Today, weâre gonna be talking about one of theÂ
many items behind me in this set. A set which, for some reason, some of you think isnât real(?) Even as I reach for the item in question, a physical item in the physical setÂ
that I physically sit in front of, a few of you will convince yourselves that thisÂ
is all an elaborate compositing effort because⌠well frankly I donât know why. I mean, it should be obvious from my videos that After Effects is a program I open accidentally, stare at in terror,Â
and then feel guilty about never bothering to learn despite multiple new years resolutions. And yet some of you think me and Captain Disillusion are the same person - how? We sound nothing al- anyway I will now reach for the thing. That is a real dust spot, by the way. This is a Canon F-1, a 35mm single-lensÂ
reflex camera introduced in 1971. Single-lens reflex, often shortened to SLR, meansÂ
that the view through the viewfinder is through the same lens that exposes the film. This is done with the aid of a mirror which redirects light from the lens onto a ground-glass focusing screen to allow the shot to be composed exactly as it will be captured on film, eliminating the parallax error from a separate viewfinder and allowing you to previewÂ
the depth-of-field of a stopped-down lens. When the shutter is released, the mirror isÂ
swung up and out of the way, allowing the light from the lens to land on the film itself (after the shutter has opened, of course). I love this camera, though I havenât used itÂ
in quite some time, and weâre gonna talk a lot about analog photography as time goes on but this particular video is about one fundamental aspect of how you use it - its light meter. Now, quick side-note, there were plenty of cameras with automatic exposure available to the consumer when this was released. Like this Olympus Pen EES-2, which you better believe weâll talk aboutÂ
someday because itâs got all sorts of weirdness,  but the Canon F-1 is entirely manual, and in factÂ
entirely mechanical. Thatâs a large part of why I love it. Itâs built like a tank, weighing in at just shy of 850 grams or nearly 2 pounds. Thatâs without a lens or film, mind you. Lightness was never a priority. By the way, despite its uncanny resemblance to some sort ofÂ
LCD screen, this thing is in fact nothing but a holder for the torn-off end of a box of film, to serve as a reminder of what ya put in it. Interacting with this camera is so delightful - everything is where it is because thatâs where it needed to be. All the controls are physicallyÂ
connected to the mechanisms they activitave which makes them delightfully chunky. You can see how turning the film advance lever cocks the shutter by moving the two halves of the shutter curtain in unison, and you can even hear the little clockwork mechanism that controls the shutterâs timing at long exposures. Take a listen. [ticking sound] [clack; ticking stops] Still, even with the constraints inÂ
place, Canon managed to make this brick of a camera decently ergonomic (for righties, anyway). Your thumb, index finger, and middle fingers rest naturally on the film advance,Â
shutter release, and front control respectively. My personal favorite thing is that frontÂ
control. Push the lever towards the lens and it closes the aperture so you can getÂ
a depth-of-field preview in the viewfinder, but turn it the other way and you can feelÂ
that youâre winding something up. Well⌠[rapid high pitched ticking] Oh god, the suspense. CLACK I just love that. Thatâs its self-timer. Oh, and that little lever on the bottom? That is used to lock the aperture preview in place, and lift theÂ
mirror for vibration-free long exposures. This camera requires no batteries toÂ
function and yet it can do pretty much  anything you can reasonablyÂ
expect a 35mm camera to do.  Well, aside from auto-focus and motorized filmÂ
winding. I did say this was entirely manual. The F-1 was designed to be incredibly modular,Â
though, and you could accessorize it with all sorts of things from motor drives to differentÂ
viewfinders to bulk film backings. This one, though, is in its stock form. It has theÂ
standard everything. And, while it does not need any batteries whatsoever to function, itÂ
does have a battery compartment on the bottom.  In here lies a small coin battery which powersÂ
the light meter. Whatâs a light meter? Well, itâs not a questionable astronomicalÂ
unit, itâs instead an information display. Alright, quick crash-course in basic photography. Almost every camera ever can control the amount of light that hits the film or image sensor in two ways: the lens aperture, and the shutter speed. Inside the lens is a multi-bladed diaphragm thatÂ
can, to put it in rather basic terms, reduce the  size of the lensâs opening through constriction. Those are what the F numbers on a lens are, and the higher the number, the more constricted that opening becomes, thus the less light makes it through to the film or sensor. A side-effect of this is that the depth-of-field, thatâs the range of depths that are in-focus, becomesÂ
deeper the more constricted the lens becomes. That means that more of the image is in focus,Â
much to the chagrin of bokeh fans, when a higher F number, and thus smaller aperture, is used. Note that for landscape photography and other scenarios where nothing is close to the camera, the depth-of-field becomes more or less irrelevant. The shutter speed, meanwhile, is
(in still photography) the amount of time the shutter remains open. Leave it open for longer and you can collect more light, hardly open it at all and you collect less of it. The trade-off here is that long exposures require very still scenery (and probably a tripod) as any motion will be blurred. Shorter exposures on the other hand will freeze motion, but they require more light through a wider-open aperture. Shutter speed is measured in fractions of a second, and this camera is capable of speeds from 1 second to 1/2000th of a second. B, short for bulb, will leave the shutter openÂ
as long as the shutter release is pressed. Thereâs an inverse relationshipÂ
between shutter speed and aperture.  Higher F numbers allow less light through the lensÂ
which means the shutter has to stay open longer  to collect the same amount of light. And, if a shorter shutter speed is desired, the aperture has to open wider to allow more light through theÂ
lens. In order for the exposure to be correct, the aperture and shutter speed must be an appropriate combination  for the amount of light available in the scene andÂ
the sensitivity of the film or sensor. However, once you know one combination that works, you canÂ
adjust the shutter or aperture up or down so long as you adjust the other setting appropriately inÂ
the opposite direction. The F-numbers, by the way, are as weird as they seem to be because the number itself is a geometric ratio, but we want to have stops at each value that halves or doublesÂ
the amount of total light going through the lens  in order to correspond to the availableÂ
shutter speeds. We call those stops⌠stops. So now we've come to the metering bit. Every filmstock has a certain sensitivity to light, known as its film speed. The term speed comes from the fact that exposure time will vary based upon sensitivity, all else being equal. We now call that the ISO, though back when this camera was made it was called the ASA (the initialism for the American Standards Association, now known as ANSI). See, back then, Germany was doing its ownÂ
thing with a logarithmic system they called DIN, the acronym for their standards organization, incidentally, butÂ
in 1974 the International Standards Organization said âya know weâre gonna just mash the ASA and theÂ
DIN together, and now thatâs the ISOâ but nobody ever remembers the DIN half of it: theÂ
ISO 100 should really be 100/21° so in a weird way weâre still using ASA but callingÂ
it ISO. At least, outside of Germany. Anyway⌠Nope, one more tangent, I S O. I say the three letters. Why? Because ISO and "eye-so" are so close to each other that IÂ
donât think it makes sense to force the acronym. Does it matter? Of course not, itâs just,Â
like, my opinion but I will at least grant that itâs less atrocious than calling thisÂ
âNitsahâ which theyâre trying real hard to make a thing in case you hadnât noticed. And I regret to inform you that⌠itâs working. Anyway, modern digital cameras have an ISOÂ
setting because you can change the sensitivity of the image sensor, but back when we were using good âol emulsions of silver halides on a clear plastic backing, youâd be stuck with whateverÂ
the sensitivity was of the film you bought. Of course there are many kindsÂ
of films from many manufacturers,  and the film speed is itself somethingÂ
of a trade-off - more sensitive films are usually grainier, so youâd want to pickÂ
the appropriate film for your situation. But now⌠well how are you supposed to knowÂ
what shutter speed and aperture setting you should use?  You have to get the exposure correct if you wantÂ
the resulting image to have decent dynamic range.  Otherwise it will be blown out from overexposure,Â
or a dark mess without any detail. Well, there are some general rules of thumb you can useÂ
in certain situations. For example, on a clear sunny day you can use the Sunny 16 rule: set the aperture to 16, and the shutter speed to the value that most closely matches the film speed. So, if your ISO is 100 - one one hundredth of a second, or the closest available setting (on this camera, it would be 125). This works because a doubling in film speedÂ
equals one stop in exposure - it requires half as much light, and at F16 the correctÂ
shutter speeds happens to match the film speed numerically. If you need a faster shutter speed for a given shot, just open up the aperture an equal number of stops that youÂ
increased the shutter speed to compensate. But, news flash, not every photograph isÂ
taken outdoors on a sunny day. Wouldnât it be nice to have something that can tell [clunk]
you the correct exposure for any given scenario? Enter the light meter. These devices are able to, with the aid of some sort of light sensor, provide the user with an appropriate exposure value. These devices were originally hand-held, and were fairly crude. Generally theyâd just have a needle-type readout which would point to the appropriate aperture value for a given film and shutter speed.  To use them, youâd bring them to your subjectÂ
and point them at something which was close to  a middle-grey in terms of brightness, thenÂ
youâd set your camera up appropriately. You can still buy handheld light meters today,Â
though theyâve been digitified of course.  But before long they were integratedÂ
into camera bodies themselves.  And thatâs why this otherwise mechanical cameraÂ
has a battery compartment. Now, keep in mind this camera was originally released in 1971
(though this example is a later revision). Its light meter will be limited to the same sort of analog techÂ
that was found in the handheld meters of the time.  But, and this is why I wanted to make this video,Â
it was done in an extremely clever way that not only simplified its operation to the user, butÂ
allowed for more flexible use of the camera. The meter appears as a small display to the rightÂ
of the image in the viewfinder. Right now the camera doesnât have a lens on it, but watch whatÂ
happens when I put one on. [clicky sounds of lens being attached] The small circle moved upwards. That circle is mechanically linked toÂ
this little piece here. You can see that as I move it with my finger, the ring moves up and down. This engages with a small peg on the lens itself. Once installed on the camera, moving the apertureÂ
ring on the lens causes that ring to move. Now, in addition to the ring, thereâs a smallÂ
horizontal line. Right now itâs sitting in the bottom red area. This is actually a needle that will move depending on how much light the camera sees. And this is where the battery comes into play. You may have noticed this power switch - all that does is turn on the light meter. That little blue mark in the meterâs display is used as a battery level check. You can see thereâs a little sticker here reminding you that to check the battery level, the shutter speed should be set to 2000 and the ASA to 100. Then when you move the switch to theÂ
check position, the needle should jump up to the blue mark and so long as it does - the batteryâs OK! If it doesnât make it to the blue mark, well itâsÂ
flat and if it overshoots it⌠weâll get to that. When the meter is turned on you can seeÂ
the needle move with the amount of light that hits the camera. The brighter the image the higher it goes! But⌠where exactly is it measuring? You probably noticed the darker portion of the viewfinder towards the center. That is the sensitive area of the light meter. With a lens on, you can see that itâs only whatâs in this areaÂ
that affects the needleâs behavior. But⌠how is that possible? Where is the actual sensor? Surely we didnât have transparent light sensors in 1971. Well maybe we did but thatâs not whatâs goingÂ
on here. Again, itâs extremely clever. One of the many things you could customize on this cameraÂ
is the focusing screen. To remove it, you simply remove the viewfinder by pressing in these little lock buttons and sliding it towards the rear. And⌠thereâs the focusing screen. Kinda trippy, huh? Thatâs what we were looking at in the viewfinder, but now weâre looking⌠down at it. In fact all the viewfinder is is a prism, a roof pentaprism to be precise, there to redirectÂ
your view from the eyepiece downard and flip the image horizontally. This creates the distinctive hump you see above the lens of all SLRs to this day, though I must say I much prefer theseÂ
sharp lines which donât hide the nature of the thing to the blobular designs of today. Anyway, this is the focusing screen and it, too,Â
is removable. Before I even remove it, though, something about it seems weird. That darker region appears to be⌠floating. Now, this is obvious in person thanks toÂ
stereoscopic vision, but it might not come across well on camera. Iâll try my best, though. At the very least, you can see that the circular focusing aids in the center are actually separate from that darker region. If I pop the focusing screen out, youâll get a clue as to why. See that little window there? Look through it. Weeeeird. That dark region is actually a semi-transparentÂ
mirror that is floating in the middle of the glass somehow. I really want to see how these were manufactured. But anyway, it redirects some of the light coming up through the focusing screen outÂ
this little window and if we look from the front youâll see what lies behind it. The light sensor. From the looks of it it seems to be a simple light-dependent resistor or LDR, though itâs obviously a little fancier than the one in your garden variety night light. The amount of light that falls on this will, thanks to the battery and the simple electronics it powers, determine where the needle in the meter lands. So, in the end, that rectangle is simply theÂ
dark region left by a semi-transparent mirror  embedded in the glass of the focusing screen atÂ
a 45 degree angle so it can redirect a portion of light onto the sensor. Thatâs what I callÂ
neat. Now that we know where the meter measures, how it works, and what it does⌠how does one use it? You may very well have figured it out by now. This variety of meter is called a match-needleÂ
meter, and that ring? Well, itâs your target. To use this cameraâs light meter, youÂ
first point the camera so that something  in the scene thatâs not too bright or tooÂ
dark is within that metering region.  Light meters in cameras are generally calibratedÂ
to a middle-grey value, and this is no exception.  Now, simply turn the aperture ring on theÂ
lens until the ring surrounds the needle.  You are now set to the correct exposureÂ
setting so you can recompose your shot however you like, hit the shutter release, and you're done! One exposure down, 23, maybe 35 more to go! But what if that combination isnât what I want? Maybe I have to stop the lens way way down in order to match the needle's position expose correctly. Iâll lose my sweetÂ
sweet bokeh! Well, nothing a little after-the-fact AI-powered image processing canât fix⌠I mean... thatâs no problem at all! Simply adjust the shutter speed so that itâs faster. Aha! The needle moved. Hereâs where the otherÂ
part of this genius system comes in. The actual sensitivity of the light meter itself isÂ
affected by both the selected shutter speed  and also the film speed. Perhaps you noticed this little insert in the shutter speed dial. Rotate the dial while pulling up on it and you can changeÂ
the film speed setting which will make the meter more or less sensitive. And the shutter speed alone has the same effect. Increasing shutter speed causes the needle to fall down, which means you need to open the lens up to match. Now, you could have worked this out in your head by justÂ
counting the stops to, say, F2 and then increasing the shutter speed by the same number of stops. But having the meter work differently depending on the shutter speed offers a sort of sanity check. It also demonstrates the relationship between shutter speed and aperture beautifully. Each stop you move in shutter speed requires two clicks of the aperture ring to compensate. Two clicks because this lens has detents at half stops. Most elegantly, though? The matching natureÂ
allows for shutter priority or aperture priority exposure. Rather than just point the camera at the scene and find a combo that works, you can fix one of those variables ahead ofÂ
time and adjust the other as needed. Say you want a stopped-down apertureÂ
of F16 for a deep depth of field. Well, set the lens to F16 and keep changing the shutterÂ
speed until the needle gets in that ring.  Or, perhaps you need a fast shutter speed toÂ
freeze motion in action shots. Simply set the shutter speed to 1000, and move the apertureÂ
ring until the ring surrounds the needle. Easy! This metering arrangement is not only intuitive,Â
but itâs flexible and also just a great teaching aid to those learning photography. You see hints of it in modern interfaces, and then of course thereâs even more powerful stuff these days like histograms and whatnot,  but thereâs just something about the wayÂ
this works that is⌠beautifully elegant to me. Should we talk about the weirdness, though? Letâs talk about the weirdness. First, thereâs a limit to its range of operation. Watch what happens as I approach a shutter speed of one second. At a quarter of a second, the meter turns red. It doesnât exactly stop working, but it behaves erratically. If I increase the film speed to 1600, the meter goes red at a thirtieth of a second. And here, at really slow shutter speeds, the needle just⌠stops changing at all even when it should. Now the meter is definitely not working right. Whatâs going on here is that theÂ
meter is a lot simpler than you may imagine.  Changing the shutter speed setting simplyÂ
changes how sensitive the meter becomes.  As you slow the shutter, you need to close theÂ
aperture down in equivalent stops for the same exposure. The meter needs to move the needle higher to indicate that, which means the needle becomes more sensitive to given amounts of light. But the same thing needs to happenÂ
when you increase the film speed.  If you doubled the film speed, you'd needÂ
half as much light for the same exposure,  so the needle needs to move one stop higher. Doubling the film speed demands that the sensitivity of the meter change exactly as if the shutter speed were cut in half.  And the simplest way to do this?
Just shift everything over. The needle will indicate the same apertures for a doubled film speed as it would for a halved shutter speed, so if you can shift those sensitivities around, youÂ
can adjust the meter for different film speeds. Thatâs exactly what changingÂ
the film speed setting does,  in fact thatâs literally what it does becauseÂ
weâre dealing with a mechanical contraption.  Adjusting the film speed essentially relocatesÂ
the different sensitivities of the light meter  independently of the cameraâs shutter mechanism. There are more meter sensitivities than there are shutter speeds on the high end, but there arenât on the low end. The meter just isnât sensitive enough to tell you how to exposeÂ
a low-light shot. So, as the film speed increases, the lowest speed settings become locked out because that sensitivity is now assigned to a higher shutter speed. Each doubling of filmÂ
speed locks out the next lowest shutter speed. In the end, the meter is just an analog deviceÂ
thatâs been finely calibrated to move the needle logarithmically. Each doubling of light landing on the sensor makes it move the same distance upward. I imagine each sensitivity level is justÂ
adding a different resistor to the mix. Which brings us to the next bit of weirdness:
batteries. When this camera was made, we were still manufacturing mercury batteries because, ya know, we hadnât yet come to grips with the fact  that the garbage can isnât a magic receptacleÂ
that makes things harmlessly disappear forever. The trouble is, mercury batteries produced 1.35Â
volts. Thatâs a weird voltage these days. While you can buy a replacement battery that fitsÂ
perfectly in the battery compartment, it will likely be a 1.5 volt alkaline battery. You might not think thatâs enough to matter but remember this is an all-analog system which is calibrated to behave logarithmically. The voltage matters a lot, and those batteries simply do not work. They push the needle way too high and it will never give you an accurate reading. If you do a battery check with one of these alkaline batteries, the needle will end up all the way up here. Trust me, I know. That same sort of error makes its way into every metering scenario. However, there is a solution! Zinc-air batteries, which produce electricity through reacting with oxygen in the air, are commonly available. Theyâre pretty neat all on their own, featuring a surprisingly large energyÂ
density due to the nature of the reaction,  but they have a time-limited lifeÂ
because you canât stop the reaction  once you remove the adhesive pull tab. However, for some applications like hearing aids, this drawback is more than made up for by their energy density. And most importantly, the voltage they produce is close enough to 1.35 that they can be used in cameras like these. Now, you can buy a zinc-air drop-in replacement online forÂ
about $5 but youâll be quickly annoyed with that option since, as I said, they have a built-in timeÂ
limit. So, pro tip, get yourself some 675 hearing aid batteries. Theyâre about the same thickness as the PX625 battery this camera is designed to take, and although theyâre not the right diameter, a simple loop of wire insulation will center it well enough. You may need to bend the cameraâs negative tab up slightly, but this simple modification allows you to use batteries you can buy at Walmart for about a buck apiece. And as a happy accident, the battery compartment coverÂ
has a couple of holes allowing air in, but they're small enough that in my experience a batteryÂ
will last a good couple months before itâs dead. You might also have asked, where isÂ
the meterâs display? And how is it lit? You can see it in the viewfinder quite clearly, but when you remove the viewfinder you find just a blank hole where it was. Well, the meter is actually right here. Itâs tiny! And this piece of translucent plastic up here is what illuminates it. Old cameras are filled with all these clever,Â
intricate mechanisms. I mean, think about the linkage connecting the shutter speed dial to the tiny little indicator in the meter. Hmm, itâs amazing. Oh, and you could purchase a different viewfinder which had its own battery and light source for the meter, but this was never really super useful since the meter doesnât work in low light anyway. For outdoor photography that little window works surprisingly well. Speaking of, did you notice the âOFFâÂ
position on the meter is also marked âFLASH?â  How does that work? Well, it doesnât. Remember thereâs no automatic anything, and when this camera was made youâd use a chart on your flash itself to set exposure correctly based on film speed and distance to the subject. Oh, and thatâs why the shutter speed 60 is marked in orange. Thatâs the flash synchronization speed of this camera, or the fastest shutter speed where the entire shutter is open at once and thus suitable for use with a flash. Since this cameraâs shutter curtain moves horizontally, its shutter is pretty slow and you can see even with a smartphoneâs slow-mo that any speed above 60 doesnât expose the film all at once. This can actually create distortion in certain scenarios, so in a funny way, this old cameraÂ
has a rolling shutter. Go figure. The shutter mechanism alone is justÂ
incredibly intricate and also fascinating,  I mean the curtains themselves are made ofÂ
titanium. And theyâre flexible! They roll up into these little compartments here, and move asÂ
one unit when you cock the shutter and advance the film. You can see the seam right here. But with the press of just one button, they move apart and come back together with precise control in a fraction a second [CLICK] all done entirely mechanically. Amazing! This little thing here isÂ
the old-style flash hookup,  though up here by the film rewinderÂ
youâll find an older style of hot shoe.  These little contacts here (along with thoseÂ
inside the plug) are bridged right when the shutter is entirely open, signaling an electronic flash to⌠[CLICK] flash. But anyway, now weâre getting well into the nitty-gritty which weâll save for later. I hope you enjoyed this look into the old-fashioned light metering systems of yesteryear. While itâs fundamentally very simple, a lot of ingenuity was built-in to make it usable, intuitive, and flexible. But weâve just scratched the surfaceÂ
on how this camera takes pictures. What about the film itself? How does that storeÂ
an image? And what about film development? How do film negatives become printed photographs? Oh, donât worry. Thereâs a lot more to explore with analog photography, and before long weâll get there. See you in the darkroom! ⍠logarithmically smooth jazz ⍠Single lens reflux(?), also sortâŚ
ahh already sca-rooooo-ewd it up and itâs great because I have to re-take the OTHER line, too! I donâ like how I said FUNdamental I forgot I need to.. Open that The more constricted that opening becomes. Thus, the let light⌠less light⌠That means that more of the image is in focus at once,
much to the chagrin of bokeh fans.
(the sentence shouldnât have ended) When a higher F number⌠ugh dang yeah forgot. Forgot the delivery! [clears throat] So⌠So⌠ble ble bah buh⌠weâll move it over there. How âbout that? But nobody eberdy⌠nobody ebedy bedu⌠itâs going so well.... But, in 1974, the International Standards Association said⌠Organization! Dang it⌠I'm aware that the ISO dictates from their righteous throne of meticulousness that it is "supposed to be" pronounced "eye-so" Just remember that the inventor of the GIF tried to steer the ship and look how that's working out for him. Anyway language is dumb.
I loved those days of photography.
I remember a guy that had his house catch on fire. He was in a class with me about 1975. He tossed his Canon F1 out the window and into a snow bank. It got swamped with water from the fire hoses, and it all froze since this was January in Ohio. He walked back every day and finally a few weeks later we had a thaw. He found the camera finally and it still worked.
Shoutout to anyone that learned photography on a Pentax K1000.
Technology Connections is a great YouTube Channel. This
Canon F1, Nikon F, Leica m4, when you bought a camera then it was like a lifetime engagement. These where beasts, made to last.
I love the detailed explanation!
This got me to pull out my grandfather's old Nikon F and compare how its light meter works. Very similar, though the links are external, rather than hidden inside the lens mount.
It's amazing how good the mechanical engineering was those days. It feels like today everything relies on electronics.
This guy has one of the most entertaining channels on Youtube. I love how he presents complex information in an entertaining and digestible format. His videos are worth watching, be they photography related or otherwise!
Everything on this channel is great.
I loved my old F1s... I learned so much while using them. So many days wandering through the woods and cities chasing perfect grays. I spent a few years going to use camera shows getting them all set up. I had a few of the focusing screens; I think one has a "spot" meter and the other didn't have the focusing split. I also had the hot shoe adapter that attached by the rewind knob, and a motor for one of them. That 15 year old chunk of metal was my dream camera as I was getting into photography in the mid 80's. I ended up trading them in for a couple of F1n's after I started shooting for a paper after getting out of college. I have always kicked my self for selling them. I know I could pick one up on eBay, but it won't be mine.