Phase lock basics
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| 007 | t | ||
| 008 | 090924s2008 d||| |||| 00||| eng d | ||
| 020 | |a 9780470118009 |9 978-0470-11800-9 | ||
| 035 | |a (OCoLC)636837819 | ||
| 035 | |a (DE-599)GBV549747087 | ||
| 040 | |a DE-604 |b ger |e rakwb | ||
| 041 | 0 | |a eng | |
| 049 | |a DE-83 | ||
| 084 | |a ZN 5510 |0 (DE-625)157464: |2 rvk | ||
| 100 | 1 | |a Egan, William F. |e Verfasser |4 aut | |
| 245 | 1 | 0 | |a Phase lock basics |c William F. Egan |
| 246 | 1 | |a Phase-lock basics | |
| 250 | |a 2. ed. | ||
| 264 | 1 | |a Hoboken, N.J. |b Wiley-Interscience |c 2008 | |
| 300 | |a XXX, 441 S. |b graph. Darst. |c 25 cm | ||
| 336 | |b txt |2 rdacontent | ||
| 337 | |b n |2 rdamedia | ||
| 338 | |b nc |2 rdacarrier | ||
| 500 | |a Includes bibliographical references (p. 423-427) and index | ||
| 650 | 0 | 7 | |a Phasenregelkreis |0 (DE-588)4174166-3 |2 gnd |9 rswk-swf |
| 689 | 0 | 0 | |a Phasenregelkreis |0 (DE-588)4174166-3 |D s |
| 689 | 0 | |5 DE-604 | |
| 856 | 4 | |u http://www.netLibrary.com/urlapi.asp?action=summary&v=1&bookid=209716 |y E-books (NetLibrary) | |
| 856 | 4 | 2 | |m GBV Datenaustausch |q application/pdf |u http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=018600295&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA |3 Inhaltsverzeichnis |
| 999 | |a oai:aleph.bib-bvb.de:BVB01-018600295 | ||
Datensatz im Suchindex
| _version_ | 1804140651594383360 |
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| adam_text | PHASE-LOCK BASICS SECOND EDITION WILLIAM F. EGAN, PH.D. LECTURER IN
ELECTRICAL ENGINEERING SANTA CLARA UNIVERSITY IEEE THE INSTITUTE OF
ELECTRICAL AND ELECTRONICS ENGINEERS, INC., NEW YORK BICINTINNI AU JI IN
; 1 8 0 7 JJ WILEY I 2 0 0 7 WILEY-INTERSCIENCE A JOHN WILEY &
SONS, INC., PUBLICATION CONTENTS PREFACE TO THE SECOND EDITION XIX
PREFACE TO THE FIRST EDITION XXI SYMBOLS LIST AND GLOSSARY XXV PART 1
PHASE LOCK WITHOUT NOISE 1 INTRODUCTION 3 1.1 WHAT IS A PHASE-LOCKED
LOOP (PLL)? / 3 1.2 WHY USE A PHASE-LOCKED LOOP? / 3 1.3 SCOPEOFTHISBOOK
/ 4 1.4 BASIC LOOP / 5 1.5 PHASE DEFINITIONS / 6 1.6 PHASE DETECTOR / 8
1.7 COMBINEDGAIN / 10 1.8 OPERATING RANGE / 11 1.9 UNITS AND THE LAPLACE
VARIABLE S I 13 VUEI CONTENTS 2 THE BASIC LOOP 15 2.1 STEADY-STATE
CONDITIONS / 15 2.2 CLASSICAL ANALYSIS / 16 2.2.1 TRANSIENT RESPONSE /
17 2.2.2 MODULATION RESPONSE / 19 2.3 MATHEMATICAL BLOCK DIAGRAM / 21
2.4 BODE PLOT / 24 2.5 NOTE ON PHASE REVERSAIS / 26 2.6 SUMMARY OF
TRANSIENT RESPONSES OF THE FIRST-ORDER LOOP / 26 3 LOOP COMPONENTS 29
3.1 PHASE DETECTOR / 29 3.1.1 FLIP-FLOP PHASE DETECTOR / 29 3.1.2
EXCLUSIVE-OR GATE PHASE DETECTOR / 30 3.1.3 CHARGE-PUMP PHASE DETECTOR /
31 3.1.4 SINUSOIDAL PHASE DETECTOR / 33 3.1.4.1 PHASE DETECTION IN A
SIMPLE MIXER / 34 3.1.4.2 BALANCED MIXERS / 35 3.1.4.3 ANALOG
MULTIPLIERS / 39 3.1.4.4 INTEGRATED CIRCUIT DOUBLY BALANCED MIXER / 40
3.2 VOLTAGE-CONTROLLED OSCILLATOR (VCO) / 41 3.3 LOOP FILTER / 44 3.3.1
PASSIVE LOOP FILTER / 45 3.3.2 FILTERS DRIVEN BY CURRENT SOURCES / 45
3.3.2.1 INTEGRATOR / 47 3.3.2.2 INTEGRATOR-AND-LEAD FILTER / 48 3.3.2.3
LAG (LOW-PASS) FILTER / 48 3.3.2.4 LAG-LEAD FILTER / 49 3.3.2.5 DC
TRANSIMPEDANCE / 49 3.3.3 ACTIVE FILTERS / 51 3.3.3.1 OP-AMP
CONSIDERATIONS / 52 3.3.3.2 UNINTENDED POLES / 53 3.3.3.3 REDUCING THE
SIZE OFC/54 3.3.3.4 IMPRACTICAL LOOP FILTERS / 55 3.4 FILTER REFERENCE
VOLTAGE / 55 3.5 NOTE ON THE FORM OF THE FILTER EQUATION / 56 3.6
CAPACITORS IN LOOP FILTERS / 56 3.7 HIGHER-ORDER FILTERS / 57 CONTENTS
IX I3.A APPENDIX: INTEGRATED CIRCUIT DOUBLY BALANCED MIXER*DETAILS / 57
I3.B APPENDIX: OP-AMPS IN LOOP FILTERS / 57 4 LOOP RESPONSE 59 4.1 LOOP
ORDER AND TYPE / 59 4.2 CLOSED-LOOP EQUATIONS / 60 4.3 OPEN-LOOP
EQUATIONS*LAG-LEAD FILTER / 62 4.4 LOOP WITH A LAG FILTER / 65 4.5 LOOP
WITH AN INTEGRATOR-AND-LEAD FILTER / 66 4.6 SUMMARY OF EQUATIONS / 67
4.7 UNITY-GAIN BANDWIDTH IN HIGHLY DAMPED LOOPS / 67 5 LOOP STABILITY 71
5.1 OBSERVING THE OPEN-LOOP RESPONSE / 71 5.2 METHODS OF STABILITY
ANALYSIS AND MEASURES OF STABILITY / 72 5.2.1 BODEPLOT/73 5.2.2
NYQUISTPLOT / 74 5.2.3 EVANS PLOT (ROOT LOCUS) / 76 5.3 STABILITY OF
VARIOUS PLL CONFIGURATIONS / 76 5.3.1 FIRST-ORDER LOOP / 77 5.3.2
SECOND-ORDER LOOP / 77 5.3.3 THIRD-ORDER LOOP / 77 5.3.4 CONTROLLING
STABILITY OVER WIDE GAIN RANGES / 79 5.3.5 REPRESENTING DELAY / 80 5.4
COMPUTING OPEN-LOOP GAIN AND PHASE / 81 5.5 PHASE MARGIN VERSUS DAMPING
FACTOR / 86 I5.M APPENDIX: STABILITY PLOTS USING MATLAB / 86 6
TRANSIENT RESPONSE 87 6.1 STEP RESPONSE / 87 6.1.1 FORM OF THE EQUATIONS
/ 87 6.1.2 STEP RESPONSE EQUATIONS / 89 6.2 ENVELOPE OF THE LONG-TERM
STEP RESPONSE / 92 6.3 RESPONSE TO RAMP INPUT / 96 6.4 RESPONSE TO
PARABOLIC INPUT / 98 6.5 OTHER RESPONSES / 100 6.6 NOTE ON UNITS FOR
GRAPHS / 101 6.7 EQUIVALENT CIRCUIT / 102 X CONTENTS 6.8 GENERAL
LONG-TERM (STEADY-STATE) RESPONSE CHARACTERISTICS / 102 6.9 OPEN-LOOP
EQUATIONS IN TERMS OF CLOSED-LOOP PARAMETERS / 103 6.10 MORE COMPLEX
LOOPS AND STATE-SPACE ANALYSIS / 103 6.10.1 BASIC EQUATIONS / 104 6.10.2
INITIAL CONDITIONS / 107 6.11 AN APPROXIMATE SOLUTION USING STATE-SPACE
VARIABLES / 108 6.12 EFFECT OF AN ADDED POLE / 108 I6.M APPENDIX:
TRANSIENT RESPONSES USING MATLAB / 109 7 MODULATION RESPONSE 111 7.1
PHASE AND FREQUENCY MODULATION / 111 7.2 MODULATION RESPONSES / 113 7.3
RESPONSES IN A FIRST-ORDER LOOP / 113 7.4 TRANSFER FUNCTIONS IN A
SECOND-ORDER LOOP / 116 7.4.1 OUTPUT RESPONSE / 117 7.4.2 ERROR RESPONSE
/ 118 7.4.3 RESPONSES NEAR U L / 118 7.4.4 PHASE OR FREQUENCY AT INPUTS
AND OUTPUTS / 119 7.5 TRANSIENT RESPONSES BETWEEN VARIOUS POINTS / 120
7.6 MAGNITUDE AND PHASE OF THE TRANSFER FUNCTIONS / 120 7.6.1 OUTPUT
RESPONSES / 121 7.6.2 ERROR RESPONSES / 121 7.6.3 EFFECT OFOR / 122
7.6.4 RESPONSES FOR F 1 / 123 7.6.5 RESPONSES FOR 1 / 125 7.7
RELATED RESPONSES / 127 7.8 MODULATION AND DEMODULATION IN THE
SECOND-ORDER LOOP / 128 7.8.1 FREQUENCY DEMODULATION / 128 7.8.2 PHASE
DEMODULATION / 130 7.8.3 FREQUENCY MODULATION / 130 7.8.4 PHASE
MODULATION / 131 7.8.5 EXTENDING THE MODULATION FREQUENCY RANGE / 131
7.8.5.1 FREQUENCY MODULATION / 131 7.8.5.2 PHASE MODULATION / 133 7.9
MEASUREMENT OF LOOP PARAMETERS FOR A * 0 OR 1 FROM MODULATION RESPONSES
/ 134 CONTENTS XI 7.10 EFFECT OF AN ADDED POLE / 134 7.M APPENDIX:
MODULATION RESPONSE USING MATLAB / 135 8 ACQUISITION 137 8.1 OVERVIEW /
137 8.2 ACQUISITION AND LOCK IN A FIRST-ORDER LOOP / 141 8.2.1 TRANSIENT
TIME / 143 8.2.2 ACQUISITION / 144 8.3 ACQUISITION FORMULAS FOR
SECOND-ORDER LOOPS WITH SINE PHASE DETECTORS / 146 8.4 APPROXIMATE
PULL-IN ANALYSIS / 149 8.4.1 BASIC EQUATIONS / 150 8.4.2 GENERAL
ANALYSIS / 153 8.4.3 PULL-IN RANGE / 157 8.4.4 APPROXIMATE PULL-IN TIME
/ 158 8.5 PHASE-PLANE ANALYSIS / 161 8.6 PULL-OUT / 164 8.7 EFFECT OF
OFFSETS / 164 8.8 EFFECT OFCOMPONENT SATURATION / 165 8.9 HANGUP / 166
8.10 SIMULATION OF THE NONLINEAR LOOP / 166 8.A APPENDIX: SUMMARY OF
ACQUISITION FORMULAS FOR SECOND-ORDER LOOPS / 167 I8.M APPENDIX:
NONLINEAR SIMULATION / 167 8.S APPENDIX: ACQUISITION SPREADSHEET / 167
8.V APPENDIX: SOME VALUES IN TERMS OF A, {,, AND A * I 167 9 ACQUISITION
AIDS 171 9.1 COHERENT DETECTION*LOCK INDICATOR / 171 9.1.1 DURING
ACQUISITION / 172 9.1.2 DURING SWEEP, LOCKED LOOP / 173 9.2 CHANGING
LOOP PARAMETERS TEMPORARILY / 174 9.2.1 COHERENT AUTOMATIC GAIN CONTROL
/ 174 9.2.2 FILTER MODIFIKATION / 175 9.2.3 COMPARISON OF TWO TYPES OF
PARAMETER MODIFICATIONS / 176 9.3 AUTOMATIC TUNING OF C , FREQUENCY
DISCRIMINATOR / 177 9.4 ACQUISITION AIDING LOGIC / 179 XUE CONTENTS 9.5
SWEEPING CO C , TYPE 2 LOOP / 180 9.5.1 MAXIMUM SWEEP SPEED, CLOSED-LOOP
SWEEPING / 180 9.5.2 OPEN-LOOP SWEEPING / 181 9.5.3 COMBINED TECHNIQUES
/ 185 9.6 SWEEP CIRCUITS / 185 9.6.1 SWITCHED CURRENT SOURCE / 185 9.6.2
AUTOMATIC SWEEP CIRCUIT*SINUSOIDAL / 186 9.6.3 AUTOMATIC SWEEP
CIRCUIT*NONSINUSOIDAL / 186 9.A APPENDIX: MAXIMUM SWEEP RATE, OPEN-LOOP
VS. CLOSED-LOOP / 187 10 APPLICATIONS AND EXTENSIONS 189 10.1
HIGHER-ORDER LOOPS / 189 10.2 GENERALIZED VOLTAGE-CONTROLLED OSCILLATOR
/ 189 10.2.1 FREQUENCY SYNTHESIS, FREQUENCY DIVISION / 190 10.2.1.1
STABILITY / 191 10.2.1.2 TRANSIENT RESPONSE / 191 10.2.1.3 RESPONSE TO
NOISE / 192 10.2.2 HETERODYNING (FREQUENCY MIXING) / 192 10.3 LONG LOOP
/ 193 10.4 CARRIER RECOVERY / 195 10.4.1 BIPHASE COSTAS LOOP / 195
10.4.2 JV-PHASE COSTAS LOOP / 196 10.4.3 MULTIPLY AND DIVIDE / 196 10.5
DATA SYNCHRONIZATION / 197 10.5.1 EARLY-LATE GATE BIT SYNCHRONIZER / 197
10.5.2 SYNCHRONIZING TO A PSEUDORANDOM BIT SEQUENCE / 198 10.5.3
DELAY-AND-MULTIPLY SYNCHRONIZER / 200 10.6 CLOCK AND DATA TIMING CONTROL
/ 200 10.6.1 PHASE-LOCKED LOOPS / 200 10.6.2 DELAY-LOCKED LOOPS / 202
10.6.2.1 FOR CLOCK SYNCHRONIZATION / 202 10.6.2.2 FOR DATA
SYNCHRONIZATION / 203 10.6.3 COMBINED LOOPS / 204 10.7 ALL-DIGITAL
PHASE-LOCKED LOOP (ADPLL) / 204 10.7.1 BASIC DIGITAL IMPLEMENTATION /
205 10.7.1.1 THE LOOP/ 205 10.7.1.2 SAMPLING AND STABILITY / 206
CONTENTS XUEI 10.7.1.3 CHOICE OFVALUES / 209 10.7.1.4 HIGHER-ORDERLOOPS /
210 10.7.2 OA, NCO,DDS / 211 10.7.3 IMPLEMENTING AN ADPLL BY PULSE
ADDITION AND REMOVAL / 212 10.7.3.1 TRANSFER FUNCTION / 213 10.7.3.2
TUNING RANGE / 214 10.8 SUMMARY / 214 10.A APPENDIX: EXACT ANALYSIS OF A
SPECIAL-CASE THIRD-ORDER LOOP / 215 10.A.1 LOOP RESPONSE / 217 10.A.2
FINAL VALUES / 219 10.A.3 TRIPLEROOTS / 220 10.A.4 STEP RESPONSE / 220
10.A.5 MODULATION RESPONSE / 224 ILO.B APPENDIX: COSTAS LOOP FORNPHASES
/ 227 ILO.C APPENDIX: SYMBOL CLOCK RECOVERY / 227 ILO.D APPENDIX: ADPLL
BY PULSE ADDITION AND REMOVAL, ADDITIONAL MATERIAL / 228 10.F APPENDIX:
FRACTIONAL-/V AND SIGMA-DELTA / 228 ILO.M APPENDIX: MATLAB SIMULATIONS
/ 228 ILO.T APPENDIX: COMBINED PLL AND DLL / 229 PART 2 PHASE LOCK IN
NOISE 11 PHASE MODULATION BY NOISE 233 11.1 REPRESENTATION OF NOISE
MODULATION / 233 11.2 PROCESSING OF NOISE MODULATION BY THE PHASE-LOCKED
LOOP / 236 11.3 PHASE AND FREQUENCY VARIANCE / 237 11.4 TYPICAL
OSCILLATOR SPECTRUMS / 238 11.5 LIMITS ON THE NOISE SPECTRUM*INFINITE
VARIANCES / 240 11.6 POWER SPECTRUM / 242 11.6.1 SPECTRUM FOR SMALL M I
242 11.6.2 SINGLE-SIDEBAND DENSITY / 243 11.6.3 WHEN IS THE MODULATION
SMALL? / 245 11.6.4 MODIFICATION OF SPECTRAL SHAPE AT HIGHER MODULATION
INDEX / 246 11.6.5 SCRIPTA/ 247 XJV CONTENTS 11.7 FREQUENCY
MULTIPLICATION AND DIVISION / 247 11.8 OTHER REPRESENTATIONS / 248 ILL.H
SHAPE OF OUTPUT SPECTRUM / 249 1 L.S APPENDIX: SPREADSHEETS FOR
INTEGRATING DENSITIES / 249 12 RESPONSE TO PHASE NOISE 251 12.1
PROCESSING OF REFERENCE PHASE NOISE / 251 12.2 PROCESSING OFVCO PHASE
NOISE / 254 12.3 HARMFUL EFFECT OF PHASE NOISE IN RADIO RECEIVERS / 255
12.4 SUPERPOSITION / 256 12.5 OPTIMUM LOOP WITH BOTH INPUT AND VCO NOISE
/ 257 12.6 MULTIPLE LOOPS / 260 12.7 EFFECTS OF NOISE INJECTED ELSEWHERE
/ 260 12.8 MEASURING PHASE NOISE / 261 12.8.1 USING A PHASE DETECTOR /
263 12.8.1.1 CALIBRATION / 263 12.8.1.2 OBTAINING A MEASUREMENT
REFERENCE / 265 12.8.2 USING A FREQUENCY DISCRIMINATOR / 269 12.8.3
USING A SPECTRUM ANALYZER OR RECEIVER / 270 13 REPRESENTATION OF
ADDITIVE NOISE 271 13.1 GENERAL / 271 13.2 PHASE MODULATION ON THE
SIGNAL / 273 13.3 MULTIPLICATIVE MODULATION ON QUADRATURE CARRIERS / 275
13.4 NOISE AT THE PHASE DETECTOR OUTPUT / 276 13.5 RESTRICTIONS ON THE
NOISE MODELS / 277 13.6 DOES THE LOOP LOCK TO THE ADDITIVE NOISE? / 280
13.7 OTHER TYPES OF PHASE DETECTORS IN THE PRESENCE OF NOISE / 281
13.7.1 TRIANGULAER CHARACTERISTIC / 282 13.7.2 SAWTOOTH CHARACTERISTIC /
283 13.8 MODIFIED PHASE DETECTOR CHARACTERISTIC WITH PHASE NOISE / 283
IL3.A APPENDIX: DECOMPOSITION OF A SINGLE SIDEBAND / 286 14 LOOP
RESPONSE TO ADDITIVE NOISE 287 14.1 NOISE BANDWIDTH / 287 14.2
SIGNAL-TO-NOISE RATIO IN THE LOOP BANDWIDTH / 290 14.3 LOOP OPTIMIZATION
IN THE PRESENCE OF NOISE / 291 14.3.1 THE PROBLEM / 292 CONTENTS XV
14.3.2 MEASURES TO BE USED / 292 14.3.3 OPTIMUM LOOP FOR A PHASE STEP
INPUT / 293 14.3.4 OPTIMUM LOOP FOR A FREQUENCY STEP INPUT / 294 14.3.5
OPTIMUM LOOP FOR A FREQUENCY RAMP INPUT / 294 IL4.A APPENDIX:
INTEGRATION OF EQ. (6.4A) / 296 IL4.B APPENDIX: LOOP OPTIMIZATION IN THE
PRESENCE OF NOISE / 296 15 PHASE-LOCKED LOOP AS A DEMODULATOR 297 15.1
PHASE DEMODULATION / 297 15.1.1 NOISE / 297 15.1.2
DISTORTIONOFTHEDEMODULATED SIGNAL / 299 15.1.3 DEMODULATION WITH A
LINEAR PHASE DETECTOR CHARACTERISTIC / 300 15.2 FREQUENCY DEMODULATION,
BANDWIDTH SET BY A FILTER / 301 15.3 FREQUENCY DISCRIMINATOR,
FIRST-ORDER LOOP / 305 15.4 FREQUENCY DISCRIMINATOR, SECOND-ORDER LOOP /
306 15.5 EXPECTED PHASE ERROR / 307 15.6 SUMMARY OF FREQUENCY
DISCRIMINATOR S/N I 308 15.7 STANDARD DISCRIMINATOR AND CLICK NOISE /
310 15.8 CLICKS WITH A PLL / 313 15.9 NOISE IN A CARRIER RECOVERY LOOP /
314 15.C APPENDIX: SPECTRUM OF CLICKS / 316 15.E APPENDIX: ERFC / 317 16
PARAMETER VARIATION DUE TO NOISE 319 16.1 PREVIEW / 319 16.1.1 AUTOMATIC
GAIN CONTROL (AGC) / 319 16.1.2 LIMITER / 320 16.1.3 DRIVING THE PHASE
DETECTOR HARD FROM THE SIGNAL / 321 16.1.4 EFFECTS OF VARIATIONS / 322
16.2 AGC / 322 16.2.1 TYPES OF DETECTORS / 322 16.2.2 SQUARE-LAW
DETECTION / 323 16.3 LIMITER / 325 16.3.1 LIMITING IN THE PRESENCE OF
SMALL NOISE / 325 16.3.2 LIMITING IN THE PRESENCE OF LARGE NOISE / 326
16.4 EFFECTS OF GAIN VARIATION ON LOOP PARAMETERS / 329 XVI CONTENTS
16.5 EFFECT OF AGC OR LIMITER ON AN OPTIMIZED LOOP / 331 16. A APPENDIX:
MODIFIED BESSEL FUNCTIONS / 333 17 CYCLE SKIPPING DUE TO NOISE 335 17.1
PHASE / 336 17.1.1 FOKKER-PLANK METHOD / 336 17.1.1.1 ASSUMPTION
REGARDING THE NATURE OFTHE NOISE / 337 17.1.1.2 FIRST-ORDER LOOP / 337
17.1.1.3 SECOND-ORDER LOOP / 339 17.1.2 EXPERIMENTAL RESULTS / 341
17.1.3 SIMULATION / 342 17.1.3.1 FIRST-ORDER AND A =0/342 17.1.3.2
SECOND-ORDER, HIGH-GAIN / 343 17.2 CYCLE SKIPPING, MEAN TIME / 347
17.2.1 FIRST-ORDER LOOP / 347 17.2.2 SECOND-ORDER LOOP, A = 0 / 348
17.2.3 SECOND-ORDER LOOP, A = 1/348 17.2.4 SECOND-ORDER LOOP, 0 A 1
/ 350 17.2.5 PROBABILITY OF CYCLE SKIPPING IN A GIVEN TIME / 350 17.3
CYCLE SKIPPING, MEAN FREQUENCY / 350 17.4 CYCLE SKIPPING WITH MISTUNING
/ 353 17.4.1 EFFECT OFA I 353 17.4.2 COMPARISON TO OTHER RESULTS / 356
17.5 SUMMARY / 356 17.5.1 PHASE VARIANCE / 356 17.5.2 CYCLE SKIPPING /
357 17.5.3 SKIP FREQUENCY / 357 17.5.4 MISTUNING IN HIGH-GAIN LOOPS (F =
0.7) / 357 IL7.D APPENDIX: ADDITIONAL DATA / 357 U7.M APPENDIX: MATLAB
SCRIPTS / 357 18 NONLINEAR OPERATION IN A LOCKED LOOP 359 18.1 NOTATION
/ 359 18.2 PHASE-DETECTOR OUTPUT M / 360 18.3 CHANGES IN THE OUTPUT
SPECTRUM / 361 18.4 GAIN SUPPRESSION, QUASI-LINEAR APPROXIMATION / 361
18.4.1 BASICS / 363 CONTENTS XVUE 18.4.2 PHASE VARIANCE WITH ADDITIVE
NOISE / 365 18.4.3 TRACKING THE CARRIER / 368 18.4.3.1 WITH PHASE
MODULATION / 368 18.4.3.2 WITH PHASE MODULATION AND VCO NOISE / 369
18.4.4 EFFECT ON PHASE OFFSET / 372 18.4.4.1 WITH HIGH-FREQUENCY PHASE
MODULATION / 372 18.4.4.2 WITH ADDITIVE NOISE / 373 18.4.4.3 WITH
LIMITING / 375 18.4.5 SUMMARY OF SUPPRESSION / 375 IL8.S APPENDIX:
ADDITIONAL OFFSET SIMULATION DATA / 376 ACQUISITION AIDS IN THE PRESENCE
OF NOISE 377 19.1 SWEEPING WITH PIAIN CLOSED-LOOP / 377 19.1.1 MAXIMUM
SWEEP RATE IN NOISE / 377 19.1.2 EFFECT OF INITIAL MISTUNING / 380
19.1.3 DETERMINING SUCCESSFUL ACQUISITION / 382 19.1.4 OPTIMUM SWEEP
PARAMETERS / 383 19.2 REDUCTION OF COHERENT DETECTOR OUTPUT (CLOSED-LOOP
SWEEPING) / 385 19.3 CLOSED-LOOP SWEEPING IN NOISE WITH COHERENT
DETECTOR / 386 19.3.1 SUCCESSFUL ACQUISITION / 386 19.3.2 FALSE STOPS /
388 19.3.3 FALSE RESTART / 389 19.3.4 FALSE STOP VERSUS FALSE RESTART /
390 UE9.M APPENDIX: MATLAB SCRIPT, SWPI / 393 UE9.S APPENDIX: OPTIMUM
SWEEP FOR A FIXED NOISE DENSITY / 393 BANDLIMITED NOISE 395 20.1 SIGNALS
CENTERED IN A NOISE BAND / 395 20.1.1 CLICKS WITH A FIRST-ORDER PLL /
395 20.1.2 SIMULATION RESULTS COMPARED TO MEASURED DATA / 396 20.1.3
SKIPRATE / 398 20.1.4 OUTPUT PHASE VARIANCE / 403 20.1.5 EFFECT OF A
LIMITER / 404 20.1.6 COMPARISON TO AGC / 406 20.1.7 HIGHER-ORDER LOOPS /
407 20.1.8 SUMMARY, SYMMETRICAL NARROWBAND NOISE / 407 20.2 ECCENTRIC
SIGNALS / 407 20.2.1 EXPECTED PERFORMANCE / 408 XVIII CONTENTS 20.2.2
SIMULATING ECCENTRIC NOISE / 409 20.2.3 SOME SIMULATION RESULTS / 409
20.2.3.1 CYCLE SKIPPING / 410 20.2.3.2 PHASE OFFSET / 411 20.2.3.3
OUTPUT VARIANCE / 411 20.3 EXTENSION TO OTHER TYPES OF INTERFERENCE /
411 I20.M APPENDIX: MATLAB SCRIPTS / 413 I20.O APPENDIX: OFF SET
INTERFERENCE DATA CORRELATION / 413 I20.S APPENDIX: BAND LIMITED
SIMULATION DATA / 413 21 FURTHER INFORMATION 415 21.1 SOURCES FOR
ADDITIONAL STUDIES IN PHASE LOCK / 415 21.2 SOURCES COVERING
PHASE-LOCKED FREQUENCY SYNTHESIS / 416 2 LA APPENDIX: MODULATIONS AND
SPECTRUMS / 416 21.B APPENDIX: GETTING FILES FROM THE WILEY INTERNET
SITE / 421 REFERENCES INDEX 423 429
|
| any_adam_object | 1 |
| author | Egan, William F. |
| author_facet | Egan, William F. |
| author_role | aut |
| author_sort | Egan, William F. |
| author_variant | w f e wf wfe |
| building | Verbundindex |
| bvnumber | BV024628643 |
| classification_rvk | ZN 5510 |
| ctrlnum | (OCoLC)636837819 (DE-599)GBV549747087 |
| discipline | Elektrotechnik / Elektronik / Nachrichtentechnik |
| edition | 2. ed. |
| format | Book |
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| id | DE-604.BV024628643 |
| illustrated | Illustrated |
| indexdate | 2024-07-09T22:03:22Z |
| institution | BVB |
| isbn | 9780470118009 |
| language | English |
| oai_aleph_id | oai:aleph.bib-bvb.de:BVB01-018600295 |
| oclc_num | 636837819 |
| open_access_boolean | |
| owner | DE-83 |
| owner_facet | DE-83 |
| physical | XXX, 441 S. graph. Darst. 25 cm |
| publishDate | 2008 |
| publishDateSearch | 2008 |
| publishDateSort | 2008 |
| publisher | Wiley-Interscience |
| record_format | marc |
| spelling | Egan, William F. Verfasser aut Phase lock basics William F. Egan Phase-lock basics 2. ed. Hoboken, N.J. Wiley-Interscience 2008 XXX, 441 S. graph. Darst. 25 cm txt rdacontent n rdamedia nc rdacarrier Includes bibliographical references (p. 423-427) and index Phasenregelkreis (DE-588)4174166-3 gnd rswk-swf Phasenregelkreis (DE-588)4174166-3 s DE-604 http://www.netLibrary.com/urlapi.asp?action=summary&v=1&bookid=209716 E-books (NetLibrary) GBV Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=018600295&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis |
| spellingShingle | Egan, William F. Phase lock basics Phasenregelkreis (DE-588)4174166-3 gnd |
| subject_GND | (DE-588)4174166-3 |
| title | Phase lock basics |
| title_alt | Phase-lock basics |
| title_auth | Phase lock basics |
| title_exact_search | Phase lock basics |
| title_full | Phase lock basics William F. Egan |
| title_fullStr | Phase lock basics William F. Egan |
| title_full_unstemmed | Phase lock basics William F. Egan |
| title_short | Phase lock basics |
| title_sort | phase lock basics |
| topic | Phasenregelkreis (DE-588)4174166-3 gnd |
| topic_facet | Phasenregelkreis |
| url | http://www.netLibrary.com/urlapi.asp?action=summary&v=1&bookid=209716 http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=018600295&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA |
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