SIT1602BC-11-28N-38.400000E

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Oscillators are commonly used in a variety of electrical and electronic applications, including relative sensors, telecom hardware, and industrial automation equipment. One example of an oscillator is the SIT1602BC-11-28N-38.400000E, a CMOS oscillator with superior performance and wide frequency range. This guide will seek to explain its applications and working principle.

Application Field

The SIT1602BC-11-28N-38.400000E oscillator is a perfect solution for applications that demand low power consumption and wide frequency range. It has an operating temperature range of -30degrees C to 85 degrees C, outside of which the device can become unstable. It is also suitable for use in a wide variety of product-specific applications because of its excellent jitter performance and tight frequency stability.

This oscillator can be used for a range of applications, including medical equipment, consumer electronics, servers, and data storage. Its tight frequency stability also makes it a good choice for telecommunications and other mission-critical applications. It is also suitable for use in high-temperature environments and many other applications due to its wide operating temperature range.

Working Principle

The SIT1602BC-11-28N-38.400000E oscillator works by exploiting electrical resonance. This is achieved by the use of a narrow-band band-pass filter, which uses two symmetrical resonant elements and a single connection for connecting them. These elements are tuned to the same resonant frequency, which is maintained by a feedback loop. This feedback loop is controlled by an oscillator controller, which is operated by a feedback capacitor and an inductor.

The oscillator controller monitors the output of the band-pass filter and adjusts the frequency so that it remains at the resonant frequency. This is done by adjusting the inductor to change the current flow through the filter. The voltage across the filter is also monitored and adjusted to maintain the resonant frequency.

In addition to its use of electrical resonance, the SIT1602BC-11-28N-38.400000E oscillator also uses a temperature-compensated frequency-stabilized crystal to ensure accurate frequency control. This crystal also helps to reduce the size of the oscillator. This contributes to the oscillator\'s low power consumption and its ability to operate in wide temperature ranges.

The combination of an electrical resonance circuit, a temperature-compensated frequency-stabilized crystal, and other components allows the SIT1602BC-11-28N-38.400000E to provide superior frequency stability and low jitter performance. This makes it an ideal choice for many applications.

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