ADR02AUJ-REEL7 - Ultracompact Precision10 V/5 V/2.5 V/3.0V Voltage References
ADR02BKS-R2 - Ultracompact Precision10 V/5 V/2.5 V/3.0V Voltage References
ADR02BKS-REEL7 - Ultracompact Precision10 V/5 V/2.5 V/3.0V Voltage References
ADR02BR - Ultracompact Precision10 V/5 V/2.5 V/3.0V Voltage References
ADR02BR-REEL7 - Ultracompact Precision10 V/5 V/2.5 V/3.0V Voltage References
ADR02BUJ-R2 - Ultracompact Precision10 V/5 V/2.5 V/3.0V Voltage References
ADR02BUJ-REEL7 - Ultracompact Precision10 V/5 V/2.5 V/3.0V Voltage References
ADR02CRZ2 - Ultracompact Precision10 V/5 V/2.5 V/3.0V Voltage References
ADR02CRZ-REEL2 - Ultracompact Precision10 V/5 V/2.5 V/3.0V Voltage References
ADR03 - Ultracompact Precision10 V/5 V/2.5 V/3.0V Voltage References
ADR03AKS-R2 - Ultracompact Precision10 V/5 V/2.5 V/3.0V Voltage References
ADR03AKS-REEL7 - Ultracompact Precision10 V/5 V/2.5 V/3.0V Voltage References
ADR03AR - Ultracompact Precision10 V/5 V/2.5 V/3.0V Voltage References
ADR03AR-REEL7 - Ultracompact Precision10 V/5 V/2.5 V/3.0V Voltage References
ADR03AUJ-R2 - Ultracompact Precision10 V/5 V/2.5 V/3.0V Voltage References
ADR03AUJ-REEL7 - Ultracompact Precision10 V/5 V/2.5 V/3.0V Voltage References
ADR03BR - Ultracompact Precision10 V/5 V/2.5 V/3.0V Voltage References
ADR03BR-REEL7 - Ultracompact Precision10 V/5 V/2.5 V/3.0V Voltage References
ADR03BUJ-R2 - Ultracompact Precision10 V/5 V/2.5 V/3.0V Voltage References
ADR03BUJ-REEL7 - Ultracompact Precision10 V/5 V/2.5 V/3.0V Voltage References
ADR03CRZ2 - Ultracompact Precision10 V/5 V/2.5 V/3.0V Voltage References
ADR03CRZ-REEL2 - Ultracompact Precision10 V/5 V/2.5 V/3.0V Voltage References
ADR06 - Ultracompact Precision10 V/5 V/2.5 V/3.0V Voltage References
ADR06AKS-R2 - Ultracompact Precision10 V/5 V/2.5 V/3.0V Voltage References
ADR06AKS-REEL7 - Ultracompact Precision10 V/5 V/2.5 V/3.0V Voltage References
ADR06AR - Ultracompact Precision10 V/5 V/2.5 V/3.0V Voltage References
ADR06AR-REEL7 - Ultracompact Precision10 V/5 V/2.5 V/3.0V Voltage References
ADR06AUJ-R2 - Ultracompact Precision10 V/5 V/2.5 V/3.0V Voltage References
ADR06AUJ-REEL7 - Ultracompact Precision10 V/5 V/2.5 V/3.0V Voltage References
ADR06BKS-R2 - Ultracompact Precision10 V/5 V/2.5 V/3.0V Voltage References
ADR06BR - Ultracompact Precision10 V/5 V/2.5 V/3.0V Voltage References
ADR06BR-REEL7 - Ultracompact Precision10 V/5 V/2.5 V/3.0V Voltage References
ADR06BUJ-REEL7 - Ultracompact Precision10 V/5 V/2.5 V/3.0V Voltage References
ADR06CRZ2 - Ultracompact Precision10 V/5 V/2.5 V/3.0V Voltage References
ADR06CRZ-REEL2 - Ultracompact Precision10 V/5 V/2.5 V/3.0V Voltage References
ADR121 - Analog Devices\' new ADR121 isA 2.5V reference providing high precision, low power, and low voltages all inA tiny thin SOT-23-6 package.A perfect companion chip for high accuracy data converters in power constraint applications, the ADR121 offers the lowest temperature drift performance over the extended industrial temperature range of -40єC to +125єC while only consuming 85 µA. Its low input and output voltage capability ensures that it’s the ideal solution for our latest generation of high performance
ADR121AUJZ-R2 - Analog Devices\' new ADR121 isA 2.5V reference providing high precision, low power, and low voltages all inA tiny thin SOT-23-6 package.A perfect companion chip for high accuracy data converters in power constraint applications, the ADR121 offers the lowest temperature drift performance over the extended industrial temperature range of -40єC to +125єC while only consuming 85 µA. Its low input and output voltage capability ensures that it’s the ideal solution for our latest generation of high performance
ADR121AUJZ-REEL7 - Analog Devices\' new ADR121 isA 2.5V reference providing high precision, low power, and low voltages all inA tiny thin SOT-23-6 package.A perfect companion chip for high accuracy data converters in power constraint applications, the ADR121 offers the lowest temperature drift performance over the extended industrial temperature range of -40єC to +125єC while only consuming 85 µA. Its low input and output voltage capability ensures that it’s the ideal solution for our latest generation of high performance
ADR121BUJZ-REEL7 - Analog Devices\' new ADR121 isA 2.5V reference providing high precision, low power, and low voltages all inA tiny thin SOT-23-6 package.A perfect companion chip for high accuracy data converters in power constraint applications, the ADR121 offers the lowest temperature drift performance over the extended industrial temperature range of -40єC to +125єC while only consuming 85 µA. Its low input and output voltage capability ensures that it’s the ideal solution for our latest generation of high performance
ADR125 - Analog Devices’ new ADR125 isA 5.0V reference providing high precision, low power, and low voltages all inA tiny thin SOT-23-6 package.A perfect companion chip for high accuracy data converters in power constraint applications, the ADR125 offers the lowest temperature drift performance over the extended industrial temperature range of -40єC to +125єC while only consuming 85 µA. Its low input and output voltage capability ensures that it’s the ideal solution for our latest generation of high performance
ADR125AUJZ-R2 - Analog Devices’ new ADR125 isA 5.0V reference providing high precision, low power, and low voltages all inA tiny thin SOT-23-6 package.A perfect companion chip for high accuracy data converters in power constraint applications, the ADR125 offers the lowest temperature drift performance over the extended industrial temperature range of -40єC to +125єC while only consuming 85 µA. Its low input and output voltage capability ensures that it’s the ideal solution for our latest generation of high performance
ADR125AUJZ-REEL7 - Analog Devices’ new ADR125 isA 5.0V reference providing high precision, low power, and low voltages all inA tiny thin SOT-23-6 package.A perfect companion chip for high accuracy data converters in power constraint applications, the ADR125 offers the lowest temperature drift performance over the extended industrial temperature range of -40єC to +125єC while only consuming 85 µA. Its low input and output voltage capability ensures that it’s the ideal solution for our latest generation of high performance
ADR125BUJZ-REEL7 - Analog Devices’ new ADR125 isA 5.0V reference providing high precision, low power, and low voltages all inA tiny thin SOT-23-6 package.A perfect companion chip for high accuracy data converters in power constraint applications, the ADR125 offers the lowest temperature drift performance over the extended industrial temperature range of -40єC to +125єC while only consuming 85 µA. Its low input and output voltage capability ensures that it’s the ideal solution for our latest generation of high performance
ADR127 - Precision Micropower LDO Voltage Reference for Low Voltage Applications (1.25 VOUT) Product Description Analog Devices’ new isA 1.25V reference providing high precision, low power, and low voltage all inA tiny thin SOT-23-6 package.A perfect companion chip for high accuracy data converters in power constraint applications, the offers the lowest temperature drift performance over the extended industrial temperature range of -40єC to +125єC while only consuming 85 µA. Its low i
ADR1500 - 1.2875V Micropower, Shunt Voltage ReferenceThe ADR1500 isA low cost, 2-terminal (shunt), precision band gap reference. It provides an accurate 1.2875V output for input currents between 50 мA to 10 mA. The low minimum operating current makes the ADR1500 ideal for use in battery-powered 3V or 5V systems. However, the wide operating current range means the ADR1500 is extremely versatile and suitable for use inA wide variety of high current applications. The ADR1500 is available in the tiny SC70 package a
ADR1500BKSZ-REEL - 1.2875V Micropower, Shunt Voltage ReferenceThe ADR1500 isA low cost, 2-terminal (shunt), precision band gap reference. It provides an accurate 1.2875V output for input currents between 50 мA to 10 mA. The low minimum operating current makes the ADR1500 ideal for use in battery-powered 3V or 5V systems. However, the wide operating current range means the ADR1500 is extremely versatile and suitable for use inA wide variety of high current applications. The ADR1500 is available in the tiny SC70 package a
ADR280 - 1.2V Ultralow Power High PSRR Voltage Reference
ADR280AKS-R2 - 1.2V Ultralow Power High PSRR Voltage Reference
ADR280AKS-REEL7 - 1.2V Ultralow Power High PSRR Voltage Reference
ADR280ART-R2 - 1.2V Ultralow Power High PSRR Voltage Reference
ADR280ART-REEL - 1.2V Ultralow Power High PSRR Voltage Reference
ADR280ART-REEL7 - 1.2V Ultralow Power High PSRR Voltage Reference
ADR290 - Low Noise Micropower Precision Voltage References
ADR290ER - Low Noise Micropower Precision Voltage References
ADR290ER-REEL - Low Noise Micropower Precision Voltage References
ADR290ER-REEL7 - Low Noise Micropower Precision Voltage References
ADR290ER-RELL - Low Noise Micropower Precision Voltage References
ADR290FR - Low Noise Micropower Precision Voltage References
ADR290FR-REEL - Low Noise Micropower Precision Voltage References
ADR290FR-REEL7 - Low Noise Micropower Precision Voltage References
ADR290FR-RELL - Low Noise Micropower Precision Voltage References
ADR290GBC - Low Noise Micropower Precision Voltage References
ADR290GR - Low Noise Micropower Precision Voltage References
ADR290GR-REEL - Low Noise Micropower Precision Voltage References
ADR290GR-REEL7 - Low Noise Micropower Precision Voltage References
ADR290GR-RELL - Low Noise Micropower Precision Voltage References
ADR290GRU-REEL - Low Noise Micropower Precision Voltage References
ADR290GRU-REEL7 - Low Noise Micropower Precision Voltage References
ADR290GRU-RELL - Low Noise Micropower Precision Voltage References
ADR290GT9 - Low Noise Micropower Precision Voltage References
ADR290GT9-REEL - Low Noise Micropower Precision Voltage References
ADR291 - Low Noise Micropower Precision Voltage References
ADR291ER - Low Noise Micropower Precision Voltage References
ADR291ER-REEL - Low Noise Micropower Precision Voltage References
ADR291ER-REEL7 - Low Noise Micropower Precision Voltage References
ADR291ER-RELL - Low Noise Micropower Precision Voltage References
ADR291FR - Low Noise Micropower Precision Voltage References
ADR291FR-REEL - Low Noise Micropower Precision Voltage References
ADR291FR-REEL7 - Low Noise Micropower Precision Voltage References
ADR291FR-RELL - Low Noise Micropower Precision Voltage References
ADR291GBC - Low Noise Micropower Precision Voltage References
ADR291GR - Low Noise Micropower Precision Voltage References
ADR291GR-REEL - Low Noise Micropower Precision Voltage References
ADR291GR-REEL7 - Low Noise Micropower Precision Voltage References
ADR291GR-RELL - Low Noise Micropower Precision Voltage References
ADR291GRU-REEL - Low Noise Micropower Precision Voltage References
ADR291GRU-REEL7 - Low Noise Micropower Precision Voltage References
ADR291GRU-RELL - Low Noise Micropower Precision Voltage References
ADR291GT9 - Low Noise Micropower Precision Voltage References
ADR291GT9-REEL - Low Noise Micropower Precision Voltage References
ADR292 - Low Noise Micropower Precision Voltage References
ADR292ER - Low Noise Micropower Precision Voltage References
ADR292ER-REEL - Low Noise Micropower Precision Voltage References
ADR292ER-REEL7 - Low Noise Micropower Precision Voltage References
ADR292ER-RELL - Low Noise Micropower Precision Voltage References
ADR292FR - Low Noise Micropower Precision Voltage References
ADR292FR-REEL - Low Noise Micropower Precision Voltage References
ADR292FR-REEL7 - Low Noise Micropower Precision Voltage References
ADR292FR-RELL - Low Noise Micropower Precision Voltage References
ADR292GBC - Low Noise Micropower Precision Voltage References
ADR292GR - Low Noise Micropower Precision Voltage References
ADR292GR-REEL - Low Noise Micropower Precision Voltage References
ADR292GR-REEL7 - Low Noise Micropower Precision Voltage References
ADR292GR-RELL - Low Noise Micropower Precision Voltage References
ADR292GRU-REEL - Low Noise Micropower Precision Voltage References
ADR292GRU-REEL7 - Low Noise Micropower Precision Voltage References
ADR292GRU-RELL - Low Noise Micropower Precision Voltage References
ADR292GT9 - Low Noise Micropower Precision Voltage References
ADR292GT9-REEL - Low Noise Micropower Precision Voltage References
ADR293 - Low Noise Micropower Precision Voltage References
ADR293 - Low Noise Micropower Precision Voltage Reference
ADR293ER - Low Noise Micropower Precision Voltage Reference
ADR293ER-REEL - Low Noise Micropower Precision Voltage Reference
ADR293ER-REEL7 - Low Noise Micropower Precision Voltage Reference
ADR293FR - Low Noise Micropower Precision Voltage Reference
ADR293FR-REEL - Low Noise Micropower Precision Voltage Reference
ADR293FR-REEL7 - Low Noise Micropower Precision Voltage Reference
ADR293GBC - Low Noise Micropower Precision Voltage Reference
ADR293GR - Low Noise Micropower Precision Voltage Reference
ADR293GR-REEL - Low Noise Micropower Precision Voltage Reference
ADR293GR-REEL7 - Low Noise Micropower Precision Voltage Reference
ADR293GRU-REEL - Low Noise Micropower Precision Voltage Reference
ADR293GRU-REEL7 - Low Noise Micropower Precision Voltage Reference
ADR293GT9 - Low Noise Micropower Precision Voltage Reference
ADR293GT9-REEL - Low Noise Micropower Precision Voltage Reference
ADR318 - Precision Low Drift Sot-23 Voltage Reference With Shutdown
ADR318ARJ-REEL7 - Precision Low Drift SOT-23 Voltage Reference with Shutdown
ADR360 - Low Power, Low Noise Voltage References with Sink/Source Capability, 2.048 VOUTThe ADR360/ADR361/ADR363/ADR364/ADR365/ADR366 are precision 2.048 V, 2.5 V, 3.0 V, 4.096 V, 5.0 V, and 3.3V band gap voltage references that feature low power, high precision inA tiny footprint. Using ADI’s patented temperature drift curvature correction techniques, the ADR36x references achieveA low temperature drift of 9 ppm/°C in the TSOT package. The ADR36x family of micropower, low dropout voltage references providesA st
ADR360AUJZ-REEL7 - Low Power, Low Noise Voltage References with Sink/Source Capability, 2.048 VOUTThe ADR360/ADR361/ADR363/ADR364/ADR365/ADR366 are precision 2.048 V, 2.5 V, 3.0 V, 4.096 V, 5.0 V, and 3.3V band gap voltage references that feature low power, high precision inA tiny footprint. Using ADI’s patented temperature drift curvature correction techniques, the ADR36x references achieveA low temperature drift of 9 ppm/°C in the TSOT package. The ADR36x family of micropower, low dropout voltage references providesA st
ADR360BUJZ-REEL7 - Low Power, Low Noise Voltage References with Sink/Source Capability, 2.048 VOUTThe ADR360/ADR361/ADR363/ADR364/ADR365/ADR366 are precision 2.048 V, 2.5 V, 3.0 V, 4.096 V, 5.0 V, and 3.3V band gap voltage references that feature low power, high precision inA tiny footprint. Using ADI’s patented temperature drift curvature correction techniques, the ADR36x references achieveA low temperature drift of 9 ppm/°C in the TSOT package. The ADR36x family of micropower, low dropout voltage references providesA st
ADR361 - Low Power, Low Noise Voltage References with Sink/Source Capability, 2.5 VOUTThe ADR360/ADR361/ADR363/ADR364/ADR365/ADR366 are precision 2.048 V, 2.5 V, 3.0 V, 4.096 V, 5.0 V, and 3.3V band gap voltage references that feature low power, high precision inA tiny footprint. Using ADI’s patented temperature drift curvature correction techniques, the ADR36x references achieveA low temperature drift of 9 ppm/°C in the TSOT package. The ADR36x family of micropower, low dropout voltage references providesA stab
ADR361AUJZ-REEL7 - Low Power, Low Noise Voltage References with Sink/Source Capability, 2.5 VOUTThe ADR360/ADR361/ADR363/ADR364/ADR365/ADR366 are precision 2.048 V, 2.5 V, 3.0 V, 4.096 V, 5.0 V, and 3.3V band gap voltage references that feature low power, high precision inA tiny footprint. Using ADI’s patented temperature drift curvature correction techniques, the ADR36x references achieveA low temperature drift of 9 ppm/°C in the TSOT package. The ADR36x family of micropower, low dropout voltage references providesA stab
ADR361BUJZ-REEL7 - Low Power, Low Noise Voltage References with Sink/Source Capability, 2.5 VOUTThe ADR360/ADR361/ADR363/ADR364/ADR365/ADR366 are precision 2.048 V, 2.5 V, 3.0 V, 4.096 V, 5.0 V, and 3.3V band gap voltage references that feature low power, high precision inA tiny footprint. Using ADI’s patented temperature drift curvature correction techniques, the ADR36x references achieveA low temperature drift of 9 ppm/°C in the TSOT package. The ADR36x family of micropower, low dropout voltage references providesA stab
ADR363 - Low Power, Low Noise Voltage References with Sink/Source Capability, 2.5 VOUTThe ADR360/ADR361/ADR363/ADR364/ADR365/ADR366 are precision 2.048 V, 2.5 V, 3.0 V, 4.096 V, 5.0 V, and 3.3V band gap voltage references that feature low power, high precision inA tiny footprint. Using ADI’s patented temperature drift curvature correction techniques, the ADR36x references achieveA low temperature drift of 9 ppm/°C in the TSOT package. The ADR36x family of micropower, low dropout voltage references providesA stab
ADR363AUJZ-REEL7 - Low Power, Low Noise Voltage References with Sink/Source Capability, 2.5 VOUTThe ADR360/ADR361/ADR363/ADR364/ADR365/ADR366 are precision 2.048 V, 2.5 V, 3.0 V, 4.096 V, 5.0 V, and 3.3V band gap voltage references that feature low power, high precision inA tiny footprint. Using ADI’s patented temperature drift curvature correction techniques, the ADR36x references achieveA low temperature drift of 9 ppm/°C in the TSOT package. The ADR36x family of micropower, low dropout voltage references providesA stab
ADR363BUJZ-REEL7 - Low Power, Low Noise Voltage References with Sink/Source Capability, 2.5 VOUTThe ADR360/ADR361/ADR363/ADR364/ADR365/ADR366 are precision 2.048 V, 2.5 V, 3.0 V, 4.096 V, 5.0 V, and 3.3V band gap voltage references that feature low power, high precision inA tiny footprint. Using ADI’s patented temperature drift curvature correction techniques, the ADR36x references achieveA low temperature drift of 9 ppm/°C in the TSOT package. The ADR36x family of micropower, low dropout voltage references providesA stab
ADR364 - Low Power, Low Noise Voltage References with Sink/Source Capability, 2.5 VOUTThe ADR360/ADR361/ADR363/ADR364/ADR365/ADR366 are precision 2.048 V, 2.5 V, 3.0 V, 4.096 V, 5.0 V, and 3.3V band gap voltage references that feature low power, high precision inA tiny footprint. Using ADI’s patented temperature drift curvature correction techniques, the ADR36x references achieveA low temperature drift of 9 ppm/°C in the TSOT package. The ADR36x family of micropower, low dropout voltage references providesA stab
ADR364AUJZ-REEL7 - Low Power, Low Noise Voltage References with Sink/Source Capability, 2.5 VOUTThe ADR360/ADR361/ADR363/ADR364/ADR365/ADR366 are precision 2.048 V, 2.5 V, 3.0 V, 4.096 V, 5.0 V, and 3.3V band gap voltage references that feature low power, high precision inA tiny footprint. Using ADI’s patented temperature drift curvature correction techniques, the ADR36x references achieveA low temperature drift of 9 ppm/°C in the TSOT package. The ADR36x family of micropower, low dropout voltage references providesA stab
ADR364BUJZ-REEL7 - Low Power, Low Noise Voltage References with Sink/Source Capability, 2.5 VOUTThe ADR360/ADR361/ADR363/ADR364/ADR365/ADR366 are precision 2.048 V, 2.5 V, 3.0 V, 4.096 V, 5.0 V, and 3.3V band gap voltage references that feature low power, high precision inA tiny footprint. Using ADI’s patented temperature drift curvature correction techniques, the ADR36x references achieveA low temperature drift of 9 ppm/°C in the TSOT package. The ADR36x family of micropower, low dropout voltage references providesA stab
ADR365 - Low Power, Low Noise Voltage References with Sink/Source Capability, 2.5 VOUTThe ADR360/ADR361/ADR363/ADR364/ADR365/ADR366 are precision 2.048 V, 2.5 V, 3.0 V, 4.096 V, 5.0 V, and 3.3V band gap voltage references that feature low power, high precision inA tiny footprint. Using ADI’s patented temperature drift curvature correction techniques, the ADR36x references achieveA low temperature drift of 9 ppm/°C in the TSOT package. The ADR36x family of micropower, low dropout voltage references providesA stab
ADR365AUJZ-REEL7 - Low Power, Low Noise Voltage References with Sink/Source Capability, 2.5 VOUTThe ADR360/ADR361/ADR363/ADR364/ADR365/ADR366 are precision 2.048 V, 2.5 V, 3.0 V, 4.096 V, 5.0 V, and 3.3V band gap voltage references that feature low power, high precision inA tiny footprint. Using ADI’s patented temperature drift curvature correction techniques, the ADR36x references achieveA low temperature drift of 9 ppm/°C in the TSOT package. The ADR36x family of micropower, low dropout voltage references providesA stab
ADR365BUJZ-REEL7 - Low Power, Low Noise Voltage References with Sink/Source Capability, 2.5 VOUTThe ADR360/ADR361/ADR363/ADR364/ADR365/ADR366 are precision 2.048 V, 2.5 V, 3.0 V, 4.096 V, 5.0 V, and 3.3V band gap voltage references that feature low power, high precision inA tiny footprint. Using ADI’s patented temperature drift curvature correction techniques, the ADR36x references achieveA low temperature drift of 9 ppm/°C in the TSOT package. The ADR36x family of micropower, low dropout voltage references providesA stab
ADR366 - Low Power, Low Noise Voltage References with Sink/Source Capability, 2.5 VOUTThe ADR360/ADR361/ADR363/ADR364/ADR365/ADR366 are precision 2.048 V, 2.5 V, 3.0 V, 4.096 V, 5.0 V, and 3.3V band gap voltage references that feature low power, high precision inA tiny footprint. Using ADI’s patented temperature drift curvature correction techniques, the ADR36x references achieveA low temperature drift of 9 ppm/°C in the TSOT package. The ADR36x family of micropower, low dropout voltage references providesA stab
ADR366AUJZ-REEL7 - Low Power, Low Noise Voltage References with Sink/Source Capability, 2.5 VOUTThe ADR360/ADR361/ADR363/ADR364/ADR365/ADR366 are precision 2.048 V, 2.5 V, 3.0 V, 4.096 V, 5.0 V, and 3.3V band gap voltage references that feature low power, high precision inA tiny footprint. Using ADI’s patented temperature drift curvature correction techniques, the ADR36x references achieveA low temperature drift of 9 ppm/°C in the TSOT package. The ADR36x family of micropower, low dropout voltage references providesA stab
ADR366BUJZ-REEL7 - Low Power, Low Noise Voltage References with Sink/Source Capability, 2.5 VOUTThe ADR360/ADR361/ADR363/ADR364/ADR365/ADR366 are precision 2.048 V, 2.5 V, 3.0 V, 4.096 V, 5.0 V, and 3.3V band gap voltage references that feature low power, high precision inA tiny footprint. Using ADI’s patented temperature drift curvature correction techniques, the ADR36x references achieveA low temperature drift of 9 ppm/°C in the TSOT package. The ADR36x family of micropower, low dropout voltage references providesA stab
ADR370 - Precision Low Power 2.048V Sot-23 Voltage Reference
ADR370ART-R2 - Precision Low Power 2.048V SOT-23 Voltage Reference
ADR370ART-REEL7 - Precision Low Power 2.048V SOT-23 Voltage Reference
ADR370BRT-R2 - Precision Low Power 2.048V SOT-23 Voltage Reference
ADR370BRT-REEL7 - Precision Low Power 2.048V SOT-23 Voltage Reference
ADR380 - Precision Low-drift 2.048 V/2.500V Sot-23 Voltage References
ADR380ART-R2 - Precision Low-Drift 2.048 V/2.500V SOT-23 Voltage References
ADR380ART-REEL - Precision Low-Drift 2.048 V/2.500V SOT-23 Voltage References
ADR380ART-REEL7 - Precision Low-Drift 2.048 V/2.500V SOT-23 Voltage References
ADR380ARTZ-REEL7 - Precision Low-Drift 2.048 V/2.500V SOT-23 Voltage References
ADR381 - Precision Low-Drift 2.048 V/2.500V SOT-23 Voltage References
ADR381ART-R2 - Precision Low-Drift 2.048 V/2.500V SOT-23 Voltage References
ADR381ART-REEL - Precision Low-Drift 2.048 V/2.500V SOT-23 Voltage References
ADR381ART-REEL7 - Precision Low-Drift 2.048 V/2.500V SOT-23 Voltage References
ADR381ARTZ-REEL7 - Precision Low-Drift 2.048 V/2.500V SOT-23 Voltage References
ADR430 - Ultralow Noise Xfet Voltage References With Current Sink and Source Capability
ADR430A - Ultralow Noise XFET Voltage References with Current Sink and Source Capability
ADR430AR - Ultralow Noise XFET Voltage References with Current Sink and Source Capability
ADR430ARM - Ultralow Noise XFET Voltage References with Current Sink and Source Capability
ADR430ARM-REEL7 - Ultralow Noise XFET Voltage References with Current Sink and Source Capability
ADR430AR-REEL7 - Ultralow Noise XFET Voltage References with Current Sink and Source Capability
ADR430B - Ultralow Noise XFET Voltage References with Current Sink and Source Capability
ADR430BR - Ultralow Noise XFET Voltage References with Current Sink and Source Capability
ADR430BR-REEL7 - Ultralow Noise XFET Voltage References with Current Sink and Source Capability
ADR431 - Ultralow Noise XFET Voltage References with Current Sink and Source Capability
ADR431A - Ultralow Noise XFET Voltage References with Current Sink and Source Capability
ADR431AR - Ultralow Noise XFET Voltage References with Current Sink and Source Capability
ADR431ARM - Ultralow Noise XFET Voltage References with Current Sink and Source Capability
ADR431ARM-REEL7 - Ultralow Noise XFET Voltage References with Current Sink and Source Capability
ADR431AR-REEL7 - Ultralow Noise XFET Voltage References with Current Sink and Source Capability
ADR431B - Ultralow Noise XFET Voltage References with Current Sink and Source Capability
ADR431BR - Ultralow Noise XFET Voltage References with Current Sink and Source Capability
ADR431BR-REEL7 - Ultralow Noise XFET Voltage References with Current Sink and Source Capability
ADR433 - Ultralow Noise XFET Voltage References with Current Sink and Source Capability
ADR433A - Ultralow Noise XFET Voltage References with Current Sink and Source Capability
ADR433AR - Ultralow Noise XFET Voltage References with Current Sink and Source Capability
ADR433ARM - Ultralow Noise XFET Voltage References with Current Sink and Source Capability
ADR433ARM-REEL7 - Ultralow Noise XFET Voltage References with Current Sink and Source Capability
ADR433AR-REEL7 - Ultralow Noise XFET Voltage References with Current Sink and Source Capability
ADR433B - Ultralow Noise XFET Voltage References with Current Sink and Source Capability
ADR433BR - Ultralow Noise XFET Voltage References with Current Sink and Source Capability
ADR433BR-REEL7 - Ultralow Noise XFET Voltage References with Current Sink and Source Capability
ADR434 - Ultralow Noise XFET Voltage References with Current Sink and Source Capability
ADR434A - Ultralow Noise XFET Voltage References with Current Sink and Source Capability
ADR434AR - Ultralow Noise XFET Voltage References with Current Sink and Source Capability
ADR434ARM - Ultralow Noise XFET Voltage References with Current Sink and Source Capability
ADR434ARM-REEL7 - Ultralow Noise XFET Voltage References with Current Sink and Source Capability
ADR434AR-REEL7 - Ultralow Noise XFET Voltage References with Current Sink and Source Capability
ADR434B - Ultralow Noise XFET Voltage References with Current Sink and Source Capability
ADR434BR - Ultralow Noise XFET Voltage References with Current Sink and Source Capability
ADR434BR-REEL7 - Ultralow Noise XFET Voltage References with Current Sink and Source Capability
ADR435 - Ultralow Noise XFET Voltage References with Current Sink and Source Capability
ADR435A - Ultralow Noise XFET Voltage References with Current Sink and Source Capability
ADR435AR - Ultralow Noise XFET Voltage References with Current Sink and Source Capability
ADR435ARM - Ultralow Noise XFET Voltage References with Current Sink and Source Capability
ADR435ARM-REEL7 - Ultralow Noise XFET Voltage References with Current Sink and Source Capability
ADR435AR-REEL7 - Ultralow Noise XFET Voltage References with Current Sink and Source Capability
ADR435B - Ultralow Noise XFET Voltage References with Current Sink and Source Capability
ADR435BR - Ultralow Noise XFET Voltage References with Current Sink and Source Capability
ADR435BR-REEL7 - Ultralow Noise XFET Voltage References with Current Sink and Source Capability
ADR439 - Ultralow Noise XFET Voltage References with Current Sink and Source Capability
ADR439A - Ultralow Noise XFET Voltage References with Current Sink and Source Capability
ADR439AR - Ultralow Noise XFET Voltage References with Current Sink and Source Capability
ADR439ARM - Ultralow Noise XFET Voltage References with Current Sink and Source Capability
ADR439ARM-REEL7 - Ultralow Noise XFET Voltage References with Current Sink and Source Capability
ADR439AR-REEL7 - Ultralow Noise XFET Voltage References with Current Sink and Source Capability
ADR439B - Ultralow Noise XFET Voltage References with Current Sink and Source Capability
ADR439BR - Ultralow Noise XFET Voltage References with Current Sink and Source Capability
ADR439BR-REEL7 - Ultralow Noise XFET Voltage References with Current Sink and Source Capability
ADR440 - 2.048V High Precision, LDO XFET® References for High Performance Sigma-Delta ConvertersThe ADR440 is the 2.048V member of ADI’s latest family of Low Dropout XFET® voltage references featuring low noise, high accuracy, and low temperature drift performance. This new family requires only 500mV of headroom for operation. This low dropout feature allows forA 2.048V output fromA minimum supply of 2.6V. This makes the ADR440 perfect for 3V high performance systems. Featuring 10mA of output current source and 5
ADR440ARMZ - 2.048V High Precision, LDO XFET® References for High Performance Sigma-Delta ConvertersThe ADR440 is the 2.048V member of ADI’s latest family of Low Dropout XFET® voltage references featuring low noise, high accuracy, and low temperature drift performance. This new family requires only 500mV of headroom for operation. This low dropout feature allows forA 2.048V output fromA minimum supply of 2.6V. This makes the ADR440 perfect for 3V high performance systems. Featuring 10mA of output current source and 5
ADR440ARMZ-REEL7 - 2.048V High Precision, LDO XFET® References for High Performance Sigma-Delta ConvertersThe ADR440 is the 2.048V member of ADI’s latest family of Low Dropout XFET® voltage references featuring low noise, high accuracy, and low temperature drift performance. This new family requires only 500mV of headroom for operation. This low dropout feature allows forA 2.048V output fromA minimum supply of 2.6V. This makes the ADR440 perfect for 3V high performance systems. Featuring 10mA of output current source and 5
ADR440ARZ - 2.048V High Precision, LDO XFET® References for High Performance Sigma-Delta ConvertersThe ADR440 is the 2.048V member of ADI’s latest family of Low Dropout XFET® voltage references featuring low noise, high accuracy, and low temperature drift performance. This new family requires only 500mV of headroom for operation. This low dropout feature allows forA 2.048V output fromA minimum supply of 2.6V. This makes the ADR440 perfect for 3V high performance systems. Featuring 10mA of output current source and 5
ADR440ARZ-REEL7 - 2.048V High Precision, LDO XFET® References for High Performance Sigma-Delta ConvertersThe ADR440 is the 2.048V member of ADI’s latest family of Low Dropout XFET® voltage references featuring low noise, high accuracy, and low temperature drift performance. This new family requires only 500mV of headroom for operation. This low dropout feature allows forA 2.048V output fromA minimum supply of 2.6V. This makes the ADR440 perfect for 3V high performance systems. Featuring 10mA of output current source and 5
ADR440BRZ - 2.048V High Precision, LDO XFET® References for High Performance Sigma-Delta ConvertersThe ADR440 is the 2.048V member of ADI’s latest family of Low Dropout XFET® voltage references featuring low noise, high accuracy, and low temperature drift performance. This new family requires only 500mV of headroom for operation. This low dropout feature allows forA 2.048V output fromA minimum supply of 2.6V. This makes the ADR440 perfect for 3V high performance systems. Featuring 10mA of output current source and 5
ADR440BRZ-REEL7 - 2.048V High Precision, LDO XFET® References for High Performance Sigma-Delta ConvertersThe ADR440 is the 2.048V member of ADI’s latest family of Low Dropout XFET® voltage references featuring low noise, high accuracy, and low temperature drift performance. This new family requires only 500mV of headroom for operation. This low dropout feature allows forA 2.048V output fromA minimum supply of 2.6V. This makes the ADR440 perfect for 3V high performance systems. Featuring 10mA of output current source and 5
ADR441 - 2.5V High Precision, LDO XFET® References for High Performance Sigma-Delta ConvertersThe ADR441 is the 2.5V member of ADI’s latest family of Low Dropout XFET® voltage references featuring low noise, high accuracy, and low temperature drift performance. This new family requires only 500mV of headroom for operation. This low dropout feature allows forA 2.5V output fromA minimum supply of 3.0V. This makes the ADR441 perfect for 3V high performance systems. Featuring 10mA of output current source and 5mA sin
ADR441ARM-REEL7 - 2.5V High Precision, LDO XFET® References for High Performance Sigma-Delta ConvertersThe ADR441 is the 2.5V member of ADI’s latest family of Low Dropout XFET® voltage references featuring low noise, high accuracy, and low temperature drift performance. This new family requires only 500mV of headroom for operation. This low dropout feature allows forA 2.5V output fromA minimum supply of 3.0V. This makes the ADR441 perfect for 3V high performance systems. Featuring 10mA of output current source and 5mA sin
ADR441ARMZ - 2.5V High Precision, LDO XFET® References for High Performance Sigma-Delta ConvertersThe ADR441 is the 2.5V member of ADI’s latest family of Low Dropout XFET® voltage references featuring low noise, high accuracy, and low temperature drift performance. This new family requires only 500mV of headroom for operation. This low dropout feature allows forA 2.5V output fromA minimum supply of 3.0V. This makes the ADR441 perfect for 3V high performance systems. Featuring 10mA of output current source and 5mA sin
ADR441ARMZ-REEL7 - 2.5V High Precision, LDO XFET® References for High Performance Sigma-Delta ConvertersThe ADR441 is the 2.5V member of ADI’s latest family of Low Dropout XFET® voltage references featuring low noise, high accuracy, and low temperature drift performance. This new family requires only 500mV of headroom for operation. This low dropout feature allows forA 2.5V output fromA minimum supply of 3.0V. This makes the ADR441 perfect for 3V high performance systems. Featuring 10mA of output current source and 5mA sin
ADR441AR-REEL7 - 2.5V High Precision, LDO XFET® References for High Performance Sigma-Delta ConvertersThe ADR441 is the 2.5V member of ADI’s latest family of Low Dropout XFET® voltage references featuring low noise, high accuracy, and low temperature drift performance. This new family requires only 500mV of headroom for operation. This low dropout feature allows forA 2.5V output fromA minimum supply of 3.0V. This makes the ADR441 perfect for 3V high performance systems. Featuring 10mA of output current source and 5mA sin
ADR441ARZ - 2.5V High Precision, LDO XFET® References for High Performance Sigma-Delta ConvertersThe ADR441 is the 2.5V member of ADI’s latest family of Low Dropout XFET® voltage references featuring low noise, high accuracy, and low temperature drift performance. This new family requires only 500mV of headroom for operation. This low dropout feature allows forA 2.5V output fromA minimum supply of 3.0V. This makes the ADR441 perfect for 3V high performance systems. Featuring 10mA of output current source and 5mA sin
ADR441ARZ-REEL7 - 2.5V High Precision, LDO XFET® References for High Performance Sigma-Delta ConvertersThe ADR441 is the 2.5V member of ADI’s latest family of Low Dropout XFET® voltage references featuring low noise, high accuracy, and low temperature drift performance. This new family requires only 500mV of headroom for operation. This low dropout feature allows forA 2.5V output fromA minimum supply of 3.0V. This makes the ADR441 perfect for 3V high performance systems. Featuring 10mA of output current source and 5mA sin
ADR441BR-REEL7 - 2.5V High Precision, LDO XFET® References for High Performance Sigma-Delta ConvertersThe ADR441 is the 2.5V member of ADI’s latest family of Low Dropout XFET® voltage references featuring low noise, high accuracy, and low temperature drift performance. This new family requires only 500mV of headroom for operation. This low dropout feature allows forA 2.5V output fromA minimum supply of 3.0V. This makes the ADR441 perfect for 3V high performance systems. Featuring 10mA of output current source and 5mA sin
ADR441BRZ - 2.5V High Precision, LDO XFET® References for High Performance Sigma-Delta ConvertersThe ADR441 is the 2.5V member of ADI’s latest family of Low Dropout XFET® voltage references featuring low noise, high accuracy, and low temperature drift performance. This new family requires only 500mV of headroom for operation. This low dropout feature allows forA 2.5V output fromA minimum supply of 3.0V. This makes the ADR441 perfect for 3V high performance systems. Featuring 10mA of output current source and 5mA sin
ADR441BRZ-REEL7 - 2.5V High Precision, LDO XFET® References for High Performance Sigma-Delta ConvertersThe ADR441 is the 2.5V member of ADI’s latest family of Low Dropout XFET® voltage references featuring low noise, high accuracy, and low temperature drift performance. This new family requires only 500mV of headroom for operation. This low dropout feature allows forA 2.5V output fromA minimum supply of 3.0V. This makes the ADR441 perfect for 3V high performance systems. Featuring 10mA of output current source and 5mA sin
ADR443 - 3.0V High Precision, LDO XFET® References for High Performance Sigma-Delta ConvertersThe ADR443 is the 3.0V member of ADI’s latest family of Low Dropout XFET® voltage references featuring low noise, high accuracy, and low temperature drift performance. This new family requires only 500mV of headroom for operation. This low dropout feature allows forA 3.0V output fromA minimum supply of 3.5V. This makes the ADR443 perfect for 5V high performance systems. Featuring 10mA of output current source and 5mA sin
ADR443ARM-REEL7 - 3.0V High Precision, LDO XFET® References for High Performance Sigma-Delta ConvertersThe ADR443 is the 3.0V member of ADI’s latest family of Low Dropout XFET® voltage references featuring low noise, high accuracy, and low temperature drift performance. This new family requires only 500mV of headroom for operation. This low dropout feature allows forA 3.0V output fromA minimum supply of 3.5V. This makes the ADR443 perfect for 5V high performance systems. Featuring 10mA of output current source and 5mA sin
ADR443ARMZ - 3.0V High Precision, LDO XFET® References for High Performance Sigma-Delta ConvertersThe ADR443 is the 3.0V member of ADI’s latest family of Low Dropout XFET® voltage references featuring low noise, high accuracy, and low temperature drift performance. This new family requires only 500mV of headroom for operation. This low dropout feature allows forA 3.0V output fromA minimum supply of 3.5V. This makes the ADR443 perfect for 5V high performance systems. Featuring 10mA of output current source and 5mA sin
ADR443ARMZ-REEL7 - 3.0V High Precision, LDO XFET® References for High Performance Sigma-Delta ConvertersThe ADR443 is the 3.0V member of ADI’s latest family of Low Dropout XFET® voltage references featuring low noise, high accuracy, and low temperature drift performance. This new family requires only 500mV of headroom for operation. This low dropout feature allows forA 3.0V output fromA minimum supply of 3.5V. This makes the ADR443 perfect for 5V high performance systems. Featuring 10mA of output current source and 5mA sin
ADR443AR-REEL7 - 3.0V High Precision, LDO XFET® References for High Performance Sigma-Delta ConvertersThe ADR443 is the 3.0V member of ADI’s latest family of Low Dropout XFET® voltage references featuring low noise, high accuracy, and low temperature drift performance. This new family requires only 500mV of headroom for operation. This low dropout feature allows forA 3.0V output fromA minimum supply of 3.5V. This makes the ADR443 perfect for 5V high performance systems. Featuring 10mA of output current source and 5mA sin
ADR443ARZ - 3.0V High Precision, LDO XFET® References for High Performance Sigma-Delta ConvertersThe ADR443 is the 3.0V member of ADI’s latest family of Low Dropout XFET® voltage references featuring low noise, high accuracy, and low temperature drift performance. This new family requires only 500mV of headroom for operation. This low dropout feature allows forA 3.0V output fromA minimum supply of 3.5V. This makes the ADR443 perfect for 5V high performance systems. Featuring 10mA of output current source and 5mA sin
ADR443ARZ-REEL7 - 3.0V High Precision, LDO XFET® References for High Performance Sigma-Delta ConvertersThe ADR443 is the 3.0V member of ADI’s latest family of Low Dropout XFET® voltage references featuring low noise, high accuracy, and low temperature drift performance. This new family requires only 500mV of headroom for operation. This low dropout feature allows forA 3.0V output fromA minimum supply of 3.5V. This makes the ADR443 perfect for 5V high performance systems. Featuring 10mA of output current source and 5mA sin
ADR443BR-REEL7 - 3.0V High Precision, LDO XFET® References for High Performance Sigma-Delta ConvertersThe ADR443 is the 3.0V member of ADI’s latest family of Low Dropout XFET® voltage references featuring low noise, high accuracy, and low temperature drift performance. This new family requires only 500mV of headroom for operation. This low dropout feature allows forA 3.0V output fromA minimum supply of 3.5V. This makes the ADR443 perfect for 5V high performance systems. Featuring 10mA of output current source and 5mA sin
ADR443BRZ - 3.0V High Precision, LDO XFET® References for High Performance Sigma-Delta ConvertersThe ADR443 is the 3.0V member of ADI’s latest family of Low Dropout XFET® voltage references featuring low noise, high accuracy, and low temperature drift performance. This new family requires only 500mV of headroom for operation. This low dropout feature allows forA 3.0V output fromA minimum supply of 3.5V. This makes the ADR443 perfect for 5V high performance systems. Featuring 10mA of output current source and 5mA sin
ADR443BRZ-REEL7 - 3.0V High Precision, LDO XFET® References for High Performance Sigma-Delta ConvertersThe ADR443 is the 3.0V member of ADI’s latest family of Low Dropout XFET® voltage references featuring low noise, high accuracy, and low temperature drift performance. This new family requires only 500mV of headroom for operation. This low dropout feature allows forA 3.0V output fromA minimum supply of 3.5V. This makes the ADR443 perfect for 5V high performance systems. Featuring 10mA of output current source and 5mA sin
ADR444 - 4.096V High Precision, LDO XFET® References for High Performance Sigma-Delta ConvertersThe ADR444 is the 4.096V member of ADI’s latest family of Low Dropout XFET® voltage references featuring low noise, high accuracy, and low temperature drift performance. This new family requires only 500mV of headroom for operation. This low dropout feature allows forA 4.096V output fromA minimum supply of 4.6V. This makes the ADR444 perfect for 3V high performance systems. Featuring 10mA of output current source and 5
ADR444ARM-REEL7 - 4.096V High Precision, LDO XFET® References for High Performance Sigma-Delta ConvertersThe ADR444 is the 4.096V member of ADI’s latest family of Low Dropout XFET® voltage references featuring low noise, high accuracy, and low temperature drift performance. This new family requires only 500mV of headroom for operation. This low dropout feature allows forA 4.096V output fromA minimum supply of 4.6V. This makes the ADR444 perfect for 3V high performance systems. Featuring 10mA of output current source and 5
ADR444ARMZ - 4.096V High Precision, LDO XFET® References for High Performance Sigma-Delta ConvertersThe ADR444 is the 4.096V member of ADI’s latest family of Low Dropout XFET® voltage references featuring low noise, high accuracy, and low temperature drift performance. This new family requires only 500mV of headroom for operation. This low dropout feature allows forA 4.096V output fromA minimum supply of 4.6V. This makes the ADR444 perfect for 3V high performance systems. Featuring 10mA of output current source and 5
ADR444ARMZ-REEL7 - 4.096V High Precision, LDO XFET® References for High Performance Sigma-Delta ConvertersThe ADR444 is the 4.096V member of ADI’s latest family of Low Dropout XFET® voltage references featuring low noise, high accuracy, and low temperature drift performance. This new family requires only 500mV of headroom for operation. This low dropout feature allows forA 4.096V output fromA minimum supply of 4.6V. This makes the ADR444 perfect for 3V high performance systems. Featuring 10mA of output current source and 5
ADR444AR-REEL7 - 4.096V High Precision, LDO XFET® References for High Performance Sigma-Delta ConvertersThe ADR444 is the 4.096V member of ADI’s latest family of Low Dropout XFET® voltage references featuring low noise, high accuracy, and low temperature drift performance. This new family requires only 500mV of headroom for operation. This low dropout feature allows forA 4.096V output fromA minimum supply of 4.6V. This makes the ADR444 perfect for 3V high performance systems. Featuring 10mA of output current source and 5
ADR444ARZ - 4.096V High Precision, LDO XFET® References for High Performance Sigma-Delta ConvertersThe ADR444 is the 4.096V member of ADI’s latest family of Low Dropout XFET® voltage references featuring low noise, high accuracy, and low temperature drift performance. This new family requires only 500mV of headroom for operation. This low dropout feature allows forA 4.096V output fromA minimum supply of 4.6V. This makes the ADR444 perfect for 3V high performance systems. Featuring 10mA of output current source and 5
ADR444ARZ-REEL7 - 4.096V High Precision, LDO XFET® References for High Performance Sigma-Delta ConvertersThe ADR444 is the 4.096V member of ADI’s latest family of Low Dropout XFET® voltage references featuring low noise, high accuracy, and low temperature drift performance. This new family requires only 500mV of headroom for operation. This low dropout feature allows forA 4.096V output fromA minimum supply of 4.6V. This makes the ADR444 perfect for 3V high performance systems. Featuring 10mA of output current source and 5
ADR444BR-REEL7 - 4.096V High Precision, LDO XFET® References for High Performance Sigma-Delta ConvertersThe ADR444 is the 4.096V member of ADI’s latest family of Low Dropout XFET® voltage references featuring low noise, high accuracy, and low temperature drift performance. This new family requires only 500mV of headroom for operation. This low dropout feature allows forA 4.096V output fromA minimum supply of 4.6V. This makes the ADR444 perfect for 3V high performance systems. Featuring 10mA of output current source and 5
ADR444BRZ - 4.096V High Precision, LDO XFET® References for High Performance Sigma-Delta ConvertersThe ADR444 is the 4.096V member of ADI’s latest family of Low Dropout XFET® voltage references featuring low noise, high accuracy, and low temperature drift performance. This new family requires only 500mV of headroom for operation. This low dropout feature allows forA 4.096V output fromA minimum supply of 4.6V. This makes the ADR444 perfect for 3V high performance systems. Featuring 10mA of output current source and 5
ADR444BRZ-REEL7 - 4.096V High Precision, LDO XFET® References for High Performance Sigma-Delta ConvertersThe ADR444 is the 4.096V member of ADI’s latest family of Low Dropout XFET® voltage references featuring low noise, high accuracy, and low temperature drift performance. This new family requires only 500mV of headroom for operation. This low dropout feature allows forA 4.096V output fromA minimum supply of 4.6V. This makes the ADR444 perfect for 3V high performance systems. Featuring 10mA of output current source and 5
ADR445 - 5.0V High Precision, LDO XFET® References for High Performance Sigma-Delta ConvertersThe ADR445 is the 5.0V member of ADI’s latest family of Low Dropout XFET® voltage references featuring low noise, high accuracy, and low temperature drift performance. This new family requires only 500mV of headroom for operation. This low dropout feature allows forA 4.096V output fromA minimum supply of 5.0V. This makes the ADR445 perfect for 3V high performance systems. Featuring 10mA of output current source and 5mA s
ADR445ARM-REEL7 - 5.0V High Precision, LDO XFET® References for High Performance Sigma-Delta ConvertersThe ADR445 is the 5.0V member of ADI’s latest family of Low Dropout XFET® voltage references featuring low noise, high accuracy, and low temperature drift performance. This new family requires only 500mV of headroom for operation. This low dropout feature allows forA 4.096V output fromA minimum supply of 5.0V. This makes the ADR445 perfect for 3V high performance systems. Featuring 10mA of output current source and 5mA s
ADR445ARMZ - 5.0V High Precision, LDO XFET® References for High Performance Sigma-Delta ConvertersThe ADR445 is the 5.0V member of ADI’s latest family of Low Dropout XFET® voltage references featuring low noise, high accuracy, and low temperature drift performance. This new family requires only 500mV of headroom for operation. This low dropout feature allows forA 4.096V output fromA minimum supply of 5.0V. This makes the ADR445 perfect for 3V high performance systems. Featuring 10mA of output current source and 5mA s
ADR445ARMZ-REEL7 - 5.0V High Precision, LDO XFET® References for High Performance Sigma-Delta ConvertersThe ADR445 is the 5.0V member of ADI’s latest family of Low Dropout XFET® voltage references featuring low noise, high accuracy, and low temperature drift performance. This new family requires only 500mV of headroom for operation. This low dropout feature allows forA 4.096V output fromA minimum supply of 5.0V. This makes the ADR445 perfect for 3V high performance systems. Featuring 10mA of output current source and 5mA s
ADR445AR-REEL7 - 5.0V High Precision, LDO XFET® References for High Performance Sigma-Delta ConvertersThe ADR445 is the 5.0V member of ADI’s latest family of Low Dropout XFET® voltage references featuring low noise, high accuracy, and low temperature drift performance. This new family requires only 500mV of headroom for operation. This low dropout feature allows forA 4.096V output fromA minimum supply of 5.0V. This makes the ADR445 perfect for 3V high performance systems. Featuring 10mA of output current source and 5mA s
ADR445ARZ - 5.0V High Precision, LDO XFET® References for High Performance Sigma-Delta ConvertersThe ADR445 is the 5.0V member of ADI’s latest family of Low Dropout XFET® voltage references featuring low noise, high accuracy, and low temperature drift performance. This new family requires only 500mV of headroom for operation. This low dropout feature allows forA 4.096V output fromA minimum supply of 5.0V. This makes the ADR445 perfect for 3V high performance systems. Featuring 10mA of output current source and 5mA s
ADR445ARZ-REEL7 - 5.0V High Precision, LDO XFET® References for High Performance Sigma-Delta ConvertersThe ADR445 is the 5.0V member of ADI’s latest family of Low Dropout XFET® voltage references featuring low noise, high accuracy, and low temperature drift performance. This new family requires only 500mV of headroom for operation. This low dropout feature allows forA 4.096V output fromA minimum supply of 5.0V. This makes the ADR445 perfect for 3V high performance systems. Featuring 10mA of output current source and 5mA s
ADR445BR-REEL7 - 5.0V High Precision, LDO XFET® References for High Performance Sigma-Delta ConvertersThe ADR445 is the 5.0V member of ADI’s latest family of Low Dropout XFET® voltage references featuring low noise, high accuracy, and low temperature drift performance. This new family requires only 500mV of headroom for operation. This low dropout feature allows forA 4.096V output fromA minimum supply of 5.0V. This makes the ADR445 perfect for 3V high performance systems. Featuring 10mA of output current source and 5mA s
ADR445BRZ - 5.0V High Precision, LDO XFET® References for High Performance Sigma-Delta ConvertersThe ADR445 is the 5.0V member of ADI’s latest family of Low Dropout XFET® voltage references featuring low noise, high accuracy, and low temperature drift performance. This new family requires only 500mV of headroom for operation. This low dropout feature allows forA 4.096V output fromA minimum supply of 5.0V. This makes the ADR445 perfect for 3V high performance systems. Featuring 10mA of output current source and 5mA s
ADR445BRZ-REEL7 - 5.0V High Precision, LDO XFET® References for High Performance Sigma-Delta ConvertersThe ADR445 is the 5.0V member of ADI’s latest family of Low Dropout XFET® voltage references featuring low noise, high accuracy, and low temperature drift performance. This new family requires only 500mV of headroom for operation. This low dropout feature allows forA 4.096V output fromA minimum supply of 5.0V. This makes the ADR445 perfect for 3V high performance systems. Featuring 10mA of output current source and 5mA s
ADR510 - 1.0V Precision Low Noise Shunt Voltage Reference
ADR510ART-R2 - 1.0V Precision Low Noise Shunt Voltage Reference
ADR510ART-REEL7 - 1.0V Precision Low Noise Shunt Voltage Reference
ADR512 - 1.2V Precision Low Noise Shunt Voltage Reference
ADR512ART-R2 - 1.2V Precision Low Noise Shunt Voltage Reference
ADR512ART-REEL7 - 1.2V Precision Low Noise Shunt Voltage Reference
ADR520 - High Precision Shunt Mode Voltage References
ADR520ART-R2 - High Precision Shunt Mode Voltage References
ADR520ART-REEL7 - High Precision Shunt Mode Voltage References
ADR520BKS-R2 - High Precision Shunt Mode Voltage References
ADR520BKS-REEL7 - High Precision Shunt Mode Voltage References
ADR520BRT-R2 - High Precision Shunt Mode Voltage References
ADR520BRT-REEL7 - High Precision Shunt Mode Voltage References
ADR525 - High Precision Shunt Mode Voltage References
ADR525ART-R2 - High Precision Shunt Mode Voltage References
ADR525ART-REEL7 - High Precision Shunt Mode Voltage References
ADR525BKS-R2 - High Precision Shunt Mode Voltage References
ADR525BKS-REEL7 - High Precision Shunt Mode Voltage References
ADR525BRT-R2 - High Precision Shunt Mode Voltage References
ADR525BRT-REEL7 - High Precision Shunt Mode Voltage References
ADR530 - High Precision Shunt Mode Voltage References
ADR530ART-R2 - High Precision Shunt Mode Voltage References
ADR530ART-REEL7 - High Precision Shunt Mode Voltage References
ADR530BKS-R2 - High Precision Shunt Mode Voltage References
ADR530BKS-REEL7 - High Precision Shunt Mode Voltage References
ADR530BRT-R2 - High Precision Shunt Mode Voltage References
ADR530BRT-REEL7 - High Precision Shunt Mode Voltage References
ADR540 - High Precision Shunt Mode Voltage References
ADR540ART-R2 - High Precision Shunt Mode Voltage References
ADR540ART-REEL7 - High Precision Shunt Mode Voltage References
ADR540BKS-R2 - High Precision Shunt Mode Voltage References
ADR540BKS-REEL7 - High Precision Shunt Mode Voltage References
ADR540BRT-R2 - High Precision Shunt Mode Voltage References
ADR540BRT-REEL7 - High Precision Shunt Mode Voltage References
ADR550 - High Precision Shunt Mode Voltage References
ADR550ART-R2 - High Precision Shunt Mode Voltage References
ADR550ART-REEL7 - High Precision Shunt Mode Voltage References
ADR550BKS-R2 - High Precision Shunt Mode Voltage References
ADR550BKS-REEL7 - High Precision Shunt Mode Voltage References
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