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Canon 80D pictures a overexposed

Assaf
Contributor

i just cant get my head around it.

the pictures looks good on live view. the histogram looks fine when i take the picture its completly overexposed.
i have being told it might have something to do with the lens im using is very old (manual 50mm 1.8 olympus)
but this lens worked great with my old camera (600D)

is there any reason for why the camera is suddenly decided to give me a headache?Smiley Mad

31 REPLIES 31

TCampbell
Elite
Elite

I'm wondering if the aperture blades aren't working on the lens.

 

Suppose you plan to shoot at f/8 using your 50mm f/1.8 lens.

 

While you compose a shot looking through the viewfinder, the aperture blades are wide open (to f/1.8).  If you use live-view, rember that it's "exposure SIMULATION" ... so it still keeps the aperture blades wide open (they aren't stopped down to f/8) but the camera will "simulate" the exposure on the viewfinder.

 

When you take the shot, the aperture blades are supposed to stop down to f/8 before the shutter opens.  But if the aperture blades don't do this, then you would get an over-exposed shot.

 

You might want to press the "Depth of Field Preview" button on the camera while looking through the lens to make sure the aperture blades are working.

 

 

Tim Campbell
5D III, 5D IV, 60Da

TCampbell
Elite
Elite

The good news is the Canon EF 50mm f/1.8 STM is the most affordable lens in the lineup... it’s about $125 for a new lens.  

 

Tim Campbell
5D III, 5D IV, 60Da

lol yeah i already figured that one out 🙂
and its was indeed a good news 😛

TCampbell
Elite
Elite

Something to keep in mind is how the metering system works.

 

If you have a hand-held light meter, the light is falling directly on the meter.  There is no lens.  The meter reports the amount of light.

 

If you have a meter in a camera, then light has to pass through the lens before it reaches the meter.  Since an f/4 lens reduces the light more than an f/2.8 lens... the meter doesn't really know how much light is actually in the environment unless it also knows how much the light is reduced as it passes through the lens.

 

For electronic lenses that interface with the camera, that information is reported and the camera can properly calculate the exposure.  But for a completely manual lens with no electronic interface, the camera has no information about the lens, doesn't know the lens aperture, and can't realistically make any prediction about any exposure (not an accurate exposure anyway).

 

There are some manual lenses that are "chipped".  Rokinon makes lots of lenses that are comletely manual, and often they make the same version in an edition that talks to the camera.  If you use a completely manual (no communication of any kind) lens, then you would need to meter with an external light meter to get an accurate meter reading. If you have the chipped version (electronic interface) then it's still a manual lens, but at least the camera knows what's attached and the f-stop ... so it can provide a meter reading which is likely to be accurate.

 

Tim Campbell
5D III, 5D IV, 60Da


@TCampbell wrote:

Something to keep in mind is how the metering system works.

 

If you have a hand-held light meter, the light is falling directly on the meter.  There is no lens.  The meter reports the amount of light.

 

If you have a meter in a camera, then light has to pass through the lens before it reaches the meter.  Since an f/4 lens reduces the light more than an f/2.8 lens... the meter doesn't really know how much light is actually in the environment unless it also knows how much the light is reduced as it passes through the lens.

 

For electronic lenses that interface with the camera, that information is reported and the camera can properly calculate the exposure.  But for a completely manual lens with no electronic interface, the camera has no information about the lens, doesn't know the lens aperture, and can't realistically make any prediction about any exposure (not an accurate exposure anyway).

 

There are some manual lenses that are "chipped".  Rokinon makes lots of lenses that are comletely manual, and often they make the same version in an edition that talks to the camera.  If you use a completely manual (no communication of any kind) lens, then you would need to meter with an external light meter to get an accurate meter reading. If you have the chipped version (electronic interface) then it's still a manual lens, but at least the camera knows what's attached and the f-stop ... so it can provide a meter reading which is likely to be accurate.

 


Isn't metering with the "DOF Preview" button pressed an easier way to achieve the same effect as using an external meter?

Bob
Philadelphia, Pennsylvania USA

"...the same effect as using an external meter?"

 

They still make handheld meters?  Smiley LOL

EB
EOS 1DX and 1D Mk IV and less lenses then before!


@RobertTheFat wrote:

@TCampbell wrote:

Something to keep in mind is how the metering system works.

 

If you have a hand-held light meter, the light is falling directly on the meter.  There is no lens.  The meter reports the amount of light.

 

If you have a meter in a camera, then light has to pass through the lens before it reaches the meter.  Since an f/4 lens reduces the light more than an f/2.8 lens... the meter doesn't really know how much light is actually in the environment unless it also knows how much the light is reduced as it passes through the lens.

 

For electronic lenses that interface with the camera, that information is reported and the camera can properly calculate the exposure.  But for a completely manual lens with no electronic interface, the camera has no information about the lens, doesn't know the lens aperture, and can't realistically make any prediction about any exposure (not an accurate exposure anyway).

 

There are some manual lenses that are "chipped".  Rokinon makes lots of lenses that are comletely manual, and often they make the same version in an edition that talks to the camera.  If you use a completely manual (no communication of any kind) lens, then you would need to meter with an external light meter to get an accurate meter reading. If you have the chipped version (electronic interface) then it's still a manual lens, but at least the camera knows what's attached and the f-stop ... so it can provide a meter reading which is likely to be accurate.

 


Isn't metering with the "DOF Preview" button pressed an easier way to achieve the same effect as using an external meter?


I really used the example to explain why the camera meter is lost if it doesn't know what lens f-stop is used while the meter reading is being measured.

 

But "reflected" meters can never replace "incident" meters since the "reflected" meters depends on the reflectivity of the subject.  If I meter two walls ... one black, the other white.  Both are illuminated with a simple light bulb (assume same light bulb and same distance) the "black" wall will meter as darker than the "white" wall because black reflects less light than white ... even though the amount of light falling on the wall (from the light bulb) is technically the same.

 

DOF preview would still be subject to the reflectivity issue.  

 

An "incident" meter doesn't measure the light after it reflects off a subject.  The sensor on the meter is pointed back toward the light source.  It measures how much light is reaching it from that light source (regardless of subject reflectivity).

 

 

 

I "own" a good quality incident meter (I have a Sekonic L-758) but I mostly just use the camera meter.  

 

If I'm using manual flash, I use the Sekonic.  It can "meter" flash (even manual flash -- the camera's built-in meter can't do that).  It can also calculate flash-contribution percentage (relative to ambient light) -- which is something else the camera can't do -- not even a flagship camera has that ability.  

 

Many incident meters also have the ability to meter "reflected" light.  My meter has this ... but it's controlled to a 1° spot.  This is something else you can't do with a camera.  If you're shooting a landscape and you need to meter the reading for the white puffy clouds or the white snow-capped mountains... but you *also* need to meter the shadows the tree line, etc.  the camera's meter in "spot" mode is still subject to the angle of view of the lens.  That means you might be sampling a larger area than you want ... diluting the accuracy of the meter reading.

 

The other thing it can do is be profiled to your camera's true dynamic range and it can tell if you if a shot will exceed the dynamic range of the camera.  

 

You can also meter multiple critical points in a scene and it will compute the recommended exposure that guarantees those critical points wont exceed the dynamic range.

 

Most of the time I just use the built-in meter on the camera.  But there are certain types of photography where I prefer the incident meter.  It's one of these things I think ever serious photography should probably "own" ... even though they only occasionally need to use it.

 

 

 

Tim Campbell
5D III, 5D IV, 60Da


@TCampbell wrote:

@RobertTheFat wrote:

@TCampbell wrote:

Something to keep in mind is how the metering system works.

 

If you have a hand-held light meter, the light is falling directly on the meter.  There is no lens.  The meter reports the amount of light.

 

If you have a meter in a camera, then light has to pass through the lens before it reaches the meter.  Since an f/4 lens reduces the light more than an f/2.8 lens... the meter doesn't really know how much light is actually in the environment unless it also knows how much the light is reduced as it passes through the lens.

 

For electronic lenses that interface with the camera, that information is reported and the camera can properly calculate the exposure.  But for a completely manual lens with no electronic interface, the camera has no information about the lens, doesn't know the lens aperture, and can't realistically make any prediction about any exposure (not an accurate exposure anyway).

 

There are some manual lenses that are "chipped".  Rokinon makes lots of lenses that are comletely manual, and often they make the same version in an edition that talks to the camera.  If you use a completely manual (no communication of any kind) lens, then you would need to meter with an external light meter to get an accurate meter reading. If you have the chipped version (electronic interface) then it's still a manual lens, but at least the camera knows what's attached and the f-stop ... so it can provide a meter reading which is likely to be accurate.

 


Isn't metering with the "DOF Preview" button pressed an easier way to achieve the same effect as using an external meter?


I really used the example to explain why the camera meter is lost if it doesn't know what lens f-stop is used while the meter reading is being measured.

 

But "reflected" meters can never replace "incident" meters since the "reflected" meters depends on the reflectivity of the subject.  If I meter two walls ... one black, the other white.  Both are illuminated with a simple light bulb (assume same light bulb and same distance) the "black" wall will meter as darker than the "white" wall because black reflects less light than white ... even though the amount of light falling on the wall (from the light bulb) is technically the same.

 

DOF preview would still be subject to the reflectivity issue.  

 

An "incident" meter doesn't measure the light after it reflects off a subject.  The sensor on the meter is pointed back toward the light source.  It measures how much light is reaching it from that light source (regardless of subject reflectivity).

 

 

 

I "own" a good quality incident meter (I have a Sekonic L-758) but I mostly just use the camera meter.  

 

If I'm using manual flash, I use the Sekonic.  It can "meter" flash (even manual flash -- the camera's built-in meter can't do that).  It can also calculate flash-contribution percentage (relative to ambient light) -- which is something else the camera can't do -- not even a flagship camera has that ability.  

 

Many incident meters also have the ability to meter "reflected" light.  My meter has this ... but it's controlled to a 1° spot.  This is something else you can't do with a camera.  If you're shooting a landscape and you need to meter the reading for the white puffy clouds or the white snow-capped mountains... but you *also* need to meter the shadows the tree line, etc.  the camera's meter in "spot" mode is still subject to the angle of view of the lens.  That means you might be sampling a larger area than you want ... diluting the accuracy of the meter reading.

 

The other thing it can do is be profiled to your camera's true dynamic range and it can tell if you if a shot will exceed the dynamic range of the camera.  

 

You can also meter multiple critical points in a scene and it will compute the recommended exposure that guarantees those critical points wont exceed the dynamic range.

 

Most of the time I just use the built-in meter on the camera.  But there are certain types of photography where I prefer the incident meter.  It's one of these things I think ever serious photography should probably "own" ... even though they only occasionally need to use it.

 

 

 



but in the edge of RAW, cant you just fix it in phosotoshop?

My recollection from the film days is that the main purpose of an incident light meter was to determine the color temperature, not the strength, of the incident light. IOW, to try to overcome the bias of your lying eyes and determine what filter was needed, if any. But only a reflected light meter could tell you what exposure was required. Is there really more to it than that?

Bob
Philadelphia, Pennsylvania USA

To have a meter read the color of the light you need a color temperature meter and they were not cheap. An incident meter is a meter as said earlier for measuring the light at the subject. A reflective light meter is used at the camera position to measure the light. An incident light meter can be identified by having a large dome or flat white sensor. Gossen meters often did both with attachments.
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