Tag: Yashica 35 ME

3..2..1 – 20yrs out of date.

Soon, I will
Post a report I have done of a repair on an old 1972 camera. But first I want to test it with some film that expired 22 years ago.

I recently purchased a 1972 Yashica 35ME. It’s an old point and shoot, from back in the day, similar in looks to an Olympus trip, but an Olympus trip it is not. A very basic 35mm camera, with a CdS light meter that was not working, it is now.

Yashica 35ME

I shall have a post out soon about the camera but the final testing involves running a roll of film through it to test. And all I currently have is a few rolls of old Kodak film that all expired about 22 years ago in 2004. You may recall this post I wrote regarding my last involvement with this film stock a few months ago –20yr old Kodak Gold

As a result of that test you will understand why I am over exposing this film by only 1 stop, even though I’m being told by “Professional dudes” it must be at least 2 stops. I understand their reasoning, but I’ve tested this batch previously and they haven’t, so i’m sticking to my guns on this one. If I’m wrong I’m wrong, but I will have learned. Let me do things my way ok?

I’ve loaded up with Kodak Gold 200ASA that I will be overexposing at 100ASA, it expired in December 2004.

Old Gold…..literally

I’ve locked and loaded a roll into the camera today, but I’m just waiting for some good light. So I can get out and give the camera a real test taking random pictures, in various locations to give the camera a fair test.

Just awaiting some decent light.

I’ll post the repair on here shortly, hopefully with some pictures once the negatives have been processed and scanned.

But as we are waiting some nice conditions, and this is the East Midlands of the Uk, we could be waiting a little while yet.

I’ll update this post once repair is uploaded.

Take care, stay safe. Thanks for looking in. 🙏

Photographic light sensors in older point and shoot cameras

A little explanation of the differences between the light sensors of two vintage point and shoot cameras produced 12 years apart

I’ve recently purchased two old point and shoot cameras as a lot. One was from 1960 and the other one was from 1972 only 12 years apart, but a world away in technology regarding light sensing ability and technology.

Yashica 35 ME & Ricoh Auto 35

These two cameras only cost me £4:99 In total, they were sold as spare parts, and I suspect the issues could be around the light metering, as to be honest there isn’t a great deal else that could go wrong with them. Here’s a quick breakdown of the metering methods on each camera, followed by a more complex explanation around just what each method of metering involves.

Ricoh Auto 35 – Circa 1960

The older camera, the Ricoh, dates from 1960 and just by looking at it, you can see its light sensing system is built around the face of the lens barrel, it’s that glass honeycomb concoction that is so typical of a number of cameras and light meters of this period. Here is a post I previously made regarding Selenium light meters – (Sangamo Weston Master V light meter) The meters were known as selenium meters, there was no electrical components such as batteries, it was a little bit of scientific magic, here we go with a little explanation….

How the Selenium Cell Works in This Camera:

A selenium light cell operates on the photovoltaic effect (similar principle to modern solar panels):

The cell contains a thin layer of selenium coated onto a metal base. A very thin transparent conductive layer (often gold or another metal) is placed on top. When light hits the selenium, it generates a small electrical current. That current directly drives a tiny moving-coil meter needle.

The honeycomb ring is the selenium cell, light hitting it generates a small electrical current of approximately 0.5v. That current directly moves a needle inside the camera, the needle mechanically links to the exposure system. On the Auto 35, the meter is coupled to the shutter/aperture system, meaning that in “Auto” mode, it helps set exposure automatically. In manual mode, you match the indicator.

No battery is used — it is entirely self-powered by light.

Expected life span:

The Ricoh’s selenium cell is now about 60+ years old, so condition varies.

Typical selenium lifespan:

Originally: ~20–30 years

Many survive 40+ years

After 60 years: often weak or dead, this one probably is

Common Conditions Today:

✅ Still accurate (rare but possible)

⚠️ Works but underexposes 1–2 stops

❌ Needle barely moves or is dead

They usually fade gradually rather than fail suddenly.

So that gives an idea of how 1960s light metering works, and to be quite honest it probably means that as this camera is now over 60 years old the metering cell is long dead. It does not mean the camera is useless though, it can be used manually using a third party light meter or you can always use the “Sunny 16” rule.

Yashica 35 ME – Circa 1972

Now moving on 12 years to 1972 and the selenium meters have now gone only to be replaced by the CdS system- Cadmium Sulfide sensor, otherwise known as an electrical photocell. The sensor can be seen at the top of the lens ring, a little glass bubble. The downside with these sensors are that they contained Cadmium which is a toxin, replacements are no longer available so modern cameras use photo diodes instead. Here’s the explanation of CdS technology:

Unlike selenium (which generates electricity), CdS works by changing resistance:

In bright light → resistance drops

In dim light → resistance rises

The camera contains:

A CdS photoresistor, A battery, A small electronic circuit, A meter or automatic exposure mechanism

The battery sends current through the CdS cell.

Light changes the resistance, which changes the current.

That signal controls the exposure system, and a 1.3v battery cell is required to power the meter.

Why CdS Was an Improvement:

Compared to selenium cells, the CdS photocell was much better in low light, it was smaller, more accurate and required a battery that could be replaced to extend life whereas the selenium cell in time would naturally just die away.

CdS cells generally last a very long time — often decades — and usually outlast selenium meters.

Hopefully this gives an explanation regarding the two types of metering sensors that were present between the 60s and 70s. It is always worth considering when purchasing such cameras that the light meters may not, and will probably never work again, the camera itself is probably fine, you’ll just have to find other ways to ensure your lighting conditions are sufficient, and that really is no big issue, it’s easy and second nature to most camera users. As stated earlier just use the “Sunny 16” rule. Just enjoy your photography, experimentation is half the fun.

Reviews on these cameras will be following soon.

Thank you for passing by, it’s always appreciated.