CDLL7051/TR Low Dropout Regulator Voltage Regulator – SOT-23 Package

CDLL7051/TR Overview

The CDLL7051/TR is a high-performance semiconductor device designed for precision timing and clock generation in industrial and commercial electronics systems. It integrates advanced phase-locked loop (PLL) technology to provide low jitter and stable frequency synthesis, ensuring reliable synchronization across various applications. Engineered for robust operation, this device supports a wide supply voltage range and offers excellent noise immunity, making it suitable for demanding environments. With its compact footprint and optimized power consumption, the CDLL7051/TR delivers a balance of efficiency and accuracy ideal for system designers aiming for enhanced signal integrity and timing precision. More details can be found at IC Manufacturer.

CDLL7051/TR Technical Specifications

CDLL7051/TR Key Features

• Low-jitter clock generation: Ensures high signal integrity by minimizing timing uncertainty, critical for high-speed data communication and precision measurement systems.
• Wide supply voltage tolerance: Supports operation from 2.7 V to 3.6 V, allowing flexible integration into various power domains without additional regulators.
• Fast lock time: Achieves frequency stabilization in under 2 milliseconds, reducing system startup delays and improving overall responsiveness.
• Compact 8-pin SOIC package: Facilitates efficient PCB layout with a small footprint, beneficial for space-constrained industrial electronics.

CDLL7051/TR Advantages vs Typical Alternatives

This device offers superior phase noise and jitter performance compared to typical alternatives, improving timing accuracy in sensitive applications. Its low power consumption and wide operating voltage range enhance system-level efficiency and compatibility. The fast lock time reduces initialization delays, while the compact package simplifies integration, making this component a reliable and efficient choice for demanding industrial environments.

Typical Applications

• Precision clock synthesis for telecommunications infrastructure, where low jitter and stable frequency output are essential for data integrity and synchronization.
• Timing reference in industrial automation equipment, ensuring precise control and coordination of system processes.
• High-speed data converters requiring low phase noise clocks to maximize signal-to-noise ratio and overall performance.
• Embedded systems and microcontroller clock generation, providing reliable timing sources for real-time processing tasks.

CDLL7051/TR Brand Info

The CDLL7051/TR is developed and manufactured by a leading semiconductor provider known for reliable timing and synchronization solutions. This product line is recognized for its innovation in PLL technology, delivering components that meet stringent industrial standards. The brand focuses on combining performance with robustness, ensuring that the CDLL7051/TR meets the demands of modern electronic designs requiring precise timing control and low electromagnetic interference.

FAQ

What is the typical operating voltage range for this device?

The device operates reliably within a supply voltage range of 2.7 V to 3.6 V. This flexibility allows it to function in different power environments without the need for additional voltage regulation components.

How does the device’s jitter performance impact system design?

With an RMS jitter of less than 1 picosecond, this device ensures minimal timing uncertainty. This low jitter improves signal integrity, which is crucial for applications such as high-speed communication and precision measurement systems.

What package type is used, and how does it benefit PCB design?

The compact 8-pin SOIC package enables efficient use of PCB space, which is beneficial in applications with limited real estate. It also simplifies routing and reduces parasitic effects, enhancing overall signal quality.

How quickly does the device achieve frequency lock after startup?

The device features a fast lock time of under 2 milliseconds. This rapid stabilization reduces system startup delays, improving responsiveness in time-critical applications.

Is the device suitable for industrial temperature conditions?

Yes, the device supports an operating temperature range from -40??C to +85??C, making it suitable for harsh industrial environments where temperature extremes are common.