The programming of the microcontroller was accomplished using Atmel studio 7 on Windows 10. The goal of converting the analog voltage produced by the Sharp IR sensor to a digital signal was accomplished using the ADC of the microcontroller. The ADC was setup in an ADC initializing function, ADCinit. PC5 was selected as the input for the ADC by setting the MUX0 and MUX2 to 1. The ADCSRA register was set up to enable the ADC, enable auto trigger, enable interrupts and set the prescaler to 64. Global interrupts were enabled in this function using the sei instruction. The output voltage of the sharp IR sensor was found to have a range of 0 to 3 volts depending on the distance. The ADC voltage reference was set to 3.3 volts to more closely match the output of the IR sensor as opposed to the 5 volt default. This was accomplished using AREF as the voltage reference by connecting the 3.3 volt output of the microcontroller to AREF pin with a jumper wire. The LED brightness was controlled with PWM. PWM was set up in the PWMinit function. The clock was set up with no prescaler and using CTC mode. In this mode the OCR1A acts as the top value of the counter while the OCR1B is the value to be compared to. Interrupt service routines were used to change the duty cycle based on the ADC value passed into the duty variable and then by setting OCR1B compare value to duty. The result of the program was a smooth fluctuation in the brightness of the LED based on the distance of a hand or object from the sensor.
The Wah circuit was combined with the microcontroller by inserting the LED and LDR into a heat-shrink tube in order to have the light passed to the LDR directly related to the LED without outside light interference. The resulting behavior of the LED based on hand position can be observed in the video above.