Category: Getting Stuff

About vendors of photo and art materials, training, you know, stuff.

LED Astray

Posted on Posted in babl, big bits, diy filmsc, flixit, Getting Stuff, the Lab

LEDs are easy — available, cheap, current knowledge. Why not use them for everything “light” — from enlargers to densitometers — the entire world of darkroom photography can be upgraded from the hot light era of last century to the energy efficient 21st century. We’ve come a long way from the 50s tube technology. Semiconductors advance rapidly, continuously. It is the way of industrial application.

So why not make it yourself using some breadboarding, a bit of code, and LEDs from a seemingly infinite range of suppliers.

  • are you building something to build it and prove something — learn something?
  • are you sharpening pencils rather than working
  • can it be bought cheaper
  • do you need it? now?
  • do you know why you would use it
  • does it replace existing
  • does it introduce additional complexity — do you know

LEDs are “additive” mode sources.

Enlarger Lamp Replacement

This seems to be the main source of information. Early efforts posted to the internet go back a decade. Many are for BW multigrade paper exposure and control. This replaces the color-heads that flourished during the 80s individual darkroom rush which was driven by people printing color. What is it that you are replacing, or upgrading?

The source of light? Color? A timer, an analyzer, a closed loop system?

There are, in November 2022, two companies making full function enlarger heads. That means they see a need and have engineered an answer. Maybe you should look at Heiland’s or Intrepid’s equipment before starting your own project. Intrepid 4×5 Enlarger Kit

Densitometer Replacement

More recent, but driven by the scarcity of densitometers most of which were discarded by professional labs as they closed down between 1990 and 2005. The first use of these was in color process analysis. That need reduced throughout the 60s and 70s as Type C printing took over from Dye Transfer. Dye transfer needs declined steadily after 1975.

The densitometer was used as a quality assurance and monitoring device. This was how labs maintained large chemical lines and automated printers. The explosion of small photography studios fed this. That has all been replaced by digital, which has dominated for more than a generation of photographers. — Digital uses more AIM points and spectrophotometers than film did/does.

How did those old densitometers do what they did? A light, filters, sensor(s) — sensor like a photocell, a lightmeter — early ones as well as very sensitive on-easel analyzers used photomultipliers.

the light wasn’t complex, it was just an ordinary off-the-shelf bulb. The filters where chosen from the status sets — one for transmission — the most needed in dye transfer. Or for reflection, the one for measuring standard quality strips for printing .. Much of the magic was in mechanical engineering, with much of that seemingly to obscure the otherwise simple mechanisms in the box.

There was a whole lot of discreet components on the boards. Over time integrated circuits replaced that, so much so that power supplies were the last holdout of the complex electronics. All of that could easily be upgraded by current electronics-software systems.

Do you need a densitometer — probably not. Do you know the difference between two and three point control?

The main need of a densitometer in an assembly process is control of separations, not in the analysis of the original film. In a lab operation where anything could come over the transom, examining the ‘chrome was important — it saved us time. Also, when we had many films to match print it saved us much expense, while assuring that the set of prints seemed as though they had been shot by the same camera/film and printed at the same time. This is what profiling achieves in the digital domain.

What I mean, what I did: my first three years making dye transfers I didn’t have a densitometer. These were my prints. I relied on other controls to get my results. With my second commercial printing, I bought my first densitometer. In effect, my client paid. That was a major realization — work on the clients money. If they can’t afford it, you can’t afford it either. Don’t become one of the many “equipment poor” photographers.

Status — the filters and light source specifications for a densitometer.

  • A == sets of filters for measuring color densities of positive materials (what you see)
  • M == the set used for measuring densities of negative color materials. These are densitometric values that you don’t directly see.

shorthand for terming readings is to call them A, or M reading. Additional distinction is whether a system is “colorimetric” or “densitometric” …THIS IS IMPORTANT IN SCANNING SYSTEMS.

Sparks Fly

Posted on Posted in da net, Getting Stuff, overnight notes, the fora

when amateur experts collide. If nobody is right… let’s have a fight.

Power Struggles

Does the answer matter as much as winning, dominating among, what are essentially bullies in boast mode. Aging forums traverse a standard decay. It takes very little to cause the inmates to stomp and shout. So, what happened?

technology designed to serve industry across many nations with differing standards of safety.

Professional labs often operated all day, every day. One workstation was used by different operators on different shifts.

Design standards matured. Knowledge among users of different products was passed to all the involved vendors.

Salesmen talk. Hard to keep secrets that are for sale to anyone at a trade show or a reception room.

Could it get you there? The knowledge thread. Only if you already knew the answer; you’d do fine picking through the several pages collected over many years. And read German. The fact is, most of the knowledgeable from the chemical era began retiring in the 80s. Those most successful labs were being sold by the late 80s. It was clear that growth was over. By 1990 anyone with an accountant knew: the best is done. And asking: what comes next, if they were too young or too poor to stop, to make the next step.

Enlargers are elegant solutions to a simple need. Make this bigger. Make a projection. A light and a lens is all that’s needed.

Mechanical engineering improved over several decades to hold and position the film to be enlarged. How to do this cheaply yet durably. Divide the market into the casual and the commercial. From the 50s onward safety standards matured, so did manufacturing experience and supporting industry with more and more solutions.

The hobbiest’s casual darkroom is likely a converted space, perhaps a shared space. The car, the bar, the enlarger, that spare freezer, all stuck away. And subject to accidents. Water makes a great conductor.

hard to get agreement among them, when they don’t even keep agreement with themself. over time they switch opinion — seems to be based upon who they agree with not that it matters. none of them are the ones who have to fix the broken, possibly dangerous, device.

Lonely, a bully, and a know-it-all meet online to answer questions of the naive. Bullfrogs at a roadside puddle.

Resources

http://www.luigipasto.com/pages/resources/

http://www.jollinger.com/photo/enlargers/chromegatrol_repair.html

http://durst.loremi.com/

Click to access Durst%20TRA450%20Wiring%20Diagrams.pdf


http://www.jollinger.com/photo/enlargers/other/Changes_to_My_Chromegatrol.pdf

Amateurs need to explain, more to themselves than to others, why they ended where they did. It can’t be because of their lack, it must be something you’ve done.

“Galdston was surprised that Evans made better pictures than he did, even though Evans didn’t know much about f-stops and shutter speeds.”

The difference between Iago Galdston and Walker Evans is obvious.