SIT9120AC-2B1-25E133.333000G

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Oscillators are electronic components that generate a specific frequency of alternating current (AC) of a specified level from a direct current (DC) source. This frequency is usually constant, assuming only minor variation with temperature and other variations in the power source. Oscillators are used for a variety of applications, from timing circuits to electronic test equipment, as well as in telecommunications and computers. SIT9120AC-2B1-25E133.333000G is a type of oscillator.

SIT9120AC-2B1-25E133.333000G is a quartz crystal oscillator with an operating temperature range of -30°C to +85°C. It is easy to assemble with its surface mountable design. The terminal out put impedance is low and the test levels and clocking frequencies are high, allowing extended applications such as auto-tuning systems. This oscillator is powered by a 4.5 to 5V DC input and can provide output frequencies of up to 200MHz, with accuracy of 0.13%.

The main application of this type of oscillator is precision timing and phase synchronization without the need for calibration. This makes it a suitable component for a variety of synchronization applications, such as digital communication systems, communications equipment, industrial control systems and instrumentation. The excellent stability and accuracy means it can be used for precise frequency and timing control, such as that required in communications systems.

The SIT9120AC-2B1-25E133.333000G oscillator’s working principle is based on a quartz crystal oscillator. Quartz is piezoelectric, meaning it can be made to vibrate when electricity is applied to it. When electricity is applied to the quartz crystal, it vibrates at a specific frequency as determined by its structure and size. This frequency is then passed on to the output of the oscillator.

The quartz oscillator is designed to take advantage of the unique properties of the quartz crystal. The crystal has many internal impedances that determine the output frequency of the oscillator. The most common design is the Pierce oscillator, which uses the quartz crystal and two amplifying transistors to create the alternating current signal. The input DC signal is first converted into an alternating current signal and then amplified and shaped to create an oscillation at the desired frequency.

The oscillator also has external components, such as resistors and capacitors, that control the frequency of the oscillation as well as the amplitude of the signal. The frequency of the oscillation can be adjusted by changing the values of these components. This allows for precise oscillation at a wide range of frequencies.

The SIT9120AC-2B1-25E133.333000G is a highly accurate quartz crystal oscillator, designed for use in a variety of applications requiring precision timing and phase synchronization. The oscillator is capable of providing output frequencies of up to 200MHz, with an accuracy of 0.13%. Its surface mountable design makes it easy to assemble and the low terminal output impedance makes it suitable for auto-tuning systems. The working principle of the oscillator is based on the properties of quartz crystals and the Pierce oscillator design, which allows for precise frequency control.

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