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ISL6754

Obsolete

ZVS Full-Bridge PWM Controller with Adjustable Synchronous Rectifier Control

Features

  • Adjustable resonant delay for ZVS operation
  • Synchronous rectifier control outputs with adjustable delay/advance
  • Voltage- or current-mode control
  • 3% current limit threshold
  • Adjustable average current limit
  • Adjustable dead time control
  • 175μA start-up current
  • Supply UVLO
  • Adjustable oscillator frequency up to 2MHz
  • Internal over-temperature protection
  • Buffered oscillator sawtooth output
  • Fast current sense to output delay
  • Adjustable cycle-by-cycle peak current limit
  • 70ns leading edge blanking
  • Multi-pulse suppression
  • Pb-free (RoHS compliant)
ISL6754 Functional Diagram
ISL6754 Functional Diagram

Description

The ISL6754 is a high performance extension of the Renesas family of Zero-Voltage Switching (ZVS) full-bridge PWM controllers. Like the ISL6752, it achieves ZVS operation by driving the upper bridge FETs at a fixed 50% duty cycle while the lower bridge FETs are trailing-edge modulated with adjustable resonant switching delays. Adding to the ISL6752’s feature set are average current monitoring and soft-start. The average current signal may be used for average current limiting, current sharing circuits and average current mode control. Additionally, the ISL6754 supports both voltage- and current-mode control. The ISL6754 features complemented PWM outputs for Synchronous Rectifier (SR) control. The complemented outputs may be dynamically advanced or delayed relative to the PWM outputs using an external control voltage. This advanced BiCMOS design features precision dead time and resonant delay control, and an oscillator adjustable to 2MHz operating frequency. Additionally, multi-pulse suppression ensures alternating output pulses at low duty cycles where pulse skipping may occur.

Applications

  • ZVS Full-Bridge Converters
  • Telecom and Datacom Power
  • Wireless Base Station Power
  • File Server Power
  • Industrial Power Systems
Part NumberStatusSamplesStockRoHSPackageLead Count (#)Carrier TypeMoisture Sensitivity Level (MSL)Pb (Lead) FreePb Free CategoryTemp. Range (°C)
ISL6754AAZAObsoleteN/AOut of StockRoHS:EN
QSOP20#Tube3YesPb-Free 100% Matte Tin Plate w/Anneal-e3-40 to +105°C
ISL6754AAZA-TObsoleteN/AOut of StockRoHS:EN
QSOP20#Reel3YesPb-Free 100% Matte Tin Plate w/Anneal-e3-40 to +105°C
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Filters

    Recommended Documents (1)

  1. Datasheet
    ISL6754 Datasheet
    RECOMMENDED
    PDF 1.43 MB isl6754 Feb 27, 2001

    Datasheets (1)

  1. Datasheet
    ISL6754 Datasheet
    RECOMMENDED
    PDF 1.43 MB isl6754 Feb 27, 2001

    Application Notes & White Papers (3)

  1. Application Note
    AN1684: Nonideality of Ground
    PDF 397 KB an1684 Jan 19, 2004
    AI-generated Summary: The document outlines important legal disclaimers and usage guidelines for semiconductor products. It emphasizes user responsibility for product design and safety, disclaims liability for damages, and clarifies no intellectual property licenses are granted. Products are categorized by quality grades with specific application recommendations. Users must comply with laws, avoid unauthorized modifications, and ensure safe use within specified conditions. Contact details for Renesas Electronics sales offices worldwide are provided.
  2. Application Note
    AN1681: Grounding Techniques
    PDF 509 KB an1681 Jan 19, 2004
    AI-generated Summary: The document explains grounding techniques for PCB layouts using a dual op amp example on a single-layer copper board. It compares three grounding schemes: a center spine ground trace, an outer ground plane, and a split/star ground plane, highlighting the benefits of single-point grounding to minimize noise and antenna effects. It emphasizes following current paths, minimizing loop lengths, and ensuring close forward and return paths to reduce interference. The document also includes disclaimers on product use, quality grades, safety, and legal compliance.
  3. Application Note
    AN1619: Designing with ISL6752DBEVAL1Z and ISL6754DBEVAL1Z Control Cards
    PDF 1.49 MB an1619 Jan 19, 2004
    AI-generated Summary: This document details the design process using ISL6752DBEVAL1Z and ISL6754DBEVAL1Z control cards, focusing on current mode control and biasing techniques. It outlines seven key design steps including setting oscillator frequency, calculating current sensing resistor values for pulse-by-pulse current limit, and slope compensation. The analysis applies to both evaluation boards with component parameters and formulas provided for frequency, duty cycle, and current limits. It emphasizes slope compensation ratio optimization to ensure stable operation.

    Product Notices (PCN, EOL, etc) (1)

  1. End Of Life Notice
    PLC21060 - End of Life Notice
    PDF 603 KB Jan 21, 2022
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Support Communities

  1. Selection of minimum input voltage formula

    I want to clarify the formula of min. input voltage for the ISL6754DBEVAL1Z Control Cards (ZVS Full-Bridge PWM Controller with Adjustable Synchronous Rectifier Control). The formula for extraction of min input voltage used is:   Vbus_min is the min input voltage;   Dmax is the maximum duty cycle ;  Nt is ...

    Jul 24, 2020
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