SIT1602BC-31-33E-12.000000Y Datasheet/PDFOscillators
SIT1602BC-31-33E-12.000000Y oscillators comprise a range of products designed for use in a wide variety of applications. The oscillators are based on crystal technology which provides stability and accuracy. They are available in a wide variety of frequencies and packages, making them suitable for a variety of applications.
Application Field
SIT1602BC-31-33E-12.000000Y oscillators are widely used in telecommunications, computer systems, electronic equipment, and automotive applications. They are used wherever precision timing is needed, for example in phase-locked loops (PLLs), frequency multipliers, delay locked loops, and other digital systems. In addition, the oscillators can be used as a reference clock for digital signal processor (DSP) systems.
Working Principle
The SIT1602BC-31-33E-12.000000Y oscillator works on the basis of a quartz crystal oscillator circuit. A quartz crystal is a small quartz crystal element, typically about the size of a grain of sand. When connected to an electronic circuit, the quartz crystal creates a very stable frequency that can be used as a time reference. The frequency of the oscillator is determined by the thickness and size of the quartz crystal. The oscillator produces a stable frequency that is accurate to the parts-per-million level.
The oscillator circuit comprising the quartz crystal is connected to a timing circuit, often referred to as a “ring counter”. The timing circuit produces a pulse once per cycle of the oscillator, and the pulse is used as a reference for the circuit. The pulse is used to control the operation of the circuit, such as setting the frequency of an electronic signal.
The SIT1602BC-31-33E-12.000000Y oscillator is designed for use in high-accuracy applications, such as those used in radio transmission systems and instrumentation. It provides very precise and accurate timing, making it an ideal choice for applications requiring the highest accuracy.
Conclusion
The SIT1602BC-31-33E-12.000000Y oscillator is an excellent choice for a wide range of applications which require very precise and accurate timing, due to its crystal-based design. It is used widely in telecommunications, computer systems, electronic equipment, and automotive applications. It is also ideal for use in phase-locked loops, frequency multipliers, delay locked loops, and other digital systems. As such, it is an excellent choice for any application requiring precise timing accuracy.