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XDP711-001
  • XDP711-001

XDP711-001

Active and preferred

XDP711-001 is a wide input voltage hot-swap & monitoring controller with digital SOA control & enhancements over XDP710 to meet the high availability & reliability requirements of AI servers while maintaining backward compatibility. It drives single or multiple parallel MOSFETs, enables continuous system health monitoring & high-speed communication via PMBus, which allows system designers to disable the downstream sub-systems fully or partially.

Infineon Technologies XDP711-001 Product Info

16 April 2026 0

Parameters

Analog reporting

Power, Current

Communication Interfaces

PMBus 1.3 at 1MHz

Current sensing

High-side

Energy reading register size

40-bit

Fault response

Auto retry or digitally configurable, Latch off

Input Voltage fault hysteresis configurability

Both OV and UV are configurable

Input Voltage range

7 V to 80 V

Inrush current control type

SOA current control, boost mode with auto boost or full boost

Package

PG-VQFN-29

Power averaging ((32,768 samples))

3 s

Product Group

Hot-swap controller

Protection Features

watchdog timer, VDS fault, SOA fault, memory, fast input overvoltage, FET faults, over temperature, short circuit current, overcurrent, output undervoltage, input undervoltage, Input overvoltage

Supported rails

Positive

Surge immunity

Yes

Telemetry accuracy

V ≤ 0.4%, E ≤ 2.7%, P ≤ 1.15%, I ≤ 0.75%

Apps

Data center power solutions, Server power path protection, Humanoid robots

Features

  • Wide VIN: +7V to +80V (100V for 500 ms)
  • Integrated gate drive: 0 to 250 uA
  • 1.5A gate pull-down on short-circuit
  • Programmable & pre-set FET SOA profiles
  • 12-bit ADC: V ≤ 0.4%, I ≤ 0.75% accuracy
  • NVM programmable fault & warning levels
  • Pulsed SOA current control technology
  • Telemetry with PMBus 1.3 interface @1MHz
  • FET health monitoring
  • Analog current and power reporting
  • Input voltage Surge Immunity
  • 29-lead 6mm x 6mm VQFN package

Description

  • Increased system reliability
  • Optimized system performance
  • Higher flexibility in design
  • Allows for system scalability
  • Robust design due to protection features
  • Small footprint & reduced BOM
  • Compliance with industry standards
  • Turn-off in <1μs on short-circuit
  • Support for non-optimized SOA FETs

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