Overview

Description

The ISL62392C controller generates supply voltage for battery-powered systems. It includes two pulse-width modulation (PWM) controllers, adjustable from 0. 6V to 5. 5V, and a linear regulator (LDO3) that generates a fixed 3. 3V and can deliver up to 100mA. The ISL62392C includes on-board power-up sequencing, a power-good (PGOOD) output, digital soft-start, and internal soft-stop output discharge that prevents negative voltages on shutdown. The patented R3 PWM control scheme provides a low jitter system with fast response to load transients. Light-load efficiency is improved with period-stretching discontinuous conduction mode (DCM) operation. To eliminate noise in audio frequency applications, an ultrasonic DCM mode is included, which limits the minimum switching frequency to 28kHz. The ISL62391, ISL62391C and ISL62392, ISL62392C are identical except for how their overvoltage protection is handled. The ISL62391C utilizes a tri-state overvoltage scheme, whereas the ISL62392C employs a soft-crowbar method. The ISL62392C is available in a 28 Ld 4x4 TQFN package and operates over the extended temperature range (-40°C to +100°C).

Features

  • High Performance R3 Technology
  • Fast Transient Response
  • ±1% Output Voltage Accuracy
  • 2 Fully Programmable Switch-Mode Power Supplies
  • Programmable Switching Frequency
  • Fixed 3.3V LDO Output
  • Internal Soft-Start and Soft-Stop Output Discharge
  • Wide Input Voltage Range: 5.5V to 25V
  • Full and Ultrasonic Pulse-Skipping Mode
  • Power-Good Indicator
  • Overvoltage, Undervoltage and Overcurrent Protection
  • Thermal Monitor and Protection
  • Pb-Free (RoHS Compliant)

Comparison

Applications

Applications

  • Notebook and Sub-Notebook Computers
  • PDAs and Mobile Communication Devices
  • 3-Cell and 4-Cell Li+ Battery-Powered Devices

Documentation

Type Title Date
Datasheet PDF 1.12 MB
Brochure PDF 5.49 MB 日本語
White Paper PDF 295 KB
Product Change Notice PDF 294 KB
Application Note PDF 509 KB
Application Note PDF 397 KB
6 items

Design & Development

Models