SIT1602BC-83-30N-18.432000T

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Oscillators are a plentiful yet versatile component in electronics. They are commonly used in clocks, computer applications, radio transmitters, and even automotive applications. SIT1602BC-83-30N-18.432000T oscillator is an example of these versatile components, with its application field and working principle outlined in this article.

The SIT1602BC-83-30N-18.432000T oscillator is a crystal oscillator that consists of a quartz crystal and a few electronic components. It provides good frequency stability and accuracy. It is a low-noise high-precision clock generator with a frequency range of 16.777216 MHz to 18.432000 MHz. The clock generator is also highly stable over a wide temperature range with a temperature coefficient of 25 ppm/°C.

Due to its low noise and high precision, the SIT1602BC-83-30N-18.432000T oscillator is ideally suited for use in various application fields. One of its primary fields of application is communication systems. This oscillator is used in communication systems to generate a stable and accurate clock signal. It is also used in wireless communication systems, such as cellular networks, where noise and accuracy are major factors.

In addition to communication systems, the SIT1602BC-83-30N-18.432000T oscillator is also used in computer systems. It is often used for the timekeeping function of the computer system. It is also used as the clock pulses for systems such as CPU and microprocessor. The oscillator is also used in automotive systems, where its stable and accurate signals are utilized for the clock and synchronization.

The working principle of the SIT1602BC-83-30N-18.432000T oscillator can be divided into two steps. The first step is called the power-on reset. In this step, a circuit is used to activate the quartz crystal. This circuit is triggered by the power on reset signal, and the quartz crystal starts to vibrate. The oscillation frequency is determined by the size of the quartz crystal, and this frequency is used as the timekeeping value in the oscillator circuit.

The second step is the signal retiming step. In this step, an amplifier is used to reproduce the voltage generated by the quartz crystal. The amplified signal is then used to feed into the frequency divider. The divider reduces the frequency of the signal, and then the timing circuit and output enable circuit are used to generate the final clock pulse.

The SIT1602BC-83-30N-18.432000T oscillator is a versatile and reliable clock generator that has many applications in communication systems, computer systems, and automotive systems. Its low noise and high precision signals make it an ideal choice for those fields. Moreover, its working principle of power-on reset and signal retiming ensures good stability and accuracy of the clock signal.

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