AD9788BSVZRL - Analog Devices Inc.

Manufacturer Part Number

AD9788BSVZRL

Manufacturer

Analog Devices

Introduction

AD9788BSVZRL is a high-performance Digital to Analog Converter for data acquisition applications, housed in a 100-TQFP Exposed Pad package.

Product Features and Performance

16-bit resolution

Dual D/A converters

Typical settling time of 20ns

Current-type unbuffered output

Supports differential output

Parallel data interface

Oversampling Interpolating DAC architecture

Internal reference

Product Advantages

High resolution and fast settling time enhance signal fidelity

Dual DACs allow for simultaneous output, increasing system throughput

Current output and differential capabilities provide robust signal integrity

Key Technical Parameters

Number of Bits: 16

Settling Time: 20ns (Typical)

Output Type: Current - Unbuffered

Differential Output: Yes

Reference Type: Internal

Voltage Supply, Analog: 3.13V to 3.47V

Voltage Supply, Digital: 1.7V to 1.9V, 3.13V to 3.47V

INL/DNL (LSB): ±3.7, ±2.1

Quality and Safety Features

Built to operate reliably in a temperature range of -40°C to 85°C

Robust TQFP-100 packaging for enhanced thermal and mechanical performance

Compatibility

Compatible with various data acquiring systems due to standard parallel interface and flexible power requirements

Application Areas

Used in high-speed data acquisition

Signal reconstruction

Telecommunications

Medical instrumentation

Product Lifecycle

Status: Active

Packaged in Tape & Reel for reliable handling and ease of assembly in mass production

No indication of nearing discontinuation, ensuring long-term availability

Several Key Reasons to Choose This Product

Dual 16-bit DACs enabling high precision and multi-tasking capability in critical applications

Fast data handling with a typical settling time of 20ns ideal for rapid signal processing tasks

Robust build suitable for industrial temperature ranges and demanding environments

Internally integrated reference reducing external component requirements and system complexity

Flexible power supply options catering to variations in system power design