The DSA1001CL2-016.0000VAO is a high-performance, precision oscillator from Microchip Technology, designed to meet the demanding requirements of modern electronic systems. This MEMS (Micro-Electro-Mechanical Systems) oscillator provides a stable frequency source, with a nominal frequency of 16.0000 MHz, making it suitable for a wide range of applications, including telecommunications, networking, and embedded systems.

Key Features

• Frequency: The oscillator operates at a precise frequency of 16.0000 MHz, which is ideal for timing-critical applications.
• Package: It comes in a compact CL2 package, which is designed for surface-mount technology (SMT), allowing for easy integration into various circuit designs.
• Stability: The DSA1001CL2-016.0000VAO offers excellent frequency stability, ensuring reliable performance over a range of environmental conditions.
• Supply Voltage: It supports a supply voltage (Vdd) that is compatible with common logic levels, facilitating seamless integration with other components.
• Output Type: The oscillator provides a CMOS-compatible output, which is widely used in digital circuits for its ease of interfacing and low power consumption.
• Operating Temperature: This device is designed to operate over a broad temperature range, which is critical for applications that may experience variable environmental conditions.

Applications

The DSA1001CL2-016.0000VAO is versatile and can be used in a variety of applications. Its precision and reliability make it an excellent choice for use in communication devices, data transfer equipment, and advanced computing systems. Additionally, it is suitable for industrial applications where consistent and accurate timing is essential.

Quality and Reliability

Microchip Technology is known for its commitment to quality and the DSA1001CL2-016.0000VAO is no exception. It is manufactured to the highest standards to ensure it meets the stringent requirements of the most critical systems. Customers can trust this oscillator to deliver consistent performance and contribute to the overall reliability of their electronic systems.