Oscillators

The OH300-50503CF-025.0M is an oscillator that is designed for a wide variety of applications and environment. It is designed to provide a highly stable output frequency and features a robust construction that can withstand shock and vibration. It is also designed to operate over an extended temperature range for greater reliability. The oscillator is capable of driving up to 50MΩ impedances and is capable of operating in power supply voltages as high as 18VDC.

Application Field

The OH300-50503CF-025.0M oscillator is suitable for a variety of applications, such as in medical, automotive, industrial, telecommunications, and aerospace applications. It can be used to provide high frequency outputs, such as in radio frequency applications. It is also suitable for use in motor control applications, such as in automotive applications, where precise timing and control are required. It is also suitable for use in telecommunications systems, where a highly precise and stable output signal is required.

Working Principle

The OH300-50503CF-025.0M oscillator is based on a crystal oscillator design. A small quartz crystal is placed between two metal electrodes, which are connected to an oscillator circuit. When an alternating current is applied to the electrodes, the quartz crystal vibrates at a specific frequency. This frequency, known as the resonant frequency, is determined by the properties of the quartz crystal and the electrodes. The oscillator circuit then amplifies the resonant frequency and outputs a sinusoidal waveform with a precise frequency.

The OH300-50503CF-025.0M oscillator also utilizes a temperature compensating circuit that helps to ensure a more stable and precise frequency output. This circuit is designed to monitor the operating temperature of the oscillator and adjusts its output frequency accordingly. This allows the oscillator to maintain a highly accurate output frequency over a wide range of temperatures.

In addition, the OH300-50503CF-025.0M oscillator also utilizes a low phase noise circuit that helps to reduce the amount of electrical noise that the oscillator produces. This helps to ensure that the oscillator can maintain a highly accurate and stable output frequency without any interference from electrical noise.

Conclusion

The OH300-50503CF-025.0M oscillator is a highly reliable and stable oscillator that is suitable for a variety of applications. It is designed to operate over an extended temperature range and is capable of driving up to 50MΩ impedances. It is also equipped with a temperature compensating circuit and a low phase noise circuit, helping to ensure a highly accurate and stable output frequency. As such, the OH300-50503CF-025.0M oscillator is an ideal choice for a wide variety of oscillator applications.