BenQ’s W1700 breaks the pricing paradigm for UHD projection with some very ‘flash’ new technology...
BenQ’s cunning pixel work brings 4K projection under $2500.
The disappointing thing about Ultra High Definition is how long it has taken to become available at a reasonable price in the application for which it provides the greatest benefit — the large front projection screen. Several companies have been nibbling at the edges of affordability, including BenQ with its W11000 Ultra-HD projector. But now it’s jumped right in with the W1700, a projector which claims to deliver true Ultra-HD resolution. The price? Just $2499.
This is a much smaller projector than the W11000 (or the X12000), and it weighs a modest 4.2kg. Inside it achieves the 3840 × 2160 pixel resolution of Ultra High Definition by means of pixel shifting a very small (0.47 inches, or just under 12mm) full-HD Digital Micromirror Panel to four different positions for each frame. Obviously that’s something we’ll be looking at very closely as we get further into the review.
A conventional 240-watt lamp powers the projector, but BenQ rates this one with a lamp life of at least 4000 hours. The low output mode bumps this up to 10,000 hours, and a ‘Lamp Save’ mode delivers, says BenQ, some 15,000 hours of life.
BenQ has also designed the projector to produce 96% coverage of the Rec.709 colour space, which is the standard high-definition colour specification. The contrast ratio is rated at 10,000:1 and the maximum brightness at 2200 lumens.
There are two HDMI inputs on the projector, with one supporting HDCP2.2 and UHD signals, rendering it suitable for use with Ultra-HD Blu-ray players. It also supports High Dynamic Range (HDR) signals. The other HDMI input could be readily used for a Chromecast dongle or similar, since the projector also has a USB socket for providing power. It could also be used with BenQ’s own wireless HDMI system.
There is no lens shift function here. There is automatic vertical keystone, which I’d recommend switching off so that you don’t accidentally have it reducing your display resolution because of a slight departure from an exact level. There’s a 1.2:1 zoom range. For a 100-inch screen, a range of between 3.25 metres and 3.9 metres is required.
The projector also has a built-in speaker with a 5W amp, though we would, of course, recommend enjoying your large-screen projection with a rather larger external sound system.
The first question to be answered, even before getting to the broader question of picture quality, is whether this projector actually delivers the resolution of Ultra High Definition. I confess I had my doubts. The problem with pixel shifting technology isn’t anything to do with the general concept. Of course pixels can be shifted, and amazingly they can be shifted by such tiny amounts that they can be moved mere halves of pixel widths. The problem has been the size of the individual pixels. A 1080p panel would presumably use pixels large enough to almost entirely fill each pixel’s space in the grid, otherwise the screen-door effect would be intolerable. Which means that each pixel, on being shifted, would be overlapping — by a long way — on top of what was supposed to be the UHD pixel next to it (see above).
That was my concern, and it seemed to be largely the case with earlier 1080p pixel shifters we’ve looked at. There are ways of getting around that, of course. The first would be to make the pixels smaller so that they don’t overlap as much, if at all. That would require the projector to be locked into UHD mode all the time in order to avoid that massive screen door effect. Possibly, as an alternative, the pixel-shifting tech could somehow focus the pixels down to tighter dots. Despite getting some information from Tecas Instruments (see overleaf) which makes the Digital Micromirror technology (see above) within this BenQ, we can’t be certain exactly howthey have done it — but the fact is that this projector is indeed capable of resolving Ultra-HD resolutions to the screen. (The box above goes into this in wonderful, nerdy, depth.)
I confirmed this by using my standard UHD test pattern — coloured and black and white lines with one UHD pixel of separation sent to the projector. A photo of the centre part of the image, where the lines cross, is reproduced above. Each set of lines consists of ten lines, one pixel wide each, with a one-pixel-wide line between them. Then there’s a two-pixel-wide white space to the sides of the ten, with a further coloured line outside of that. As you can see, they are all reproduced. Not cleanly, and not quite as brightly in colour at the pixel level as when they are reinforced by neighbours, but nonetheless, there they are.
I took those photos with the projector in the default ‘User 1’ picture mode. After watching a little, I found it useful to advance the overall colour saturation by a few notches because the picture seemed to lack some richness. That fixed things nicely, bringing to the picture a colour intensity that seemed to enhance clarity.
I had, after all, come to this projector after spending some weeks with a 65-inch OLED TV. Getting the colour up was essential.
Also by comparison, the black levels were rather brighter than the infinite black available from OLED. This projector is not in the top rank for projectors of deep blacks. But it
was able to produce them deeply enough to achieve the all-important effect of being subjectively convincing, especially when absorbed in the program, rather than seeking to examine the technical aspects of picture delivery.
I general I prefer to run projectors at one of the eco lamp settings, but with this one I found it better to stick with ‘Normal’. That allowed highlights to really punch out of black backgrounds in certain scenes, albeit at the slight loss of some dark picture detail.
As it happens, I’ve been systematically going through the Harry Potter movies in order. I’d watched the first six on 65-inch OLED, and the seventh on this projector. It is a visually dark movie in many parts, and once or twice there was indeed a loss of low light detail. But apart from those couple of high contrast moments, the black levels did not detract from enjoyment.
Which raised the question as to which was better for watching a Harry Potter movie on Ultra HD, this projector or a $7K 65-inch OLED? There were pros and cons both ways. Yes, colour and blacks were obviously better on the OLED. But what it could not deliver was a scale to match the DTS:X sound field produced by the movie. The sheer size of the picture became part of the experience with this projector.
I used the test pattern on a Sony Ultra-HD Blu-ray — dial 7669 on your remote when the main menu is displayed — and paid close attention to the last few chapters of this. These show calibrated grey-scale brightness levels for HDR. They go all the way up to 10,000 nits, something no home display can produce. All HDR capable displays map the various signal levels to what they consider to be suitable output levels to achieve the best effect. For example, if the display tops out at 1000 nits the display may be designed to map, say, 1500 nits to the maximum output. Everything above 1500 nits is crushed down to that. The levels below 1500 nits are then scaled appropriately between full black and the maximum.
With this projector the continuous black-to-white grey scale at the bottom of the screen showed no visible steps, just a perfectly smooth graduation in brightness. The marked levels on the larger stepped patterns showed a barely perceptible difference between 800 and 900 nits, with a 1000 and above all matching 900 nits. At the other end of the scale, I could not distinguish between 0.000, 0.001 and 0.005 nits, but the next step to 0.010 nits was visible.
How about performance with lesser material? The projector did a very good job of delivering full-HD material with a sharpness and clarity that didn’t disappoint by comparison with Ultra HD. Even my old DVD test clips seemed surprisingly watchable, thanks to the resolution enhancement provided by the projector. It manages to pull this off with little in the way of ghosting, so it remained watchable.
But the same problem that afflicted the X12000 and W11000 projector remained: the internal display engine is locking in a 60 hertz display sequence. I found myself quite sensitive to the resulting cadence issues. The A B C D frame sequence of 24p movies was converted to A A B B B C C D D D, producing marked judder in just about all camera pans, and sometimes even in the movement of characters across the screen. This was somewhat more marked with 50 hertz material, such as HDTV, SDTV and Australian DVDs. For those, it seems that every fifth frame was repeated to turn 50 into 60. So judder abounded.
That was offset a little by significantly improved 576i/50 and 1080i/50 deinterlacing. The auto film/video detection was not perfect, but acceptable, with normal material being competently handled, and about half of my trickiest film clips properly handled.
So there you have it. BenQ has managed to produce a full resolution Ultra-HD projector for just $2499. It’s a projector that is able to deliver the scale that really makes Ultra HD worthwhile.
BenQ W1700 UHD AV projector
ABOVE: a detail from a photographic image of single-pixel lines in a UHD test pattern (see main copy), as displayed by the BenQ W1700. Note the lines are individually reproduced — not entirely cleanly, and not quite as brightly in colour at the pixel level as when they are reinforced by neighbours, but certainly pixel-for-pixel Ultra High Definition.