The 1N821UR-1 is a precision temperature-compensated voltage reference from Microchip Technology. This high-performance component is designed to offer a stable voltage reference over a wide range of environmental conditions, making it an ideal choice for critical and demanding applications.

Key Features

• Voltage Stability: The 1N821UR-1 provides a stable 6.2V output, with excellent temperature stability. This precision voltage reference is temperature-compensated, ensuring minimal voltage variation with temperature changes.
• Low Dynamic Impedance: The dynamic impedance of the device is low, which allows it to maintain voltage stability under varying load conditions, ensuring reliable performance in a variety of circuits.
• High Reliability: Manufactured by Microchip Technology, a leader in the semiconductor industry, the 1N821UR-1 is built to the highest quality standards, offering exceptional reliability for mission-critical applications.
• Hermetically Sealed: The device is hermetically sealed, providing excellent resistance to environmental factors such as moisture and dust, which contributes to its long-term stability and performance.
• Military Standards: The 1N821UR-1 meets rigorous military standards for electronic components, making it suitable for use in defense and aerospace applications where durability and performance are paramount.

Applications

The 1N821UR-1 is versatile and can be used in a variety of applications, including:

• Precision instrumentation
• Analog-to-Digital and Digital-to-Analog converters
• Industrial control systems
• Military and aerospace electronics
• High-precision power supplies

Technical Specifications

• Nominal Voltage: 6.2V
• Temperature Coefficient: Specified over a temperature range
• Package Type: Hermetically sealed
• Compliance: Meets military standards

With its combination of stability, reliability, and versatility, the 1N821UR-1 voltage reference from Microchip Technology is an essential component for designers and engineers who require the highest level of performance from their electronic systems.