STMicroelectronics MC1403N Precision Voltage Reference

The MC1403N is a high-quality, precision voltage reference module designed and manufactured by STMicroelectronics, a global semiconductor leader known for its innovative and reliable products. This precision voltage reference is part of the MC1400 series and is specifically engineered to offer a stable and accurate reference voltage for a wide variety of applications.

Key Features

• Output Voltage: The MC1403N provides a fixed output voltage of 2.5V, which is ideal for many analog circuits that require a stable reference.
• High Precision: This device is characterized by its high precision, ensuring minimal deviation and excellent stability over time and temperature variations.
• Low Temperature Coefficient: The low temperature coefficient of the MC1403N minimizes the output voltage variation due to changes in ambient temperature, making it suitable for temperature-critical applications.
• Wide Operating Current Range: It can operate over a broad current range, providing flexibility in various circuit configurations.
• Low Dynamic Impedance: The MC1403N features low dynamic impedance, which enhances the stability of the output voltage under varying load conditions.

Applications

The MC1403N is versatile and can be used in numerous electronic applications, including:

• Data acquisition systems
• Analog-to-digital converters
• Digital-to-analog converters
• Power supplies
• Battery-operated equipment
• Instrumentation

Product Specifications

The MC1403N is encapsulated in a standard DIP-8 package, making it easy to integrate into various circuit boards. It is designed with robustness in mind, ensuring reliable performance even under harsh conditions. The device also features protection against reverse battery installation, enhancing its durability and lifespan.

For engineers and designers looking for a reliable and precise voltage reference, the STMicroelectronics MC1403N stands out as an excellent choice. Its combination of accuracy, stability, and flexibility makes it an indispensable component in precision electronic systems.