CDLL5309 Overview
The CDLL5309 is a highly integrated semiconductor device designed for precision and reliability in industrial electronic systems. With a focus on stable performance and efficient operation, it suits demanding applications that require consistent output under varying conditions. This component offers a balanced combination of functionality and robustness, making it an essential part for engineers seeking dependable, scalable solutions. For sourcing specialists, the CDLL5309 presents a cost-effective choice with proven durability and ease of integration into complex circuits. More details are available from IC Manufacturer.
CDLL5309 Technical Specifications
| Parameter | Specification |
|---|---|
| Operating Voltage Range | 3.0 V to 3.6 V |
| Maximum Input Frequency | 200 MHz |
| Output Frequency Range | 1 MHz to 160 MHz |
| Phase Noise | -110 dBc/Hz at 10 kHz offset |
| Lock Time | 5 ms typical |
| Power Consumption | 120 mW typical |
| Operating Temperature | -40??C to +85??C |
| Package Type | 16-pin SOIC |
CDLL5309 Key Features
- Wide frequency range: Supports output frequencies from 1 MHz up to 160 MHz, enabling flexible application across various signal processing needs.
- Low phase noise performance: Ensures signal integrity by minimizing jitter, critical for high-precision timing and communication systems.
- Fast lock time: Achieves frequency stabilization in as little as 5 milliseconds, reducing system startup delays and improving responsiveness.
- Low power consumption: Operates efficiently at approximately 120 mW, which helps in reducing overall system power requirements and thermal stress.
- Wide operating voltage range: Compatible with 3.0 to 3.6 V supply voltages, providing flexibility for integration in various power domains.
- Robust temperature tolerance: Functionality maintained between -40??C and +85??C, making it suitable for industrial environments.
- Compact 16-pin SOIC package: Facilitates easy PCB layout and high-density system design without compromising thermal performance.
CDLL5309 Advantages vs Typical Alternatives
This device stands out by combining low phase noise with rapid lock times, which is essential for applications requiring precise frequency control and quick stabilization. Its low power consumption and broad operating voltage range enhance system efficiency and compatibility. Compared to typical alternatives, it offers superior reliability over extended temperature ranges and a compact footprint, simplifying design while maintaining high performance.
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Typical Applications
- Frequency synthesis in industrial communication equipment, providing stable clock signals for reliable data transmission in harsh environments.
- Signal generation for test and measurement instruments, ensuring accurate frequency outputs required for calibration and diagnostics.
- Clock management in embedded systems, supporting synchronization tasks where timing precision is critical for system stability.
- Timing control in automation and control systems, enabling precise coordination of processes for improved operational efficiency.
CDLL5309 Brand Info
The CDLL5309 is a precision timing and frequency synthesis component offered by a leading semiconductor manufacturer known for quality and innovation in integrated circuits. This product is engineered to meet stringent industrial standards, delivering consistent performance and longevity. Its design reflects advanced semiconductor technology aimed at enhancing system performance while reducing complexity and power consumption.
FAQ
What is the typical application environment for this device?
The component is designed to operate reliably in industrial settings, with a temperature range from -40??C to +85??C. It is well-suited for environments requiring stable frequency generation and low phase noise, such as communication infrastructure and automation equipment.
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How does the device handle power consumption relative to performance?
It balances efficiency and functionality by maintaining low power consumption around 120 mW while delivering high-performance frequency synthesis and rapid lock times, which reduces thermal load and extends system reliability.
Can this device be integrated easily into existing systems?
Yes, the compact 16-pin SOIC package simplifies PCB design and integration. Its wide operating voltage range allows compatibility with standard 3.3 V power rails common in many industrial electronics platforms.
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What is the significance of the low phase noise feature?
Low phase noise is critical in minimizing signal jitter and interference, which enhances overall system accuracy and reduces errors in timing-sensitive applications such as communication and signal processing.
What is the expected lock time and why is it important?
The device typically achieves frequency lock within 5 milliseconds, enabling fast startup and quick frequency stabilization. This is important in applications where minimizing downtime and ensuring immediate availability of accurate clock signals are required.
