Part Details for NCP137AFCT120T2G by onsemi

The recommended PCB layout for optimal thermal performance involves placing the device on a thermal pad connected to a large copper area on the PCB, and ensuring good thermal conduction to the surrounding air. A minimum of 2oz copper thickness is recommended. Refer to the onsemi application note AND8325/D for more details.

To ensure reliable operation at high temperatures, it is essential to follow the recommended thermal design guidelines, ensure good thermal conduction, and avoid overheating. The device should be operated within the specified temperature range, and the junction temperature should be monitored to prevent thermal runaway.

When selecting a heatsink for the NCP137AFCT120T2G, critical parameters to consider include the thermal resistance (Rth), heatsink size, material, and airflow. A heatsink with a low thermal resistance (Rth) and a large surface area is recommended. The heatsink should also be designed to ensure good airflow and convection.

To prevent electrical overstress (EOS) and electrostatic discharge (ESD) damage, it is essential to follow proper handling and storage procedures, use ESD-protective packaging and materials, and ensure that the device is operated within the specified voltage and current ratings. Additionally, consider implementing EOS and ESD protection circuits in the design.

The recommended soldering and assembly techniques for the NCP137AFCT120T2G include using a soldering iron with a temperature range of 250°C to 260°C, and a soldering time of 3-5 seconds. The device should be handled by the package body, and not by the leads. Refer to the onsemi application note AND8393/D for more details.