SIT8209AC-2F-25E-150.000000X Datasheet/PDFOscillators are electrical devices used to generate alternating current oscillations between waveforms. These oscillators are used in a wide range of applications, including radio transmitters and receivers, high frequency generating circuits, and frequency measurement circuits. The SIT8209AC-2F-25E-150.000000X is a part of these oscillators, and is used for high precision frequency generation in a wide range of applications.
The SIT8209AC-2F-25E-150.000000X is an ultra precision frequency oscillator capable of generating multiple frequencies up to 2.5 GHz. It is designed for use in precision measurements and industrial communications applications such as radar, radio communication, and ultrasound. This oscillator is very frequency stable and has very low jitter, making it suitable for applications that require high accuracy. It is also highly reliable and built to withstand demanding environmental conditions.
The SIT8209AC-2F-25E-150.000000X operates using a bandgap reference circuit combined with an inductive divider. The bandgap reference circuit is used to stabilise the output voltage over changes in temperature and supply voltage. The inductive divider is then used to divide the frequency of the base oscillator, and a voltage control oscillator (VCO) is used to control the output frequency. A frequency synthesizer is also used to continuously adjust the output frequency over a wide range.
In operation, the SIT8209AC-2F-25E-150.000000X is connected to an external reference source, such as a crystal oscillator. This reference source is then used to set the output frequency of the oscillator, and the frequency is maintained over temperature and supply voltage variations. The frequency can also be adjusted by applying a control voltage to the VCO input, allowing for very precise control of the output frequency.
The SIT8209AC-2F-25E-150.000000X is relatively small, measuring only 0.8" x 0.8" x 0.26" (2 mm x 2 mm x 6.3 mm). It is also easy to use and highly reliable, making it an ideal choice for many different applications. It is primarily used in industrial communications applications, where very precise and frequency stable signals are required. It is also used in radar, radio communication, and ultrasound applications.