Combining old and new things is something I really like. I often see things and think: “Woaw, how would that look with LED’s on it?” I also like to be inspired by others and try to rebuild projects they built. That happened to me lately as I saw the frame lamp, Paulus from the Home Assistant team built. The idea was so cool that I wanted to build my own version of this frame lamp, so I started to look for the components I needed for this project.
The finished lamp with rainbow effect
Parts list
For this project we will use the following components:
*Some links are affiliate links. If you use them to buy the parts for your project you will help me and my next project. These links will cause no extra fee or costs to you
All components
Start building this thing
Start with centering the Dig Uno case in middle of the backside of the frame and screw it down. The case and the two angles will work as stands for the frame later on. Alternatively you can skip this step if you want to hang the frame.
Dig Uno case screwed on the backside of the frame
Next up, solder three cables to the beginning of the led strip. If your strip is brand new you can simply snip off the connector because the wires will be connected directly to the Dig Uno.
Soldered cables on the LED strip
Cut the strip
In this step, the strip will be cut and lined up with the frame. Check the dimensions of the frame and cut the strip in parts so that it fits on the backside including the corner connectors. This step is just to find the right dimensions for the strip, don’t glue it down yet.
Aligned strip on the backside of the frame
If the strip has a good length for the frame, connect the strip using the corner connectors. If you’re using IP65 strips like I do, you have to cut off a bit of the silicone coating.
Strip connected to the corner connector
Testing and hot glue
Before you glue down the strip to the frame, give it a test using a multimeter in continuity test mode. You should test the positive and negative rail to ensure that both have a good connection. Keep in mind that this will not work on the data-rail of the strip. If one of the two rails don’t work, check the connections on the corner connectors.
Testing the connections
Next up, pull off the blue PVC from the double sided tape on LED strip and glue it to the frame. Then heat up you hot glue gun and hot glue the heck of it 😅 ensure that all corner connectors are glued down to the frame so that nothing can fall apart or loose connection.
Corner connector glued down
If you have so much trust into the double sided LED strip tape than I have, you can add some extra hot glue to the strip.
Double secured LED strip 😬
Connecting the Dig Uno
In the final section we will connect the Dig Uno to the strip and place it into the case. If you don’t know what a Dig Uno is, no problem! You can find all information about it on the quinled.info website. You can either buy a pre-assembled board with WLED installed or, if you’re a DIY lover like me, you can build the DIY version and get your hands dirty, which is a lot of fun 🤩
So grab the Dig Uno and place it into to case mounted on the frame. Then connect the LED strip to the controller board.
Connected LED Strip
Last not least connect the power supply to the Dig Uno as well.
Connected power supply to the Dig Uno
Build the stand
This step is optional, if you want to hang your frame lamp. But if you want to stand up the frame the angles on corners of the frame will give the whole construction more stability. So take the angles and screw them to the corners of the frame.
Angle stand for the frame
Final test
That it! So turn the frame and power it up to the the awesome result 😎 The frame works best on a white background, cause this will reflect the LED light better than a dark background.
The final result
Sum up
I really like this project, because its easy to build, requires nearly no soldering and it just looks beautiful. Big thx again to Paulus form Home Assistant for this idea and stunning result. 🤗
Today we’re gonna explore a basic LED light setup you can use with WLED. This kind of setup is perfect for small projects which will not handle a lot of LEDs, like our cube light. So we don’t have to care much about fusing, cable thickness and heat dissipation.
The final cube light
Parts list
For this project we will use the following components
*Some links are affiliate links. If you use them to buy the parts for your project you will help me and my next project. These links will cause no extra fee or costs to you
All components
Doing the math
Even if you’re working on a small LED light project you have to take care about electrical currents and voltages, especially if you want to power your LED’s from a plug socket like we do. So let’s answer some fundamental questions to ensure that our light cube will glow instead of blow, if we turn it on.
What voltage do we have to use?
To keep it simple, we’ll use the same voltage on all of our components. In our case, it’s 5V DC which is pretty secure in combination with low current. We ensure that all of our components use the same voltage, to prevent voltage conversion.
How many LED’s can we use?
The amount of LED’s depends on the amount of current our power supply can provide. The larger your power supply, the more LED’s we can use.
In our project we want to use 28 LED’s. To calculate how much current we will need, we have to sum up the “maximum current per LED” x “the LED amount”. This will give us the current consumption of our LED strip.
In our case, each led of the strip uses 0.06A at full power. This times the 28 gives us a current of 1.68A for the strip. If we now add 0.5A for the D1 Mini, because the controller also consumes power, to our calculation we will get the total current consumption for our cube light which is about 2.2A.
So our power supply has to deal with 2.2A if everything is maxed out. In reality it would be less because no component is perfect, but we wan’t to be super safe 😉.
What power supply do we have to use?
Our power supply has to match in two ways. In voltage and in the current. The voltage must be exact the voltage we want to use in your circuit. The provided current of the power supply can be higher but not lower, because our project will only draw as much current as it needs.
For our cube light we need 5V DC and it will draw a current of about 2.2A at max power usage. So we will use a 5V DC / 2.5A power supply.
Tip: Don’t run the power supply on max current all the time to increase the lifetime.
Prepare the cube light base
After the math we can now proceed building our cube light. We will start with the LED strip. To get a feeling of how the LED’s will fit in the case, lay them out on the sliding plate of the enclosure. The cables will start at the hole in the left down corner. Keep an eye of the direction of the strip. On the strip you will find small arrows which indicate the direction of the data signal. These arrows must point in the same direction so that the data signal for the last LED has to pass all the other LED’s before.
Layout of the LED strip
Now that we know how to layout the strip, we can start soldering it. Start with presoldering all the pads of the strip pieces. This makes wire soldering more easy later on.
Presoldered strips
Now grab some wire and presolder the ends. Take some longer cable for the start of the strip.
Presoldered cables
After that, solder the wires to the strip. Use red for 5V, black for GND and green for the data signal. Because we presoldered the strip and the wire we don’t need extra solder now, we just hold the wire on the pad and heat it up to get a strong connection.
Soldered strip
Repeat this process with all the pieces of the strip until you have the full square you lay outed before. During the soldering, check the layout couple times to ensure everything fits on the slide plate.
The complete soldered strip
Before we glue the strip to the sliding plate, we will pick our multimeter set it to continuity test mode and check if no connection is broken. Check the end against the beginning of the strip. You should get positive result on the 5V and the GND wire. Because of the LED internals, the data wire can’t be tested that way so this result will be negative.
If the tests are successful grab the sliding plate and glue the strip onto it with the double sided tape on the back.
Strip glued to the plate
Prepare the case
Lets now have a look at the bottom of the enclosure. This will hold the D1 Mini and the barrel-jack, in which we will plugin our power supply. Start with the barrel-jack and presolder the ends. Then check which pin is 5V for the next step.
Presoldered barrel-jack
With the polarity in mind, grab some wire and solder it to the barrel-jack, use the same technique as on the LED’s strips. To prevent shorts add some heat shrinks.
The finished barrel-jack
Now, flip the enclosure and drill a hole into it to mount the barrel-jack. I used a conical metal drill bit to find out the perfect size, but any large metal drill should work too. To secure the barrel-jack in the case use the screw it comes with or use some hot glue.
The prepared enclosure
Prepare the D1 Mini
Let’s focus on the D1 Mini and the wiring we need to connect it to the LED strip. If you order a D1 Mini, it will come mostly unsoldered, so you have to solder some kind of pins to it. In my case I had a soldered one laying around, so I used that for the cube light. Besides of the D1 Mini you also need three male pins, two for power and one for the data connection.
D1 Mini with pins inside
If your D1 Mini is ready to go, take two of the three male pins and solder them to a piece of wire. These two pins will be used to power the D1 Mini with 5V. Don’t forget to add heat shrinks to prevent shorts.
D1 Mini power cable
Now grab the third pin a solder it to the green wire of the LED strip. This cable will transfer the data which will tell our LED’s in which color they have to light up.
The data cable pin
Assemble the base
We can now finish up our assembly by soldering all the wires. So slide in the plate into the base and solder all the red and black cables together. This will connect the LED strip and the D1 Mini to the barrel-jack. As same as before, to protect the solder joints use some heat shrinks.
The complete base
Install WLED
Next up we will program the D1 Mini. So hook it up to micro USB cable an plug it into your PC. Open a Google Chrome based browser and go to the WLED Installer Page.
WLED install page version 2
Click on the install button and select your USB device which the D1 Mini is connected to. If your device does not show up you might need to install an additional driver. If so, please try to install the CP210x or the CH341 driver and retry this step.
Connect your device
You have now to confirm that you really want to install WLED on the D1 Mini. After that, the installing process starts.
Installation process
After the installation has completed, click “NEXT” and enter your WiFi credentials. This will add WLED to your home network.
Add WiFi credentials
You are now able to browse the WLED software in the browser. To jump to the main page, just click “VISIT DEVICE”. From that point, you can also find the device in the WLED App, which is available for Android and IOS.
Installation successful
Configure WLED for the cube light
Because WLED very versatile, we have to adjust a few settings to make it work for our LED project.
We will adjust:
The type of the strip
The LED count
The LED data pin
The power settings
Navigate to the main page of WLED and click on the config icon to enter the configuration menu. After that, click on “LED Preferences” to enter the “LED & Hardware setup”.
Got to “Config”
We will now adjust all the required settings. First, change the “Maximum Current” value and set it to 2200mA. This is the value we calculated as we did the math. These setting prevents that our cube light will draw to much current from a software side.
Brightness limiter
Then scroll down to the Hardware setup to change the LED details. Just follow the list below.
Todo list
Check the type of the LED strip: WS281x
Check the Color Order: GRB
Adjust the length of LED strip: 28
Set the GPIO pin for the data signal: GPIO 2 ( marked as D4 on the board)
Configure the LEDs
Light it up
After installing and configuring WLED, we will put in the D1 Mini back into the base of our cube light. Unplug it from the PC and put into the base. Connect the red / back cable to 5V / GND and the green cable to D4. Double check the 5V and GND connection before power it on.
The connected D1 Mini
We can now bench test the cube light. If we plugin the power supply, the LED strip should light up in” WLED orange”. We can also browse the WLED software and start changing the colors and effects.
Bench test the light
Last not least, put the transparent cube on top and enjoy the beautiful cube light.
Your awesome cube light
Sum up
Yeah! 🤩 That’s it, we’re done! We build an awesome light and learned the basics of LED projects, like power calculation, LED strip orientation and WLED configuration. And that’s only the tip of the ice berg. You can do much more with LED’s and the WLED software, like matrices, sound reactive lamps or syncing effects over multiple WLED instances.
I hope you enjoyed this project as much as I did. If you want, feel free to share a picture of your cube light or the link of this post.
This website uses cookies so that I can provide you with the best possible user experience. Cookie information is stored in your browser and performs functions such as recognizing you when you return to my website, and helps me understand which sections of the website are most interesting and useful to you. For all other information about cookies, please see the Privacy Policy.
Essential cookies
Essential cookies are always enabled so that I can remember your cookie settings.
Third party cookies
This website uses Google Analytics to collect anonymous information such as the number of visitors to the website and the most popular pages.
Keeping this cookie enabled helps me improve my website.
