Manufacturer Part Number
NCP1392BDR2G
Manufacturer
onsemi
Introduction
NCP1392BDR2G is a Power Management IC, specifically a gate driver for half-bridge N-Channel MOSFET configurations, designed for efficient power conversion in various applications.
Product Features and Performance
Driven Configuration: Half-Bridge
Synchronous Channel Type supporting 2 drivers
Tailored for N-Channel MOSFET gates
Supply Voltage Range: 8V to 20V
Peak Output Current: 500mA (Source), 1A (Sink)
Non-Inverting Input Type
Capable of handling High Side Voltage up to 600V (Bootstrap)
Fast Rise/Fall Time: 40ns/20ns
Operational Temperature Range: -40°C to 125°C
Surface Mount Technology for compact integration
Available in an 8-SOIC package for streamlined application
Product Advantages
High-side voltage capability supports various power levels.
Fast switching time improves efficiency and reduces power loss.
Wide operating temperature range ensures reliability in harsh conditions.
Compact 8-SOIC package enables easy integration into diverse designs.
Key Technical Parameters
Voltage Supply: 8V ~ 20V
Current Peak Output (Source, Sink): 500mA, 1A
High Side Voltage Max (Bootstrap): 600V
Rise / Fall Time (Typ): 40ns, 20ns
Quality and Safety Features
Built to withstand tough environmental conditions from -40°C up to 125°C.
High-side voltage capability ensures safe operation under high voltage conditions.
Compatibility
Specifically designed for synchronous half-bridge N-Channel MOSFET configurations, adaptable to a wide range of power conversion applications.
Application Areas
Power supply units
Consumer electronics
Industrial automation
Renewable energy systems
Electric vehicle charging stations
Product Lifecycle
Status: Not For New Designs, indicating that the product may be nearing the end of its lifecycle with potential for discontinuation and replacement in the future.
Several Key Reasons to Choose This Product
High-side voltage capability allows versatility in designing for high voltage applications.
Efficient power conversion translates to energy savings and lower operational costs.
Fast switching capabilities enhance performance and reduce electromagnetic interference (EMI).
Durable and reliable across broad temperature ranges, ensuring performance in various environments.
Compact size facilitates easier design and product miniaturization efforts.