ON Semiconductor 1PMT5.0AT3 Zener Diodes

The 1PMT5.0AT3 series from ON Semiconductor represents a line of high-quality Zener diodes designed for voltage regulation and protection applications in a variety of electronic equipment. These diodes are specifically crafted to provide a precise voltage clamping function, making them an ideal choice for use in power supplies, lighting systems, and other electronic circuits where consistent voltage is crucial.

Key Features

• Voltage Range: The 1PMT5.0AT3 series offers a nominal Zener voltage of 5.0 volts, which is suitable for a range of low-voltage applications.
• Power Dissipation: With a power dissipation of 1 watt, these Zener diodes are capable of handling significant power levels, making them robust components for various circuits.
• Package: Housed in a DO-216AA package, also known as an SMT-5, the 1PMT5.0AT3 series provides a compact surface-mount solution that is compatible with standard PCB assembly processes.
• High Surge Capability: These diodes are designed to withstand surge events, offering enhanced protection against voltage spikes and transients that can potentially damage sensitive electronic components.
• Thermal Stability: The 1PMT5.0AT3 series demonstrates excellent thermal stability over its entire voltage range and operational temperature range, ensuring reliable performance under varying conditions.

Applications

The 1PMT5.0AT3 Zener diodes are versatile components that can be used in a plethora of applications, including but not limited to:

• Voltage regulation circuits
• Overvoltage protection systems
• Switching power supplies
• Consumer electronics
• Automotive electronics
• Industrial machinery

ON Semiconductor's commitment to quality ensures that the 1PMT5.0AT3 series is manufactured to the highest standards, delivering reliable and consistent performance for your electronic designs. Whether you're designing a new circuit or looking to enhance an existing one, the 1PMT5.0AT3 Zener diodes are an excellent choice for maintaining voltage integrity and protecting against overvoltage conditions.