENED FIR FILTERS INTERPOLATING A BANDPASS SIGNAL SPECTRAL PEAK LOCATION ALGORITHM COMPUTING FFT TWIDDLE FACTORS SINGLE TONE DETECTION THE SLIDING DFT THE ZOOM FFT A PRACTICAL SPECTRUM ANALYZER AN EFFICIENT ARCTANGENT APPROXIMATION FREQUENCY DEMODULATION ALGORITHMS DC REMOVAL IMPROVING TRADITIONAL CIC FILTERS SMOOTHING IMPULSIVE NOISE EFFICIENT POLYNOMIAL EVALUATION DESIGNING VERY HIGH-ORDER FIR FILTERS TIME-DOMAIN INTERPOLATION USING THE FFT FREQUENCY TRANSLATION USING DECIMATION AUTOMATIC GAIN CONTROL (AGC) APPROXIMATE ENVELOPE DETECTION A QUADRATURE OSCILLATOR DUAL-MODE AVERAGING REFERENCES Appendix A. The Arithmetic of Complex Numbers Appendix A. The Arithmetic of Complex Numbers Section A.1. GRAPHICAL REPRESENTATION OF REAL AND COMPLEX NUMBERS Section A.2. ARITHMETIC REPRESENTATION OF COMPLEX NUMBERS Section A.3. ARITHMETIC OPERATIONS OF COMPLEX NUMBERS Section A.4. SOME PRACTICAL IMPLICATIONS OF USING COMPLEX NUMBERS REFERENCES Appendix B. Closed Form of a Geometric Series Appendix B. Closed Form of a Geometric Series Appendix C. Time Reversal and the DFT Appendix C. Time Reversal and the DFT Appendix D. Mean, Variance, and Standard Deviation Appendix D. Mean, Variance, and Standard Deviation Section D.1. STATISTICAL MEASURES Section D.2. STANDARD DEVIATION, OR RMS, OF A CONTINUOUS SINEWAVE Section D.3. THE MEAN AND VARIANCE OF RANDOM FUNCTIONS Section D.4. THE NORMAL PROBABILITY DENSITY FUNCTION REFERENCES Appendix E. Decibels (dB and dBm) Appendix E. Decibels (dB and dBm) Section E.1. USING LOGARITHMS TO DETERMINE RELATIVE SIGNAL POWER Section E.2. SOME USEFUL DECIBEL NUMBERS Section E.3. ABSOLUTE POWER USING DECIBELS Appendix F. Digital Filter Terminology Appendix F. Digital Filter Terminology REFERENCES Appendix G. Frequency Sampling Filter Derivations Appendix G. Frequency Sampling Filter Derivations Section G.1. FREQUENCY RESPONSE OF A COMB FILTER Section G.2. SINGLE COMPLEX FSF FREQUENCY RESPONSE Section G.3. MULTISECTION COMPLEX FSF PHASE Section G.4. MULTISECTION COMPLEX FSF FREQUENCY RESPONSE Section G.5. REAL FSF TRANSFER FUNCTION Section G.6. TYPE-IV FSF FREQUENCY RESPONSE Appendix H. Frequency Sampling Filter Design Tables Appendix H. Frequency Sampling Filter Design Tables show all menu Previous page Table of content Next page Understanding Digital Signal Processing (2nd Edition) ISBN: 0131089897 EAN: 2147483647 Year: 2004 Pages: 183 Authors: Richard G. 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