Manufacturer Part Number
NCP5106ADR2G
Manufacturer
onsemi
Introduction
The NCP5106ADR2G is a high-performance, half-bridge gate driver designed for managing power in various applications, primarily for driving IGBTs and N-Channel MOSFETs efficiently.
Product Features and Performance
Half-Bridge Driven Configuration
Independent Channel Type
Supports 2 Gate Drivers
Compatible with IGBT and N-Channel MOSFET Gate Types
Operating Voltage Range: 10V to 20V
Logic Voltage Levels: VIL 0.8V, VIH 2.3V
High Peak Output Current: Source 250mA, Sink 500mA
Non-Inverting Input Type
Maximum High Side Voltage (Bootstrap): 600 V
Typical Rise Time: 85ns and Fall Time: 35ns
Operating Temperature Range: -40°C to 125°C
Surface Mounting Type
Product Advantages
Effective for complex power management applications
Dual independent driving capability enhances versatility
High bootstrap voltage supports high voltage applications
Quick rise and fall times improve switching performance
Wide operating temperature range ensures reliability in various environments
Key Technical Parameters
Supply Voltage: 10V ~ 20V
Logic Voltage VIH: 2.3V, VIL: 0.8V
Peak Output Current: Source 250mA, Sink 500mA
High Side Voltage Max (Bootstrap): 600 V
Rise / Fall Time (Typ): 85ns, 35ns
Operating Temperature: -40°C ~ 125°C (TJ)
Quality and Safety Features
Robust thermal management for reliability at high temperatures
Durable design for long-lasting performance
Compatibility
Ideal for use with IGBTs and N-Channel MOSFET devices
Application Areas
Motor Control Systems
Power Supplies
Renewable Energy Systems
Industrial Automation
Product Lifecycle
Product Status: Active
Continuously supported with no current plans for discontinuation
Several Key Reasons to Choose This Product
High efficiency and performance for power management in advanced applications
Reliable in extreme environmental conditions
Versatile compatibility with IGBT and MOSFET technologies
High bootstrap voltage meets needs of high voltage scenarios
Fast switching capabilities reduce power losses and enhance efficiency