Archive for September 22, 2016

Laser Beam Scanning Versus Laser-LCOS Resolution Comparison


Side By Side Center Patterns (click on image for full size picture)

I apologize for being away for so long.  The pictures above and below were taken over a year ago and I meant to format and publish them back then but some other business and life events got in the way.

The purpose of this article is to compare the resolution of the Celluon PicoPro Laser Beam Scanning (LBS) projector and the UO Smart Beam Laser LCOS projector.   This is not meant to be a full review of both products, although I will make a few comments here and there, but rather, it is to compare the resolution between the two products.  Both projectors claim to have 720P resolution but only one of them actually has that “native/real” resolution.

This is in a way a continuation of the serious I have written about the PicoPro with optics developed by Sony and the beam scanning mirror and control by Microvision and in particular articles and  With this article I am now included some comparison pictures I took of the UO Smart Beam projector (

As per my prior articles, the Celluon PicoPro has no where close to it stated 1920×720 (non-standard) nor even 1280×720 (720P) resolution.  The UO projector while not perfect, does demonstrate 720P resolution reasonably well, but it does suffer from chroma aberrations (color separation) at the top of the image due to optical 100% offset (this is to be expected to some extent).

Let me be up front, I worked on the LCOS panel used in the UO projector when I was at Syndiant but I had nothing to do with the UO projector itself.   Take that as bias if you want, but the pictures I think tell the story.  I did not have any contact with either UO (nor Celluon for that matter) in preparing this article.

I also want to be clear that both the UO projector and the Celluon PicoPro tested are now over 1 year old and there may have been improvements since then.  I saw serious problems with both products, in particular with the color balance, the Celluon is too red (“white” is pink) and the UO very red deficient (“whilte is significantly blue-green).   The color is so far off on the Celluon that it would be a show stopper for me ever wanting to buy one as a consumer (hopefully UO has or will fix this).   Frankly, I think both projectors have serious flaws (if you want to know more, ask and I will write a follow-up article).

The UO Smart Beam had the big advantage in that it has “100% offset” which means that when placed on table-top, it will project upward not hitting the table without any keystone.   The PicoPro has zero offset and shoots straight out.  If you put it flat on a table the lower half of the image will shoot into the tabletop. Celluon includes a cheap and rather silly monopod that you can used to have the projector “float” above the table surface and then you can tilt it up and get a keystone image.  To take the picture, I had to mount the PicoPro on a much taller tripod and then shoot over the Projector so the image would not be keystoned

I understand that the next generation of the Celluon and a similar Sony MPCL1 projector (which has a “kickstand) have “digital keystone correction” which is not as good a solution as 100% offset as it reduces the resolution of the image; this is the “cheap/poor” way out and they really should have 100% offset like the UO projector (interestingly, earlier Microvision ShowWX projector with lower resolution had 100% offset) .

For the record – I like the Celluon PicoPro flatter form factor better; I’m not a fan of the UO cube as hurts the ability to put the projector in one’s pocket or a typical carrying bag.

Both the PicoPro with laser scanning and the Smart Beam with lasers illuminating an LCOS microdisplay have no focus knob and have a wide focus range (from about 50cm/1.5 feet to infinity), although they are both less sharp at the closer range.  The PicoPro with LBS is a Class 3R laser product whereas the Smart Beam with laser “illumination” of LCOS is only Class 1.   The measure dbrightness of the PicoPro was about 32 Lumens as rated when cold but dropped under 30 when heated up.  The UO while rated at 60 lumens was about 48 lumens when cold and about 45 when warmed up or more significantly below its “spec.”

Now onto the main discussion of resolution.  The picture at the top of this article shows the center crop from 720P test pattern generated by both projectors with the Smart Beam image on the left and the PicoPro on the right.   There is also an inset of the Smart Beam’s 1 pixel wide text pattern near the PicoPro’s 1 pixel wide pattern for comparison This test pattern shows a series of 1 pixel, 2 pixel and 3 pixel wide horizontal and vertical lines.

What you should hopefully notice is that the UO clearly resolves even the 1 pixel wide lines and the black lines are black whereas the 1 pixel wide lines are at best blurry and the 2 and even 3 pixel wide lines doe get to a very good black level (as in the contrast is very poor).  And the center is the very best case for the Celluon LBS whereas for the UO with it 100% offset it is a medium case (the best case is lower center).

The worst case for both projectors is one of the upper corners and below is a similar comparison of their upper right corner.  As before, I have included and inset of the UO’s single pixel image.


Side By Side Center Patterns (click on image for full size picture)

What you should notice is that while there are still distinct 1 pixel wide lines in both directions in the UO projector, 1 pixel wide lines in the case of the Celluon LBS are a blurry mess.  Clearly they can’t resolve 1 pixel wide lines at 720P.

Because of the 100% offset optics the best case for the UO projector is at the bottom of the image (this is true almost any 100% offset optics) and this case is not much different than the center case for Celluon projector (see below):


Below is a side by side picture I took (click on it for a full size image). The camera’s “white point” was an average between the two projectors (Celluon is too red/blue&green deficient and the UO is red deficient). The image below is NOT what I used in the cropped test patterns above as the 1 pixel features were too near the resolution limit of the Canon 70D camera (5472 by 3648 pixels) for the 1 pixel features.  So I used individual shots from each projector to double “sample” by the camera of the projected images.


For the Celluon PicoPro image I used the picture below (originally taken in RAW but digital lens corrected, cropped, and later converted to JPG for posting – click on image for full size):


For the UO Smart Beam image, I use the following image (also taken in RAW, digital lens corrected, straighten slightly, cropped and later converted to JPG for posting):


As is my usual practice, I am including the test pattern (in lossless PNG format below for anyone who wants to verify and/or challenge my results:

interlace res-chart-720P G100A

I promise I will publish any pictures by anyone that can show better results with the PicoPro or any other LBS projector (Or UO projector for that matter) with the test pattern (or similar) above (I went to considerable effect to take the best possible PicoPro image that I could with a Canon 70D Camera).