The 41.539MHz crystal is a quartz crystal oscillator component manufactured by CTS Corporation. It is designed to provide a stable and accurate frequency reference for various electronic circuits and systems. This crystal is characterized by its high frequency stability, low aging, and small size, making it suitable for applications requiring precise timing and synchronization.

Applications

• Microcontrollers
• Communication Systems
• Clock Circuits
• Timing Circuits
• Frequency Synthesis

Features

• High Frequency Stability
• Low Aging
• Small Package Size
• High Reliability
• RoHS Compliant

Benefits

• Accurate Timing: The high frequency stability ensures accurate timing and synchronization in electronic circuits and systems.
• Stable Performance Over Time: The low aging characteristic ensures that the crystal maintains its frequency accuracy over a long period of time.
• Compact Design: The small package size allows for a compact and efficient circuit design.
• Long-Term Reliability: The high reliability of the crystal ensures long-term performance and stability.
• Environmentally Friendly: RoHS compliance ensures that the crystal meets environmental regulations.

Additional Details

The 41.539MHz crystal typically comes in a surface-mount package or a through-hole package. Its key electrical characteristics include a frequency tolerance, a frequency stability over temperature, and a load capacitance. It's important to consult the datasheet for the specific frequency tolerance, frequency stability, load capacitance, and other relevant parameters to ensure proper application.

When using the 41.539MHz crystal, care should be taken to ensure that the oscillator circuit is properly designed to match the crystal's characteristics. The crystal should be properly mounted to minimize mechanical stress. The crystal's stable performance and small size make it a valuable component for various electronic applications. Proper handling and storage procedures should be followed to maintain the crystal's integrity and performance. The crystal's frequency stability is critical for applications requiring precise timing and synchronization.