416F30035ADR Datasheet/PDFCrystals come in all shapes, sizes, and applications. A common type of crystal is the 416F30035ADR, which is used for timing and frequency measurement due to its precision. This crystal oscillator has extremely low phase noise and excellent frequency stability, making it perfect for a variety of applications. In this article, we will take a closer look at the 416F30035ADR and discuss the application field and working principle.
Application Fields
The 416F30035ADR crystal oscillator is used in a variety of applications where timing and frequency measurement are important. Some of the common applications include RF communication systems, cellular base stations, GPS navigation systems, digital television, radio communications, and audio equipment. The crystal is especially useful in applications that require high performance, such as in radio transmitters, where the exact frequency is required to maintain clarity of the signal.
The 416F30035ADR is also used in scientific instruments such as oscilloscopes and frequency counters. It provides extremely high precision and stability, which allows scientists to measure and analyze signals with greater accuracy. The crystal is also used in frequency synthesizers, where it continuously adjusts the output frequency to maintain the desired output.
Working Principle
Like all crystals, the 416F30035ADR is made from Quartz. The oscillator works by using the vibrations of a sliced crystal to create an electrical current. The crystal is cut in such a way that the vibration of one surface causes the other surface to move back and forth. This creates an alternating current that can be used for timing and frequency measurement.
The crystal is connected to two electrodes, which act as a circuit. When the current passes through the electrodes, it creates an oscillating electrical field. This field causes the crystal to vibrate at a predetermined frequency, usually set by the manufacturer. This frequency is extremely stable, allowing it to be used in precision timing applications.
The 416F30035ADR is designed to operate between the temperature range of -40°C and 85°C, making it suitable for a wide range of environmental applications. It also has excellent frequency stability and phase noise, which makes it ideal for precision time and frequency operations.
Conclusion
The 416F30035ADR is a precision crystal oscillator used in a variety of timing and frequency measurement applications. Its excellent phase noise and frequency stability make it perfect for RF communication, navigation systems, and scientific instruments. Its ability to operate over a wide temperature range also makes it suitable for a wide range of environmental applications. With its precision and reliability, the 416F30035ADR is a perfect choice for any application that requires extremely accurate timing and frequency measurement.