Oscillator design and implementation at 65 KHz or 250 KHz with input current in the range of micrometerThe design and implementation of the oscillator focus on achieving stable operation at a frequency of 65 kHz, tailored for applications requiring precision and low-power operation. The oscillator is designed to operate with an input current in the micrometer range, which is crucial for minimizing power consumption and ensuring compatibility with sensitive electronic systems or biomedical applications.Key aspects of the design include:1. Frequency Stability: The oscillator is configured to maintain a consistent frequency of 65 kHz or 250 KHz despite variations in environmental conditions such as temperature or supply voltage fluctuations. This stability is achieved through precise component selection and circuit topology optimization.2. Low Input Current: Operating with an input current in the micrometer range ensures minimal power usage, making the oscillator suitable for battery-powered or energy-sensitive systems. This feature is particularly advantageous in portable or embedded devices where energy efficiency is critical.3. Design Considerations: The implementation involves selecting components such as low-power transistors, inductance, resistors, and capacitors optimized for high precision and low noise. The design may also include feedback mechanisms to enhance the oscillator's stability and reduce distortion in the output signal.This approach ensures that the oscillator meets the performance requirements while maintaining energy efficiency and compatibility with the intended application.