Archived posting to the Leica Users Group, 1999/10/12
[Author Prev] [Author Next] [Thread Prev] [Thread Next] [Author Index] [Topic Index] [Home] [Search]From: Neil Frankish <nfrnkish@dux4.tcd.ie> Sent: Tuesday, October 12, 1999 11:40 > Are you referring to digital cameras, rather than negative scanners? In that particular context, I was referring to CCDs. CCD technology can meet and exceed the quality of film--at a price. Unfortunately, achieving the same limits as those that theoretically apply to film with a CCD is cost-prohibitive for just about everything except spy satellites. Achieving quality sufficient to replace film for _a specific application_ can be much more economical, however. It certainly is true for consumer video, for example. > He was of the opinion that further increases in CCD > resolution were not possible without a quantum leap > in technology ... Within the context of digital photography, I agree. Right now, nobody knows how to economically produce a CCD chip that matches 35mm film in size (24x36 mm imaging area), and unless something wonderful happens, it's hard to see how anyone is going to find a solution to this problem any time soon. > ... current densities are almost at the theoretical > maximum - yet still can't match film resolution by a large > margin. This depends on what you mean. CCD densities are very high, but they could be made higher. However, that's not the problem. The problem is that the imaging area is still too small. You don't need a 6x4-millimeter imaging area with 200 million pixels; you need a 24x36-millimeter imaging area with 12 million pixels. You need this because all existing 35-mm equipment is designed to work with a 24x36-mm area. It's not economically wise to render all that equipment obsolete, so you need to find a way to make CCDs that large. Nobody has found a way to do this yet, at least not affordably. But the actual pixel density per unit area is very high indeed. If you could spread that over an entire 24x36-mm surface, you'd have an incredible image. Now, some would say that you can just build new camera systems designed for a smaller imaging area. However, that renders billions of bucks' worth of 35mm equipment obsolete, and it also raises problems with things like diffraction--and diffraction is one of those problems that cannot go away, because it's a consequence of fundamental physics. So the real success of digital photography hinges in large part on a way of making CCDs as large as 35mm negatives. I don't see that happening anytime soon. > And this leaves out the whole question of data transfer > rates of the much larger files that might be produced > by a CCD-replacemant device. Data transfer is not a problem. The problems right now are affordable, 24x36-mm CCDs (they don't exist yet), and compact, very-high-capacity data storage (which will exist in a few years). The first problem is going to be the limiting factor, unless, as you mention, some sort of incredible breakthrough occurs (such a breakthrough, incidentally, would revolutionize all of microelectronics, not just digital photography). > Also, as a portable information storage device, film is hard to beat. But it deteriorates and accumulates defects, making it a poor choice for long-term archives. Digital images do not have these problems. > On the other hand, the pictures taken with the Leica S1 > digital camera are apparently of excellent resolution ... Yes, but like all such high-end digital cameras, exposure times are unacceptably slow (seconds). No handheld candid shots are likely with these cameras any time soon! -- Anthony