SUBJECT INDEX

A

Absolute accuracy, definition, 438
Absolute maximum ratings:
data sheet, example, 488
op amp, 63–65
typical, table, 63, 75
Absorption, shielding loss, 813–814
AC coupling, 19
AC current path, ground plane resistance, 878
Accelerometer, 204–207
basic unit cell sensor building block, 205
Coriolis, 208–209
internal signal conditioning, diagram, 206
Iow-g, tilt measurement, 205–206
Accuracy:
absolute, definition, 438
logarithmic, definition, 438
relative, definition, 438
ACLR, See also Adjacent channel leakage ratio
Acquisition time:
definition, 479
SHA, 561
Active feedback amplifier, 123–124
CMR independent of resistor bridge, 123
Active filter:
antialiasing design, 663–668
element, limitations, 657–658
Active inductor, diagram, 633
Active mixer:
advantages, 252–253
basic operation, 253
classic, circuit, 252
gain, 253
RF/IF circuit, 253
AD2S90, integrated RDC, 401
AD210:
3-port isolator, 110–111
in motor control current sensing, circuit, 111
schematic diagram, 111
AD215:
low distortion two-port isolator, 112
block diagram, 112
AD260/AD261, high speed digital isolators, 114–115
AD526:
monolithic software PGA in amp:
circuit, 159, 160
latched digital interface, 158
AD534, four-quadrant multiplier based on Gilbert cell, 151, 260
AD536A:
monolithic RMS/DC converter, 153–155
diagram, 155
AD538, monolithic analog computer, block diagram, 129
AD539:
wideband dual two-quadrant multiplier, 147–148, 257–258
block diagram, 148, 258
AD549, PET input op amp, 41
AD574, industry-standard ADC, encoder, 328
AD580, precision bandgap reference, with Brokaw Cell, 517, 518
AD586, buried zener reference, circuit, 522
AD587, buried zener reference, noise reduction pin, 526
AD590:
current output temperature sensor, 218
multiplexed, 218
AD594, Type J thermocouple, 226
AD594/AD595, monolithic thermocouple amplifier with cold-junction compensator, diagram, 225–226
AD595, Type K thermocouple, 226
AD598:
LVDT signal conditioner, 197
diagram, 197
AD600, gain versus differential control voltage, 278
AD602, gain versus differential control voltage, 278
AD620:
in amp, in motor control current sensing, circuit, 111
CMR versus frequency, graph, 102
gain-bandwidth pattern, 105
monolithic IC in amp:
composite application, 96–98
schematic, 95
PSRR versus frequency, graphs, 103
AD620B, bridge amplifier, DC error budget, 105
AD621, pin-programmable-gain in amp, 101
AD623, fixed gain difference amplifier, 833
AD624C, monolithic in amp, gain error, 101
AD629:
difference amplifier, 833
differential-to-single-ended amplifier, application circuit, 93, 94
AD641:
monolithic log amp:
block diagram, 268
error curve, 268
transfer function, 268
waveform effect on log linearity, 269
AD645, FET input op amp, 41
AD698:
LVDT signal conditioner:
with half-bridge, 197–198
synchronous demodulation, 197
diagram, 198
AD768, 16-bit BiCMOS precision DAC, 359
AD780, reference, 133
AD790:
comparator with hysteresis, 140
block diagram, 140
AD797, low-noise op amp, 159–160
AD817, video op amp driver, power dissipation versus power, graph, 890
AD822, JFET-input dual rail-to-rail output op amp, 97
AD825, 8-bit dual high speed FET input op amp, 674, 676
AD830, active feedback amplifiers, 123
AD830/AD8129/AD8130, active feedback amplifiers, circuit, 123
AD834:
8-pin basic four-quadrant multiplier, block diagram, 261
multiplier, implicit conversion, circuit, 155
transformer coupled multiplier, block diagram, 262
AD847:
high frequency amplifier:
Bode plot, 662
Q-enhancement effects, 660
op amp:
open loop gain, graph, 10
AD848, op amp, open loop gain, graph, 11
AD849, op amp, open loop gain, graph, 11
AD813X, differential amplifier, 360
AD1170, modular ADC, 395
AD1580:
shunt mode IC reference, 519
circuit, 519
AD1582-85 series:
bandgap references:
advantages, 520
circuit, 520
connection diagram, 521
LDO, 520
AD185X series, audio DACs, data scrambling, 427
AD1853, dual 24-bit 92-kSPS DAC, 427
AD1871:
24-bit 96-kSPS stereo audio multi-bit sigma–delta ADC:
block diagram, 418
digital filter characteristics, 418
second order modulator and data scrambler, 418
AD1879, dual audio ADC, 417
AD1955:
multibit sigma-delta1 audio DAC diagram, 426, 427
AD1900,02/04/06:
Class D audio power amplifier, 172
ADP3300 60-mA LDO regulator, evaluation board, 695
ADP3300,60-mA LDO regulator, circuit, 693
AD6645:
14-bit 80/105-MSPS XFCB ADC, 488–491, 494, 499
52-lead Power Quad 4 package, 893, 894
application circuit, 506
14-bit 80-MSPS wideband ADC:
noise figure calculation, 463
Nyquist conditions, 463
SFDR, graph, 451, 452
SFDR versus input power level, graph, 452
SNR performance, 469, 470
SNR versus aperture jitter, graph, 470
two-tone SFDR:
graph, 454
versus input amplitude, graph, 454
14-bit 105-MSPS ADC, with SHA, circuit, 563
encode command specifications, table, 485
sample timing specifications, table, 484
AD7111, LOGDAC, multiplying DAC, circuit, 369
AD7524:
CMOS DAC, block diagram, 349
quad CMOS DAC, block diagram, 350
AD7528, 8-bit dual MDAC, 674–675
AD7677:
16-bit I-MSPS switched capacitor PulSAR ADC, 377
circuit, 377
AD77XX series:
24-bit high sigma–delta ADC, 419, 420
high-resolution ADC:
in cold-junction compensation, 227
and RTD, 230–231
AD7710:
sigma–delta ADC with PGA, 162–163
circuit, 163
AD7710-series, 22-bit ADC, 530
AD7711, sigma–delta ADC with PGA, 162
AD7712, sigma–delta ADC with PGA, 162
AD7713, sigma–delta ADC with PGA, 162
AD7730:
application circuit, 506
sigma–delta ADC, 419
digital filter response, graph, 419
single-supply bridge:
block diagram, 420
bridge application, schematic, 423, 424
digital filter response, graph, 422
digital filter settling time, 423
oversampling, 421
resolution versus output data and gain, 422
AD7846, 16-bit converter, 160
AD7943/45/48:
2-quadrant multiplying DAC, schematic diagram, 353
4-quadrant multiplying DAC, schematic diagram, 353
AD8001:
absolute maximum ratings, table, 63
feedback resistor values, packages, chart, 56
high speed current feedback amplifier, 846, 847
evaluation board, 847
stray capacitance, pulse response, 848
maximum power chart, 64
op amp:
optimum feedback resistor versus package, table, 15
AD8016:
20-lead PSOP3 package, copper slug for heat transfer, 889
PSOP3 and BATWING packages, thermal characteristic curves, 888
AD8017AR:
8-pin SOlC op amp, 885
maximum power dissipation data sheet, 885
standard and Thermal Coastline packages, thermal rating curves, 888
thermal rating curves, 887
AD8029, PSRR, 881
AD8036, and output clamp amplifier, graph, 132–133
AD8036/AD8037:
clamp amplifier:
distortion near clamping region, graph, 133
equivalent circuit, 131
overdrive recovery, graph, 134
performance, 132
AD8037, clamp amplifier, driving flash converter, circuit, 134
AD8051, op amp, phase margin, graph, 12
AD8051/52/54, high-speed VFB op amp, 69
AD8054, phase margin, graph, 57
AD8055, single supply op amp, 359
AD8057, single op amp, thermal packaging, 891
AD8058, dual op amp, thermal packaging, 891
AD8074, triple voltage feedback fixed-gain video transmission line driver, 87
AD8074/AD8075, 500 mHz triple buffer, 87
AD8075:
triple video buffer, 54
triple voltage feedback fixed-gain video transmission line driver, 87
AD8079A/AD8079B:
260 MHz buffer, 87
dual voltage feedback fixed-gain video transmission line driver, 87
AD8108/AD9109, video 8×8 crosspoint switch, 548
AD8110/AD8 111,260 MHz 16×8 buffered crosspoint switch, 548
AD8113, audio/video 60MHz 16×16 crosspoint switch, 548
AD8114/AD8115, 225 MHz 16×16 crosspoint switch, 548
AD8116, 16×16 200-MHz buffered video crosspoint switch, circuit, 548
AD8129, low-noise high-gain active feedback amplifier, 124
AD8129/AD8130:
active feedback amplifiers, 123–124
differential input single-ended output gain block, 89
AD813X:
differential ADC driver, block diagram and equivalent circuit, 107
differential amplifier, DAC buffer circuit, 108
AD8130, CMR versus frequency, graph, 124
AD8152, 3.2 Gbps 34×34 asynchronous digital crosspoint switch, circuit, 548, 550
AD8170:
bipolar video multiplexer, block diagram, 546
dual source RGB multiplexer, using three 2:1 muxes, circuit, 547
AD8174:
4:1 mux, 548
bipolar video multiplexer, block diagram, 546
AD8180, bipolar video multiplexer, block diagram, 546
AD8182, bipolar video multiplexer, block diagram, 546
AD8183/AD8185, video multiplexer, block diagram, 547
AD8183/AD8185/AD8186/AD8187, triple 2:1 mux, 547
AD8184, 4:1 mux, 548
AD8186/AD8187, video multiplexer, single-supply, block diagram, 547
AD8230, auto-zeroing in-amp with high CMR, 227
AD8330, VGA, block diagram, 276
AD8345, silicon RFIC quadrature modulator, block diagram, 255
AD8350, differential in/differential out gain block, 90
AD8354, gain block fixed-gain amplifier, circuit, 89
AD8362:
true rms-responding power detector:
block diagram, 271
internal structure, 272
typical application, 273
AD8367:
high-performance 45dB VGA:
block diagram, 279
linear-in-dB gain, 279
AD8370:
VGA with precision gain control, 279–280
block diagram, 280
AD8531/32/34:
ordering guide for packaging, 77
single-supplyop amp, 69, 77
AD8551:
chopper-stabilized amplifier, 831
in grounded circuit, 832
AD8551/52/54:
auto-zero amplifiers:
noise comparison, 188
output spectrum, graphs, 187
AD8571/72/74, auto-zero amplifiers, output voltage, graphs, 187
AD9002, 8-bit 125 MSPS flash converter, 133–134
AD9042:
12-bit 41-MSPS ADC, 562–563
with SHA, circuit, 563
AD9054A, 8-bit 200-MSPS ADC, functional diagram, 389
AD9226, 12-bit 65-MSPS ADC, SINAD and ENOB, graph, 449
AD9235:
12-bit 65-MSPS pipelined ADC, 382–383
timing, graph, 383
AD9245:
14-bit 80-MSPS 3V CMOS ADC:
lead-frame chip-scale package, 892
power dissipation versus sample rate, graph, 892
AD9410, 10-bit 210-MSPS ADC, 379
AD9430:
12-bit 170/210-MSPS 3.3V BiCMOS ADC, 892–893
100-lead 3-PAD TQFP, 894
output driver, 859–860
packaging, 894
supply current versus sample rate, graph, 893
12-bit 170-MSPS ADC, noise power ratio, graph, 459
12-bit 210-MSPS pipelined ADC, 382
AD9510:
clock distribution circuit, 572
AD9540:
clock generation circuit, 566–571
AD9620, monolithic open-loop buffer, 86
AD9630, monolithic open-loop buffer, 87
AD9631, op amp, inadequate decoupling effects, 883
AD976X, TxDAC, 357
AD977X, TxDAC, 357
AD9773, 12-bit Transmit DAC (TxDAC), 365
AD9775:
14-bit 160-MSPS TxDAC, 365
14-bit 160-MSPS/400-MSPS TxDAC, core, diagram, 355
AD9777:
16-bit 160-MSPS dual interpolating DAC, 893
16-bit 160-MSPS Transmit DAC (TxDAC), 365
SFDR, graph, 478
AD985X series, DDS ICs, 893
AD9850:
DDS/DAC synthesizer, 285–286
diagram, 285
AD9870, IF digitizing subsystem, 424
AD22100, temperature sensor, ratiometric, 218, 219
AD22105, thermostatic switch, 236–237
AD22151:
linear output magnetic field sensor:
diagram, 200
using Hall technology, 199–200
Adams, R., 417, 427
Adams, R.W., 417, 427
ADC:
l-bit, comparator, 373–374
3-bit binary ripple, input and residue waveforms, graph, 387
3-bit serial, binary output, diagram, 386
5-bit counting, circuit, 390
10/11/12-bit ADC, theoretical noise power ratio, graphs, 458
12-bit:
noise floor, graph, 444
SFDR, ratio of sampling clock to input frequency, graphs, 443
analog bandwidth, 450–451
architectures, 371–401
basic function, diagram, 371
binary, single-state transfer function, graphs, 386
bit error rate, 472–474
buffering, logic noise, 845
charge run-down, 390, 391
counting and integrating architectures, 390
digital output, handling, 869–871
dual slope/multi-slope, 396–398
dynamic performance analysis, diagram, 443
error corrected, 380–385
gain and ENOB versus frequency, graph, 450
generalized bit-per-stage architecture, diagram, 385
Gray coded (folding), 385–389
high-impedance, differential input, 834
high resolution, with VFC and frequency counter, 393
high speed:
CMOS buffer/latch, diagram, 846
logic noise, 845
input and output definitions, 309
internal reference, 371
metastable states, 472–474
model, showing noise and distortion sources, 444–445
multibit and 1-bit pipelined core combination, diagram, 384
no specification of IMD, 453
noise figure, calculation, 460
output, with error codes, graph, 473
overvoltage, 781
pipelined, 380–385
ramp run-up, 390–391
reference and buffer, diagram, 372
sampling:
containing SHA, 555
using integral SHA, 469
sampling clock, 372
SAR, 374–376
selection guide, samples, 510, 511
serial bit-per-stage binary, 385–389
SFDR specification, 451–453
sparkle codes, 472–474
subranging, 380–385
trimming error, graphs, 437
successive approximation, 374–378
supply voltage, 373
total SNR, equation, 469–470
tracking, 391–392
transient response and overvoltage recovery, 470–472
ADF439F, trench-isolated L2CMOS multiplexer, 553
ADF4 112, PLL, 302
ADG200 series, CMOS switches/multiplexers, 531
ADG201 series, linear-compatible CMOS switches/multiplexers, 531
ADG438F, trench-isolated L2CMOS multiplexer, 553
ADG508F, trench-isolated L2CMOS multiplexer, 553
ADG509F, trench-isolated L2CMOS multiplexer, 553
ADG511, single-supply switch, 162–163
ADG528F, trench-isolated LLCMOS multiplexer, 553
ADG708:
8-channel multiplexer:
crosstalk versus frequency, graph, 540
off-isolation versus frequency, graph, 537
ADG8XX-series, CMOS switch, 533
ADG801/ADG802, CMOS switch, on-resistance versus input signal, graph, 533
ADG918, IGI-Iz CMOS MUX/SPDT absorptive switch, circuit, 545–546
ADG918/ADG919, 1GHz switch, isolation and frequency response, graphs, 545
ADG919, lGI-Iz CMOS MUX/SPDT reflective switch, circuit, 545
Adjacent channel leakage ratio, definition, 457
Adjacent channel power ratio, definition, 456
ADLH0033, bipolar open-loop hybrid buffer amplifier, circuit, 85
ADM1021:
microprocessor temperature monitor, 238–240
block diagram, 240
input signal conditioning circuits, diagram, 239
ADP1147, switch modulation, 715
ADP1148, buck PWM regulator with variable frequency, 728
ADP3000:
switching regulator, 717
switching regulator IC using PBM, 720
ADP330X, LDO anyCAP regulator, schematic, 691
ADP3300 series, LDO pre-regulators, 526
ADP3310:
PMOS FET 1A LDO regulator controller:
diagram, 697
external current sense resistor, 698–700
ADP3603/3604/3605, regulated −3V output voltage inverters, application circuit, 750
ADP3603/3604/3605/3607:
regulated −3V output voltage inverters, 748–749
circuit, 749
ADP3607, regulated ∼3V output voltage inverter, resistor value, 750
ADP3607-5:
regulated 5V output voltage inverter:
circuit, 751
voltages, 751
ADR380, 521
ADR381, 521
ADSP-21060L SHARC, output rise times and fall times, graph, 855
ADSP-21160 SHARC, internal PLL, grounding, 875, 876
ADT45/ADT50, sensor, packaging, 218, 219
ADT70:
RTD signal conditioner, 230–232
diagram, 231
ADT71, RTD signal conditioner, packaging, 231
ADuM130X/ADuM140X:
multichannel isolator, 119–121
multichannel products, 119–121
ADuM140X, die photograph, 119
ADuM1100:
architecture, single-channel digital isolator, 116–119
single-channel 100 Mbps digital isolator, 116–119
cross-section, 116
magnetic field immunity, 118
performance, 118
ADuM1400, block diagram, 120
ADuM1401, block diagram, 120
ADuM1402, block diagram, 120
ADXL-family micromachined accelerometer, diagram, 205
ADXL202, dual-axis +/−2g accelerometer, diagram, 206–207
ADXRS gyro, 208–213
capacitance change resolution, 211–212
die, photograph, 212, 213
mechanical sensor, 212
shock and vibration resistance, 213
ADXRS150, packaging, 212
ADXRS300, packaging, 212
Akazawa, Y, 473
Alias, image, 330
Aliasing:
in DDS system, RF/1F circuit, 284–287
in time domain, 330
All-0s, definition, 440
All-1s, definition, 440
All bits off, definition, 440
All bits on, definition, 440
All-digital PLL, 290
All-parallel (flash) converter, diagram, 379
All-pole filter, response, comparisons, 602
Allpass filter, 592–593
definition, 592
delay, 628
purpose, 593, 628
Alternate loading DAC, 361, 362
Aluminum electrolytic capacitor, 735–736
characteristics, 756–757
comparison chart, 656
AMP 5-330808-3:
pin socket, 867
AMP 5-330808-6:
pin socket, 867
AMP03, precision four-resistor differential amplifier, 832
Amplifier:
band limited, 657
current-voltage characteristic, 781
intercept points and 1-dB compression points, definition, 455
programmable gain, 157–163
speed, saturation, graph, 143
Amplifier input stage overvoltage, 781–783
Amplifier output phase reversal, caveats, 783
Amplifier output voltage phase reversal, 789–787
Amplitude. EMI, 803
Amplitude modulation, in DDS system, RF/IF circuit, 286
Analog bandwidth, ADC, 450–451
Analog comparator, overvoltage, 781
Analog compu ting circuitry, 310
Analog delay circuit, using SHA, 555
Analog Devices commitment to ESD protection, 796
Analog filter, 581–678
design examples, 663–678
filter realization, 629–652
frequency transformation, 623–628
practical problems, 653–662
standard responses, 599–622
time domain response, 597–598
transfer function, 587–596
Analog ground, 864
in mixed-signal IC, 868–869
Analog ground pin, circuit, 867
Analog input variable, 310
Analog integrated circuit, overvoltage effects, 781–818
Analog isolation:
high speed logic isolator, 114–115
isolation barrier, 109
optional noise reduction filter, 111–112
techniques, 109–110
two-port isolator, 112
Analog multiplexer, 531–553
Analog multiplier, 147–151
bipolar output, 257
block diagram, 257
definition, 147
four-quadrant, 257
RF/IF circuit, 257–263
single-quadrant, 257
two-quadrant, 257
Analog switch, 531–553
application, 540–544
dummy switch in feedback, minimizing gain error, circuit, 543
ideal, 531
minimizing on-resistance, 542
using large resistor values, circuit, 543
using non-inverting configuration, circuit, 544
overvoltage, 781
parasitic capacitance, 542
switching time, dynamic performance, circuit, 541
unity gain inverter with switched input, circuit, 542
Analog-to-digital converter, See also ADC
Andreas, D., 408
Antialiasing filter:
design example, 663–668
for undersampling, 334–335
anyCAP® LDO family, 691
merged amplifier-reference design, 692
pole-splitting topology, 693–694
regulator controller, diagram, 696
standard leadframe SOIC, 695
Thermal Coastline packaging, 695
Thermal Coastline SOIC, 695
Aperture:
SHA, effects on output, graph, 560
SHA specification, 556
Aperture delay, 466–467
SHA specification, 559
Aperture delay time, 466–469
SHA specification, 559
measurement, 559
Aperture jitter, 466–467, 872
error, 559
and sampling clock jitter:
graph, 468
SNR, graph, 468
SHA, 559
Aperture time, 466–469
SHA specification, 558
Aperture uncertainty, 467
SHA, 559
Application circuit, data sheet, example, 506–507
Application specific integrated circuit, 248
Aspinall, D., 385
Asymptotic response, 13
Asynchronous VFC, 393
Attenuation curve, filter, 588
Audio amplifier, 165–183
auto-zero, versus chopper, 185–189
implementation, 93
line drivers and receivers, 168–169
operation description, 188–189
types, 165
VCAs, 166–168
Audio line driver, 171–172, 173
Audio line receiver, 169–171
definition, 169
Audio system, differential/balanced transmission, block diagram, 170
Auto-zero amplifier, 185–189
auto-zero phase, circuit, 189
versus chopper amplifier, 186
implementation, 187–188
output phase, circuit, 189
schematic diagram, 186
Automatic zero, definition, 479
Automotive equipment:
components, RF field immunity limits, 800
EMC, 800
Avalanche diode, circuit, 516
AVX TPS-series, electrolytic capacitor, 737
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