Arduino Data Glasses for My Multimeter

Arduino Data Glasses

Arduino Data Glasses

 

 

 

 

 

 

 

 

 

 

 

 

Video of the working device

Trying to build a cheap Arduino Data Glasses for everybody. Why? I just wanted one.

It’s working, and now it can even help to avoid accidents. From the first idea to the working prototype, it took 4 Month

The challenge was, that It should be constructed out of common materials that can be found easily. The project is more about how to build the optical system for this HMD. One thing is clear, you can not just place a screen in front of your eyes, because it will not be possible for them to focus it.

In the logs you can see from the first tests to what I have now.

The optical design was the most difficult part, but I think I found a solution for this. The costs of the prototype amounted to +-70Euros.

And now I have a Head-Up Display For Hight Voltage

Step 1: What’s Inside and How Does It Work?

OLED display

 

 

 

 

 

 

 

 

 

The received Bluetooth data is displayed, on the OLED display. It’s then reflected over the mirror, goes through the lens and you can see the picture in the little transparent acrylic glass.

That is the simple explication. The details are coming now 🙂

Step 2: The Lens. the Most Tricky PartLens

 

 

 

 

 

 

 

 

 

 

I made the data glasses work, but it was more a trial an error challenge.

So I took a google crash course in optics.

First of all I had to understand the difference between a real and a virtual image with lenses. Then a very important thing is, that a human eye can only focus an object at a distance of min 25cm. And all what I needed was this formula (1/f) = (1/o) + (1/i) where f is focal length of the lens o is object distance to the lens and i is the distance of the virtual image.

Here are the values I used:

with f=10cm and o=7.3cm

you will get an i=-27.03cm (virtual images have always a negative value) and a magnification M=3.7

Lens Calculation Website
http://hyperphysics.phy-astr.gsu.edu/hbase/geoopt/image4.html

Step 3: Alternative LensAlternative Lens

 

 

 

 

 

 

 

 

 

 

I know that the lens is hard to find. I uses one of a cheap cardboard wich has lenses with a Focal length of 100mm and not like the google cardboard 45mm

UPDATE

I think I found a good solution for the lens. I just checked the physical data (FL = +- 110mm). and they should be perfect. I have no time right now, to test them, but if somebody could do it and give me a feedback, this would be great. A small Fresnel lens should do the job. and they are cheap and easy to find on the internet. And you can cut them with a cutter.

Like this one https://www.amazon.com/Small-Fresnel-Lens-Magnifier-Pack/dp/B00CF5ZXKK

An otherf alternative is a the lens of a head mounted magnifier. Normally they deliver 3 to 5 lenses and one of these should have a FL between 110mm and 120mm which works fine. It’s just a little bit heavier and not so easy to cut

Step 4: ElectronicsElectronics (2)

 

 

 

 

 

 

 

 

 

 

Here are all the electronic parts for the data glasses

I just used a smaller battery in the final version.

To use the 280mA battery, I had to change the 3k resistor against a 5.6k resistor on the original board. The charging current is now reduced to +- 200mA.

Step 5: the Enclosure

the Enclosure (1)

 

 

 

 

 

 

 

 

 

For the first tests, I used an enclosure made out of cardboard. This was a cheap solution and worked very well

For the final version, I used my 3D printer. The style file has been created in 123design. I need to make a few modifications to the design, but it’s not bad for the first try.

Step 6: Connecting the Owon B35T Multimeter With the Data Glasses

This multimeter has an intern bluetooth 4.0 communication, so you can connect it to your phone or tablet

I had to reverse engineer the serial protocol.

Config of the BT module. I used a simple Arduino program to send and receive Data to and from the module. First you have to set the module to Central.

Read more: Arduino Data Glasses for My Multimeter

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