CY2291SXC-161 Overview
The CY2291SXC-161 is a highly reliable semiconductor device designed to meet demanding industrial applications requiring stable frequency generation. Featuring precise frequency control and low phase noise, it supports system designs that demand consistent timing accuracy. This component offers robust electrical characteristics and a compact footprint, making it ideal for integration into various electronic systems. Trusted for its durability and performance, the CY2291SXC-161 ensures operational efficiency in critical industrial and communication devices. For detailed technical support and purchasing options, visit الشركة المصنعة للدوائر المتكاملة.
CY2291SXC-161 Technical Specifications
| المعلمة | المواصفات |
|---|---|
| تردد التشغيل | 16.0 MHz |
| Frequency Stability | ??50 ppm max |
| جهد الإمداد | 3.3 V ?? 5% |
| شكل موجة الإخراج | CMOS |
| Output Load | 15 pF max |
| نطاق درجة حرارة التشغيل | -40 درجة مئوية إلى +85 درجة مئوية |
| Startup Time | 10 ms max |
| نوع الحزمة | 8 سنون SOIC 8 سنون |
| Phase Jitter | ??0.5 ps RMS typical |
CY2291SXC-161 Key Features
- Precise 16 MHz frequency output: Enables highly accurate clock signals critical for timing-sensitive applications.
- Low phase noise performance: Minimizes signal interference and enhances overall system reliability in communication and control circuits.
- نطاق واسع لدرجات حرارة التشغيل: Ensures stable function in harsh industrial environments from -40??C to +85??C.
- Compact 8-pin SOIC package: Facilitates easy PCB integration and supports space-constrained designs.
- استهلاك منخفض للطاقة: Optimizes energy efficiency for battery-powered and low-power systems.
- Fast startup time: Allows rapid system initialization and reduces overall power-on delays.
- Robust supply voltage tolerance: Supports stable operation with a nominal 3.3 V supply and ??5% variation.
CY2291SXC-161 Advantages vs Typical Alternatives
This device offers superior frequency stability and lower phase jitter compared to typical oscillators in its class, contributing to enhanced signal integrity. Its extended temperature range and fast startup time provide reliability and efficiency in industrial applications where environmental conditions vary. Additionally, the low power consumption and compact package improve system integration without compromising performance, making it a preferred choice over conventional timing devices.
🔥 المنتجات الأكثر مبيعًا
التطبيقات النموذجية
- Industrial automation systems requiring precise clock generation for motors and control units, benefiting from stable frequency and low jitter performance over varying temperatures.
- Communication equipment where low phase noise and accurate timing signals are essential for data integrity and synchronization.
- Embedded systems that demand compact, reliable oscillators to maintain system timing with minimal power consumption.
- Instrumentation and measurement devices where consistent frequency output ensures accuracy and repeatability.
CY2291SXC-161 Brand Info
The CY2291SXC-161 is manufactured by a leading semiconductor supplier known for delivering high-quality timing and frequency control solutions. This product reflects the brand??s commitment to precision engineering, reliability, and innovation in industrial-grade components. It is supported by comprehensive technical documentation and customer service to assist engineers and sourcing specialists throughout the design and procurement process.
الأسئلة الشائعة
What is the frequency stability of the CY2291SXC-161 under varying temperatures?
The frequency stability of this component is specified at ??50 ppm maximum across the operating temperature range of -40??C to +85??C. This ensures consistent performance even in environments with significant temperature fluctuations.
🌟 المنتجات المميزة
What type of output waveform does this oscillator provide?
The device outputs a CMOS waveform, which is compatible with a wide range of digital logic circuits, enabling straightforward integration into modern electronic systems.
How fast does the oscillator reach stable operation after power-up?
The startup time is a maximum of 10 milliseconds, allowing quick system initialization and reducing the delay before the oscillator provides a stable frequency output.
