NX7125003Z Datasheet/PDFOscillators - NX7125003Z Application Field and Working Principle
Oscillators are electronic circuits which enable electronic systems to generate a certain frequency signal. The NX7125003Z oscillator is an example of a crystal oscillator, which uses a quartz crystal as the frequency reference, and works in the range of 1 to 160 MHz.
The NX7125003Z oscillator is widely used in applications which require accurate frequency references, such as radar, communications, satellite, navigation, medical equipment, automotive, and consumer electronics. This oscillator is optimized to reduce size, power consumption, and cost. As such, it is a suitable choice for modern product designs, where space and energy efficiency are key factors.
The working principle of the NX7125003Z oscillator is based on the Piezoelectric effect, which occurs when an electrical field is applied to a quartz crystal. This results in the crystal vibrating or oscillating at a precise frequency determined by its construction. This frequency is then used as the reference for the oscillator circuit, which then produces a stable signal at the required frequency.
The piezoelectric effect of the quartz crystal is amplified by the oscillator circuit, which includes active and passive components such as transistors and capacitors. The circuit amplifies the piezoelectric effect and accurately controls the output frequency of the oscillator circuit. The circuit is tuned to the crystal by adjusting components such as capacitors to achieve the desired frequency.
The frequency accuracy, stability, power consumption and other parameters of the NX7125003Z oscillator can be precisely adjusted. This is done through a variety of methods, including the use of digital frequency synthesis, voltage control, and temperature compensation techniques. These techniques help to ensure that the circuit remains accurate and stable over a range of temperature, voltage, and other parameters.
Overall, the NX7125003Z oscillator is an ideal choice for a variety of applications where accurate frequency references are required. Its wide frequency range, small size, low power consumption, and cost-effectiveness make it a suitable choice for modern product designs.