Product Overview

The DSC6111MI2A-024.5454 is a high-precision, low-power MEMS oscillator from Microchip Technology, a leading provider of smart, connected, and secure embedded control solutions. This state-of-the-art component is designed to provide a reliable and stable clock source for various electronic applications, including IoT devices, consumer electronics, and industrial systems.

Key Features

• Frequency: The oscillator operates at a fixed frequency of 24.5454 MHz, which is ideal for applications requiring a precise and stable clock signal.
• Supply Voltage: It supports a supply voltage range of 1.71V to 3.63V, offering flexibility in different power environments and compatibility with a wide range of devices.
• Low Power Consumption: The DSC6111MI2A-024.5454 is designed for energy-efficient operation, making it suitable for battery-powered and portable devices where power conservation is critical.
• Package: This oscillator comes in a compact 4-SMD, no lead package, allowing for space-saving integration into modern PCB designs.
• Stability: It has excellent frequency stability over a range of operating conditions, ensuring consistent performance even under varying temperature and voltage conditions.
• Output Type: The device provides a CMOS output, which is compatible with most digital circuits and can easily interface with various microcontrollers and processors.

Applications

The DSC6111MI2A-024.5454 is suitable for a variety of applications that require a high-quality, reliable clock source. These include:

• Wireless communications
• Wearable technology
• Smart home devices
• Industrial control systems
• Medical monitoring equipment

Quality and Reliability

Microchip Technology is known for its commitment to quality and reliability, and the DSC6111MI2A-024.5454 is no exception. It is built to meet the rigorous standards required in professional and industrial environments, ensuring long-term stability and performance. Customers can trust this oscillator to deliver precise timing solutions for their critical applications.