Microchip Technology UPS170E3/TR7: A Robust Zener Diode

The UPS170E3/TR7 is an advanced Zener diode component manufactured by Microchip Technology, a leader in microcontroller, mixed-signal, analog, and Flash-IP solutions. This product is designed to provide a reliable, precise voltage regulation solution for a variety of electronic applications.

The UPS170E3/TR7 is characterized by its high level of performance and stability, making it an ideal choice for voltage regulation and protection in complex circuits. With its precise breakdown voltage, it is commonly used as a voltage reference or in voltage clamping applications where it protects sensitive circuit components from overvoltage conditions.

Key Features:

• High Stability: The device is designed to maintain a stable voltage over fluctuations in current and temperature, ensuring consistent performance.
• Low Leakage Current: It has a low leakage current which minimizes power loss and improves the overall efficiency of the application it is used in.
• Surface Mount Package: The UPS170E3/TR7 comes in a surface-mount package, specifically in a DO-214AA (SMB) format, which allows for efficient assembly and space-saving on PCBs.
• Power Dissipation: With a power dissipation of 1.25 watts, it can handle significant amounts of power, making it suitable for high-power applications.
• Breakdown Voltage: It offers a precise breakdown voltage, which is crucial for applications that require accurate voltage regulation.
• RoHS Compliant: The component is compliant with the RoHS directive, which means it is free from hazardous substances and is environmentally friendly.

Applications:

The UPS170E3/TR7 is versatile and can be used in a broad range of applications, including:

• Power supply circuits
• Consumer electronics
• Automotive systems
• Telecommunications
• Industrial equipment

With its robust design and precise voltage control, the UPS170E3/TR7 by Microchip Technology is a reliable component for designers and engineers looking to enhance the stability and safety of their electronic systems.