The TP5335 is a high-voltage, high-speed MOSFET driver manufactured by Supertex, Inc. It is designed to drive MOSFETs and IGBTs in a variety of applications requiring fast switching and high voltage capabilities.

Applications:

• Ultrasonic Transducer Drivers
• Piezoelectric Actuator Drivers
• High-Voltage Power Supplies
• Medical Imaging Equipment
• Industrial Control Systems
• ATE (Automatic Test Equipment)

Features:

• High Output Voltage: Up to ±50V
• High Output Current: Up to ±2A peak
• Fast Switching Speed: Typical rise/fall times of 10ns
• Adjustable Dead Time Control
• Over-Current Protection
• Thermal Shutdown Protection
• TTL/CMOS Compatible Inputs
• Available in various packages, including DIP and SOIC

Benefits:

• Efficient MOSFET/IGBT Driving: Delivers high current and voltage for efficient switching of power devices.
• High-Speed Operation: Enables fast switching speeds, crucial for high-frequency applications.
• Protection Features: Over-current and thermal shutdown protection enhance system reliability.
• Adjustable Dead Time: Allows optimization of switching performance and minimizes shoot-through current.
• Versatile: Suitable for a wide range of applications requiring high-voltage, high-speed driving.
• Easy to Use: TTL/CMOS compatible inputs simplify interfacing with digital control circuits.

The TP5335 utilizes a push-pull output stage to provide both sourcing and sinking current for driving MOSFETs or IGBTs. The adjustable dead time control allows the user to optimize the switching performance by minimizing the overlap between the high-side and low-side drive signals. This prevents shoot-through current and improves efficiency. The built-in over-current protection and thermal shutdown protection circuits protect the device from damage due to overload conditions.

The TP5335's combination of high voltage, high speed, and robust protection features makes it a versatile and reliable choice for driving power devices in a wide variety of demanding applications. Its adjustable dead time control further enhances its flexibility, allowing users to fine-tune the switching performance for optimal efficiency and reliability.