Photons, Electrons, and Dirt

Inside my first add-on module for the P1AM-100 open source PLC. Two optically-isolated inputs, two relay outputs, a display, a half-duplex RS-485 transceiver, and a serial EEROM with a MAC address for the Ethernet module. The enclosure and headers are included in the P1AM-PROTO prototyping module. Not shown is the lid of the enclosure.

In January 2020, Automation Direct launched their ProductivityOpen family of open-source programmable logic controllers (PLC’s). The first controller in the series, the P1AM-100, is based on the Microchip ATSAMD21 microcontroller and programmed using the Arduino development environment. To encourage development, they launched a prototyping module alongside the controller. The prototyping module consists of a piece of perfboard, the required connectors, and a housing.

I was already familiar with Automation Direct and their PLC and pneumatic products after building my crate beast and zombie containment unit Halloween props a few years ago. I was intrigued by this new controller from a familiar company, the CPU selection, and the possibility of building my own modules that could tie in to the controller for future projects. I set out to build a couple of add-on modules but first needed to take a closer look at the controller and its available add-ons.

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After four years of hard work, hundreds of hours of volunteer time, and taking on and winning against one of the largest and most powerful corporations in the world, Colin got his Fort Collins Connexion gigabit fiber service installed today! Congratulations, Colin!

Note: if you missed my first two posts on the Connexion construction process, here are links to part one and part two. Things have been pretty quiet in my neighborhood this past month and a half. The only activity since fiber was pulled in late December has been a few technicians digging around in vaults. In northeast Fort Collins neighborhoods, however, service is going live. Let’s take a closer look at having service installed.

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The finished project.

In the first post in this series, we designed a socket and driver board for a Dalibor Farny R|Z568M Nixie tube. In the the second post in this series, we designed a power supply and controller board for the Nixie tube. In the third and final post in this series, we’re going to design an enclosure to hold both boards and the Nixie tube.

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The Nixie tube connected to the socket / driver board and the socket / driver board connected to the upside down power / controller board.

The first in this series of posts described building a socket and driver board for a Dalibor Farny R|Z568M Nixie tube and driving the tube using a power supply and Particle Photon from another Nixie project. This post covers building a power supply and controller board that mounts underneath the socket and driver board to power the Nixie tube and control the displayed digits.

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I recently ordered one of Dalibor Farny’s R|Z568M Nixie tubes. I wanted to get the tube powered up and displaying digits so I designed a small circuit board to act as a socket and switch the anode and digit cathodes on and off. This board will connect later to another board containing a 170 volt power supply and a microcontroller via some headers. Read on to find out more about the design of the socket and switch board.

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