This repository provides a bare-metal code example for using TMR4 peripheral as a Hardware Limit Timer in order to generate an interrupt and stop TMR2 that also stops the ADCC auto-conversion.
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Updated
Feb 10, 2021 - C
This repository provides a bare-metal code example for using TMR4 peripheral as a Hardware Limit Timer in order to generate an interrupt and stop TMR2 that also stops the ADCC auto-conversion.
This repository provides a MCC generated code example that uses TMR4 peripheral as a Hardware Limit Timer in order to generate an interrupt and stop TMR2 that also stops the ADCC auto-conversion.
This repository provides a bare-metal code example for using TMR2 peripheral to trigger the ADCC to make conversions at a fixed frequency rate, that can be adjusted with the period of TMR2.
The PIC18F47Q10 provides multiple PORT modules. In this demo, a PORT pin is configured as input and connected to a button. The Interrupt-on-Change is enabled on the negative edge. Another pin is used as an output and connected to an LED.
This repository provides a MCC generated code example that uses TMR4 peripheral in One-Shot to stop TMR2 if an external pin is pulled to GND for more than a desired period.
This repository provides a bare-metal code example for using TMR4 peripheral in One-Shot to stop TMR2 if an external pin is pulled to GND for more than a desired period.
This repository provides a bare-metal code example for using TMR2 as 10kHz clock for SPI, configured as host with 2 clients (RC6 pin ->SS1 and RC7 pin ->SS2).
This repository provides a MCC generated code example that uses the TMR2 as 10kHz clock for SPI, configured as host with 2 clients (RC6 pin ->SS1 and RC7 pin ->SS2).
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