ABM8W-13.4916MHZ-6-B2U-T3

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Crystals have been used for hundreds of years in all forms of technology, from radio and wire-free communication systems to computers and audio components. The ABM8W-13.4916MHZ-6-B2U-T3 crystal is a perfect example of a quartz crystal oscillator used in specialized applications. This particular model of oscillator has an effective stabilizing frequency of 13.4916MHz, which can be deviated by up to +- 30 ppm (+- 30 ppm). It is commonly used in a variety of industrial and scientific applications, including RF telemetry systems, medical technology, military radios, and other advanced applications.

Introduction to ABM8W-13.4916MHZ-6-B2U-T3

The ABM8W-13.4916MHZ-6-B2U-T3 quartz crystal oscillator is a full-size oscillator that uses a crystal and a high frequency wave to accurately maintain an accurate frequency and output power. The oscillator is typically powered by a 5.0 VDC supply or an internal battery source in some cases. The oscillator works by applying an alternating electric field to the crystal material to create a net vibration, or oscillation in the crystal at a specific frequency. This frequency is controlled by the physical size of the crystal itself, and is typically very precise. This makes the ABM8W-13.4916MHz-6-B2U-T3 crystal oscillator ideal for use in applications that require high levels of precision.

Applications and Working Principle

The ABM8W-13.4916MHz-6-B2U-T3 is an ideal choice for a variety of applications that require extremely precise frequency control with minimal deviations. This particular crystal can be used in applications such as RF telemetry systems, medical technology, military radios, and other advanced applications. The crystal has an intermediate frequency range of 49 MHz to 200 MHz, and a maximum power rating of 10mW. It also offers a wide range of environmental tolerances, including wide temperature range from -20 °C to +85 °C and a wide range of humidity from 0% to 100% relative humidity.

The working principle of this crystal is not complicated and can be easily understood. A crystal quartz is cut in the shape of a tuning fork and fed with a direct current voltage. This voltage produces mechanical vibration in the crystal, creating an alternating electric field. This electric field causes a mechanical strain in the quartz lattice and produces an electrical signal with a harmonic frequency. The frequency of this signal is generally proportional to that of the voltage applied. This signal is then amplified and processed to achieve the required frequency output.

Conclusion

The ABM8W-13.4916MHz-6-B2U-T3 quartz crystal oscillator is a rugged and reliable crystal oscillator ideal for use in applications that require high levels of precision and stability. It has an effective stabilizing frequency of 13.4916MHz and can be deviated by up to +- 30 ppm. The oscillator is capable of operating under wide temperature and humidity ranges and its power requirements are low, making it a viable choice for a wide range of applications. The crystal works via a direct current voltage that is applied to the quartz material to create an alternating electric field, producing an electrical signal with a harmonic frequency.

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