MIC61300YML: Microchip's High-Performance Voltage Reference Solution

In the realm of precision electronics, the stability and accuracy of a voltage reference are paramount, directly influencing the performance of systems ranging from data converters to precision instrumentation. Addressing this critical need, Microchip Technology's MIC61300YML emerges as a premier solution, setting a new benchmark for high-performance voltage references with its exceptional accuracy, ultra-low noise, and outstanding thermal stability.

The core of the MIC61300YML's superiority lies in its initial accuracy of ±0.04% (max), ensuring that systems start with a precise and reliable voltage baseline. This is further complemented by an extremely low temperature drift of just 3ppm/°C (max). This remarkable stability over temperature variations is crucial for applications operating in harsh or widely fluctuating environmental conditions, guaranteeing consistent performance where lesser references would falter.

Furthermore, the device boasts exceptionally low noise performance of 4.8μVPP (0.1Hz to 10Hz), which is vital for minimizing errors in high-resolution analog-to-digital and digital-to-analog converters. This low noise floor ensures that the signal integrity is preserved, enabling more precise measurements and cleaner signal generation. The MIC61300YML also features a low operating current and excellent long-term stability, making it not only a high-performance choice but also a power-efficient and reliable one for long-lifecycle products.

Housed in a space-saving MLF® (Micro Lead Frame) package, this voltage reference is engineered for modern, compact designs without compromising on performance. Its robust design ensures high reliability against line and load changes, providing a stable output voltage across a wide range of operating conditions.

ICGOODFIND: The MIC61300YML from Microchip stands out as an elite voltage reference, delivering a powerful combination of pinpoint accuracy, minimal temperature-induced drift, and ultra-low noise. It is an indispensable component for designers aiming to achieve the highest levels of precision in advanced medical equipment, test and measurement instruments, and industrial control systems.

Keywords: Precision Voltage Reference, Low Temperature Drift, Ultra-Low Noise, High Accuracy, MIC61300YML