MAX1711
Info: : PRODUCTION
searchIcon
cartIcon

MAX1711

High-Speed, Digitally Adjusted Step-Down Controllers for Notebook CPUs

Show More showmore-icon

Digitally Adjustable Step-Down Controller Powers 12A Mobile Processors with Only Four Output Capacitors

Info: : PRODUCTION tooltip
Info: : PRODUCTION tooltip
Part Models 2
1ku List Price
price unavailable
Features
  • Ultra-High Efficiency
  • No Current-Sense Resistor (Lossless ILIMIT)
  • Quick-PWM with 100ns Load-Step Response
  • ±1% VOUT Accuracy over Line and Load
  • 4-Bit On-Board DAC (MAX1710)
  • 5-Bit On-Board DAC (MAX1711/MAX1712)
  • 0.925V to 2V Output Adjust Range (MAX1711/MAX1712)
  • 2V to 28V Battery Input Range
  • 200/300/400/550kHz Switching Frequency
  • Remote GND and VOUT Sensing
  • Over/Undervoltage Protection
  • 1.7ms Digital Soft-Start
  • Drive Large Synchronous-Rectifier FETs
  • 2V ±1% Reference Output
  • Power-Good Indicator
  • Small 24-Pin QSOP Package
Additional Details
show more Icon

The MAX1710/MAX1711 step-down controllers are intended for core CPU DC-DC converters in notebook computers. They feature a triple-threat combination of ultra-fast transient response, high DC accuracy, and high efficiency needed for leading-edge CPU core power supplies. Maxim's proprietary Quick-PWM™ quick-response, constant-on-time PWM control scheme handles wide input/output voltage ratios with ease and provides 100ns "instant-on" response to load transients while maintaining a relatively constant switching frequency.

High DC precision is ensured by a 2-wire remote-sensing scheme that compensates for voltage drops in both the ground bus and supply rail. An on-board, digital-to-analog converter (DAC) sets the output voltage in compliance with Mobile Pentium II® CPU specifications.

The MAX1710 achieves high efficiency at a reduced cost by eliminating the current-sense resistor found in traditional current-mode PWMs. Efficiency is further enhanced by an ability to drive very large synchronous-rectifier MOSFETs.

Single-stage buck conversion allows these devices to directly step down high-voltage batteries for the highest possible efficiency. Alternatively, 2-stage conversion (stepping down the +5V system supply instead of the battery) at a higher switching frequency allows the minimum possible physical size.

The MAX1710/MAX1711 are identical except that the MAX1711 have 5-bit DACs and the MAX1710 has a 4-bit DAC. Also, the MAX1711 has a fixed overvoltage protection threshold at VOUT = 2.25V and undervoltage protection at VOUT = 0.8V whereas the MAX1710 has variable thresholds that track VOUT. The MAX1711 is intended for applications where the DAC code may change dynamically.

Applications

  • CPU Core DC-DC Converters
  • Docking Stations
  • Notebook Computers
  • Single-Stage (BATT to VCORE) Converters
  • Two-Stage (+5V to VCORE) Converters
Part Models 2
1ku List Price
price unavailable

close icon

Documentation

Part Model Pin/Package Drawing Documentation CAD Symbols, Footprints, and 3D Models
MAX1711EEG+
  • HTML
  • HTML
MAX1711EEG+T
  • HTML
  • HTML

Filter by Model

reset

Reset Filters

Part Models

Product Lifecycle

PCN

Jul 3, 2023

- 2361NA

WAFER FAB

MAX1711EEG+

PRODUCTION

MAX1711EEG+T

PRODUCTION

Filter by Model

reset

Reset Filters

Part Models

Product Lifecycle

PCN

Jul 3, 2023

- 2361NA

arrow down

WAFER FAB

MAX1711EEG+

PRODUCTION

MAX1711EEG+T

PRODUCTION

Software & Part Ecosystem

Evaluation Kits 1

MAX1711EVKIT

Voltage-Positioning Evaluation Kit for the MAX1711

zoom

MAX1711EVKIT

Voltage-Positioning Evaluation Kit for the MAX1711

Voltage-Positioning Evaluation Kit for the MAX1711

Features and Benefits

  • High Speed, Accuracy, and Efficiency
  • Fast-Response Quick-PWM™ Architecture
  • 7V to 24V Input Voltage Range
  • 1.25V to 2V Output Voltage Range
  • 7A Peak Load-Current Capability (5.5A Continuous)
  • 93% Efficient (VOUT = 2V, VBATT = 7V, ILOAD = 4A)
  • 300kHz Switching Frequency
  • No Current-Sense Resistor
  • Remote GND and VOUT Sensing
  • Power-Good Output
  • 24-Pin QSOP Package
  • Low-Profile Components
  • Fully Assembled and Tested

Product Detail

The MAX1711 evaluation kit (EV kit) demonstrates the high-power, dynamically adjustable notebook CPU application circuit with voltage positioning. Voltage positioning decreases CPU power consumption and reduces output capacitance requirements. This DC-DC converter steps down high-voltage batteries and/or AC adapters, generating a precision, low-voltage CPU core VCC rail.

The MAX1711 EV kit provides a digitally adjustable 0.925V to 2V output voltage from a 7V to 24V battery input range. It delivers sustained output current of 12A and 14.1A peaks, operating at a 550kHz switching frequency, and has superior line- and load-transient response. The MAX1711 EV kit is designed to accomplish output voltage transitions in a controlled amount of time with limited input surge current.

This EV kit is a fully assembled and tested circuit board.

Applications

  • CPU Core DC-DC Converters
  • Docking Stations
  • Notebook Computers
  • Single-Stage (BATT to VCORE) Converters
  • Two-Stage (+5V to VCORE) Converters

Recently Viewed