The Murata CSAC300MGCM012TC is a Chip Scale Atomic Clock (CSAC). This highly accurate timing device is designed for applications requiring precise synchronization and stability in a small, low-power package. It provides a stable frequency reference that is significantly more accurate than traditional crystal oscillators, making it ideal for use in critical timing applications.

Applications

• Military communications equipment requiring precise time synchronization.
• GPS and navigation systems for enhanced accuracy.
• Critical infrastructure timing and synchronization (e.g., power grids, telecommunications networks).
• High-frequency trading platforms where accurate timing is essential.
• Portable and battery-powered devices needing precise timing references.

Features

• High-accuracy atomic clock technology.
• Extremely small form factor.
• Low power consumption.
• Exceptional frequency stability over temperature and time.
• Fast warm-up time.

Benefits

• Improved timing accuracy and synchronization.
• Reduced size and weight for portable applications.
• Extended battery life in power-sensitive devices.
• Enhanced system performance and reliability.
• Simplified integration into existing systems.

Additional Details

The CSAC300MGCM012TC from Murata leverages atomic clock technology to achieve exceptional frequency stability and accuracy. Its compact size and low power consumption make it well-suited for integration into a variety of applications, including portable devices and infrastructure equipment. The device offers excellent performance over a wide temperature range, ensuring stable operation in diverse environments. Its fast warm-up time minimizes delays in acquiring a stable frequency reference. The CSAC is a complete timing solution that requires minimal external components, simplifying system design and reducing overall system cost. The long-term stability and accuracy of the CSAC make it an ideal choice for applications where precise timing is crucial to performance and reliability. The device integrates advanced control algorithms to maintain optimal performance and compensate for environmental variations. It uses a hermetically sealed package to protect the atomic clock components from environmental factors, ensuring long-term reliability. It is designed to meet stringent environmental standards for shock, vibration, and temperature.