SI5338C-B05413-GMR

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The SI5338C-B05413-GMR is a clock and timing chip that is part of the Si5338 family of digital timing solutions. It offers a broad range of feature and value enhancements over the previous Si5338 models. This includes an expanded frequency operating range, improved accuracy, low power consumption, and enhanced jitter attenuation and noise reduction features. The Si5338C-B05413-GMR is designed to provide industry-leading performance in clock and timing solutions for communications applications and digital signal processing.

The Si5338C-B05413-GMR is designed for use in communications applications such as clock and timing networks, video distribution systems, signal processing, and software radio applications. It is specifically designed to minimize latency, reduce signal sub-harmonics, and improve synchronization between multiple signal paths or data streams. The wide range of frequency selections, low power consumption and jitter attenuation capabilities make the Si5338C-B05413-GMR an ideal choice for applications where precision, accuracy, and low power consumption are critical.

Working Principle

The Si5338C-B05413-GMR utilizes oscillators with digital control that uses phase-locked loops (PLLs) to generate the clocks. The Si5338C-B05413-GMR uses phase-locked loops to convert the digital output of a reference clock into one or more clocks of different frequencies. The phase-locked loops are designed to maintain the phase of the output clocks relative to the reference clock, ensuring the clocks are accurate and synchronous. The Si5338C-B05413-GMR is designed to work with a wide range of inputs. It can accept a variety of crystal oscillator signals, including quartz crystals, ceramic resonators, tunable oscillators, and digitally programmable oscillators. It also accepts a variety of external reference clocks, such as a single-ended clock signal, an AC-coupled clock signal, or an LVDS clock signal.

The Si5338C-B05413-GMR also includes a variety of built-in features to help ensure accurate and reliable operation. It includes an integrated jitter attenuator to reduce jitter on the output clock, improving the accuracy and reliability of the clock signal. It also provides a spread spectrum feature that reduces the peak-to-peak amplitude of the output clock jitter, allowing for improved signal integrity and improved noise immunity. In addition, the Si5338C-B05413-GMR features integrated spread spectrum clocking and enable/disable pins to provide flexibility in the configuration of the device for different clocking requirements.

Applications

The Si5338C-B05413-GMR is an ideal solution for communications applications such as high-speed digital data transmission and data communications equipment. It can be used in a wide range of applications, including wireless networking systems, Ethernet switches, base stations, routers, switches, storage systems, and DSL modems. Its low power consumption makes it well suited for embedded systems, such as high-bandwidth consumer electronics and automotive systems. Its broad frequency range and PLL architecture make it well suited for clock and timing networks in server and storage systems. In addition, the Si5338C-B05413-GMR can be used in video distribution systems, such as set-top boxes, for precise clock and timing control.

The Si5338C-B05413-GMR is also suitable for a wide range of signal processing applications, including software radio and radar systems. Its wide frequency range and low power consumption make it ideal for use in software radios and other systems where precision timing and low power consumption are critical. It is also ideal for use in digital video surveillance systems, where its precise timing capabilities ensure accurate and reliable operation.

The Si5338C-B05413-GMR is a versatile and reliable digital timing solution that offers high performance and low power consumption. With its broad frequency range, low power consumption and enhanced jitter attenuation and noise reduction capabilities, it is an ideal solution for clock and timing networks, video distribution systems, and signal processing applications.

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