Crystals
9B-16.384MAAE-B Application Field and Working Principle
The 9B-16.384MAAE-B is a popular quartz crystal unit used for frequency control and timing use. This device is generally used in radio transmitters, and it operates by generating a specific, predetermined frequency. The frequency of the output signal is determined by the size and shape of the crystal. This allows manufacturers to select a crystal that meets their exact frequency need.
The characteristics of a quartz crystal makes them ideal to be used as frequency references in many applications. The frequency of a quartz crystal is determined by its size, shape, and the orientation of its opposite faces. As such, manufacturers can design and produce quartz crystals to meet exact frequency requirements very precisely. The frequency of a quartz crystal is generally very stable and this stability is useful for use as a time keeping device.
The 9B-16.384MAAE-B is an AT cut quartz crystal unit which has a high frequency stability and accuracy. It also has a low temperature coefficient, which guarantees precision and repeatability of the output frequency at the varying temperatures. This device has a frequency range of 16.384MHz and it is suitable for use with instrumentation platforms, communications and automotive devices.
The 9B-16.384MAAE-B quartz crystal is manufactured from a single crystal by forming a non-linear elastic oscillator made of quartz. The size and shape of the crystal determine the oscillator’s resonance frequency. The frequency of the oscillating signal is constant and dependent on the size, shape, and orientation of the crystal.
The 9B-16.384MAAE-B utilizes a circuit design with a built-in amplifier to provide a low distortion signal. This signal is suitable for frequency modulation, phase locked loop, or other timing applications. The device also employs a fast start up, high stability and low noise.
In conclusion, the 9B-16.384MAAE-B quartz crystal unit is used for generating a specific frequency signal with accuracy and stability. It is suitable for use in radio transmitters, instrumentation platforms, communications, and automotive devices. The signal generated by this device is ideal for various frequency modulation techniques and phase locked loops.