The XG-1000CA 106.2500M-CCL3 is an oscillator used in many applications. Oscillators are a type of electronic component used to generate an alternating current or voltage at a specified frequency. The XG-1000CA is designed for very precise frequency control, and is used in a variety of applications such as radio transmitters, signal generators, navigation systems and medical imaging equipment. This article will discuss the application field and working principle of the XG-1000CA.
The XG-1000CA is a quartz crystal oscillator, meaning it uses quartz crystal resonator as its resonator. Quartz is an excellent material for oscillators as it has a very high frequency stability, and the XG-1000CA is designed to operate over a wide temperature range of -20 to +85°C and maintain a frequency accuracy of ±100ppm. This makes it suitable for precision applications where exact frequency control is necessary. The XG-1000CA is capable of generating a wide range of frequencies from 1.8432MHz to 105.00MHz, and includes a built-in capacitor and transistor amplifier.
The working principle of the XG-1000CA involves both electrical and mechanical processes. Electrically, the quartz crystal resonator acts as a filter circuit, allowing the oscillator to produce a stable output frequency. When voltage is applied to the quartz crystal, it produces an electrical signal that oscillates at a specific frequency. This signal is then amplified and outputted at the desired frequency. Mechanically, the quartz crystal resonator oscillates due to the mechanical properties of quartz. When voltage is applied to the quartz crystal, it will deform and vibrate at a specific frequency, which is determined by the size and shape of the crystal.
Overall, the XG-1000CA 106.2500M-CCL3 is a quartz crystal oscillator that is designed for use in a range of applications where precise frequency control is necessary. It combines capacitive and transistor components with a quartz crystal resonator to provide a reliable, stable output frequency. Its wide temperature range, frequency accuracy and frequency range make it suitable for a variety of applications, particularly in radio transmitters, signal generators, navigation systems and medical imaging equipment.