Precision Wide Bandwidth Solutions
Precision wide bandwidth signal chains bring the insight and flexibility needed to optimize application-specific parameters for measurement and drive solutions. While ensuring the necessary accuracy, this fast-sampling rate signal chain is ideal for considerations between AC and DC precision, and has the required bandwidth for measurement or signal generation (DC to 1 MHz). With Analog Devices’ products, you can easily create a wide range of solutions that meet your most important specifications, whether that is measurement noise (SNR), DC linearity, settling time performance, closed loop or measurement latency, or total harmonic distortion (THD).
Design Faster With ADI’s Precision Wide Bandwidth Signal Chains
Value and Benefits
Our precision wide bandwidth signal chains offer curated solutions that combine precision amplifiers, voltage references, analog-to-digital converters (ADCs), digital-to-analog converters (DACs), circuit protection, and isolation products, allowing system designers to confidently build solutions that optimize for precision and speed.
Our solutions provide the ability to tweak specifications ranging from step size to signal amplitude. This is beneficial for applications ranging from hardware in the loop (HiL) and non-destructive test to the light intensity precision needed for a scanning electron microscope (SEM) or flow cytometry, where speeds above 100kHz and SNR >85dB are required. We offer signal chains for measuring wide bandwidths up to 1 MHz optimized for noise performance to support AC and DC analysis.
Optimizes your circuit with quick feedback
Enables signal speeds above 100kHz
Provides excellent SNR, above 85dB
Precision Wide Bandwidth Signal Chains
Current or Voltage Measurement
Signal Chain options for measuring wide bandwidths up to 1 MHz optimized for noise performance to support AC and/or DC analysis
LTspice Signal Chain Simulations
Power Solutions
Resources
Tools
Videos
Current and Voltage Drive
Low latency precision output drive signal chain options
LTspice Signal Chain Simulations
Power Solutions
Resources
Tools
Technical Articles
Light Measurement
Low latency, low noise precision measurement signal chain options for optical signal chains
Power Solutions
Resources
Tools
Noise Tool: Pulsed Light – Power Optimized
Application Notes
How to Oversample 5 MSPS, 18-bit/16-bit Precision SAR Converters to Increase Dynamic Range
User Guides
EVAL-ADA4355EBZ User Guide (Wiki)
Videos
ADIs Precision Wide Bandwidth Low Latency Measurement and Drive
ADC Driver Design Considerations for LTC2387-18
ADA4355: High-speed Photodetector Receiver μModule®
VT3001 Signal Chain Noise Analysis using LTspice
Design Faster With ADI’s Precision Wide Bandwidth Signal Chains
Technical Articles
Step-by-Step Noise Analysis Guide for Your Signal Chain
LTC2387 Drivers Part III: Transimpedance Amplifier/Driver
LTC2387 Drivers Part IV: How to Drive the LTC2387 Reference
Transimpedance Amplifiers for Wide Range Photodiodes Have Challenging Requirements
Optimizing Precision Photodiode Sensor Circuit Design
Programmable-Gain Transimpedance Amplifiers Maximize Dynamic Range in Spectroscopy Systems
Transimpedance Amplifier Noise Considerations
Webcasts
Signal Chain Filtering: Beginning with the Basics
Precision Signal Chain Designs – Trade Off Decisions for Best Noise Performance
Get More Out of Your Precision Low Latency Signal Chain
Reference Designs
CN0272: 2 MHz Bandwidth PIN Photodiode Preamp with Dark Current Compensation
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Training and Support
Trainings and Tutorials