Microchip Technology TC55RP5001ECB713 Overview

The TC55RP5001ECB713 is a precision voltage reference component manufactured by Microchip Technology, designed to offer both high accuracy and low power consumption for various electronic applications. This device is part of Microchip's TC55 series, which is renowned for its stability and reliability in critical system voltage monitoring and regulation tasks.

With a fixed output voltage of 5.00V, the TC55RP5001ECB713 provides a stable reference that is essential for analog-to-digital converters (ADCs), digital-to-analog converters (DACs), and other sensitive electronic circuits where precise voltage control is paramount. The device boasts an impressive initial accuracy of ±0.1%, ensuring that the output voltage is maintained with minimal deviation, which is crucial for high-precision applications.

One of the key features of the TC55RP5001ECB713 is its low temperature coefficient, typically around 20 ppm/°C, which means that the output voltage remains consistent across a wide temperature range. This characteristic makes it suitable for use in environments that experience temperature fluctuations, such as industrial control systems or outdoor electronics.

The voltage reference operates within a supply voltage range from 5.5V to 36V, providing flexibility in system design and compatibility with a variety of power sources. The low operating current of approximately 950 nA contributes to the overall energy efficiency of the systems in which it is used, making it an excellent choice for battery-operated devices or energy-sensitive applications.

Encased in a 3-pin SOT-23 package, the TC55RP5001ECB713 is designed for surface-mount technology (SMT), offering ease of integration into printed circuit boards (PCBs) and contributing to the miniaturization of electronic systems. Its small footprint and low profile make it especially useful in space-constrained applications.

Overall, the TC55RP5001ECB713 from Microchip Technology is a reliable and precise voltage reference that provides the stability required for critical electronic systems, while also supporting the demands of power-sensitive and space-limited applications.