MAX11300PMB1

Evaluation Kit for the MAX11300


Description

The MAX11300PMB1 peripheral module (Pmod) provides the necessary hardware to interface the MAX11300 20-channel programmable mixed-signal I/O device to any system that utilizes Pmod-compatible expansion ports configurable for SPI communication. The device is a 12-bit multichannel analog-to-digital converter (ADC) and a 12-bit buffered DAC output in a single IC. This device also includes software-configurable general-purpose I/O ports. A local and two remote temperature sensors keep track of junction and environmental temperatures. Adjacent pairs of ports can also be used as logic translator or analog switch. Each pin can also be used as a positive input of a comparator with programmable threshold.

Refer to the MAX11300 IC data sheet for detailed information regarding operation of the device and the USB2PMB1 (Munich) adapter board data sheet for detailed information regarding the Munich board and GUI. Refer to the MAX11300 peripheral module and Munich adaptor board Quick Start Guide for step-by-step evaluation instructions. Refer to the MAX11300 Configuration Software User Guide, in the full data sheet, for detailed information using the design tool. 

Key Features

  • Up to 20 12-Bit ADC Programmable Inputs
  • Up to 20 12-Bit DACs with 25mA Current Capability
    • 70mA max at +12V with On-Board Power Supply
    • Use External Power Supply at VDDIO (VDDIO Jumper Removed) if More Current is Needed
  • Up to 20 Digital I/Os
  • Up to 20 Comparator Inputs
  • Internal or External Reference for ADC and DAC
  • Individually Selectable ADC References for Each Port
  • Internal Temperature Sensor (-40°C to +125°C, ±3°C Accuracy)
  • Two Remote Temperature-Measurement Controllers (-40°C to +150°C, ±3°C Accuracy)
  • 2x6-Pin Pmod-Compatible Connector (SPI)
  • RoHS Compliant
  • Proven PCB Layout
  • Fully Assembled and Tested

Applications/Uses

  • Base Station RF Power Device Bias Controllers
  • Control for Optical Components
  • Industrial Control and Automation
  • Power-Supply Monitoring
  • System Supervision and Control

Quality and Environmental Data

Request Reliability Report for: MAX11300PMB1 
Lead-Free Package Tin (Sn) Whisker Reports

Design Tools

Software
Munich GUI 2.01

 

Related Resources


MAX11216
24-Bit, 64ksps Delta-Sigma ADC with Integrated PGA

  • High Resolution for Instrumentation Applications that Require a Wide Dynamic Range
  • Longer Battery Life for Portable Applications
  • High Accuracy for DC Measurements

MAX11168
16-Bit, 500ksps, ±5V SAR ADC with Internal Reference in µMAX

  • Measures a ±5V (10VP-P) Input Range While Operating From a Single 5V Supply
  • Internal Reference Saves the Cost and Space of an External Reference
  • 92dB SNR Provides Excellent AC Specifications, Allowing Measurements Over a Wide Dynamic Range

MAX2082
Low-Power, High-Performance Octal Ultrasound Transceiver with Integrated AFE, Pulser, T/R Switch, and CWD Beamformer

  • Minimizes PCB Area and Design Cost
  • Integrated HV Pulser for Simpler System Design
  • Integrated High-Performance Receiver Improves System Sensitivity

MAX11901
16-Bit, 1.6Msps, Low-Power, Fully Differential SAR ADC

  • 16-Bit Resolution with No Missing Codes
  • 1.6Msps Throughput with No Pipeline Delay
  • 9mW at 1.6Msps, Ultra-Low Power Consumption

MAX11169
16-Bit, 250ksps, ±5V SAR ADC with Internal Reference in µMAX

  • High DC and AC Accuracy
  • 16-Bit Resolution with No Missing Codes
  • 92.8dB SNR at 10kHz

MAX11902
18-Bit, 1Msps, Low-Power, Fully Differential SAR ADC

  • High DC/AC Accuracy Provides Better Measurement Quality
  • High Sampling Rate SAR Architecture Enables Fast Settling and Acquisition
  • Integration Simplifies Design

MAX11903
18-Bit, 1.6Msps, Low-Power, Fully Differential SAR ADC

  • 18-Bit Resolution with No Missing Codes
  • 1.6Msps Throughput with No Pipeline Delay
  • 9mW at 1.6Msps, Ultra-Low Power Consumption

MAX11270
24-Bit, 10mW, 130dB SNR, 64ksps Delta-Sigma ADC with Integrated PGA

  • High Resolution for Instrumentation Applications that Require a Wide Dynamic Range
  • Longer Battery Life for Portable Applications
  • High Accuracy for DC Measurements