SIT8208AI-2F-28S-28.636300T Datasheet/PDFOscillators play a major role in conduction of all sorts of communications, broadcasting and entertainment industries. They generally hold a fixed output frequency with respect to the input signal which then assists in the modulation process. Sit8208ai-2F-28s-28.636300t is an oscillator component which is used in a variety of such applications.
This oscillator is based on a crystal oscillator topology, and is suitable for wide temperature range operation (+85C to +105C) and also suits extreme environmental conditions, for instance, military and aerospace applications. The maximum frequency of the output signal ranges between 10MHz to 400MHz. The primary advantage of the Sit8208ai-2F-28s-28.636300t is its low jitter, which ensures less transmission errors and efficient modulation process. With Standby functionality, power consumption of the oscillator can be reduced to minimum which makes it compatible with the power management strategy.
The working principle of this oscillator is quite simple. It utilizes a quartz crystal or piezoelectric resonator which vibrates at a specific frequency. When an external voltage source is applied to the device, the electrical charge on the quartz crystal changes due to which the crystal oscillates with the frequency determined by the size and shape of the quartz crystal. The output frequency is then dependent on the tuning capacitor which is used to adjust the resonator frequency.
The Sit8208ai-2F-28s-28.636300t is used in a wide range of applications, including industrial motor controllers, cellular communication systems, navigation systems, precision instrumentation, satellite communication systems, microwave transmitters and receivers, and military communication. It also finds its application in VHF and UHF communication systems, imaging, medical and instrumentation, digital modem, mobile phones, pagers, and data networks.
In nutshell, the Sit8208ai-2F-28s-28.636300t is an integral part of oscillators. It is a quartz-based oscillator, which is used in a wide range of communication systems, including cellular communication, navigation systems, imaging, and instrumentation. It works by utilizing a quartz crystal or piezoelectric resonator, which vibrates at a specific frequency. It is also capable of working in extreme temperature conditions, and holds a low jitter, which makes it suitable for communication systems.