Microchip Technology's DSC6111HI2A-100.0000T MEMS Oscillator

The DSC6111HI2A-100.0000T is a cutting-edge MEMS (Micro-Electro-Mechanical Systems) oscillator developed by Microchip Technology, designed to offer exceptional timing solutions for a wide array of electronic applications. This high-performance, low-power component is engineered to provide a stable and reliable clock source in a compact and robust package.

Key Features

• Precision Frequency: The oscillator is factory-calibrated to deliver a precise frequency of 100.0000 MHz, ensuring accurate timing for critical applications.
• Stability: It offers excellent frequency stability, making it suitable for applications that cannot tolerate timing deviations.
• Low Power Consumption: Designed for energy-efficient operation, this MEMS oscillator is ideal for battery-powered and portable devices.
• Small Footprint: The DSC6111HI2A-100.0000T comes in a compact 2.5mm x 2.0mm package, allowing for easy integration into space-constrained designs.
• Operating Temperature Range: This device operates over an industrial temperature range, making it reliable in a variety of challenging environmental conditions.
• Supply Voltage: It is designed to operate at a supply voltage of 1.8V, aligning with the needs of modern low-voltage electronics.

Applications

The DSC6111HI2A-100.0000T is versatile and can be used in multiple applications, including:

• Consumer electronics such as wearables and smart devices
• Industrial control systems
• Internet of Things (IoT) devices
• Portable medical equipment
• Networking equipment, including routers and switches

Quality and Reliability

Microchip Technology is known for its commitment to quality, and the DSC6111HI2A-100.0000T is no exception. The oscillator is rigorously tested to meet high standards of performance and reliability. With its robust design, the DSC6111HI2A-100.0000T is an excellent choice for designers looking for a dependable clock source that combines the benefits of MEMS technology with the stringent requirements of modern electronic systems.