SIT1602BI-72-XXE-20.000000D

Oscillators – SIT1602BI-72-XXE-20.000000D Application Field and Working Principle

Oscillators are widely used electronic devices, integrated circuits, tuning circuits, resonators, clock circuits, and other types of circuits. Frequency synthesis circuits are an extension of the basic oscillator circuit, producing an output frequency dependent on the input of a variety of frequencies. Oscillators enable digital systems to carry out timing functions, and can be used in analog system’s frequency modulation. The SIT1602BI-72-XXE-20.000000D Oscillator is an ideal oscillator for use in various applications, allowing for both low power usage and low frequency variations.

Application Field

The SIT1602BI-72-XXE-20.000000D Oscillator is used in a wide variety of applications including:

• Digital Systems: Used for timing circuits and in systems requiring fixed frequency output.
• High-speed Low-noise: Ideal for signal processing, data conversion, video and image processing.
• Communication Systems: Used in a variety of frequency synthesis circuits.
• Semiconductor Fabrication: Used in equipment that requires low-power oscillators for accurate frequency stability.

Working Principle

The SIT1602BI-72-XXE-20.000000D Oscillator is designed primarily for use in communications and timing applications. The oscillator utilizes CMOS (Complementary Metal Oxide Semiconductor) switch technology to produce an output signal multiplexed the same as the external clock signal. The output signal is stable and precise in both high-rise/fall as well as low-rise/fall applications.

Each cycle of the oscillator begins with the external clock signal being applied to a group of D flip-flops in the oscillator\'s circuitry. The output from the flip-flops is then converted into a logic level output by a logic switch circuit. Each cycle of the oscillator is then completed with a pulse delay or multiplier circuit. This circuit delays the external clock input so that the output frequency is the same as the input frequency multiplied by the delay.

The output frequency is determined by the following formula: Fout = Fin x (1 + Δt) where Fout is the output frequency, Fin is the frequency of the external clock signal, and Δt is the delay or multiplier. In this equation, the output frequency is dependent on two factors: the frequency of the external clock signal and the delay or multiplier of the oscillator.

Conclusion

The SIT1602BI-72-XXE-20.000000D Oscillator is an ideal oscillator for use in various applications, allowing for both low power usage and low frequency variation. The oscillator utilizes CMOS switch technology to produce a logic level output, allowing it to be used in a variety of applications including digital systems, high-speed low-power systems, and communications systems. The oscillator’s frequency is determined by both the external clock signal and the delay or multiplier circuit within the oscillator, allowing for an accurate and precise output frequency.