Application Notes (4)
- AN-1114: Lowest Noise Zero-Drift Amplifier Has 5.6 nV/√Hz Voltage Noise Density (pdf, 182 kB)
- AN-940: Low Noise Amplifier Selection Guide for Optimal Noise Performance (pdf, 199 kB)
- AN-713: The Effect of Long-Term Drift on Voltage References (pdf, 237 kB)
- AN-649: Using the Analog Devices Active Filter Design Tool (pdf, 5301 kB)
Circuit Note (14)
- CN-0022: Precision, Unipolar, Inverting Conversion Using the AD5546/AD5556 DAC (pdf, 91 kB)
- CN-0023: Precision, Unipolar, Noninverting Configuration for the AD5546/AD5556 DAC (pdf, 92 kB)
- CN-0026: Precision, Unipolar, Inverting Conversion Using the AD5547/AD5557 DAC (pdf, 90 kB)
- CN-0027: Precision, Unipolar, Noninverting Configuration for the AD5547/AD5557 DAC (pdf, 90 kB)
- CN-0029: 8 to 16 Channels of Programmable Voltage with Excellent Temperature Drift Performance Using the AD5390/AD5391/AD5392 DACs (pdf, 89 kB)
- CN-0061: DC-Coupled, Single-Ended-to-Differential Conversion Using the AD8138 Low Distortion Differential ADC Driver and AD7357 Dual, 4.2 MSPS, 14-Bit SAR ADC (pdf, 96 kB)
- CN-0079: High Precision Digital-to-Analog Conversion Using the 16-Bit AD5542/AD5541 Voltage Output DAC, ADR421 Reference, and AD8628 Auto-Zero Op Amp (pdf)
- CN-0131: 16 Channels of Programmable Output Span Using the AD5360 16-Bit Voltage Output DAC (pdf, 85 kB)
- CN-0148: Layout Considerations for an Expandable Multichannel Simultaneous Sampling Data Acquisition System (DAS) Based on the AD7606 16-Bit, 8-Channel DAS (pdf, 502 kB)
- CN-0150: Software Calibrated, 1 MHz to 8 GHz, 70 dB RF Power Measurement System Using the AD8318 Logarithmic Detector (pdf, 250 kB)
- CN-0169: How to Achieve High Precision Voltage Level Setting Using the AD5542A/AD5541A 16-Bit Voltage Output DAC (pdf, 457 kB)
- CN-0175: A Low Cost, 8-Channel, Simultaneously Sampled, Data Acquisition System with 84 dB SNR and Excellent Channel-to-Channel Matching (pdf, 347 kB)
- CN-0181: Precision, 16-Bit, Voltage Level Setting with Less than 5 mW Total Power Dissipation (pdf, 175 kB)
- CN0281: Automotive SENT Interface-Based Thermocouple Temperature Sensor with Cold Junction Compensation Using the ADuC7060/ADuC7061 Precision Analog Microcontroller (pdf, 288 kB)
Technical Articles (7)
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Amplifiers for Signal Conditioning - Section 3
(PDF, 397 kB)
By Walt Kester, James Bryant, Walt Jung -
Demystifying Auto-Zero Amplifiers Part 1
by Eric Nolan (Analog Dialogue, March 2000) -
Demystifying Auto-Zero Amplifiers Part 2
by Eric Nolan and Reza Moghimi (Analog Dialogue, May 2000) -
Designing DACs into Precision Industrial 10-V Applications
by Brendan Cronin, Analog Devices, Inc. (PlanetAnalog, 3/23/2006) -
Difference Amplifier Uses Digital Potentiometers
by Reza Moghimi, Analog Devices, Inc.
(EDN, May 30, 2002) - MS-2062: To Chop or Auto-Zero: That Is the Question. (pdf, 278 kB)
- MS-2066: Low Noise Signal Conditioning for Sensor-Based Circuits (pdf, 425 kB)
ADIsim Design/Simulation Tools (2)
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ADIsimOpAmp™
This tool will help with the selection, evaluation and troubleshooting of voltage feedback Op-Amps. It uses typical data to model the behavior of a selected amplifier. It allows a user to select an amplifier, configure a circuit, apply a signal and evaluate the performance. It is useful for checking an amplifier's spec's such as Bandwidth, Slew Rate, Input/Output Range, Gain Error, Load Current, Stability Issues and DC Errors in a given circuit. - Analog Bridge Wizard
Data Sheets (3)
- AD5541/AD5542: 2.7 V to 5.5 V, Serial-Input, Voltage-Output, 16-Bit DACs Data Sheet (Rev F, 03/2012) (pdf, 186 kB)
- AD8628/AD8629/AD8630: Zero-Drift, Single-Supply, Rail-to-Rail Input/Output Operational Amplifier Data Sheet (Rev I, 04/2011) (pdf, 414 kB)
- ADR420/ADR421/ADR423/ADR425: Ultraprecision, Low Noise, 2.048 V/2.500 V/3.00 V/5.00 V XFET® Voltage References Data Sheet (Rev I, 05/2011) (pdf, 544 kB)
Design Calculators (3)
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OpAmp Stability
An applet for demonstrating stability effects in opamp buffers. - Voltage Reference Selection & Evaluation Wizard
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Voltage Reference Wizard (downloadable)
This Wizard helps you select the most suitable voltage for a use with a data converter. Supply the Wizard with a given data converter; it will provide you with a number of suitable references plus the maximum DC error contributed to your overall system. Or enter the amount of DC error your system can tolerate and find out which of ADI’s reference and data converter pairs will meet your requirement.
Design Handbooks (2)
Documentation (2)
FAQs/RAQs (1)
Overview (3)
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ICs for Programmable Logic Control and Distributed Control Systems
(pdf, 976 kB)
Analog Devices leadership in industrial IC technology, with the development of the iCMOS™ and iPolar™ processes, has uniquely defined high voltage and low voltage integration to deliver smaller, higher performance, and more cost effective ICs for industrial systems. - Zero-Drift Amplifiers
- Zero-drift Amplifiers
Product Reviews (1)
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Low-Power Data Conversion Technology Enhances Portability
(Electropages, 10/5/2006)
Solutions Bulletins (1)
SPICE Models (1)
- AD8628 SPICE Macro-Model
Tutorials (11)
- MT-015: Basic DAC Architectures II: Binary DACs (pdf, 100 kB)
- MT-016: Basic DAC Architectures III: Segmented DACs (pdf, 79 kB)
- MT-031: Grounding Data Converters and Solving the Mystery of (pdf, 144 kB)
- MT-035: Op Amp Inputs, Outputs, Single-Supply, and Rail-to-Rail Issues (pdf, 115 kB)
- MT-047: Op Amp Noise (pdf, 72 kB)
- MT-048: Op Amp Noise Relationships: 1/f Noise, RMS Noise, and Equivalent Noise Bandwidth (pdf, 81 kB)
- MT-049: Op Amp Total Output Noise Calculations for Single-Pole System (pdf, 40 kB)
- MT-050: Op Amp Total Output Noise Calculations for Second-Order System (pdf, 38 kB)
- MT-052: Op Amp Noise Figure: Don't Be Mislead (pdf, 60 kB)
- MT-055: Chopper Stabilized (Auto-Zero) Precision Op Amps (pdf, 320 kB)
- MT-101: Decoupling Techniques (pdf, 954 kB)
Webcasts (3)
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WEBCAST: Noise Optimization in Sensor Signal Conditioning Circuits (Part I)
This first part of a two-part series will explore the noise topic in detail and provide tips and answers to these types of questions. -
WEBCAST: Noise Optimization in Sensor Signal Conditioning Circuits (Part II)
This is the second part of a two-part series that explores the topic of signal noise in detail. -
Webcast: Noise Optimization in Sensor Signal Conditioning Circuits, Part III
Expanding upon the material previously presented in "Optimizing Noise in the Sensor Signal Path" Parts I & II, this Webcast addresses some of the specific questions and areas of additional interest, raised by viewers.
Analog Dialogue (4)
- Ask the Applications Engineer - 39: Zero Drift Operational Amplifiers
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Demystifying Auto-Zero Amplifiers
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Part 1: How do they work? is there a downside?
(Analog Dialogue, Vol. 34, No. 2, March, 2000) -
Part 2: Here are some design ideas.
(Analog Dialogue, Vol. 34, No. 3, May, 2000)
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Part 1: How do they work? is there a downside?
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High Speed Op Amp Drives a 16-Bit, 1-MSPS Differential-Input A/D Converter
(Analog Dialogue, Vol. 36, No. 6, November/December 2002) -
High-Performance Multichannel Power-Line Monitoring with Simultaneous-Sampling ADCs
By Colm Slattery, Analog Devices, Inc. (Analog Dialogue, Vol. 41, January 2007)
