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MPAE-16196 Implemented TW feedback

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<a href="https://www.microchip.com" rel="nofollow"><img src="images/microchip.png" alt="MCHP" width="300"/></a>
# AVR128DA48 LED Blink using PWM Code Example
# AVR128DA48 LED Blink Using a PWM Signal Code Example
This repository provides a MPLAB X project with a MCC generated code example for an LED blink driven by a PWM signal. The example demonstrates how to generate a PWM signal using a timer. The output waveform is connected to the on-board LED. The PWM duty cycle value is set at 50%. For half of the period the LED is turned ON, and for the other half the LED is turned OFF.
This repository provides an MPLAB® X project with an MPLAB Code Configurator (MCC) generated code example for an LED blink driven by a Pulse-width modulation (PWM) signal. The example demonstrates how to generate a PWM signal using a timer. The output waveform is connected to the on-board LED. The PWM duty cycle value is set at 50%. For half of the period the LED is turned ON, and for the other half the LED is turned OFF.
## Related Documentation
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## Software Used
- [MPLAB® X IDE](http://www.microchip.com/mplab/mplab-x-ide) v6.10 or newer
- [MPLAB® XC8](http://www.microchip.com/mplab/compilers) 2.41 or newer
- [MPLAB X IDE](http://www.microchip.com/mplab/mplab-x-ide) v6.10 or newer
- [MPLAB XC8](http://www.microchip.com/mplab/compilers) 2.41 or newer
- [AVR-Dx Device Family Pack](https://packs.download.microchip.com/) v2.3.272 or newer
## Hardware Used
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## Operation
To program the Curiosity Nano board with this MPLAB® X project, follow the steps provided in the [How to Program the Curiosity Nano Board](#how-to-program-the-curiosity-nano-board) chapter.<br><br>
To program the Curiosity Nano board with this MPLAB X project, follow the steps provided in the [How to Program the Curiosity Nano Board](#how-to-program-the-curiosity-nano-board) chapter.<br><br>
## Setup
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<br><img src="images/Program_Clean_and_Build.PNG" width="400">
5. Select AVRxxxxx Curiosity Nano in the Connected Hardware Tool section of the project settings:
<br>Right click on the project and click Properties.
<br>Click on the arrow under the Connected Hardware Tool.
<br>Select the AVRxxxxx Curiosity Nano (click on the SN).
<br>Click Apply and then OK.
<br>Right click on the project and click Properties
<br>Click on the arrow under the Connected Hardware Tool
<br>Select the AVRxxxxx Curiosity Nano (click on the SN)
<br>Click **Apply** and then **OK**
<br><img src="images/Program_Tool_Selection.PNG" width="600">
6. Program the project to the board:
@ -104,5 +104,5 @@ This chapter shows how to use the MPLAB X IDE to program an AVR® device with an
- [Back to Setup](#setup)
- [Back to Demo](#demo)
- [Back to Summary](#summary)
- [Back to Top](#avr128da48-led-blink-using-pwm-code-example)
- [Back to Summary](#summary)
- [Back to Top](#avr128da48-led-blink-using-a-pwm-signal-code-example)