FA-118T 26.0000MF10Z-AJ

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Crystals are a type of electronic component which have been used for a variety of applications since their first patented use in the mid-19th century. The use of crystals as transmitters and receivers of electronically-generated signals has been a common function of the technology, but their use has been expanded to enable their integration into many other specific devices and applications.

The FA-118T 26.0000MF10Z-AJ crystal is an example of a commercially available crystal designed for specific uses. It is a miniature, surface-mount, high-stability crystal oscillator based on quartz frequency control elements, and designed to work at a wide range of frequencies up to 26 MHz.

Application Field

The FA-118T 26.0000MF10Z-AJ crystal is typically used in communications and network applications, with particular application in mobile and wireless communications systems. It is also used in consumer electronics products and other high-speed digital applications, where it provides a reliable and accurate frequency generation for improved signal processing.

In communications systems, the crystal is often used as a local oscillator. This is because quartz crystals are highly stable in frequency and offer excellent symmetrical waveforms, making them ideal for communications applications. Crystal oscillators are also used to produce radio signals and provide a reference oscillator for testing, tuning and simulating wireless radio links.

Additionally, the FA-118T 26.0000MF10Z-AJ is used in many other digital devices, including modems, charger controllers, digital cameras, digital audio/video players and computers. Crystals also play a major role in the development of Global Positioning Systems (GPS) and navigation systems, where they provide the accuracy and reliability typically needed for these systems.

Working Principle

The FA-118T 26.0000MF10Z-AJ crystal oscillator works on the principle of piezoelectricity. This is a phenomenon in which a material, such as quartz, will generate an electric charge when a force or energy is applied to it, and a force is exerted when a voltage is applied. This is used in crystal oscillators to create an oscillating circuit and generate a frequency.

When a voltage is applied to a quartz crystal, the crystal vibrates at an extremely high frequency due to the piezoelectric effect. This frequency can be controlled by adjusting the applied voltage and the properties of the quartz crystal. The frequency of vibration is then used to maintain an oscillating circuit, which can then be used to generate a precise and stable frequency.

The FA-118T 26.0000MF10Z-AJ crystal oscillator also includes a feedback circuit to provide stability to the frequency output. The feedback circuit ensures that the crystal maintains a stable output frequency, even when there are temperature or voltage variations in the circuit. This feedback loop also helps to minimize jitter in the oscillator output, which is the slight variations in the frequency of the oscillator.

Conclusion

The FA-118T 26.0000MF10Z-AJ crystal is an example of a high-stability crystal oscillator designed to work at a wide range of frequencies up to 26 MHz. It is typically used in communications and network applications, with particular application in mobile and wireless communications systems. The crystal works on the principle of piezoelectricity, and also has a feedback circuit to ensure stability in the oscillator output. It is an important element in communications and digital devices, and is also used in the development of Global Positioning Systems (GPS) and navigation systems.

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