NCK2912HHN/T0B/UY Overview
The NCK2912HHN/T0B/UY is a high-performance integrated circuit designed for precision timing and frequency control applications. Engineered to deliver stable oscillation with low phase noise and high frequency accuracy, this device ensures reliable operation in demanding industrial environments. Its compact form factor and wide operating temperature range make it suitable for diverse electronic systems requiring robust clock generation and synchronization. Manufactured by 集成电路制造商, this product stands out for its superior signal integrity and consistent performance under varying power supply conditions.
NCK2912HHN/T0B/UY Technical Specifications
| 参数 | 规格 |
|---|---|
| 输出频率 | 12 MHz |
| Frequency Stability | ??20 ppm over operating temperature |
| 工作温度范围 | -40°C 至 +85°C |
| 电源电压 | 3.3 V ?? 10% |
| 输出类型 | CMOS |
| Start-up Time | 10 ms max |
| Phase Jitter (RMS) | 1.5 ps typical |
| 包装类型 | 5 x 7 mm Ceramic Hermetic |
NCK2912HHN/T0B/UY Key Features
- Stable 12 MHz Output Frequency: Provides precise timing signals essential for synchronization in communication and control systems.
- 工作温度范围广: Maintains frequency stability from -40??C to +85??C, ensuring performance in harsh industrial environments.
- Low Phase Jitter: Minimizes signal noise, improving data integrity and reducing error rates in sensitive applications.
- CMOS Output Compatibility: Facilitates easy integration with modern digital logic circuits, enhancing design flexibility.
- Fast Start-up Time: Allows rapid system initialization and reduces latency in time-critical applications.
- Robust Ceramic Hermetic Package: Protects against environmental contaminants and mechanical stress, enhancing long-term reliability.
NCK2912HHN/T0B/UY Advantages vs Typical Alternatives
This product offers superior frequency stability and low phase jitter compared to typical oscillators, enhancing signal accuracy and reliability. Its wide operating temperature range and hermetic packaging ensure consistent performance in industrial conditions where standard devices may fail. The CMOS output and fast start-up time further improve integration and operational efficiency, making it a preferred choice for precision timing solutions.
🔥 畅销产品
典型应用
- Industrial automation systems requiring reliable clock sources for process control and timing synchronization in harsh environments.
- Telecommunication infrastructure equipment demanding low phase noise and stable frequency generation.
- Embedded systems where compact, energy-efficient timing devices are critical for overall system performance.
- Test and measurement instruments that need precise and consistent timing signals for accurate data acquisition.
NCK2912HHN/T0B/UY Brand Info
Produced by 集成电路制造商, the NCK2912HHN/T0B/UY reflects the company??s commitment to high-quality semiconductor components tailored for industrial applications. The brand is recognized for delivering reliable timing solutions with rigorous quality controls and advanced manufacturing processes. This product exemplifies the brand??s expertise in frequency control devices, combining precision engineering with robust materials to meet stringent performance standards.
常见问题
What is the typical frequency stability of this device over temperature?
The frequency stability is specified at ??20 ppm across the full operating temperature range of -40??C to +85??C. This ensures consistent output frequency despite temperature variations, critical for precision timing applications.
🌟 特色产品
What type of output signal does it provide?
The device features a CMOS output type, making it compatible with a wide range of digital logic circuits. This enhances ease of integration in modern electronic designs operating at low voltage levels.
How does the device perform in harsh environmental conditions?
Thanks to its ceramic hermetic package and wide temperature range, the device maintains stable operation in industrial environments subject to temperature extremes and potential contamination, increasing reliability and lifespan.
📩 联系我们
What is the typical start-up time after power application?
The start-up time is typically within 10 milliseconds, allowing rapid initialization of systems that require immediate timing signals upon power-up.
Can this device be used in communication systems?
Yes, its low phase jitter and precise frequency stability make it suitable for communication equipment requiring accurate clock signals to maintain data integrity and reduce transmission errors.
