Verifying PIC24EP Clock Frequency by UART Module

In our previous article Configure PIC24 to run at 70 MIPS , I suggested a way to verify whether the PIC24E run at 70 MIPS by setting a timer output and measuring its period using an oscilloscope. If you are a normal person like me who does not have a scope sitting next to the computer, this approach might be infeasible (so why I proposed it in the first place? Doh!). Anyway, there is some other way that does not need a lab instrument. How about this? Let try setting up an asynchronous communication like UART. If the baud rate on the PIC24EP does not match that on the other side, say, our PC, then they couldn’t talk. To set up the baud rate, we have to put FCY = 70M into the equation. If the clock deviates from that value just a little bit, communcation would fail. Above all, we have a chance to learn how to set up UART communcation on the PIC24EP.
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Configure PIC24E to run at 70 MIPS

Since Microchip introduced their PIC24EP family of products, it took a while before they became available from major vendors in Thailand. This family (and its close relatives dsPIC33EP) is attractive for its 70 MIPS performance. It could not run at that speed right out of the package, considering a user’s choice of setup (such as oscillator type and frequency). So in this brief article, we show an example on how to configure PIC24EP to 70 MIPS. A PIC24EP256MC202 is used on our prototype, with 2 clock choices: the 7.37 MHz on-chip Internal Fast RC (FRC) oscillator, and an external 8 MHz crystal.
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A Note on Output Compare (PWM) Module of PIC24E

A while ago on (no longer maintained), we present an article on DC motor open-loop speed control , using a simple voltage command from ADC to drive the H-bridge driver. The PWM output is generated from output compare module of the dsPIC30F2010. That 16-bit digital signal processor is now quite dated. The reader would want to implement the scheme on a newer microcontroller.

At the time of this writing, PIC24EP (and dsPIC33E) series from Microchip is the latest product in the 16-bit range that could run at 70 MIPS performance. For those who want to port the code to PIC24EP, unfortunately, you have to modify the ADC and PWM routines. In this article we focus on the latter.
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Simultaneous Sampling of 4 ADC Channels with PIC24E

No matter how fast we advance in this digital era, the world is still analog in nature. In many industrial applications, an engineer needs to measure a continuous-time signal and store/process it digitally. For this reason, most microcontrollers have Analog-to-Digital Converter (ADC) modules as standard peripherals.
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