ISL6596
Synchronous Rectified MOSFET Driver

Key Features

• Drives Two N-Channel MOSFETs
• Adaptive Shoot-Through Protection
• 0.4Ω On-Resistance and 4A Sink Current Capability
• Supports High Switching Frequency
• Fast Output Rise and Fall Time
• Low Tri-State Hold-Off Time (20ns)
• Support 3.3V and 5V PWM Input
• Low Quiescent Supply Current
• Power-On Reset
• Expandable Bottom Copper Pad for Heat Spreading
• Dual Flat No-Lead (DFN) Package
• Compliant to JEDEC PUB95 MO-220 QFN-Quad Flat No Leads-Product Outline
• Near Chip-Scale Package Footprint; Improves PCB Efficiency and Thinner in Profile
• Pb-Free (RoHS Compliant)

Description

The ISL6596 is a high frequency, MOSFET driver optimized to drive two N-Channel power MOSFETs in a synchronous buck converter topology. This driver combined with Intersil's Multi-Phase Buck PWM controllers forms a complete singlestage core-voltage regulator solution with high efficiency performance at high switching frequency for advanced microprocessors.

The IC is biased by a single low voltage supply (5V), minimizing driver switching losses in high MOSFET gate capacitance and high switching frequency applications. Each driver is capable of driving a 3nF load with less than 10ns rise/fall time. Bootstrapping of the upper gate driver is implemented via an internal low forward drop diode, reducing implementation cost, complexity, and allowing the use of higher performance, cost effective N-Channel MOSFETs. Adaptive shoot-through protection is integrated to prevent both MOSFETs from conducting simultaneously.

The ISL6596 features 4A typical sink current for the lower gate driver, enhancing the lower MOSFET gate hold-down capability during PHASE node rising edge, preventing power loss caused by the self turn-on of the lower MOSFET due to the high dV/dt of the switching node.

The ISL6596 also features an input that recognizes a high-impedance state, working together with Intersil multi-phase 3.3V or 5V PWM controllers to prevent negative transients on the controlled output voltage when operation is suspended. This feature eliminates the need for the schottky diode that may be utilized in a power system to protect the load from negative output voltage damage.

Applications

• Core Voltage Supplies for Intel® and AMD® Microprocessors
• High Frequency Low Profile High Efficiency DC/DC Converters
• High Current Low Voltage DC/DC Converters
• Synchronous Rectification for Isolated Power Supplies