MAX5430

PRODUCTION

±15V Digitally Programmable Precision Voltage-Dividers for PGAs

Viewing:

Overview

  • Four Noninverting PGA Gain Configurations:
    AV = 1, 2, 4, and 8
  • Precision 0.025% Ratio Accuracy
  • On-Chip Matching Resistor for Op Amp Bias- Current Compensation (MAX5431)
  • Single-Supply +12V to +15V, or Dual-Supply ±12V to ±15V Operation
  • Low 35µA Supply Current
  • CMOS/TTL Logic Compatible 2-Wire Parallel Interface
  • Space-Saving 8-Pin SOT23 and 10-Pin µMAX Packages
  • 3V Logic Compatibility
  • The MAX5430/MAX5431 are digitally programmable high precision resistor arrays for PGAs. The MAX5430/MAX5431 operate from a single +15V supply or dual ±15V supplies, and consume only 35µA supply current. These devices are intended for programmable-gain amplifier (PGA) applications and consist of fixed resistor dividers, digitally controlled contacts with four precision, noninverting gains of 1, 2, 4, and 8 with ratio accuracy of 0.025% (MAX5430A/MAX5431A), 0.09% (MAX5430B/MAX5431B), or 0.5% (MAX5430C/MAX5431C). The MAX5431 includes an on-chip matching resistor for op amp input bias-current compensation.

    The MAX5430/MAX5431 are available in space-saving 8-pin SOT23 and 10-pin µMAX packages, and specified over the extended temperature range of (-40°C to +85°C).

    Applications

    • General-Purpose Programmable Noninverting Amplifiers
    • Programmable Instrumentation Amplifiers

    MAX5430
    ±15V Digitally Programmable Precision Voltage-Dividers for PGAs
    MAX5430, MAX5431: Functional Diagram
    Add to myAnalog

    Add product to the Products section of myAnalog (to receive notifications), to an existing project or to a new project.

    Create New Project
    Ask a Question

    Documentation

    Learn More
    Add to myAnalog

    Add media to the Resources section of myAnalog, to an existing project or to a new project.

    Create New Project

    Latest Discussions

    No discussions on MAX5430 yet. Have something to say?

    Start a Discussion on EngineerZone®

    Recently Viewed