AD9840JST - Analog Devices Inc.

Manufacturer Part Number

AD9840JST

Manufacturer

analog-devices

Introduction

The AD9840JST is a high-performance, low-power 10-bit, dual channel, CCD signal processor from Analog Devices. It is designed to interface directly with charge-coupled device (CCD) image sensors, providing analog-to-digital conversion, correlated double sampling, programmable gain, and other signal conditioning functions.

Product Features and Performance

10-bit analog-to-digital conversion

Dual channel architecture for processing two CCD sensor outputs

Correlated double sampling (CDS) and programmable gain amplifier (PGA)

Low-power design with 40 mW typical power consumption

Operating temperature range of -20°C to 75°C

48-pin LQFP package

Product Advantages

Simplifies the design of CCD-based imaging systems

Provides high-quality signal processing for improved image quality

Low power consumption for battery-powered or portable applications

Flexible configuration options to meet diverse application requirements

Key Reasons to Choose This Product

Proven performance and reliability from a trusted brand like Analog Devices

Comprehensive signal processing capabilities in a compact package

Cost-effective solution for CCD-based imaging systems

Reliable operation across a wide temperature range

Quality and Safety Features

Rigorous quality control and testing procedures

Compliance with relevant industry standards and regulations

Compatibility

The AD9840JST is compatible with a wide range of CCD image sensors and can be used in various imaging applications.

Application Areas

Digital cameras

Medical imaging equipment

Industrial inspection systems

Scientific instrumentation

Surveillance and security systems

Product Lifecycle

The AD9840JST is an active product in our website's sales team's portfolio. There are no immediate plans for discontinuation, and the company continues to provide support and availability for this model. Customers are advised to contact our website's sales team for information on any potential alternative or equivalent models that may become available in the future.