Crystals are unique materials with unique properties that make them a desirable choice for many applications. CFS-20632768DZFB is a type of quartz crystal. It is most commonly used in high-precision oscillators, such as those used in the navigation systems and telecommunications of aircraft, ships, and satellites. It is also used in high-end consumer electronics and medical instrumentation.
CFS-20632768DZFB is a quartz monocrystal with a two-sided face-centered cubic lattice structure, which imparts with it excellent frequency stability, temperature and aging characteristics. This type of crystal features high cut frequencies and low pull ranges, allowing it to achieve precise and reliable operation in a wide range of temperatures.
Unlike mechanical and electromechanical devices, CFS-20632768DZFB oscillators are largely immune to vibrations and external shocks and remain highly precise despite changes in ambient conditions. This makes them the ideal choice for applications that require a reliable source of accurate frequency.
When CFS-20632768DZFB is used in an oscillator, the crystalline material acts as a resonator, producing a set frequency when stimulated by an electric current. The surprising thing is that the frequency generated by the oscillator is very close to the natural frequency of the crystalline material itself. This is possible because CFS-20632768DZFB is a piezoelectric material – meaning it converts electrical energy into mechanical energy and vice versa.
The internal structure of CFS-20632768DZFB makes it sensitive to temperature variations. The resonance frequency of the crystalline material changes when it is exposed to temperature extremes. On the other hand, the crystal structure is so rigid that it remains unaffected by external physical shocks and environmental stresses, giving it unparalleled reliability.
CFS-20632768DZFB crystals can be used in a variety of devices and applications. These include radios and audios, navigation and telecommunications systems, watches, industrial automation systems, medical instrumentation, and robotics. Its unique properties make it the ideal choice for applications that require a reliable source of accurately frequency.