Product Overview: DSC1001DL5-012.0000 by Microchip Technology

The DSC1001DL5-012.0000 is a high-performance, precision silicon MEMS oscillator from the reputable manufacturer Microchip Technology. This advanced component is designed to offer a reliable and stable clocking solution that caters to a wide array of electronic applications, ranging from industrial to consumer electronics.

With its compact 2.5 mm x 2.0 mm footprint, the DSC1001 series is engineered to provide a space-saving alternative to traditional crystal oscillators without compromising on performance. This particular model operates at a standard frequency of 12.0000 MHz, which is ideal for applications that demand a high degree of accuracy and stability.

The DSC1001DL5-012.0000 boasts an impressive frequency stability of ±25 ppm over the industrial temperature range of -40°C to +85°C. This level of precision ensures that devices function correctly under varying environmental conditions, making it a suitable choice for outdoor or harsh industrial environments.

One of the key advantages of this MEMS oscillator is its low power consumption, which makes it an excellent choice for battery-powered devices where energy efficiency is paramount. Additionally, the DSC1001 series offers a fast start-up time, typically 5 ms, which is beneficial for applications that require quick initialization.

Integration is straightforward, as the DSC1001DL5-012.0000 is compatible with most existing designs that use standard crystal oscillators. It comes in a 4-pad plastic surface-mount package that is RoHS compliant, ensuring adherence to current environmental standards.

The oscillator also features an enable/disable function that allows users to control the output, which can help in reducing power consumption when the clock signal is not required. This feature, combined with a low aging rate, contributes to the long-term reliability of the product.

In summary, the DSC1001DL5-012.0000 from Microchip Technology is a versatile, high-performance MEMS oscillator that offers a blend of compactness, precision, and energy efficiency, making it an excellent choice for modern electronic designs requiring a stable and accurate clock source.