Opportunity is missed by most people because it is dressed in overalls and looks like work. - Thomas Edison
The Saati unit is at 450nm, seems a bit high on the scale for most emulsions.
Quote from: Prōdigium on March 09, 2016, 10:11:52 AMThe Saati unit is at 450nm, seems a bit high on the scale for most emulsions. this is not true. Their units are 405nm. See the previous post with the lamp in it.According to Saati's techs, they've found the best and deepest exposure to occur on their emulsions with a 405nm source due to the fact that the most sensitive area (395nm) also absorbs some of the light, and the areas around most sensitive areas allow for a slower 'cook' time.
Quote from: jvanick on March 09, 2016, 10:16:17 AMQuote from: Prōdigium on March 09, 2016, 10:11:52 AMThe Saati unit is at 450nm, seems a bit high on the scale for most emulsions. this is not true. Their units are 405nm. See the previous post with the lamp in it.According to Saati's techs, they've found the best and deepest exposure to occur on their emulsions with a 405nm source due to the fact that the most sensitive area (395nm) also absorbs some of the light, and the areas around most sensitive areas allow for a slower 'cook' time.A type error, 450 WATT, 405nm....to clarify that sounds better, but still 405 is just outside the range of true UV. But what your saying is that 395 is TOO efficient and works too quickly. BY going into the white light spectrum a bit more they have in fact given a wider latitude for exposure calculation errors, which makes sense as correct exposure times are an art & a science that most people never get right. So 405nm is more "User Friendly" but not as fast.I will still play with my 395nm box because its what I already told my friend to make me and in the end I think will produce better results. If exposure latitude becomes an issue, there is this thing called a dimmer and the wattage can be dialed down to slow the process, kind of like a medium setting on the microwave, not everything cooks best at full power.
An exceptionally interesting concept, and accepted proof of concept. The issue will remain that most, if not all LED/LCD screens will simply NOT produce enough power (per pixel) unless specifically manufactured for this process. An expensive endevour to say the least. This would especially be true for trying to expose a thick cap film, but could have application in the printed circuit boards field?
Don't forget about the tape... THE TAPE!!!!
This is a pretty similar idea to the DIY projector builds that were all the rage when I was in college (old school overhead projector for transparencies, but with a torn apart lcd monitor on them instead of the clear glass above the fresnel lense. They worked "ok". As far as replacing film or dts, the main issue you are going to have regardless of any of these proofs of concept you've done with LED's is that the LCD is not going to block enough UV to get a quality stencil no matter what you do. You can prove this with any exposure light source, and the LED flashlight isn't going to prove this better than a MH or flo tubes, etc. You also have other issues with LCD, like the fact that lots of UV is destructive to the LCD, it will scatter light like crazy and cause undercutting (even with adjustments over time like you discussed). The LCD will act like a really faintly printed film that is not vacuumed to the emulsion and exposing through a super thick not optically clear glass and over time will fail due to the UV exposure. Neat idea, but a long, long way from realistic.This stuff was actually being discussed at least a decade ago for etching circuit boards, but I am pretty sure it was pretty much definitively abandoned.
Thanks for saying succinctly what I was trying to convey. We're not the only industry that wishes this would work.It's been tried.Using a projector at close distances looks interesting however. I forget the three letter acronym they came up withfor that one.