Dark Mode Trickery

One addition to these pages you might have noticed is, at the very bottom, an icon allowing you to switch between dark and light mode. And it’s not just a simple switch, it’s a tri-switch! While it allows for fixed light and dark modes, it also includes an automatic mode (i.e., based on your system settings).

And yes, there are quite a few ways that smarter people have used, but neither one worked exactly how I wanted. So, let’s see yet another way to do the same thing.

First step is, of course, setting up CSS. All colors for light scheme get to be defined in section with prefers-color-scheme: light, while dark colors get their prefers-color-scheme: dark section. I personally like to use these to setup variables to be used later, but you can define styles directly too.

@media (prefers-color-scheme: light) {
  /* styles */
}
@media (prefers-color-scheme: dark) {
  /* styles */
}

Next step is setting up a “button” for switching between themes. While we define three links, neither one of them is shown by default - we’ll sort that out later in the code.

<span>
  <a href="" id="color-scheme-auto" style="display: none;">Auto</a>
  <a href="" id="color-scheme-dark" style="display: none;">Dark</a>
  <a href="" id="color-scheme-light" style="display: none;">Light</a>
</span>

And yes, for my pages I don’t actually use text but icons. Below are links for Lucide icons I use currently, but you can go with whichever set you want.

•  (automatic)
•  (dark)
•  (light)

Lastly, we come to the code and I’m just gonna drop the whole thing here. Explanations as to what each section does will be below.

<script>
  let systemScheme = 'light';
  if (window.matchMedia('(prefers-color-scheme: light)').matches) { systemScheme = 'light'; }
  if (window.matchMedia('(prefers-color-scheme: dark)').matches) { systemScheme = 'dark'; }

  let savedScheme = localStorage.getItem("color-scheme");
  let currentScheme = systemScheme;
  switch (savedScheme) {
    case "light":
      currentScheme = "light";
      break;
    case "dark":
      currentScheme = "dark";
      break;
    default:
      savedScheme = "auto";
      break;
  }

  if (currentScheme !== systemScheme) { // swap at start so there's no flash
    for (var s = 0; s < document.styleSheets.length; s++) {
      try {
        for (var i = 0; i < document.styleSheets[s].cssRules.length; i++) {
          rule = document.styleSheets[s].cssRules[i];
          if (rule && rule.media && rule.media.mediaText.includes("prefers-color-scheme")) {
            ruleMedia = rule.media.mediaText;
            if (ruleMedia.includes("light")) {
              newRuleMedia = ruleMedia.replace("light", "dark");
            } else if (ruleMedia.includes("dark")) {
              newRuleMedia = ruleMedia.replace("dark", "light");
            }
            if (newRuleMedia !== null) {
              rule.media.deleteMedium(ruleMedia);
              rule.media.appendMedium(newRuleMedia);
            }
          }
        }
      } catch (e) { }
    }
  }

  function nextColorScheme() {
    switch (savedScheme) {
      case "light": localStorage.removeItem("color-scheme"); break;
      case "dark": localStorage.setItem("color-scheme", "light"); break;
      default: localStorage.setItem("color-scheme", "dark"); break;
    }
    window.location.reload();  // to force button update
  }

  function updateButtons() {
    switch (savedScheme) {
      case "light": document.getElementById("color-scheme-light").style.display = 'inline'; break;
      case "dark": document.getElementById("color-scheme-dark").style.display = 'inline'; break;
      default: document.getElementById("color-scheme-auto").style.display = 'inline'; break;
    }
  }

  document.addEventListener('DOMContentLoaded', function() {
    document.getElementById('color-scheme-auto').addEventListener('click', nextColorScheme);
    document.getElementById('color-scheme-dark').addEventListener('click', nextColorScheme);
    document.getElementById('color-scheme-light').addEventListener('click', nextColorScheme);
    updateButtons();
  });
</script>

The first portion just determines system scheme and stores it in systemScheme variable. Variable will contain whatever system tells the preferred scheme should be - either light or dark.

Next portion is all about loading what user (maybe) saved the last time. For this purpose we’re using localStorage and the result gets stored in savedScheme variable. Its state will set currentScheme variable to match either what is stored or the system scheme if we have no better idea (i.e., automatic mode).

End result of this variable game is decision if currentScheme differs from systemScheme. If they are different, we simply swap dark and light settings around. This swap is actually what does all the heavy lifting.

The nextColorScheme method checks the current state (savedState variable) and moves to the next one. States are written as light and dark. For automatic handling, code simply deletes storage altogether. Once that is done, it won’t attempt to sort out any swaps needed to get colors in line. Nope, it will simply reload the page and let the loading code sort it out.

The updateButtons is what displays whatever scheme is selected for a bit of user feedback.

The last portion of code will add an event listener to the click event of each scheme “button” (identified by id) so that each click calls nextColorScheme method. Here is also where we call updateButtons method to show the current state.

With all this in place, our theme switching should just work.

AuxPower1U: Mistakes were made

This is a post 11 in the series (previous: Main Controller PCB).

This post is sponsored by PCBWay.

With AuxPower1U being an actual physical object, I can see there were some mistakes. Most of them I worked around for and they’re already fixed in the repository for potential future version. But some of them will remain as a design choice.

First one has nothing to do with electronics but with my aluminium plate (aka “heat sink”). I planned for tapping holes so I can screw power supplies directly. Unfortunately, my model actually swapped diameter and radius and thus I got holes much bigger than I wanted. Classic error. So I used just screws and washers to get over that. But that actually made me think - do I really want to make all those tapping holes? Answer is no - longer screw and nut are good enough.

With that out of way, next portion are the PCB errors that were fixed courtesy of PCBWay respinning my desing. While the first revision board could be fixed using bodge wires, and I did so for firmware development, errors were big enough that I really needed a new PCB.

Current monitoring was the bigest miss here. I used my trusty ZXCT1009 - something I used many times ago. So, of course, I forgot to include ground resistor which made its readings go wild. Connecting resistor via bodge wire fixed that error. But, only when testing at 30V released the magic smoke, I checked the data sheet more closely. Yes, ZXCT1009 is limited to 20V. This never came up as most of my designs stick to 12V at most. But it became problem now.

However, finding a chip that goes up to 60V proved to be a difficult task. There actually are not too many simple chips that go that high and I didn’t want something that has more than 3 pins. Well, I think I found my new favorite current monitor - HV7801.

While HV7801 has more than 3 pins, it still comes in SOT-23 package and requires no external components. It actually occupies less PCB realestate than ZXCT1009. Downside is that its gain is fixed to 5x thus requiring me to use 1.024V ADC range. With ZXCT1009 it’s much easier to get resistor dividers than are nicely “rounded” for ADC and fit almost any range. With HV7801 you get what you get. Despite all of this, if I need current measurement that doesn’t need to be precise and I have 12-bit ADC, this chip is awesome.

Speaking of current measurement, I used 0.1Ω 3W resistor at first. It’s the same resistor I used in many other projects and it was always an overkill. What I temporarily forgot is that my low voltage ranges (e.g., 15V) will need to pass a lot of current. Thus, my trusty 0.1Ω resistor was getting way more heat than appropriate. After actually running the numbers, I decided to go with 0.025Ω 3W. Still gives nice figures for microcontroller calculations while producing way less heat.

Unfortunately, since my MCP9701A temperature sensor outputs around 800 mA at the room temperature, usage of HV7801 also meant I have to switch ADC ranges every time I measure the current. MCP9701A at 1.024V ADC range would only allow measurement up to 32°C. Even its 9700A brother (that I didn’t have in stock) would only allow up to 62°C. Switching to 2.048V just for temperature measurement is not the end of the world but it does mean slower measurement and it probably has implications for precision too.

One other case of “the forgotten resistor” is a pull-up for output MOSFETs. Early in the design phase I decided that resetting the board should not bring outputs down. Idea behind it is that, even if my board misbehaves, current will flow. There are merits on starting the system with all devices off but, since this would control power to my wireless, I decided it should fail-closed. And for that you need pull-ups. That I have forgotten.

Since we’re talking about resistors, I also had to increased ones used for LEDs. Those things were just too bright. While this means absolutely nothing once box it closed, it meant a lot during debugging since I could actually look at the PCB without burning my retinas. See, high-efficiency LEDs are not always good. :)

Speaking of debugging, I originally had my ICSP (i.e., debugging) lines shared with UART. This was necessary as I didn’t have enough pins and had to make some share functionality. Later in the project I added an I²C extender and thus aleviated the issue. However, I forgot to decouple UART lines from ICSP thus making the debugging of UART communication impossible. Solution was simple enough - just move those lines.

With all these errors, you can see why revision B was needed. While many of errors could be sorted by bodging wire here and there, and indeed they were for the purpose of firmware development, it was just too many to ever trust that board. Revision B saved the day.

Goodbye, Wordpress

As you might have noted, I took a couple of weeks from posting here. Why? Well, I decided to figure out what to do with my website. Most notable its backend.

You see, for a while now, I have not been happy with Wordpress. My main issue has been their push toward the block editor. I just don’t find it working well for my style of writing. It was just too cubersome and I ended switching to Markdown editor for my processing needs. Unfortunately, that is also not an ideal experience, especially because this markdown processor is not the newest beast and it often messes up a perfectly valid syntax (e.g. manually wrapped paragraphs). Of course, Wordpress’ latest scandal definitely didn’t improve anything.

And yes, this is not the first time I’m changing how these pages are generated. Before switching to Wordpress, I was running my own ASP.NET engine. Before that, I was using Blogspot. Before that, I was doing raw HTML. And there were many intermediate steps in between. It’s safe to say that every few years I look into alternatives to what I’m currently running.

This year, for the first time, I tried 11ty and… I fell in love. Interestingly, this static site generator is not a new beast. However, I somehow missed it a year or so ago when I tried Hugo and MkDocs, neither or which really worked for me.

11ty was trivial to get up working and expanding its functionality is just smidgen more difficult. Before I started, I made a list of things I wanted to work. Yes, my site isn’t overly complicated but I was surprised how easy was to get all things going.

Automatic thumbnails - a few hours to implement from scratch. Search - working within an hour (courtesy of Pagefind) albeit followed by a few hours of figuring out look&feel. Import (courtesy of wordpress-export-to-markdown script), albeit rather basic, done in an hour too. Custom scripts for calculators present on some pages, it’s markdown and just works.

Based on length of my hiatus, you can see there were many additional steps. For example, I didn’t find a theme I liked so building my own took ages. Figuring out the structure and finding the good balance in preserving links and getting new functionality took a while too. What 11ty allowed was for neither of those steps to take too long individually. There is just something special in seeing immediate progress. And it’s not as if I worked on this 24/7 since I have a daily job and I also squeezed in visiting Croatia for a week.

Now, finally, my static 11ty site is in good enough state to share it with the world. Not all is working yet, but I am comfortable enough that I can deal with rest of issues in the background.

The first thing you’ll notice is absence of comments and this is something I’ll miss the most. I simply didn’t find a good enough solution to deal with them. To replace that, I do have a “Contact” at the bottom of every page now so you can contact me. Poor replacement, but all that’s there for now. Mind you, my site never had an overwhelming number of comments. But those precious occasional discussions are gone for now.

The second issue is that not all stuff was imported correctly. Older things posts that used Wordpress shortcodes to display code got quite mangled in the process of conversion. I am working on fixing those and eventually they will be converted to a proper markdown. However, since that impacts only posts older than 2 years, I decided to simply fix that eventually instead of postponing the move to 2025.

With this engine swap behind me, normal program will continue the next week.

PS: Well, Matt Mullenweg is keeping up his efforts to destroy WordPress community. And yes, WordPress has always tried to bend developers to their will (remember Suffusion removal). But lately things seem a bit more insane than usual. I guess timing of my move is fortunate.

Meld Context Menu in KDE Plasma 6

As a new convert to KDE Plasma 6, I am still in process of getting the whole config sorted out. And that includes thing that was annoyingly difficult to do on Gnome - context menu support for Meld.

While there is (was) an extension available, it’s not maintained and with Ubuntu 24.04 there came an end to it actually working. I did play with a few other potential solutions, but I wasn’t really successful in seamlessly integrating any of them into Nautilus.

So, when I got KDE Plasma 6 running, I decided to see how easy is to integrate Meld in context menu for its file manager “Dolphin”. I did find a few solutions on Internet but they were either bringing overly complicated menus or they were simply non-fuctional. So I decided to roll my own.

Great help here was dolphin’s service menu specification that (surprisingly) really does it job - covers all the options and leaves you smarter than you were before reading it. I know that should be the purpose of any documentation but Linux documentation often fails at that simple aspect. For my project, I wanted an option to either compare two directories or two files. And I wanted just a normal compare and not a thousand options in submenu.

For this I ended up creating two .desktop files and limit visibility of each to when two items are selected. One .desktop file is handling compare for two files while the other handles the same for two directories.

To bring the story to the end, here are the commands to recreate those files. Just create directory, write files, and make them executable. Easy-peasy.

mkdir -p ~/.local/share/kio/servicemenus

cat << 'EOF' | ~/.local/share/kio/servicemenus/meld.directory.service.desktop
[Desktop Entry]
Type=Service
MimeType=inode/directory
Actions=diffDirectories
X-KDE-Priority=TopLevel
X-KDE-RequiredNumberOfUrls=2

[Desktop Action diffDirectories]
Name=Compare Directories
Icon=org.gnome.Meld
Exec=meld %U
EOF

cat << 'EOF' | ~/.local/share/kio/servicemenus/meld.file.service.desktop
[Desktop Entry]
Type=Service
MimeType=application/octet-stream
Actions=diffFiles
X-KDE-Priority=TopLevel
X-KDE-RequiredNumberOfUrls=2

[Desktop Action diffFiles]
Name=Compare Files
Icon=org.gnome.Meld
Exec=meld %U
EOF

chmod +x ~/.local/share/kio/servicemenus/meld.directory.service.desktop
chmod +x ~/.local/share/kio/servicemenus/meld.file.service.desktop

AuxPower1U: Main Controller PCB

This is a post 10 in the series (previous: Switching the High Voltage).

Well, after many posts about my AuxPower1U project, it came time to show the star - the main controller board. Its function is to pass voltage from input to output, interrupting it when necessary.

Due to cost and limited space for actual mounting, I first defined the size. Since I wanted to use Phoenix MC connectors, the width had to be 90mm in order to accommodate 5 4-pin outputs. Since I will be mounting power supplies on its right side, all 5 2-pin inputs will go there. On the bottom, I have 5 3-pin connectors for a switch and its LEDs, so the height ended up being 90mm too. And yes, that’s under 100x100 mm limit that stays within PCBWay’s $5 offering.

That said, mounting the board, which is 90x90 mm, would be problematic since it almost touches my power supplies. To avoid having everything too crowded, there is a 30 mm deep cutout allowing for much easier plugging and unplugging. And yes, that did make routing slightly more complicated thus requiring slightly narrower traces than I would usually prefer.

Upload to PCBWay was as easy as always and I probably had my order ready in 10 minutes. Manufacturing was a bit slower for blue PCB I decided to get, so you mgiht want to go with green soldermask if speed is of essence.

PCBs that arrived from PCBWay were as good as always. I opted for a standard HASL surface since I didn’t use any troublesome components. The smallest pitch on my board was 0.5 mm and PCBWay’s HASL is more than sufficient for this. There was an option to go with 2oz on the the board but I opted to use wider traces instead. Yes, a 2oz pour is better for temperature, but it does bring the price signigicantly up.

PCBWay offers FR-4 at their baseline PCB material and, during my testing, I went over 100°C for multiple hours with multiple cool-down cycles. There was no sign of delamination and thus I am fairly comfortable this PCB will handle all the power I need without any issue, especially since there will be fan cooling it down. Furthermore, since I do measure current, firmware can easily cut off power if things go crazy.

All connectors and status LEDs are on the top of the PCB, with the actual chips delegated to the bottom. I believe this gives it a better look overall and greatly reduces the chance of me accidentally knocking a component off udring installation. As you can see, this whole thing sits in a PCB case with a brace holding it down. What you don’t see are the holes underneeth, alowing for air to pass.

On top, there are also UART and I2C connectors. The UART connector goes into a 2.5mm audio jack, allowing me to both connect and control the device via computer. The I2C connector goes to an OLED display, which provides a bit more feedback than just buttons on its older sibling ResetBox had. Both are really optional for the functioning of the device but they’re a nice addition to have.

On the electronics side, everything is driven by a PIC18F26K83. I had a few leftover from the previous project so I decided to use it despite not having sufficient pin count for what I wanted. I wanted to measure voltage and current (5 pins each), react on buttons (5 pins), control button LEDs (5 pins), control the output (5 pins), use UART (2 pins), I2C (2 pins), and a few auxiliary functions (e.g., temperature). Add ICSP, and it’s clear that the PIC doesn’t have enough pins. But an IO expander does.

So, PI4IOE5V6416LEX got the duty of controlling output, buttons, and LEDs, while ADC measurement and communication were left to PIC. The only loss of functionality was LED dimming, which I used to indicate different states before. However, I can still do blinking, and having an OLED actually alleviated the need for dimming greatly.

One downside is that, if I2C communication goes down, so does my capability of turning outputs on and off. With a benefit of hindsight, I should have probably kept the outputs on the PIC - I even had exactly 5 pins extra available. But that thought only occurred to me after I both designed the board and wrote the majority of the firmware. Since testing didn’t show any issues with I2C despite my best efforts to break it, I will keep that change for potential revision C.

Revision C? That implies that my current board is revision B, and thus it follows that something bad happened to revision A. Well, story of mistakes will follow in the next blog post.