INDEX Subject Index A digital temperature sensors, 6.36-37 AAVID 573300: temperature sensor 10-bit ADC, heat sink: characteristics, 6.37 thermal resistance vs. airflow, 8.57 AD77XX: for TO-263, 8.57 high resolution ADC, 6.13-15 AAVID 582002B12500: high resolution ADCs, 6.11 heat sink: AD7705: thermal resistance vs. airflow, 8.55 16-bit sigma delta ADC, 7.11 for TO-220, 8.54 applications, 7.13 AAVID Thermal Technologies, Inc., 8.58 battery monitor circuit, 7.13 Absolute voltage output sensor, 6.24-25 cell monitor, battery charger, 7.13 EMI/RFI effects, 6.25 programmable gain amplifier, 7.13 with shutdown, 6.23 specifications, 7.13 thermal time constant, 6.25-26 AD7817/7818/7819: AD580: digital temperature sensors, 6.36-37 three-terminal bandgap reference, 2.5-6 temperature sensor 10-bit ADC, serial Brokaw cell, 2.6 interface, characteristics, 6.37 AD586: AD22103, ratiometric output sensor, 6.22-23 buried zener reference, 2.10 ADC: long-term drift performance, 2.14 10-bit, series temperature sensor, 6.36-37 low tolerance, 2.14 16-bit, sigma delta, 7.11 AD587, buried zener, noise reduction pin, 22-bit, 2.23 2.18 high resolution, 6.13-15 AD588: resistance temperature detector buffer amplifier, 2.16 interfacing, 6.15 buried zener reference, 2.10 high speed, EMI/RFI noise, 8.73 long-term drift performance, 2.14 on-chip temperature sensors, 6.36-37 low tolerance, 2.14 sigma-delta: AD592, current output sensors, 6.21-22 AD780-driven, 2.23-24 AD594, Type J thermocouple, 6.10 internal digital filter, 2.21 AD594/595: noise, 2.20 circuit, 6.10 reference input, 2.20-21 instrumentation amplifier/thermocouple switched capacitor input, 2.20-21 cold junction compensator, 6.9 successive-approximation, reference bypass AD595, Type K thermocouple, 6.10 capacitors, 2.22-23 AD596/597, monolithic set-point ADM660: controllers, 6.10 efficiency, 4.15 AD620 Instrumentation Amplifier, 8.86 specifications, 4.14 AD688, Kelvin sensing circuit, 2.16 switched capacitor voltage converter, 4.14 AD780: switched capacitor voltage long-term drift performance, 2.14 inverter/doubler, 4.13-15 precision sigma-delta ADC driver, 2.23 ADM8660: AD815 Data Sheet (Analog Devices), 8.58 efficiency, 4.15 AD1580, shunt bandgap reference, circuit, specifications, 4.14 2.7 switched capacitor voltage AD1582-1585 series: inverter/doubler, 4.13-15 bandgap reference: ADM8691: circuit, 2.9 application, 7.1-3 connection diagram, 2.9 block diagram, 7.2 specifications, 2.8 Chip Enable output, 7.3 Brokaw cell, 2.9 functionality, 7.1 AD3300, evaluation board, 2.46 supervisory products, 7.4 AD7416, circuit, 6.36 watchdog input, 7.3 AD7416/7417/7418: ADM9240: Index-1 INDEX block diagram, 7.9 experiment, 8.32-34 generic application circuit, 7.11 filtered output, 8.34 microprocessor monitoring, 7.9 input/output waveforms, 8.33 specifications, 7.10 NPN switching, 3.34 ADM9261: pulse burst modulation, 3.32, 3.34-38 key features, 7.4 pulse burst modulation/gated oscillator, pager power system application circuit, 3.37 7.6 specifications, 3.37 specifications, 7.5 ADP3050: triple comparator and reference, 7.5 switching regulator: triple power supply monitor IC, 7.4 buck converter: ADM9264: application circuit, 3.39 application circuit, 7.8 NPN switch, 3.39-40 block diagram, 7.7 specifications, 3.40 error output signals, 7.6 ADP3153: quad power supply monitor IC, 7.6 5-bit programmable synchronous switching specifications, 7.7 regulator controller: ADM9268: for Pentium II, 3.46-47 hex voltage monitor, 7.8 schematic diagram, 3.47 monitor voltage in Pentium II processor, specifications, 3.47 7.8 ADP330X: similar to ADM9264, 7.8 anyCAP low dropout regulators, 2.38-47 specifications, 7.8 design: ADP1147: AC performance, 2.40 buck converter controller, 3.41-44 DC performance, 2.39-40 efficiency losses, 3.41-42 error amplifier, 2.39 specifications, 3.43 high gain vertical PNP pass device, 2.38 step-down application, 3.41-42 merged amplifier-reference design, 2.38 buck pulse wave modulation regulator, voltage calculation, 2.39-40 3.53 ADP3300, LDO regulator, basic circuit, 2.44 sleep/power saving mode, 3.31 ADP3310: switch modulator, 3.26 LDO regulator, 8.14-15 ADP1148: controller, 2.48-51 buck pulse wave modulation regulator, circuit, 2.50 3.53 features, 2.48 evaluation board, 8.10-12 driven by ADP1148 buck regulator: switching regulator, 8.10-11, 8.16 circuit, 8.38 buck application circuit, 8.34-35 waveforms, 8.38 driving ADP3310 linear low dropout sensing resistors, 2.53 post regulator, 8.37-38 simplest, 2.54 waveforms, 8.38 thermal design example, 8.52 filtered output, 8.37 ADP3603/3604/3605: input/output waveforms, 8.35-36 application circuit, 4.17 synchronous step-down regulator features, 4.17 controller, 3.44-46 ripple voltage equations, 4.10, 4.16 application circuit, 3.44-45 voltage inverter, regulated output, 4.16-18 efficiency losses, 3.45 voltage regulator, boost switched capacitor, specifications, 3.46 4.18 ADP3000: ADP3603/3604/3605/3607, regulator, low dropout linear regulator, 8.9 shutdown feature, 4.12 switching regulator, 3.28, 8.6-8 ADP3605: block diagram, 3.36 switched capacitor voltage converter, boost application circuit, 3.38, 8.28 8.39-41 experiment, 8.27-31 application circuit, 8.39 filtered output, 8.30-31 filtered output, 8.40 waveforms, 8.29 input/output waveforms, 8.40 buck application circuit, 3.38, 8.32 ADP3607: Index-2 INDEX application circuit, 4.20 as MicroConverter, 7.13-14 regulated voltage, circuit diagram, 4.21 as processor, 7.14 switched capacitor boost regulator: Airflow monitor, using TMP12, 6.32-35 diagram, 4.18 Aluminum electrolytic capacitor: specifications, 4.19 general purpose, 3.63, 8.20-22 voltage regulator, switched capacitor, switching, 3.63, 8.20-22 4.18-21 Ambient temperature, 8.45 ADP3801/3802: Amplifier, linearized thermistor, 6.19 battery charging ICs, 4.22, 5.18 Amplifier Applications Guide (Analog buck battery charger, diagram, 5.19 Devices), 8.13, 8.77 constant programmable charge current, Analog circuit: 5.20 definition, 8.1 internal multiplexer, 5.18, 5.20 prototyping, 8.2-9 output, 5.20-21 bird's nest, 8.4 output stage, external PMOS transistor, deadbug, 8.3 5.22 Mini-Mount, 8.5 separate battery pack charger, 5.20 Solder-Mount, 8.5 switch mode battery charger, advantages, 8.5 specifications, 5.19 components, 8.5 ADP3801/3802 Product Data Sheet, 5.25 RFI minimization, 8.68 ADP3810: RFI sensitivity, 8.66 linear battery charger, lithium-ion cells, simulation, considerations, 8.2 external MOSFET, 5.17 Antenna effect, 8.85 off-line flyback battery charger: Antenna gain, electric field strength, 8.66 diagram, 5.14 Antognetti, Paolo, 8.13 lithium-ion cells, 5.14 anyCAP: overvoltage comparator, 5.12 capacitor size, 2.46 ADP3810/3811: LDO regulator series, 2.38-47 battery charger controller IC, 5.10-11, comparison, 2.42 5.14-16 controller, block diagram, 2.49 block diagram, 5.11 diagram, 2.43 circuitry performance details, 5.13 Thermal Coastline packaging, 2.47 current control details, 5.15 thermal performance, 2.46 current-mode flyback converter LDO topology, benefits, 2.42 topology, 5.15 pole-splitting topology, 2.41-42 key features, 5.11 voltage regulation, wide range, 2.44 off-line charging circuit, 5.16 Avalanche diode, breakdown, 2.3 simplified battery charger, 5.12 AVX TPS-series capacitors, 3.66 ADP3810/3811 Product Data Sheet, 5.25 ADP3820: B charger, lithium-ion battery, 5.17 Bandgap temperature sensor, 6.21 linear regulator controller, 5.17-18 Bandgap voltage reference, 2.4-9 ADR290-ADR293 series: basic circuit, 2.4 XFET reference: characteristics, 2.13 specifications, 2.12 shunt, circuit, 2.7 topology characteristics, 2.11 two-terminal, 2.5 ADT05, temperature sensor, thermostatic Barrow, Jeff, 8.87 switch, 6.29-30 Battery: ADT14, setpoint controller, quad, 6.32 boost regulator, 3.7 ADT20/21/22, programmable setpoint capacity, 5.2 controllers, internal hysteresis, 6.32 charge/discharge cycles, 5.2 ADT45/ADT50: charger, 5.1-25 absolute voltage output sensors, 6.24-25 linear, 5.17-18 thermal time constant, 6.25-26 offline isolated flyback, 5.14-17 ADT70, platinum resistance temperature switch mode dual, 5.18-22 detector conditioning, 6.14-15 universal, 5.22-24 ADuC810PC: Index-3 INDEX diagram, 5.23 input/output relationship, 3.17 charging, 5.5-13 negative in/negative out, 3.20 fast, 5.5-6 power MOSFET switches, 3.39, 3.41 generalized circuit, 5.5 pulse burst modulation, inductance termination methods, 5.7-8 calculation, 3.50-51 trickle, 5.5-6 pulse wave modulation, constant current, 5.2 frequency, inductance calculation, discharge profiles, 5.4 3.54-55 discharge rate, 5.2 waveforms, 3.16 disposal, 5.4 discontinuous mode, 3.18 environmental concerns, 5.4 Boost switched capacitor voltage regulator, fundamentals, 5.2-4 4.18 internal multiplexer, final voltage Boyle, 8.13 selector, 5.21 Brokaw cell, 2.6, 2.9, 6.20-21 lithium metal, 5.3, 5.6 bandgap reference, 2.32 lithium-ion, 5.3-4, 5.6, 5.8-10 Brokaw, Paul, 2.24, 2.57, 6.38, 8.77, 8.87 charge termination, 5.24 Brown, Marty, 3.69 charger: Brownout, 7.1 end-of-charge detect, 5.20-22 Bryant, James, 2.1, 8.1, 8.2, 8.86 linear, 5.17-18 Buck converter: switch mode dual, 5.18-22 basic scheme, 3.10 universal, 5.22-24 currents, 3.11 memory, 5.4 discontinuous operation point, 3.15 NiCd, 5.3-4, 5.6 gated oscillator, inductance calculation, charger: 3.49 switch mode dual, 5.18-22 gated oscillator control, output voltage universal, 5.22-24 waveform, 3.33 nickel metal hydride, 5.3-4, 5.6 ideal, 3.10-15 charger: input/output current: switch mode dual, 5.18-22 ripple current rating, 3.65 universal, 5.22-24
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