The physical resolution is 2716 × 1528, with a total pixel of about 4.15 million, half of 8.3 million pixels. Therefore, TI specially launched XPR Technology.
The physical resolution is 1920 x 1080, so this is a real 1080p chip. But it uses Texas Instruments TI’s unique XPR technology.
The image in this section contains the test graphics. This video has a standard UHD resolution of 3840 x 2160. If the projector can distinguish the most subtle graphics, the real resolution of the projector is 4K. If it is discounted in some aspects, in fact, the resolution of the projector is less than 4K.
The test pattern is like this. It’s basically a box with several horizontal bars, vertical bars and diagonal bars, plus a big circle. The most elaborate test pattern is composed of 1 dot. We mainly look at the first line of checker, the second line of stripe vertical bar and the third line of horizontal bar.
1. The 1 dot precision chessboard is still recognizable on 3-chip 0.74 “SXRD. The picture may be too small to see clearly, but it can be recognized by the naked eye.
2. 0.47 inch 4K DLP and 0.66 inch 4K DLP can be identified on the chessboard of 2 dots, but not 1 dot
3-chip 0.74 “SXRD and 0.66 inch 4K DLP can distinguish 1 dot vertical bar. Although inch 4K DLP can display vertical bars, the display effect is different from 3-chip 0.74 “SXRD. On 3-chip 0.74 “SXRD, the vertical bars from 1 dot to 3 dots are gradually thicker, which is normal, but the 1 dot of 0.66 inch 4K DLP looks thicker than the 2 dots, which is abnormal.
0.47 inch 4K DLP is recognizable from 2 dots and performs normally.
The horizontal bar test is still the same as the vertical bar.
Although the 0.66 inch and 0.47-inch 4K DLP are literally called 4K, they are actually two products of completely different grades. The 8.3 million pixels advertised by the 0.66-inch chips are still authentic. The 8.3 million pixels of the 0.47-inch chip is just a gimmick.