The XRCGB25M000F3M00R is a ceramic resonator manufactured by Murata Electronics North America. Ceramic resonators are passive components used to generate a stable clock signal in electronic circuits. They offer a cost-effective alternative to quartz crystals in many applications.

Applications

• Microcontroller Clock Source: Providing the clock signal for microcontrollers in embedded systems.
• Remote Control Systems: Generating the carrier frequency for remote control transmitters and receivers.
• Consumer Electronics: Used in various consumer electronic devices such as toys, appliances, and remote controls.
• Automotive Electronics: Integrated into automotive systems for timing and control functions.
• Industrial Control Systems: Providing a stable clock signal for industrial control applications.

Features

• 25.000 MHz Resonant Frequency: Provides a precise and stable clock signal at 25 MHz.
• Compact Size: Enables integration into small and space-constrained devices.
• High Stability: Maintains a stable resonant frequency over a wide temperature range.
• Low Aging: Exhibits minimal frequency drift over time.
• RoHS Compliant: Complies with environmental regulations, ensuring lead-free construction.
• Surface Mount Package: Facilitates automated assembly and reduces board space requirements.
• Cost-Effective: Offers a lower-cost alternative to quartz crystals.

Benefits

• Stable Clock Signal: Provides a reliable and accurate timing source for electronic circuits.
• Reduced System Cost: Offers a cost-effective alternative to quartz crystals.
• Simplified Design: Easy to integrate into various circuit designs.
• Compact Size: Enables integration into small and space-constrained applications.
• Reliable Performance: High-quality ceramic material ensures stable and consistent operation.

Additional Details

The XRCGB25M000F3M00R requires external load capacitors for proper operation. The datasheet specifies the recommended values for these capacitors, which are crucial for achieving the desired resonant frequency and stability. The operating temperature range and frequency tolerance are important considerations when selecting this resonator for specific applications. The start-up time and drive level should also be considered for optimal performance.