![]() We can determine what is available by checking out the host boards's datasheet (or in our case reference manual). As this is a microcontroller, we can be fairly certain that it has some dedicated pins for each of the communication protocols that are commonly used by Pmods. Say you happened to find a Pmod that suits your needs either in our store or on the Wiki and you are working with Digilent's chipKIT Pro MX4. As comforting as it is to know some of the work has already been done for us, how are we able to tell if such tools are available with our setup? Let's take a look. code), if you have enough time, experience, and talent, you can program your setup to do anything you want, much like an FPGA can be programmed to do anything you want it to do.īut for those of us in the mortal world, including myself, it's useful to understand how to use the tools that are already provided for us. Here's the secret: when writing software (i.e. Why bother talking about compatibility at all? Some of you may have noticed on other pages of the Wiki or seen elsewhere that Pmods are compatible with any system board that is able to use the same communication protocol that the Pmod uses to communicate. ![]() ![]() Welcome to the Pmod hardware compatibility guide!Īlthough you likely have seen a Pmod that meets your needs either in our store or on the Wiki, an important question remains: will the Pmod be able to physically interface with my hardware? This guide will walk through how one can determine this using Digilent system boards as an example (considering this is the Digilent Wiki and all).īut first, a clarification. USB Scopes, Analyzers and Signal Generators. ![]()
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