Analog filters using MATLAB:
Gespeichert in:
| 1. Verfasser: | |
|---|---|
| Format: | Buch |
| Sprache: | English |
| Veröffentlicht: |
New York, NY [u.a.]
Springer
2009
|
| Schlagworte: | |
| Online-Zugang: | Inhaltsverzeichnis Inhaltstext Inhaltsverzeichnis |
| Beschreibung: | Literaturverz. S. 305 - 308 |
| Beschreibung: | XV, 316 S. Ill., graph. Darst. 260 mm x 193 mm |
| ISBN: | 9780387927664 9780387927671 |
Internformat
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| 245 | 1 | 0 | |a Analog filters using MATLAB |c Lars Wanhammar |
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Datensatz im Suchindex
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|---|---|
| adam_text | IMAGE 1
LARS WANHAMMAR
ANALOG FILTERS USING
MATLAB
SPRINGER
IMAGE 2
CONTENTS
1 INTRODUCTION TO ANALOG FILTERS 1
1.1 INTRODUCTION 1
1.2 SIGNALS AND SIGNAL CARRIERS 1
1.2.1 ANALOG SIGNALS 2
1.2.2 CONTINUOUS-TIME SIGNALS . 2
1.2.3 SIGNAL CARRIERS 3
1.2.4 DISCRETE-TIME AND DIGITAL SIGNALS 3
1.3 FILTER TERMINOLOGY 4
1.3.1 FILTER SYNTHESIS 4
1.3.2 FILTER REALIZATIONS 4
1.3.3 IMPLEMENTATION 5
1.4 EXAMPLES OF APPLICATIONS 6
1.4.1 CARRIER FREQUENCY SYSTEMS 6
1.4.2 ANTI-ALIASING FILTERS 7
1.4.3 HARD DISK DRIVES 7
1.5 ANALOG FILTER TECHNOLOGIES 8
1.5.1 PASSIVE FILTERS 8
1.5.2 ACTIVE FILTERS 9
1.5.3 INTEGRATED ANALOG FILTERS 9
1.5.4 TECHNOLOGIES FOR VERY HIGH FREQUENCIES 10
1.5.5 FREQUENCY RANGES FOR ANALOG FILTERS 10
1.6 DISCRETE-TIME FILTERS 11
1.6.1 SWITCHED CAPACITOR FILTERS 11
1.6.2 DIGITAL FILTERS 11
1.7 ANALOG FILTERS 12
1.7.1 FREQUENCY RESPONSE 12
1.7.2 MAGNITUDE FUNCTION 12
1.7.3 ATTENUATION FUNCTION 12
1.7.4 PHASE FUNCTION 13
1.7.5 LP, HP, BP, BS, AND AP FILTERS 14
1.7.6 PHASE DELAY 15
1.7.7 GROUP DELAY 17
VII
IMAGE 3
1.8 TRANSFER FUNCTION 18
1.8.1 POLES AND ZEROS 19
1.8.2 MINIMUM-PHASE AND MAXIMUM-PHASE FILTERS 20
1.9 IMPULSE RESPONSE 21
1.9.1 IMPULSE RESPONSE OF AN IDEAL LP FILTER 21
1.10 STEP RESPONSE 23
1.11 PROBLEMS 24
SYNTHESIS OF ANALOG FILTERS 27
2.1 INTRODUCTION 27
2.2 FILTER SPECIFICATION 27
2.2.1 MAGNITUDE FUNCTION SPECIFICATION 27
2.2.2 ATTENUATION SPECIFICATION 28
2.2.3 GROUP DELAY SPECIFICATION 28
2.3 COMPOSITE REQUIREMENTS 29
2.4 STANDARD LP APPROXIMATIONS 30
2.4.1 BUTTERWORTH FILTERS 30
2.4.2 POLES AND ZEROS OF BUTTERWORTH FILTERS 32
2.4.3 IMPULSE AND STEP RESPONSE OF BUTTERWORTH FILTERS . . .. 34
2.4.4 CHEBYSHEV I FILTERS 36
2.4.5 POLES AND ZEROS OF CHEBYSHEV I FILTERS 39
2.4.6 REFLECTION ZEROS OF CHEBYSHEV I FILTERS 40
2.4.7 IMPULSE AND STEP RESPONSE OF CHEBYSHEV I FILTERS . . .. 40
2.4.8 CHEBYSHEV II FILTERS 42
2.4.9 POLES AND ZEROS OF CHEBYSHEV II FILTERS 45
2.4.10 IMPULSE AND STEP RESPONSE OF CHEBYSHEV II FILTERS. . .. 46 2.4.11
CAUER FILTERS 47
2.4.12 POLES AND ZEROS OF CAUER FILTERS 50
2.4.13 IMPULSE AND STEP RESPONSE OF CAUER FILTERS 50
2.4.14 COMPARISON OF STANDARD FILTERS 53
2.4.15 DESIGN MARGIN 55
2.4.16 LOWPASS FILTERS WITH PIECEWISE-CONSTANT STOPBAND SPECIFICATION 55
2.5 MISCELLANEOUS FILTERS 57
2.5.1 FILTERS WITH DIMINISHING RIPPLE 57
2.5.2 MULTIPLE CRITICAL POLES 57
2.5.3 PAPOULIS MONOTONIE L FILTERS 57
2.5.4 HALPERN FILTERS 57
2.5.5 PARABOLIC FILTERS 57
2.5.6 LINKWITZ-RILEY CROSSOVER FILTERS 57
2.5.7 HILBERT FILTERS 58
2.6 DELAY APPROXIMATIONS 58
2.6.1 GAUSS FILTERS 58
2.6.2 LERNER FILTERS 58
2.6.3 BESSEL FILTERS 58
2.6.4 LOWPASS FILTERS WITH EQUIRIPPLE GROUP DELAY 60
2.6.5 EQUIRIPPLE GROUP DELAY ALLPASS FILTERS 60
2.7 FREQUENCY TRANSFORMATIONS 60
IMAGE 4
CONTENTS IX
2.8 LP-TO-HP TRANSFORMATION 60
2.8.1 LP-TO-HP TRANSFORMATION OF THE GROUP DELAY 62
2.9 LP-TO-BP TRANSFORMATION 64
2.10 LP-TO-BS TRANSFORMATION 67
2.11 PIECEWISE-CONSTANT STOPBAND REQUIREMENT 70
2.12 EQUALIZING THE GROUP DELAY 72
2.13 PROBLEMS 74
3 PASSIVE FILTERS 77
3.1 INTRODUCTION 77
3.2 RESONANCE CIRCUITS 77
3.2.1 Q FACTOR OF COILS 77
3.2.2 Q FACTOR FOR CAPACITORS 78
3.3 DOUBLY TERMINATED LC FILTERS 79
3.3.1 MAXIMUM POWER TRANSFER 79
3.3.2 INSERTION LOSS 79
3.3.3 DOUBLY RESISTIVELY TERMINATED LOSSLESS NETWORKS . . .. 80 3.3.4
BROADBAND MATCHING 80
3.3.5 REFLECTION FUNCTION 81
3.3.6 CHARACTERISTIC FUNCTION 81
3.3.7 FELDTKELLER S EQUATION 82
3.3.8 SENSITIVITY 82
3.3.9 ELEMENT ERRORS IN DOUBLY TERMINATED FILTERS 86
3.3.10 DESIGN OF DOUBLY TERMINATED FILTERS 88
3.4 LOWPASS LADDER STRUCTURES 88
3.4.1 RCLM ONE-PORTS 89
3.4.2 GENERIC SECTIONS 89
3.4.3 LOWPASS LADDER STRUCTURES WITHOUT FINITE ZEROS 91
3.4.4 LOWPASS LADDER STRUCTURES WITH FINITE ZEROS 92
3.4.5 DESIGN OF LOWPASS LC LADDER FILTERS 93
3.5 FREQUENCY TRANSFORMATIONS 98
3.5.1 CHANGING THE IMPEDANCE LEVEL 99
3.5.2 CHANGING THE FREQUENCY RANGE 100
3.5.3 LP-TO-HP TRANSFORMATION 100
3.5.4 MULTIPLEXERS 102
3.5.5 LP-BP TRANSFORMATION 103
3.5.6 LP-BS TRANSFORMATION 107
3.6 NETWORK TRANSFORMATIONS 107
3.6.1 DUAL NETWORKS 107
3.6.2 SYMMETRICAL AND ANTIMETRICAL NETWORKS 109
3.6.3 RECIPROCITY 109
3.6.4 BARTLETT S BISECTION THEOREM 110
3.6.5 DELTA-STAR TRANSFORMATIONS 110
3.6.6 NORTON TRANSFORMATIONS I LL
3.6.7 IMPEDANCE TRANSFORMATIONS I LL
3.6.8 TRANSFORMATIONS TO ABSORB PARASITIC CAPACITANCE 113
3.6.9 MINIMUM-INDUCTOR FILTERS 114
3.7 LATTICE FILTERS 116
3.7.1 SYMMETRICAL LATTICE STRUCTURES 117
IMAGE 5
X CONTENTS
3.7.2 SYNTHESIS OF LATTICE REACTANCES 117
3.7.3 ELEMENT SENSITIVITY 118
3.7.4 BARTLETT AND BRUNE S THEOREM 118
3.7.5 BRIDGED-* NETWORKS 119
3.7.6 HALF-LATTICES 119
3.7.7 REACTANCE ONE-PORTS 120
3.8 ALLPASS FILTERS 121
3.8.1 CONSTANT-AE LATTICE FILTERS 122
3.8.2 CONSTANT-AE BRIDGED-* SECTIONS 122
3.8.3 CONSTANT-7? RIGHT-L AND LEFT-L SECTIONS 122
3.8.4 EQUALIZING THE GROUP DELAY 123
3.8.5 ATTENUATION EQUALIZING 124
3.9 ELECTROMECHANICAL FILTERS 124
3.9.1 MECHANICAL FILTERS 124
3.9.2 CRYSTAL FILTERS 126
3.9.3 CERAMIC FILTERS 127
3.9.4 SURFACE ACOUSTIC WAVE FILTERS 127
3.9.5 BULK ACOUSTIC WAVE FILTERS 128
3.10 PROBLEMS 129
4 FILTERS WITH DISTRIBUTED ELEMENTS 133
4.1 INTRODUCTION 133
4.2 TRANSMISSION LINES 133
4.2.1 WAVE DESCRIPTION 135
4.2.2 CHAIN MATRIX FOR TRANSMISSION LINES 135
4.2.3 LOSSLESS TRANSMISSION LINES 136
4.2.4 RICHARDS VARIABLE 136
4.2.5 UNIT ELEMENTS 137
4.3 MICROSTRIP AND STRIPLINES 138
4.3.1 STRIPLINE 138
4.3.2 MICROSTRIP 138
4.3.3 MIC AND MMIC MICROSTRIP FILTERS 139
4.4 COMMENSURATE-LENGTH TRANSMISSION LINE FILTERS 139
4.4.1 RICHARDS STRUCTURES 140
4.5 SYNTHESIS OF RICHARDS FILTERS 140
4.5.1 RICHARDS FILTERS WITH MAXIMALLY FLAT PASSBAND 141
4.5.2 RICHARDS FILTERS WITH EQUIRIPPLE PASSBAND 141
4.5.3 IMPLEMENTATION OF RICHARDS STRUCTURES 143
4.6 LADDER FILTERS 144
4.7 LADDER FILTERS WITH INSERTED UNIT ELEMENTS 144
4.7.1 KURODA-LEVY IDENTITIES 145
4.8 COUPLED RESONATORS FILTERS 148
4.8.1 IMMITANCE INVERTERS 148
4.8.2 BP FILTERS USING CAPACITIVELY COUPLED RESONATORS 150
4.9 COUPLED LINE FILTERS 150
4.9.1 PARALLEL-COUPLED LINE FILTERS 151
4.9.2 HAIRPIN-LINE BANDPASS FILTERS 151
IMAGE 6
CONTENTS XI
4.9.3 INTERDIGITAL BANDPASS FILTERS 152
4.9.4 COMBLINE FILTERS 152
4.10 PROBLEMS 152
5 BASIC CIRCUIT ELEMENTS 155
5.1 INTRODUCTION 155
5.2 PASSIVE AND ACTIVE *-PORTS 155
5.3 PASSIVE AND ACTIVE ONE-PORTS 156
5.3.1 PASSIVE ONE-PORTS 156
5.3.2 ACTIVE ONE-PORTS 156
5.4 TWO-PORTS 156
5.4.1 CHAIN MATRIX 157
5.4.2 IMPEDANCE AND ADMITTANCE MATRICES 158
5.4.3 PASSIVE TWO-PORTS 158
5.4.4 ACTIVE TWO-PORTS 159
5.5 THREE-PORTS 161
5.5.1 PASSIVE THREE-PORTS 161
5.5.2 ACTIVE THREE-PORTS 161
5.6 OPERATIONAL AMPLIFIERS 161
5.6.1 SMALL-SIGNAL MODEL OF OPERATIONAL AMPLIFIERS 162
5.6.2 IMPLEMENTATION OF AN OPERATIONAL AMPLIFIER 164
5.7 TRANSCONDUCTORS 164
5.7.1 TRANSCONDUCTANCE FEEDBACK AMPLIFIERS 165
5.7.2 SMALL-SIGNAL MODEL FOR TRANSCONDUCTORS 165
5.7.3 IMPLEMENTATION OF A TRANSCONDUCTOR 166
5.8 CURRENT CONVEYORS 166
5.8.1 CURRENT CONVEYOR I (CCI) 167
5.8.2 CURRENT CONVEYOR II (CCII) 167
5.8.3 CURRENT CONVEYOR III (CCIII) 167
5.8.4 SMALL-SIGNAL MODEL FOR CURRENT CONVEYOR II 167
5.8.5 CMOS IMPLEMENTATION OF A CCII 168
5.9 REALIZATION OF TWO-PORTS 168
5.9.1 REALIZATION OF CONTROLLED SOURCES: AMPLIFIERS 168
5.9.2 REALIZATION OF INTEGRATORS 170
5.9.3 REALIZATION OF IMMITANCE INVERTERS AND CONVERTERS . . .. 175 5.10
REALIZATION OF ONE-PORTS 176
5.10.1 INTEGRATED RESISTORS 176
5.10.2 DIFFERENTIAL MILLER INTEGRATORS 178
5.10.3 INTEGRATED CAPACITORS 179
5.10.4 INDUCTORS 180
5.10.5 FDNRS 183
5.11 PROBLEMS 183
6 FIRST- AND SECOND-ORDER SECTIONS 187
6.1 INTRODUCTION 187
6.2 FIRST-ORDER SECTIONS 187
6.2.1 FIRST-ORDER LP SECTION 187
6.2.2 FIRST-ORDER HP SECTION 188
6.2.3 FIRST-ORDER AP SECTION 188
6.3 REALIZATION OF FIRST-ORDER SECTIONS 189
IMAGE 7
6.4 SECOND-ORDER SECTIONS 190
6.4.1 SECOND-ORDER LP SECTION 190
6.4.2 SECOND-ORDER HP SECTION 192
6.4.3 SECOND-ORDER LP-NOTCH SECTION 192
6.4.4 SECOND-ORDER HP-NOTCH SECTION 193
6.4.5 SECOND-ORDER BP SECTION 193
6.4.6 ELEMENT SENSITIVITY 194
6.4.7 GAIN-SENSITIVITY PRODUCT 195
6.4.8 AMPLIFIERS WITH FINITE BANDWIDTH 196
6.4.9 COMPARISON OF SECTIONS 196
6.5 SINGLE-AMPLIFIER SECTIONS 196
6.5.1 AECNETWORKS 197
6.5.2 GAIN-SENSITIVITY PRODUCT FOR SAB 197
6.5.3 SECTIONS WITH NEGATIVE FEEDBACK 197
6.5.4 NF2 AP SECTION 204
6.5.5 SECTIONS WITH POSITIVE FEEDBACK 204
6.5.6 ENF SECTIONS 209
6.5.7 COMPLEMENTARY SECTIONS 211
6.6 TRANSCONDUCTOR-BASED SECTIONS 211
6.7 GIC-BASED SECTIONS 212
6.7.1 GIC LP SECTION 214
6.7.2 GIC LP-NOTCH SECTION 214
6.7.3 GIC HP SECTION 214
6.7.4 GIC HP-NOTCH SECTION 214
6.7.5 GIC BP SECTION 214
6.7.6 GIC AP SECTION 214
6.8 TWO-INTEGRATOR LOOPS 215
6.8.1 TWO-INTEGRATOR LOOPS WITH LOSSLESS INTEGRATORS 215
6.8.2 KERWIN-HUELSMAN-NEWCOMB SECTION 215
6.8.3 TRANSPOSED TWO-INTEGRATOR LOOP 217
6.8.4 TWO-INTEGRATOR LOOPS WITH LOSSY INTEGRATORS 218
6.8.5 TOW-THOMAS SECTION 218
6.8.6 AKERBERG-MOSSBERG SECTION 220
6.9 AMPLIFIERS WITH LOW GB SENSITIVITY 221
6.9.1 DIFFERENTIAL TWO-INTEGRATOR LOOPS 222
6.9.2 TRANSCONDUCTOR BASED ON TWO-INTEGRATOR LOOPS 222
6.9.3 CURRENT CONVEYORS-BASED SECTIONS 223
6.10 SECTIONS WITH FINITE ZEROS 224
6.10.1 SUMMING OF NODE SIGNALS 225
6.10.2 INJECTION OF THE INPUT SIGNAL 225
6.11 PROBLEMS 227
COUPLED FORMS 233
7. 1 INTRODUCTION 233
7.2 TAXONOMY FOR ANALOG FILTERS 234
7.2.1 COUPLED FORMS 234
7.2.2 SIMULATION OF LADDER STRUCTURES 234
7.3 CASCADE FORM 235
7.3.1 OPTIMIZATION OF DYNAMIC RANGE 236
IMAGE 8
CONTENTS XIII
7.3.2 THERMAL NOISE 236
7.3.3 NOISE IN AMPLIFIERS 237
7.3.4 NOISE IN PASSIVE AND ACTIVE FILTERS 238
7.3.5 DISTORTION 238
7.3.6 PAIRING OF POLES AND ZEROS 238
7.3.7 ORDERING OF SECTIONS 239
7.3.8 OPTIMIZING THE SECTION GAIN 240
7.3.9 SCALING OF INTERNAL NODES IN SECTIONS 241
7.3.10 LTC1562 AND LTC1560 244
7.4 PARALLEL FORM 245
7.5 MULTIPLE-FEEDBACK FORMS 245
7.5.1 FOLLOW-THE-LEADER-FEEDBACK FORM(FLF) 246
7.5.2 INVERSE FOLLOW-THE-LEADER-FEEDBACK FORM 249
7.5.3 MINIMUM SENSITIVITY FORM 250
7.6 TRANSCONDUCTOR-BASED COUPLED FORMS 250
7.6.1 INVERSE FOLLOW-THE-LEADER-FEEDBACK FORM 250
7.6.2 FINITE TRANSMISSION ZEROS 251
7.7 PROBLEMS 252
8 IMMITANCE SIMULATION 253
8.1 INTRODUCTION 253
8.2 PIC-BASED SIMULATION 253
8.3 GYRATOR-BASED SIMULATION 254
8.3.1 TRANSCONDUCTOR-BASED GYRATOR- * FILTERS 255
8.3.2 CCII-BASED GYRATOR-C FILTERS 255
8.4 GORSKI-POPIEL S METHOD 256
8.5 BRUTON S METHOD 259
8.6 PROBLEMS 260
9 WAVE ACTIVE FILTERS 263
9.1 INTRODUCTION 263
9.2 GENERALIZED WAVE VARIABLES 263
9.2.1 WAVE TRANSMISSION MATRIX 264
9.2.2 CHAIN SCATTERING MATRIX 264
9.2.3 GENERALIZED SCATTERING MATRIX 264
9.2.4 VOLTAGE SCATTERING MATRIX 264
9.3 INTERCONNECTION OF WAVE TWO-PORTS 266
9.4 ELEMENTARY WAVE TWO-PORTS 266
9.5 HIGHER-ORDER WAVE ONE-PORTS 268
9.6 CIRCULATOR-TREE WAVE ACTIVE FILTERS 270
9.7 REALIZATION OF WAVE TWO-PORTS 271
9.7.1 REALIZATION OF A GENERIC WAVE TWO-PORT 271
9.7.2 DIFFERENTIAL WAVE TWO-PORT 272
9.8 REALIZATION OF WAVE ACTIVE FILTERS 273
9.9 POWER COMPLEMENTARITY 273
9.10 ALTERNATIVE APPROACH 274
9.11 PROBLEMS 275
10 TOPOLOGICAL SIMULATION 277
10.1 INTRODUCTION 277
IMAGE 9
XIV CONTENTS
10.2 LP FILTERS WITHOUT FINITE ZEROS 277
10.2.1 LOWPASS LEAPFROG FILTERS 278
10.2.2 REALIZATION OF THE SIGNAL-FLOW GRAPH 279
10.2.3 SCALING OF SIGNAL LEVELS 282
10.3 GEOMETRICALLY SYMMETRIC BP LEAPFROG FILTERS 283
10.4 LOWPASS FILTERS REALIZED WITH TRANSCONDUCTORS 283
10.5 LP FILTERS WITH FINITE ZEROS 284
10.5.1 ODD-ORDER LOWPASS FILTERS WITH FINITE ZEROS 285
10.5.2 EVEN-ORDER LOWPASS FILTERS WITH FINITE ZEROS 287
10.6 PROBLEMS 289
11 TUNING TECHNIQUES 291
11.1 INTRODUCTION 291
11.2 COMPONENT ERRORS 291
11.2.1 ABSOLUTE COMPONENT ERRORS 291
11.2.2 RATIO ERRORS 292
11.2.3 DUMMY COMPONENTS 292
11.3 TRIMMING 293
11.3.1 TRIMMING OF SECOND-ORDER SECTIONS 294
11.3.2 LC FILTERS 296
11.4 ON-LINE TUNING 296
11.4.1 PSEUDO-ON-LINE TUNING 296
11.4.2 MASTER-SLAVE FREQUENCY TUNING 296
11.4.3 MASTER-SLAVE Q FACTOR TUNING 298
11.5 OFF-LINE TUNING 300
11.5.1 TUNING OF COMPOSITE STRUCTURES 300
11.5.2 PARASITIC EFFECTS 301
11.6 PROBLEMS 302
REFERENCES 305
TOOLBOX FOR ANALOG FILTERS 309
INDEX 311
|
| any_adam_object | 1 |
| author | Wanhammar, Lars |
| author_facet | Wanhammar, Lars |
| author_role | aut |
| author_sort | Wanhammar, Lars |
| author_variant | l w lw |
| building | Verbundindex |
| bvnumber | BV035835548 |
| callnumber-first | T - Technology |
| callnumber-label | TK7872 |
| callnumber-raw | TK7872.F5 |
| callnumber-search | TK7872.F5 |
| callnumber-sort | TK 47872 F5 |
| callnumber-subject | TK - Electrical and Nuclear Engineering |
| classification_rvk | ZN 5700 |
| ctrlnum | (OCoLC)297148336 (DE-599)DNB991449266 |
| dewey-full | 621.3815324 |
| dewey-hundreds | 600 - Technology (Applied sciences) |
| dewey-ones | 621 - Applied physics |
| dewey-raw | 621.3815324 |
| dewey-search | 621.3815324 |
| dewey-sort | 3621.3815324 |
| dewey-tens | 620 - Engineering and allied operations |
| discipline | Technik allgemein Elektrotechnik / Elektronik / Nachrichtentechnik |
| format | Book |
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| id | DE-604.BV035835548 |
| illustrated | Illustrated |
| indexdate | 2024-07-09T22:05:44Z |
| institution | BVB |
| isbn | 9780387927664 9780387927671 |
| language | English |
| oai_aleph_id | oai:aleph.bib-bvb.de:BVB01-018693979 |
| oclc_num | 297148336 |
| open_access_boolean | 1 |
| owner | DE-83 DE-92 |
| owner_facet | DE-83 DE-92 |
| physical | XV, 316 S. Ill., graph. Darst. 260 mm x 193 mm |
| publishDate | 2009 |
| publishDateSearch | 2009 |
| publishDateSort | 2009 |
| publisher | Springer |
| record_format | marc |
| spelling | Wanhammar, Lars Verfasser aut Analog filters using MATLAB Lars Wanhammar New York, NY [u.a.] Springer 2009 XV, 316 S. Ill., graph. Darst. 260 mm x 193 mm txt rdacontent n rdamedia nc rdacarrier Literaturverz. S. 305 - 308 MATLAB Electric filters Design and construction MATLAB (DE-588)4329066-8 gnd rswk-swf Analogfilter (DE-588)4142327-6 gnd rswk-swf Analogfilter (DE-588)4142327-6 s MATLAB (DE-588)4329066-8 s DE-604 http://www.gbv.de/dms/ilmenau/toc/587176954.PDF kostenfrei Inhaltsverzeichnis DE-601 pdf/application http://www.zentralblatt-math.org/zmath/en/search/?an=1170.94004 Zentralblatt MATH kostenfrei Inhaltstext GBV Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=018693979&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis |
| spellingShingle | Wanhammar, Lars Analog filters using MATLAB MATLAB Electric filters Design and construction MATLAB (DE-588)4329066-8 gnd Analogfilter (DE-588)4142327-6 gnd |
| subject_GND | (DE-588)4329066-8 (DE-588)4142327-6 |
| title | Analog filters using MATLAB |
| title_auth | Analog filters using MATLAB |
| title_exact_search | Analog filters using MATLAB |
| title_full | Analog filters using MATLAB Lars Wanhammar |
| title_fullStr | Analog filters using MATLAB Lars Wanhammar |
| title_full_unstemmed | Analog filters using MATLAB Lars Wanhammar |
| title_short | Analog filters using MATLAB |
| title_sort | analog filters using matlab |
| topic | MATLAB Electric filters Design and construction MATLAB (DE-588)4329066-8 gnd Analogfilter (DE-588)4142327-6 gnd |
| topic_facet | MATLAB Electric filters Design and construction Analogfilter |
| url | http://www.gbv.de/dms/ilmenau/toc/587176954.PDF http://www.zentralblatt-math.org/zmath/en/search/?an=1170.94004 http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=018693979&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA |
| work_keys_str_mv | AT wanhammarlars analogfiltersusingmatlab |
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