AX7MAF1-480.0000C Datasheet/PDFOscillators are electronic components that are used to generate vibrations or electrical signals. This makes them an essential component of most modern electrical and electronic systems. AX7MAF1-480.0000C is a type of oscillator that is designed for precision timing applications. The features and working principle of this oscillator are what make it unique amongst the many available oscillators.
The features of AX7MAF1-480.0000C include a low-noise output and an output frequency range from 1MHz to 480MHz. It has a wide input voltage range of 1.8V to 5.5V, which makes it suitable for a variety of applications. The oscillator is also capable of providing a phase noise of -105dBc/Hz at 1MHz, which is lower than that of most other crystals available in the market. The oscillator also has a low power consumption of just 10mA, which makes it suitable for battery-powered applications.
The AX7MAF1-480.0000C oscillator works by using a quartz crystal oscillator to generate the desired frequency. The oscillator uses an internal circuit to achieve high accuracy and precise frequency control, which makes it ideal for use in communications, test and measurement, medical, time-keeping and aerospace applications. Additionally, the oscillator also has a low power consumption, which makes it a cost efficient choice.
Applications for the AX7MAF1-480.0000C oscillator include automatic timer accurate timekeeping, real-time clock systems, frequency synthesis and digital signal processing (DSP). These applications require precise timing and frequency control, which can be provided by this type of oscillator. Other applications include precision clock frequency synthesis for communications systems, microprocessor timing in computers and industrial control and monitoring.
In summary, AX7MAF1-480.0000C oscillator is an efficient and cost-effective oscillator for precision timing applications. It offers features such as a wide input voltage range, low-noise output and low power consumption, which makes it suitable for a variety of applications. The oscillator also has a low power consumption, which makes it an ideal choice for battery-powered applications. The oscillator\'s working principle involves using a quartz crystal oscillator to generate the desired frequency, and an internal circuit to achieve precise frequency control.