LCD Curtains

Once upon a time I read about Bill Gates’ smart house. And I thought: how nice would it be to have the curtains close and open automatically? Then I thought, why use curtains? Just put a big liquid crystal display (LCD) screen in the window, and use that to enable or disable the light.

Those were the days of the single LCD TV standing prominently in the big mall with a multi-thousand dollar price tag below it, so I laughed at the idea and forgot about it.

Fast forward 20 years.

Today I wanted to take a nap, and wondered how good it would be to be able to just flip a switch and turn off that annoying sun. The old idea came back. The difference is, today window-sized LCD screens are dirt cheap. People throw these TVs into the garbage once the batteries in the remote run out.

Some googling showed that there is pretty much nothing like the LCD curtains I was imagining. Some frosted/clear switchable “smart glass” and some aerospace stuff, but nothing that lets you flip a switch and block out the sunshine.

So, I dug up a screen panel from a broken laptop.

The frame contains the panel block and assorted things like the camera and the backlight inverter. The panel block contains the backlight assembly and the LCD panel itself.

The backlight assembly is made out of a stack of optical films with a CCFL bulb on the edge.

I can’t say that I understand completely how it works. There are two diffraction gratings, a big piece of plastic with notches, and several diffuse layers.

Together, they do the job of turning a single CCFL into a flat, uniform field of light behind the screen.

And the LCD panel itself is made out of, well, the LCD panel and the driver board. As is common in used laptops, it contains a lot of dirt…

Now, what to do about it? Driving an LCD panel is not exactly an easy task, you might say. It would be a complex or expensive insanity, you might say.

But we don’t need to drive it, we only need to make it go opaque or transparent as a whole.

To do that, all you need is to find the bias voltage. On every ribbon that connects the board to the panel there will be two spots for it, one per side, and all these spots will be linked to a single trace on the PCB. There will likely be small capacitors connected between it and the ground at each side.

Take a 12V battery pack, connect the negative pole to the ground, attach a 10k resistor to the positive end and start poking at the suspected pins. Once the screen goes a bit darker, you’ve found your pin.

It’s the only pin we need, so the rest we might as well cut off. Literally, since this removes all the chips and logic that would be consuming power otherwise. With the content removed, it no longer goes a little dim — it goes completely dark, since there is no longer a driver chip that fights you over what the voltage should be.

And here is the finished proof-of-concept. It draws about 20 microamps, and if left disconnected it will gradually become transparent over a few minutes. Really, most of the power in these panels is used in switching them and even more is used for the backlight.

Here it is in action. The transparency is varied by varying the voltage on the panel.

In the end, the curtains are not perfect (and I have triangular windows…). There is quite a bit of distortion and the transparency isn’t that great.

Anyway, I hope someone finds a good use for the idea — there are plenty of such panels in the garbage, and I can think of many non-curtain uses for a controlled-transparency glass panel.

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About Artem Litvinovich

Artem is a hacker and garage tinkerer based in Moscow. His day job is making software for a telecom company. You can check out his projects at http://orbides.org

Comments

  1. You need someone to help you google.

    • Ha, it’s ok to be polite on the internet Zed. No one will think less of you if your nice, especially in this corner of the web. :P

  2. Google “electrochromatic glass” for the currently available versions that you’re looking for.
    There’s a few different technologies to make it all happen – https://en.wikipedia.org/wiki/Smart_glass

  3. One possible application might be counters/customer service windows that need to be closed for some backend work. Smart counters. Switch from transparent to opaque to some help message.

    This makes me think of the reverse problem of creating windows in apartments with bad views or too few windows. Simple camera hooked up to a faux-window showing a nice seaside view. I’ve seen such concepts for planes and spacecraft and a couple of architectural concepts, but I think prices are still too high for this to be a good business idea. I think lcd curtains will become viable at an even lower price points. Not quite throwaway prices yet.

    • in Singapore they have these on the trains and they go opaque when you pass by people apartments

      • Singaporean here, I’ve never heard of this…? Which train stations do I have to go to to witness this?

        • I think he’s seen something ‘like’ it. Visa, since October, have you seen any around? I’m interested to know. Thanks, Lisa.

  4. I applaud Artem for his ingenuity in using recycled parts to innovate. As the other commenters have noted, the general idea is not new. Cars had autodimming rearview mirrors since the late 1980s, using an electrochromic gel (http://www.autoevolution.com/news/dimming-mirrors-explained-8414.html). Boeing’s Dreamliner also recently implemented glass darkening (http://gizmodo.com/5829395/how-boeings-magical-787-dreamliner-windows-work), which is similar in spirit.

  5. Hey,

    so would it be possible to wire it up so that you can also have a VGA imput into the screen?. So you can arrive at your desk whilst its almost transparent, then turn it on and have a VGA signal going through it displaying an image?

  6. I’m very interested in your posts; please keep up the good work!