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Part Details for MAX111 by Maxim Integrated Products

Overview of MAX111 by Maxim Integrated Products

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Part Details for MAX111

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Resources and Additional Insights for MAX111

Reference Designs related to MAX111

  • MAXREFDES74#: 18-Bit Precision Data Acquisition System
    MAXREFDES74# System Board Enlarge+<p>×<p>MAXREFDES74# System Board<p>$(document).ready( function() { $("#agram5944F-print").click(function(){ $("#agram5944F").printThis(); }); $("#agram5944F-mark").click(function(){ var shareUrl = getImageModalUrl(document.URL,'agram5944F'); addBookmark('MAXREFDES74# System Board', shareUrl, 'file'); }); } );
  • MAXREFDES32#: 2-Channel Analog Input/Analog Output with Flyback DC-DC
    Features<p>Two independent analog inputs<p>Two independent analog outputs<p>Isolated power and data<p>High-speed 400ksps analog input sampling rate<p>High-accuracy 16-bit resolution<p>Voltage output settles to within 2 LSB in 17µs<p>Current output settles to within 2 LSB in 77µs<p>Device drivers<p>Example C source code<p>Configuration files for ZedBoard™ platform<p>FMC-compatible<p>Competitive Advantages<p>High speed<p>High accuracy<p>Low noise
  • MAXREFDES71#: 2-Channel Analog Input/Analog Output with Transformer Driven Power
    Features<p>Two independent analog inputs<p>Two independent analog outputs<p>Isolated power and data<p>High-speed 400ksps analog input sampling rate<p>High-accuracy 16-bit resolution<p>Voltage output settles to within 2 LSB in 17µs<p>Current output settles to within 2 LSB in 77µs<p>Device drivers<p>Example C source code<p>Configuration files for ZedBoard™ platform<p>FMC-compatible<p>Competitive Advantages<p>High speed<p>High accuracy<p>Low noise
  • MAXREFDES77#: Dual-Channel Current Sense Peripheral Module
    The MAXREFDES77# peripheral module provides the necessary hardware to interface the MAX44285 dual-channel high-side current-sense amplifier device to any system that utilizes Pmod™-compatible expansion ports configurable for SPI communication. The IC features an input common-mode voltage range from 2.7V to 76V with 80kHz small-signal bandwidth, making it ideal for interfacing with a SAR ADC for multichannel, multiplexed data acquisition systems.<p>Refer to the MAX44285 IC data sheet for detailed information regarding operation of the IC and the USB2PMB1# (Munich) adapter board data sheet for detailed information regarding the Munich board and GUI.<p>Features<p>2.7V to 76V Input Common Mode<p>Low 12μV (max) Input Offset Voltage<p>Low 0.1% (max) Gain Error<p>Gain = 20V/V and 100V/V<p>RoHS Compliant<p>Proven PCB Layout<p>Fully Assembled and Tested
  • Fremont (MAXREFDES6#): 16-Bit, High-Accuracy, 0 to 100mV Input, Isolated Analog Front-End (AFE)
    The Fremont (MAXREFDES6#) subsystem reference design meets the high-resolution needs of low-voltage output sensor applications. Boards for purchase, hardware and firmware design files, and FFTs and histograms from lab measurements provide complete system information for rapid prototyping and development.
  • Fresno (MAXREFDES11#): 16-Bit High-Accuracy 0 to 10V Input Isolated Analog Front End (AFE)
    This document explains how the Fresno (MAXREFDES11#) subsystem reference design meets the higher resolution and higher voltage needs of industrial control and industrial automation applications. Hardware and firmware design files as well as FFTs and histograms from lab measurements are provided.
  • Campbell (MAXREFDES4#): 16-Bit High-Accuracy 4-20mA Input Isolated Analog Front End (AFE)
    This document explains how the Campbell (MAXREFDES4#) subsystem reference design meets the higher resolution and isolation needs of industrial control and industrial automation applications. Hardware and firmware design files as well as FFTs and histograms from lab measurements are provided.

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