ECX-H33BN-12.500 Crystals, Oscillators, Resonators

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Oscillators are generally used to generate a repeating waveform, and can also be used as a frequency reference by producing a square wave at a certain frequency. The ECX-H33BN-12.500 oscillator is ideal for a variety of applications, including test and measurement equipment, audio output level settings, redundancy systems, and telecommunications. In this article, we will discuss the applications and working principle of the ECX-H33BN-12.500 oscillator.

Applications

The ECX-H33BN-12.500 oscillator is a quartz-based oscillator, suitable for providing a wide range of frequencies in a range of 14.7 to 204 MHz. It comes in a compact, 2-pad ceramic package for easy mounting, with a frequency stability of ±100 ppm. This oscillator is suitable for applications requiring low power consumption, high performance, and ruggedness, such as those used in Telecom applications, cell sites, test and measurement systems, audio output level settings, and redundancy systems.

The ECX-H33BN-12.500 oscillator is also ideal for a variety of aerospace applications, such as mobile satellite communication systems and airborne navigation systems, as it provides a very stable frequency output, even in harsh operating environments. Furthermore, its ultra-low power consumption and wide temperature range make it ideal for small, battery-powered applications, such as medical and industrial applications.

Working Principle

The ECX-H33BN-12.500 oscillator is a quartz-based, analog-switching oscillator. It works by driving an oscillator circuit, which then generates an alternating voltage waveForm. This voltage waveform is then rectified, which creates a constant alternating current (AC) waveform. This AC waveform is then fed through an amplifier, which in turn drives the oscillator to generate the desired frequency. This frequency is then fed to the output of the oscillator.

The main components of the ECX-H33BN-12.500 oscillator are a quartz crystal, a capacitor, and a transistor. The quartz crystal is what controls the frequency of the oscillator. It vibrates at a given frequency, based on its size and shape. The capacitor is used to filter out any unwanted high-frequency components that may be present in the oscillator signal. The transistor is used to control the amplitude of the waveform, and it also serves to drive the crystal to oscillate at the desired frequency.

The ECX-H33BN-12.500 oscillator also utilizes an on-board temperature-compensated crystal oscillator (TCXO) to ensure a highly stable output signal. The TCXO uses a special circuit to sense the temperature and to adjust the frequency of the oscillator to compensate for any changes in temperature. This ensures that the oscillator maintains a high-level of accuracy under all operating conditions.

Conclusion

The ECX-H33BN-12.500 oscillator is an ideal solution for applications requiring a highly stable, crystal-controlled frequency output. It is suitable for a variety of applications, including test and measurement equipment, audio output level settings, redundancy systems, and telecommunications. Its robust construction and low power consumption also make it an attractive option for small, battery-powered applications such as medical and industrial applications. Finally, by utilizing a temperature-compensated crystal oscillator, the oscillator maintains a high-level of accuracy under all operating conditions.

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