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This example shows how to configure the Analog-to-Digital Converter (ADC) to trigger a conversion on a specific event. The Timer/Counter type A (TCA) overflow is used to trigger the ADC sample accumulation and ADC result is transmitted through USART.
This example uses the MCC Melody Library to show how to configure Timer/Counter A (TCA) in overflow interrupt mode to perform Pulse Width Modulation (PWM) using the AVR128DB48 Curiosity Nano development kit. Works with MPLAB X or MPLAB XPRESS IDE.
This example uses the MCC Melody Library to show how to use the Analog to Digital Converter (ADC) to read a signal then send it out with the Universal Synchronous and Asynchronous Receiver-Transmitter (USART). Works with MPLABX or MPLAB XPRESS IDE.
These MPLAB X Melody MCC example Getting Started with Multi Voltage I/O (MVIO) (TB3287) show how the MVIO is used on the AVR® DB family of microcontrollers.
This example uses the MCC Melody Library to show how to configure the device with a software delay and blink the LED on the AVR128DB48 Curiosity Nano development kit.
This MPLAB® X Melody project supports the Application Note AN3607 Phase Sequence Detection of Three-Phase AC Supply and developed on AVR128DA48 Curiosity Nano Evaluation kit. This application uses ZCD and ADC peripherals of AVR DA family microcontroller.
This MCC based MPLAB X IDE example shows how to interface an electret microphone with a microcontroller (MCU) using the Analog Signal Conditioning (OPAMP). In addition to the microphone, only one resistor and one capacitor are required.
This MCC based MPLAB X IDE example shows how to use the Analog Signal Conditioning (OPAMP) peripheral to implement a constant-current driver using just one external resistor. The constant current amperage setting can be adjusted using firmware control.
This MPLAB X Melody code example shows how to make an LED blink using the Configurable Custom Logic (CCL) found in the AVR® DB. The CCL is configured as a toggling J-K flip-flop. The toggling is a result of a timer event.
This MCC based MPLAB X example shows how to calibrate the gain and offset of the OPAMP when configured as a Programmable Gain Amplifier (PGA). The internal DAC and ADC are used to perform the calibration procedure. No external components are required.
This code example showcases how to read the Device Information Area (DIA) space in memory to access the Microchip Unique Identifier (MUI). The MUI is unique to every individual device.