ISL6594A: Advanced Synchronous Buck MOSFET Driver with 3V PWM Interface and Advanced Protection Features

The ISL6594A and ISL6594B are high frequency MOSFET drivers specifically designed to drive upper and lower power N-Channel MOSFETs in a synchronous rectified buck converter topology. These drivers combined with the ISL6592 Digital Multi-Phase Buck PWM controller and N-Channel MOSFETs form a complete core-voltage regulator solution for advanced microprocessors.

The ISL6594A drives the upper gate to 12V, while the lower gate can be independently driven over a range from 5V to 12V. The ISL6594B drives both upper and lower gates over a range of 5V to 12V. This drive-voltage provides the flexibility necessary to optimize applications involving trade-offs between gate charge and conduction losses.

An adaptive zero shoot-through protection is integrated to prevent both the upper and lower MOSFETs from conducting simultaneously and to minimize the dead time. These products add an overvoltage protection feature operational before VCC exceeds its turn-on threshold, at which the PHASE node is connected to the gate of the low side MOSFET (LGATE). The output voltage of the converter is then limited by the threshold of the low side MOSFET, which provides some protection to the microprocessor if the upper MOSFET(s) is shorted during initial start-up.

These drivers also feature a three-state PWM input which, working together with Intersil's multi-phase PWM controllers, prevents a negative transient on the output voltage when the output is shut down. This feature eliminates the Schottky diode that is used in some systems for protecting the load from reversed output voltage events.

Key Features
  • Dual MOSFET Drives for Synchronous Rectified Bridge
  • Adjustable Gate Voltage (5V to 12V) for Optimal Efficiency
  • 36V Internal Bootstrap Schottky Diode
  • Bootstrap Capacitor Overcharging Prevention
  • Supports High Switching Frequency (up to 2MHz)
    • 3A Sinking Current Capability
    • Fast Rise/Fall Times and Low Propagation Delays
  • Three-State PWM Input for Output Stage Shutdown
  • Three-State PWM Input Hysteresis for Applications with Power Sequencing Requirement
  • Pre-POR Overvoltage Protection
  • VCC Undervoltage Protection
  • Expandable Bottom Copper Pad for Enhanced Heat Sinking
  • Dual Flat No-Lead (DFN) Package
    • Near Chip-Scale Package Footprint; Improves PCB Efficiency and Thinner in Profile
  • Pb-Free Available (RoHS Compliant)
Applications
  • Core Regulators for Intel® and AMD® Microprocessors
  • High Current DC/DC Converters
  • High Frequency and High Efficiency VRM and VRD
Typical Diagram
Application Notes
TitleTypeUpdatedSizeOther Languages
AN1116: Elantec CMOS applicationsPDF13 Nov 2014231 KB
Datasheets
TitleTypeUpdatedSizeOther Languages
ISL6594A, ISL6594B DatasheetPDF11 Sep 2015318 KB
Tech Briefs
TitleTypeUpdatedSizeOther Languages
TB363: Guidelines for Handling and Processing Moisture Sensitive Surface Mount Devices (SMDs)PDF13 Jan 201529 KB
TB458: Converting a Fixed PWM to an Adjustable PWMPDF19 Nov 2014147 KB
TB417: Designing Stable Compensation Networks for Single Phase Voltage Mode Buck RegulatorsPDF19 Nov 2014206 KB
White Papers
TitleTypeUpdatedSizeOther Languages
Five Easy Steps to Create a Multi-Load Power SolutionPDF30 Jan 2017502 KB
Order Information
Part NumberPackage TypeWeight(g)PinsMSL RatingPeak Temp (°C)RoHS Status
ISL6594ACB8 Ld SOIC0.07281240
ISL6594ACB-T8 Ld SOIC T+R0.07281240
ISL6594ACBZ8 Ld SOIC0.07683260RoHS
ISL6594ACBZ-T8 Ld SOIC T+R0.07683260RoHS
ISL6594ACR10 Ld DFN0.022101240
ISL6594ACR-T10 Ld DFN T+R0.022101240
ISL6594ACRZ10 Ld DFN0.022102260RoHS
ISL6594ACRZ-T10 Ld DFN T+R0.022102260RoHS
ISL6594A, ISL6594B Datasheet ISL6594A
ISL6594A, ISL6594B Datasheet 11 Sep 2015
8 Ld SOIC T+R ISL84514
10 Ld DFN T+R ISL9203A
AN1116: Elantec CMOS applications 13 Nov 2014
TB363: Guidelines for Handling and Processing Moisture Sensitive Surface Mount Devices (SMDs) 13 Jan 2015
TB458: Converting a Fixed PWM to an Adjustable PWM 19 Nov 2014
TB417: Designing Stable Compensation Networks for Single Phase Voltage Mode Buck Regulators 19 Nov 2014
Five Easy Steps to Create a Multi-Load Power Solution 30 Jan 2017