ADS5203IPFB - Texas Instruments

Manufacturer Part Number

ADS5203IPFB

Manufacturer

Texas Instruments

Introduction

The ADS5203IPFB is a high-speed, dual-channel, 10-bit analog-to-digital converter designed for data acquisition in signal processing applications.

Product Features and Performance

10-bit resolution

Dual-channel ADC with simultaneous sampling

Sampling rate of up to 40M samples per second

Supports both differential and single-ended inputs

Parallel data interface for fast data transfer

Sample-and-hold to ADC ratio of 1:1

Two integrated A/D converters

Pipelined architecture for enhanced throughput

Selectable external or internal voltage reference

Product Advantages

High-speed performance suitable for high-frequency applications

Simultaneous sampling for accurate multi-channel data acquisition

Flexibility in choosing the reference voltage for various application needs

Pipelined architecture ensures consistent data throughput and minimal latency

Key Technical Parameters

Number of Bits: 10

Sampling Rate (Per Second): 40M

Number of Inputs: 2

Data Interface: Parallel

Number of A/D Converters: 2

Voltage - Supply, Analog: 3V ~ 3.6V

Voltage - Supply, Digital: 3V ~ 3.6V

Operating Temperature Range: -40°C ~ 85°C

Quality and Safety Features

Operational over a wide temperature range ensuring reliability in varied environments

Compatibility

Can be interfaced with various microprocessors and digital systems due to the parallel data interface

Application Areas

Used in signal processing, medical imaging, communications, and industrial instrumentation

Product Lifecycle

Obsolete - Check for replacement or upgrade options if planning for long-term production

Several Key Reasons to Choose This Product

Exceptional speed with a 40M samples per second rate for high-frequency signal processing

Dual-channel input accommodates multi-signal processing simultaneously

Flexibility with reference voltage allows compatibility with various systems

TQFP packaging and surface mount design facilitate integration in various circuit designs

Wide operating temperature range enhances the device's robustness for industrial use