86points

Canon EF 35mm F/1.4L USM

87points

Sigma 35mm F1.4 DG HSM A

Canon EF 35mm F/1.4L USM
Comparison winner
Sigma 35mm F1.4 DG HSM A
vs
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30 facts in comparison

Canon EF 35mm F/1.4L USM vs Sigma 35mm F1.4 DG HSM A

Canon EF 35mm F/1.4L USM
Sigma 35mm F1.4 DG HSM A

Why is Canon EF 35mm F/1.4L USM better than Sigma 35mm F1.4 DG HSM A?

  • 3P-MPix higher sharpness result
    ?

    14P-MPixvs11P-MPix
  • 85g lighter
    ?

    580gvs665g
  • 1 higher DxOMark score
    ?

    27vs26
  • Is a wide angle lens
    ?
  • 6f smaller aperture at maximum focal length
    ?

    22fvs16f
  • 0.4° narrower minimum angle of view
    ?

    63°vs63.4°
  • 6f smaller aperture at minimum focal length
    ?

    22fvs16f

Why is Sigma 35mm F1.4 DG HSM A better than Canon EF 35mm F/1.4L USM?

  • 11µm less chromatic aberration
    ?

    5µmvs16µm
  • Has rounded aperture blades
    ?
  • 0.2% less distortion
    ?

    0.2%vs0.4%
  • 1 more aperture blades
    ?

    9vs8
  • 1.2 less vignetting
    ?

    -0.8vs-2
  • 0.4° wider maximum angle of view
    ?

    63.4°vs63°
  • 0.01x Better magnification factor
    ?

    0.19xvs0.18x

Price comparison

Canon EF 35mm F/1.4L USM

Buy used:

$948.95

ProductStorePrice
Canon EF 35mm F/1.4L USM AmazonCanon EF 35mm f/1.4L II USM Lens, Lens O...Canon EF 35mm f/1.4L II USM Lens, Lens Only
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$1,799.00
Canon EF 35mm F/1.4L USM AmazonCanon EF 35mm f/1.4L II USM Lens (Renewe...Canon EF 35mm f/1.4L II USM Lens (Renewed)
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$1,764.95
Canon EF 35mm F/1.4L USM AmazonCanon EW-78C Lens Hood for EF 35mm f/1.4...Canon EW-78C Lens Hood for EF 35mm f/1.4L USM Lens
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$33.98
Canon EF 35mm F/1.4L USM AmazonPRO 72MM Lens Filters + 72mm Lens Hood K...PRO 72MM Lens Filters + 72mm Lens Hood KIT for Canon EF 35mm f/1.4L USM, Canon EF-S 15-85mm f/3.5-5.6 is USM, Canon EF 85mm f/1.2L II, Canon EF 135mm f/2L Lenses
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$59.82

General info

A longer maximum focal length allows you to focus in on a small part of a scene, and offers a narrower angle of view than shorter focal lengths.
A shorter minimum focal length allows you to get more of the scene in the photo, and offers a wider angle of view than longer focal lengths.
3.Has a metal mount
Canon EF 35mm F/1.4L USM
Sigma 35mm F1.4 DG HSM A
A metal mount is generally superior to a plastic mount as it is more durable.
4.weight

580g

665g

We consider a lower weight better because lighter devices are more comfortable to carry. A lower weight is also an advantage for home appliances, as it makes transportation easier, and for many other types of products.
5.Is a wide angle lens
Canon EF 35mm F/1.4L USM
Sigma 35mm F1.4 DG HSM A
A wide angle lens is great for capturing larger areas of a scene, such as when doing architectural or landscape photography.
6.Front element doesn't rotate
Canon EF 35mm F/1.4L USM
Sigma 35mm F1.4 DG HSM A
The front element doesn’t rotate. This is important if you use filters, as some such as polarising or gradient filters have to be orientated a certain way.
7.Includes lens hood
Canon EF 35mm F/1.4L USM
Sigma 35mm F1.4 DG HSM A
It comes with a lens hood so that you don’t have to buy it separately. These are used to block strong light sources, such as the sun, from the lens to prevent glare and lens flare.
8.has or is a prime lens
Canon EF 35mm F/1.4L USM
Sigma 35mm F1.4 DG HSM A
A prime lens has a fixed focal length. In general, these are sharper, with a wider aperture.
9.Is a normal lens
Canon EF 35mm F/1.4L USM
Sigma 35mm F1.4 DG HSM A
A normal lens is one that doesn't fall into another category such as wide angle or telephoto, and typically has a focal length between 35mm and 70mm. These lenses aren't tailored towards a specific type of photography, and so are quite versatile.

Optics

The zoom range is the ratio between the longest and shortest focal lengths. A higher zoom range means that the lens is more versatile.
At the longest end of the lens you get the narrowest angle of view. This allows you to fit a small portion of the scene into the photograph, such as when you are zooming in on a subject (based on APS-C format).
At the shorter end of the lens you get the widest angle of view. This allows you to fit more of the scene into the photograph (based on APS-C format).
4.magnification

0.18x

0.19x

A true macro lens has a magnification of 1:1. This means that the image produced is a life-size representation of the subject being photographed.

Aperture

With a wider aperture the sensor can capture more light, helping to avoid blur by enabling a faster shutter speed. It also provides a shallow depth of field, allowing you to blur the background to focus attention on the subject.
2.Has rounded aperture blades
Canon EF 35mm F/1.4L USM
Sigma 35mm F1.4 DG HSM A
Similar to the number of aperture blades, rounded blades affect the way the light gets through to the sensor. Rounded blades, often only found on more expensive lenses, improve the appearance of the out-of-focus areas. This allows you to attain better, softer looking bokeh in your photos.
With a wider aperture the sensor can capture more light, helping to avoid blur by enabling a faster shutter speed. It also provides a shallow depth of field, allowing you to blur the background to focus attention on the subject.
A smaller aperture reduces the amount of light reaching the sensor. This is important in bright conditions where a wider aperture could result in your image being overexposed. Another advantage is that with a smaller aperture you get a greater depth of field, and can keep all of the image in focus.
The aperture controls how much light gets through to the camera’s sensor. More blades is often an indicator of a better quality lens. It also allows you to achieve much nicer looking bokeh when blurring out your background, whereas a lens with less blades will often produce harsher, more polygonal bokeh.
A smaller aperture reduces the amount of light reaching the sensor. This is important in bright conditions where a wider aperture could result in your image being overexposed. Another advantage is that with a smaller aperture you get a greater depth of field, and can keep all of the image in focus.

Focus

This is the closest distance that the lens can focus. A shorter minimum focus distance allows you to get closer to your subject, and is particularly important when doing macro photography.
2.Can focus to infinity
Canon EF 35mm F/1.4L USM
Sigma 35mm F1.4 DG HSM A
Many lenses allow you to focus to infinity. This is essential when you wish to take photos including far off objects, such as when shooting landscapes, in order to make sure everything is sharp and in focus.
3.has a silent focus motor built into the lens
Canon EF 35mm F/1.4L USM
Sigma 35mm F1.4 DG HSM A
Lenses with built-in focus motor focus faster and more quietly than lenses without a focus motor which rely on the camera's body focus motor.
4.Has full-time manual focus
Canon EF 35mm F/1.4L USM
Sigma 35mm F1.4 DG HSM A
With full-time manual focus, you can move the focus ring whilst it is in AF (autofocus) mode. This means that you can make manual adjustments once the AF has finished, without changing to manual mode.
5.Has focus motor
Canon EF 35mm F/1.4L USM
Sigma 35mm F1.4 DG HSM A
Lenses with a built-in focus motor can autofocus even if the camera does not have its own focus motor.

Benchmarks

1.sharpness result

14P-MPix

11P-MPix

The sharpness result from the DxOMark set of metrics. This result is based on the MTF (modulation transfer function) measurement, and gives an overall indication of the sharpness of images produced by the lens. Tested with Nikon D7000 or Canon 7D. Source: DxOMark.
The lateral chromatic aberration result from the DxOMark set of metrics. Chromatic aberration is a type of distortion which results in color fringing along edges within the image. Tested with Nikon D7000 or Canon 7D. Source: DxOMark.
DxOMark is a set of tests to measure the performance and quality of lenses and cameras. The DxOMark score is the overall score given to the lens. Tested with Nikon D7000 or Canon 7D. Source: DxOMark.
4.distortion

0.4%

0.2%

The distortion result from the DxOMark set of metrics. Distortion in the lens refers to the variation of magnification throughout the image. More distortion will result in straight lines being recorded incorrectly in the image. Tested with Nikon D7000 or Canon 7D. Source: DxOMark.
5.transmission

1.6TStop

1.6TStop

The transmission result from the DxOMark set of metrics. Transmission refers to the amount of light that reaches the sensor through all of the glass elements of a lens, with a lower TStop signifying more light. This is important as less light reaching the sensor can lead to the requirement of higher ISOs or slower shutter speeds. Tested with Nikon D7000 or Canon 7D. Source: DxOMark.
The vignetting result from the DxOMark set of metrics. Vignetting refers to when the brightness of an image changes from the center towards the edges, resulting in darkened corners. A result of 0 is perfect and the image will have no vignetting. Tested with Nikon D7000 or Canon 7D. Source: DxOMark.

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