DSC6301MI2BA-038.0000T Datasheet/PDFOscillators
DSC6301MI2BA-038.0000T Application Field and Working Principle
Oscillators are electronic circuits that are designed to generate a repetitive electronic signal. The signal generated can be sine wave, square wave, or any other waveform. They can be used in a variety of applications, such as communication systems, audio and video playback, general-purpose computers, power supplies, and more. Oscillator DSC6301MI2BA-038.0000T is a type of oscillator that has been developed for use in various applications.
Application Field
The DSC6301MI2BA-038.0000T oscillator is most commonly used in communications and measurement equipment. It is particularly suitable for applications such as GSM, X-ray imaging, ultrasound imaging, video conferencing, electronic medical imaging, and industrial automation. It is also used in television and video equipment to maintain a stable frequency for image synchronization. The oscillator is also suitable for time and frequency standard quality in precision measurement and long-term calibration of laboratory and production applications.
Working Principle
The DSC6301MI2BA-038.0000T oscillator uses a crystal as its resonator for generating precise frequency signals. It has a quartz crystal in its internal circuitry that creates an oscillating electric field. The crystal’s electrical resistance changes in response to the alternating current that flows through it. This variation in electrical resistance produces an output signal at the same frequency as the applied alternating current. This signal is then amplified and filtered for producing an output of frequency determined by the crystal.
The oscillator also includes a phase-locked loop (PLL) that helps maintain the output frequency. The PLL compares the output frequency to a reference frequency and adjusts the crystal oscillator’s frequency accordingly. This helps ensure that the output frequency is accurate and remains stable.
Advantages
The DSC6301MI2BA-038.0000T oscillator offers significant advantages over other types of oscillators. It provides good phase stability, making it ideal for applications where accurate frequency control is needed. It also offers excellent electrical characteristics, such as low power consumption, high frequency stability, and low phase noise. It has a small size and is lightweight, making it easy to install in tight spaces. Finally, it is relatively inexpensive compared to other large-scale oscillators.