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Tips & Tutorials >> All Tips & Tutorials In Focus: Lenses FAQs- Part2

Lens FAQ #2: Can A Fast Lens Really Make It Easier To See Through The Viewfinder?

This series is all about answering questions regarding lens that you thought you knew (but didn’t). In this article, we look at the relationship between the maximum aperture of the lens and the view through the viewfinder. (Reported by: Ryosuke Takahashi)


What is a fast (“bright”) lens?

A fast lens refers to a lens with a large maximum aperture, such as f/1.2, f/1.4, or f/2.8.

When a lens has a large maximum aperture, it allows more light to enter it and reach the sensor. At maximum aperture setting, it also lets you to achieve sufficient exposure faster than on a lens with a smaller maximum aperture. Hence, such lenses are also described as “fast” or “bright”.


How does this affect the view through an optical viewfinder?

View through OVF (f/1.4 lens)

View through OVF on f/1.4 lens

View through OVF (f/4 lens)

View through OVF on f/4 lens

The above images are from the optical viewfinders (OVF) of the EF24-105mm f/4L IS USM and EF24mm f/1.4L II USM respectively. They demonstrate how the aperture of the lens directly affects the brightness of the view through an OVF. A brighter viewfinder view lets you see the details on a subject better. It is also an advantage when shooting in low-light conditions.

Although the difference is relatively harder to see in bright scenes such as outdoor shoots, it will be more obvious when shooting in low light conditions.

What causes this difference?

The illustration below shows how light travels through the lens of a DSLR to form the OVF image.

iagram showing how image on OVF is achieved

A: Pentaprism or pentamirror
B: Optical viewfinder
C: Primary mirror

1. Light enters the lens.
2. This light is reflected by the primary mirror (C) onto the pentamirror (A).
3. The image that forms on (A) is what you see when you look through the OVF (B).

The light that reaches the OVF is not affected by your aperture settings, or any other camera settings at all. In other words, the brightness of the OVF view relies on solely on the amount of light that enters the lens at maximum aperture*.

When you use a fast lens, naturally, more light enters the lens, resulting in more light being reflected onto the OVF. The view through the OVF therefore appears brighter compared to if you use a slower lens.

*Know this: Full-aperture metering

Most DSLR cameras measure the scene's brightness using full-aperture metering (also known as open-aperture metering), which means the aperture diaphragm remains at maximum aperture by default. If the camera is set to a narrower f-number, the aperture diaphragm momentarily narrows when you release the shutter, but after that, it returns to maximum aperture. Canon's mirrorless cameras work the same way, but some other cameras might work differently.

Side note: Why some photographers love the view through the OVF

This system also means what you see through the OVF is the same as what you would see with the naked eye. This natural, unmodified and hence “direct” view of the scene is what many photographers love about shooting with an OVF.


Does a fast lens affect the view through an EVF?

The image that you see in an electronic viewfinder (EVF) is formed through the following process:

1. Light enters the lens.
2. This light is captured by the image sensor.
3. The image formed on the image sensor is projected onto the EVF.

When you change your camera settings, these are applied to the image that is formed on the image sensor, and hence, the image that you see on the EVF. The EVF also electronically enhances the brightness of the image. The lens’ maximum aperture therefore does not directly influence the brightness of the EVF view.

However, a faster lens can affect the EVF image quality in another way.

The impact of a faster lens on EVF gain

When you are shooting in dark conditions, the EVF automatically “gains” (brightens) to allow the user to see better, but too much gain will cause the EVF image to be grainy.

The EVF will gain less if more light enters the image sensor, which is where a faster lens is an advantage. Less graininess and more light reaching the image sensor also contributes to better AF performance in low light.

View through EVF

View of starry sky through EOS R’s EVF

Actual shooting conditions

Simulated view of starry sky as seen by naked eye


Read more about the differences between OVFs and EVFs in:
Camera Basics #12: The Viewfinder


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Digital Camera Magazine

Digital Camera Magazine

A monthly magazine that believes that enjoyment of photography will increase the more one learns about camera functions. It delivers news on the latest cameras and features and regularly introduces various photography techniques.
Published by Impress Corporation

Ryosuke Takahashi

Ryosuke Takahashi

Born in Aichi in 1960, Takahashi started his freelance career in 1987 after working with an advertising photo studio and a publishing house. Besides photographing for advertisements and magazines in and out of Japan, he has also been a reviewer for “Digital Camera Magazine” since the launch of the publication as well as published a number of works. In his product and lens reviews, Takahashi particularly advocates photography techniques that bring out the lens performance through his unique point of view and tests. Takahashi is a member of the Japan Professional Photographers Society (JPS).