ON Semiconductor 1N5342BG Zener Diode

The ON Semiconductor 1N5342BG is a high-quality Zener diode designed for a wide array of applications requiring voltage regulation and voltage reference solutions. This robust diode offers a Zener voltage of 6.8V, making it suitable for use in various electronic circuits that require a precise voltage clamp.

Key Features:

• Zener Voltage: The 1N5342BG provides a Zener voltage of 6.8 volts, which is ideal for stabilizing voltage-sensitive components and ensuring consistent performance.
• Power Dissipation: With a power dissipation rating of 5 watts, this diode can handle significant power levels, making it suitable for higher power applications.
• Package: Housed in a transfer-molded plastic package, the 1N5342BG ensures durability and thermal performance. It is offered in an axial leaded design, which allows for easy mounting on printed circuit boards.
• Surge Capability: It can withstand surge currents, providing additional protection for electronic circuits during high transient conditions.
• Operating Temperature: This diode operates over a wide temperature range from -65°C to +175°C, accommodating various environmental conditions without compromising its performance.
• Standard Tolerance: The Zener voltage tolerance is ±5%, which is standard for general-purpose applications.

Applications:

The 1N5342BG is versatile and can be used in numerous applications, including:

• Voltage regulation in power supplies
• Overvoltage protection circuits
• Switching power supplies
• Other voltage referencing architectures

Quality and Reliability:

ON Semiconductor is known for its commitment to quality, and the 1N5342BG is no exception. It is designed to meet high industry standards for reliability and performance, ensuring long-term stability in your electronic designs.

Whether you are designing a consumer electronics device, an industrial control system, or an automotive application, the ON Semiconductor 1N5342BG Zener diode is a reliable choice that will help maintain the integrity of your voltage-sensitive circuitry.