ON Semiconductor 1N754ATR Zener Diode

The ON Semiconductor 1N754ATR is a precision Zener diode designed to offer a reliable voltage reference with a nominal voltage of 6.8V. This component is widely used in a variety of electronic applications, ranging from voltage regulation to voltage reference and surge protection. The 1N754ATR is a testament to ON Semiconductor's commitment to providing high-quality, durable electronic components for the industrial, computing, automotive, consumer, telecommunications, military, aerospace, and medical markets.

Key Features

• Nominal Zener Voltage: 6.8V with a standard tolerance of ±5%.
• Power Dissipation: Capable of dissipating up to 500mW, ensuring stable performance in a variety of applications.
• Package: Supplied in a small and convenient DO-35 package, which is suitable for through-hole mounting, allowing for ease of integration into a wide range of electronic circuits.
• Operating Temperature Range: Designed to operate within a wide temperature range of -65°C to +175°C, making it suitable for harsh environments.
• Test Current: The Zener voltage is tested at 20mA, ensuring accurate voltage regulation under standard operating conditions.
• Reverse Leakage Current: Exhibits low leakage current, enhancing the overall efficiency of the device.

Applications

The 1N754ATR Zener diode is versatile and can be used in various applications, including:

• Voltage regulation circuits
• Overvoltage protection circuits
• Precision reference
• Power management solutions
• Switching power supplies
• Consumer electronics

ON Semiconductor's 1N754ATR Zener diode is a reliable choice for designers and engineers looking for a stable voltage reference or protection device. Its robust design and precise voltage regulation make it a go-to component for ensuring the stability and longevity of electronic systems. Whether you are working on a complex industrial project or a simple consumer electronic device, the 1N754ATR from ON Semiconductor is a component that can be trusted to deliver consistent performance.