onsemi

NDF06N60ZG

NDF06N60ZG Description

The NDF06N60ZG is a single N-channel MOSFET manufactured by onsemi. It features a drain-to-source voltage of 600V, a continuous drain current of 7.1A at 25°C, and a maximum power dissipation of 35W at the case temperature. The device is packaged in a through-hole TO220FP tube package and has a moisture sensitivity level of 1, indicating unlimited storage time before use. The NDF06N60ZG is designed for use in a wide range of applications, including power switching, motor control, and power management circuits.

NDF06N60ZG Features

• N-channel MOSFET with 600V drain-to-source voltage
• Continuous drain current of 7.1A at 25°C
• Maximum power dissipation of 35W at case temperature
• Through-hole TO220FP tube package
• Moisture sensitivity level of 1 (unlimited storage time before use)
• Input capacitance of 1107 pF at 25V
• Gate charge of 47 nC at 10V
• Maximum gate-source voltage of ±30V
• Threshold voltage of 4.5V at 100µA
• Maximum on-state resistance of 1.2Ω at 3A, 10V
• Drive voltage of 10V for minimum on-state resistance

NDF06N60ZG Applications

The NDF06N60ZG is ideal for use in a variety of applications where high voltage and current handling are required. Some specific use cases include:

1. Power switching applications, such as DC-DC converters and power supplies
2. Motor control circuits, including brushless DC motors and stepper motors
3. Power management circuits, such as battery chargers and power distribution systems
4. Industrial control systems, including robotics and automation equipment
5. Renewable energy systems, such as solar inverters and wind power converters

Conclusion of NDF06N60ZG

The NDF06N60ZG is a high-performance N-channel MOSFET that offers excellent voltage and current handling capabilities in a compact through-hole package. Its unique features, such as low on-state resistance and high gate charge, make it an ideal choice for demanding applications in power switching, motor control, and power management. While the device is now considered obsolete, it remains a reliable option for existing designs and can be a cost-effective solution for applications that do not require the latest technology.