Tag Archives: Open SCAD

ILI9341-Based Digital Clock Project

A while ago, the clock/time display on our microwave started having problems; it’s a 7-segment vacuum-flourescent display, and a couple of the segments a no longer lighting up. Instead of “End”, we now see “Erd”, and the clock is getting harder to read. The microwave itself is still running fine, but because this particular display is our primary time display in the house (aside from our phones), not having a good clock display is annoying.

I investigated getting the appropriate repair part for the display, but that module costs more than the entire microwave did originally, so that didn’t seem like a practical idea. And while I can get a cheap stick-on clock for just a few bucks, what’s the fun in that?

So, I’m in the middle of a design project to build a digital clock to replace the one on the microwave. At first I built up a clock using a Teensy 3.2 and one of my spare Nokia 5110 LCD displays, but that turned out not to be very practical, as the display is basically unreadable from more than just a few feet away, with or without backlighting.

So, I started looking around for better displays, and ran across the ILI9341 TFT display with a touch-sensitive screen. Even better, this was available with Teensy-optimized drivers, as shown here – what a deal! I started thinking that with a touch-sensitive screen, I might be able to implement some on-screen buttons for setting the time, which would be way cool!

So, I ordered two of these displays from PJRC, and started working on the design. Here’s the initial schematic

Here’s my initial breadboard setup:

Teensy 3.2 in foreground, Adafruit DS3231 RTC in background, ILI9341 TFT touch display

I originally used the Arial proportional font provided by the library, but I discovered that it produced bad artifacts after a few hours, as shown below: The only way to avoid these artifacts is to refresh the entire screen on every pass through the 1-second timing loop, which causes a very annoying ‘blink’. Eventually I figured this out, and changed to a non-proportional font, as shown below;

Non-proportional font looks worse, but doesn’t suffer from artifacts

Once I got everything working (well, except for the touch screen stuff that I plan to add later), I fabricated a nice box using Open SCAD and TinkerCad, and made a more permanent version using a half-sized ‘perma-proto’ board, as shown below

Here’s the more-or-less final schematic

7 March 2021 Update:

After a long and somewhat agonizing journey, I finally got the touch-screen stuff working, so I can now adjust the time on my digital clock using on-screen touch-sensitive controls. Here’s the updated schematic:

The only real difference between this one and the previous schematic is the T_IRQ line is no longer connected; the Teensy-optimized XPT2046_Touchscreen.h/cpp library doesn’t use it.

Here’s a short video showing how the touch-screen enabled time/date adjustment feature works:

Although I hope to clean up this code considerably in the future, I include it here in it’s entirety in it’s current state

10 March 2021 Update:

After getting all of the above to work, I decided to re-tackle the proportional fonts issue. In my first attempt, I had used the ‘ILI9341_t3’ version of the ILI9341 Teensy library, and there is a newer ‘ILI9341_t3n‘ version out now. So, I modified one of the example programs (unfortunately still written for the old library) to be compatible and got proportional fonts (well, just the Arial one) working on the display.

After several hours of running this example with no apparent artifacts or problems, I decided to update my complete clock program to use the Arial font. After making the modifications and running it overnight, the time & date displays were still rock-solid the next day, as shown in the following photo – YAY!!

So now all that is left to do is to upload the new Arial-based code (with the time background color switched back to ‘black’) to my ‘working’ clock module, sit back and enjoy the proportional font display.

14 July 2021 Update:

I noticed that my clock had some ‘issues’ with time/date adjustments, so I ‘put it back in the shop’ for some additional TLC. While I was at it, I noticed that the system schematic didn’t include the DS3231 (hard to have a clock without a RTC!), so I updated it as well. Here’s the updated schematic.

The updates made were to make the time/date adjustments more robust. The updated code is included in its entirety below. First the main program:

And then the ‘CustomBox’ class file (no .cpp file – everything is in the .h file)

Stay tuned,

Frank