MAX17292EVKIT

Evaluation Kit for the MAX17292


Description

The MAX17292 evaluation kit (EV kit) is a fully assembled and tested PCB that contains a 16W DC-DC boost converter for battery-operated, harsh environment, front-end preboost applications. The MAX17292 integrates a low-side FET driver and current-mode, control-loop circuitry for output-voltage regulation, making it ideal for boost or SEPIC converters. The MAX17292’s integrated driver switches at 2.2MHz. The device can be synchronized with an external clock source within the 1MHz to 2.5MHz range.

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The EV kit operates from a DC supply voltage of 3V up to 8V. The EV kit can withstand a 16V line transient condition. The EV kit demonstrates the device features, such as dynamic adjustable output voltage, external clock synchronization, two-phase operation configurability, cycle-by-cycle current limit, hiccup mode, and thermal shutdown. The boost converter regulates 8V and can supply a current up to 2A. The EV kit also demonstrates a reference MAX17292 design for battery-operated, harsh environment applications.

Key Features

  • 3V Up to 8V Input Voltage Range
  • 87% Peak Efficiency at 5V Input
  • 8V up to 2A Output
  • Demonstrates External Clock Synchronization
  • Spread Spectrum Optimizes EMI Performance
  • Demonstrates SUP UVLO
  • Thermal-Shutdown Protection
  • PGOOD Flag
  • Demonstrates Dynamic Adjustable Output
  • Demonstrates 2.2MHz Single/Two-Phase Operation
  • Compact 1240mil × 1040mil Overall Circuit Footprint Design (0.775 sq. in.)
  • Proven 4-Layer 2oz. PCB Layout and Thermal Design
  • Fully Assembled and Tested

Applications/Uses

  • Distributed Supply Regulation
  • General-Purpose Point-of-Load
  • Offline Power Supplies
  • Telecom Hardware

Quality and Environmental Data

Lead-Free Package Tin (Sn) Whisker Reports

Related Resources


MAX17292
2.5V to 36V, 2.5MHz, PWM Boost Controller with 4μA Shutdown Current and Reduced EMI

  • Reduces Solution Size and Cost
  • Increases Design Flexibility
  • Reduces Power Dissipation

MAX17290
2.5V to 36V, 2.5MHz, PWM Boost Controller with 4μA Shutdown Current and Reduced EMI

  • Reduces Solution Size and Cost
  • Increases Design Flexibility
  • Reduces Power Dissipation

MAX20745
Integrated, Step-Down Switching Regulator

  • High Power Density and Low Component Count
  • Optimized Component Performance and Efficiency with Reduced Design-In Time
  • Increased Power-Supply Reliability with System and IC Self-Protection Features

MAX20743
35A Integrated, Step-Down Switching Regulator with PMBus

  • High-Power Density and Low Component Count
  • Optimized Component Performance and Efficiency with Reduced Design-In Time
  • Increased Power-Supply Reliability with System and IC Self-Protection Features

MAX20730
Integrated, Step-Down Switching Regulator with PMBus

  • High Power Density and Low Component Count
  • Optimized Component Performance and Efficiency with Reduced Design-In Time
  • Increased Power-Supply Reliability with System and IC Self-Protection Features

MAX17224
400mV to 5.5V Input, nanoPower Synchronous Boost Converter with True Shutdown

  • 300nA Quiescent Supply Current Into OUT
  • True Shutdown Mode
  • 95% Peak Efficiency

MAX17222
400mV to 5.5V Input, nanoPower Synchronous Boost Converter with True Shutdown

  • 300nA Quiescent Supply Current Into OUT
  • True Shutdown Mode
  • 95% Peak Efficiency

MAX17223
400mV to 5.5V Input, nanoPower Synchronous Boost Converter with True Shutdown

  • 300nA Quiescent Supply Current Into OUT
  • True Shutdown Mode
  • 95% Peak Efficiency

MAX17220
400mV to 5.5V Input, nanoPower Synchronous Boost Converter with True Shutdown

  • 300nA Quiescent Supply Current Into OUT
  • True Shutdown Mode
  • 95% Peak Efficiency

MAX17221
400mV to 5.5V Input, nanoPower Synchronous Boost Converter with True Shutdown

  • 300nA Quiescent Supply Current Into OUT
  • True Shutdown Mode
  • 95% Peak Efficiency

MAX17225
400mV to 5.5V Input, nanoPower Synchronous Boost Converter with True Shutdown

  • 300nA Quiescent Supply Current Into OUT
  • True Shutdown Mode
  • 95% Peak Efficiency

MAX20733
Integrated, Step-Down Switching Regulator

  • High Power Density and Low Component Count
  • Optimized Component Performance and Efficiency with Reduced Design-In Time
  • Increased Power-Supply Reliability with System anIC Self-Protection Features

MAX17572
4.5V–60V, 1A, High-Efficiency, Synchronous Step-Down DC-DC Converter with Internal Compensation

  • Reduces External Components and Total Cost
  • Reduces Number of DC-DC Regulators to Stock
  • Reduces Power Dissipation

MAX17574
4.5V–60V, 3A, High-Efficiency, Synchronous Step-Down DC-DC Converter with Internal Compensation

  • Reduces External Components and Total Cost
  • Reduces Number of DC-DC Regulators to Stock
  • Reduces Power Dissipation

MAX17245
3.5V–36V, 3.5A, Synchronous Buck Converter With 28μA Quiescent Current and Reduced EMI

  • Eliminates External Components and Reduces Total Cost
  • Increases Design Flexibility
  • Reduces Power Dissipation

MAX17244
3.5V–36V, 2.5A, Synchronous Buck Converter With 28μA Quiescent Current and Reduced EMI

  • Eliminates External Components and Reduces Total Cost
  • Increases Design Flexibility
  • Reduces Power Dissipation

MAX17233
3.5V–36V, 2.2MHz, Synchronous Dual Buck Controller with 20μA Quiescent Current

  • Eliminates External Components and Reduces Total Cost
  • Reduces Number of DC-DC Controllers to Stock
  • Reduces Power Dissipation

MAX17232
3.5V–36V, 2.2MHz, Synchronous Dual Buck Controller with 20μA Quiescent Current

  • Eliminates External Components and Reduces Total Cost
  • Reduces Number of DC-DC Controllers to Stock
  • Reduces Power Dissipation