The Panasonic XP1113 is a crystal oscillator designed to provide a stable and accurate clock signal for various electronic applications. It is engineered for reliability and consistent performance, making it a suitable choice for systems requiring precise timing.
Applications:
- Microcontroller clock sources
- Real-time clocks (RTCs)
- Communication devices
- Industrial control systems
- Consumer electronics
- Frequency generators
Features:
- High frequency stability
- Low jitter
- Compact design
- Wide operating temperature range
- Excellent aging characteristics
- RoHS compliant
Benefits:
- Accurate Timing: Provides precise and reliable clock signals for critical applications.
- Consistent Performance: Engineered for stable and consistent operation across various conditions.
- Easy Integration: Designed for easy integration into a wide range of electronic systems.
- Long-Term Reliability: High-quality components and robust design ensure long-term dependability.
- Environmentally Friendly: RoHS compliance minimizes environmental impact.
The XP1113 oscillator's high frequency stability is crucial for maintaining accurate timing in real-time clocks and synchronizing data transmission in communication systems. Its low jitter minimizes signal distortion, ensuring clean and stable signals for sensitive applications. The oscillator operates over a wide temperature range, making it suitable for diverse environmental conditions. Its compact design allows for space-saving installations, while its robust construction ensures long-term reliability.
The aging characteristics of the XP1113 are carefully controlled to maintain frequency stability over extended periods, reducing the need for frequent recalibration. This stability is vital for applications where long-term accuracy is essential. The oscillator is designed to be compatible with various power supply voltages, simplifying integration into existing systems.
In summary, the Panasonic XP1113 is a dependable and high-performance crystal oscillator, suitable for applications requiring precise and stable frequency generation, offering a combination of accuracy, reliability, and ease of use.