The NDK AT-41CD2-20.49978MHZ is a surface-mount crystal oscillator designed for precision timing and frequency control in electronic circuits. This oscillator provides a stable and accurate 20.49978 MHz output signal, making it suitable for a wide range of applications that require reliable clock signals. Its compact size and surface-mount design allow for easy integration into various electronic devices and systems.

Applications:

• Microcontrollers
• Communication equipment
• Consumer electronics
• Industrial control systems
• Timing circuits

Features:

• 20.49978 MHz output frequency
• Surface-mount package
• High frequency stability
• Low phase noise
• Wide operating temperature range
• RoHS compliant

Benefits:

• Provides a stable and accurate clock signal for reliable system operation.
• Enables easy integration into electronic circuits, saving space and reducing assembly costs.
• Ensures consistent performance over a wide range of environmental conditions.
• Minimizes signal jitter and noise, improving overall system performance.
• Complies with environmental regulations, ensuring safe and responsible use.

Additional Details:

The AT-41CD2-20.49978MHZ crystal oscillator features a robust design that provides excellent frequency stability over a wide operating temperature range. This is crucial for applications where environmental conditions can fluctuate, ensuring consistent and reliable performance. The low phase noise characteristics of the oscillator minimize signal jitter, which is particularly important in high-speed data communication and sensitive timing applications.

The surface-mount package allows for automated assembly, reducing manufacturing costs and improving production efficiency. The oscillator is also RoHS compliant, meaning it does not contain hazardous substances and is safe for use in a variety of applications. Its compact size makes it ideal for use in portable devices and other space-constrained applications. This crystal oscillator is a reliable and cost-effective solution for providing accurate timing signals in a wide range of electronic systems.