The ON Semiconductor NCP5104PG is a high-performance, high-voltage gate driver specifically designed to drive two external N-channel MOSFETs or IGBTs in a half-bridge configuration. This advanced gate driver is an ideal solution for a wide range of applications, including motor control, power supplies, and inverters, where efficient and reliable switching is crucial.

Key Features

• High Voltage Range: Capable of handling voltages up to 600V, which makes it suitable for a variety of high voltage applications.
• High Current Drive: Offers a high peak current drive capability of ±2 A, ensuring effective charging and discharging of the gate capacitance of high power MOSFETs or IGBTs.
• Independent High and Low Driver Channels: Features separate logic inputs for the high side and low side driver channels, providing design flexibility and precise control.
• Under-Voltage Lockout (UVLO): Both channels are equipped with UVLO to ensure the gate driver operates only when the supply voltage is sufficient, enhancing system reliability.
• Matched Propagation Delays: Offers matched propagation delays for both channels, which is critical for maintaining the integrity of the switching waveforms and reducing dead-time.
• Cross-Conduction Prevention: Built-in cross-conduction prevention logic minimizes the risk of simultaneous high and low side conduction, which can lead to device failure.

Applications

The NCP5104PG gate driver is versatile and can be used in a variety of applications that require efficient and reliable high voltage switching. It is particularly well-suited for:

• AC-DC and DC-DC converters
• Motor drives
• Power inverters
• Induction heating systems
• Uninterruptible power supplies (UPS)

Product Specifications

The NCP5104PG is available in a Pb-free PDIP-8 package, providing robustness and ease of handling for manufacturing. It operates over a wide temperature range, ensuring reliability in various operating conditions. With its combination of features, the NCP5104PG from ON Semiconductor is a smart choice for designers looking to optimize their high voltage switching designs.