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• #16 mm crop sensor to frame sensor full

Crop Factors for Different Sensor/Lens Combinationsa. Since specifics are not detailed here, 16:9 is computed on this page as a camcorder, independent of any still frame size. For example, a 50 mm focal length lens with a f/1.4 aperture has a bigger aperture and is therefore.

#16 mm crop sensor to frame sensor full

Crop 1.5 requires 16 mm to do what 24 mm does on full frame, so plan on needing the 16-85 mm lens for cropped APS mode. But their size is likely even slightly smaller to optimize the subsampling, because 16:9 HD movies are typically output as 1280x720 or 1920x1080 pixels, which is 0.92 or 2.07 megapixels. A general purpose walk-around lens like 24-120 mm is great and versatile on full frame, but be aware that the big downside of using one lens like a 24-120 mm for APS cropped mode is that 24 mm offers no wide angle then. Likewise, 4:3 photo images must also fit into the 16:9 camcorder format.

Then the 16:9 width cannot be wider than the sensor width. So the 16:9 video mode frames in photo cameras are necessarily contained within the dimensions of the 4:3 or 3:2 photo sensors. The sensor size diagonal is designed to fit the lens image diameter. This blue image shows the sensor aspect concept visually in the circular lens image.

24-70mm on a full frame camera will give you the same field of view as 15-44mm on a 1.6 crop frame camera, so 17-52 on the crop wouldnt be quite as wide as that.

24-70mm on a 1.6 crop camera will give you the same field of view as 38-112 on a full frame camera.

Meaning, they are not correct for embedded aspects, like for 16:9 video in 4:3 or 3:2 cameras, or with 4:3 photos in native 16:9 camcorders. NOTE: All calculators on this page work with actual native aspect ratios. And another page might help about Sensor Size.

It is not always easy to determine those exact numbers, but maybe these calculators can help. Sensor Size and Crop Factor and Aspect Ratio are very important numbers for calculations, such as Field of View or Depth of Field. In the same similar way, this could be called an Equivalent Distance needed to see the same field of view as the 1.6x camera.

Or, if both cameras use the same lens focal length, the 1x camera can stand 1.6x closer (meaning at distance / 1.6, as compared to the distance of the 1.6x crop, for example 10 feet vs 16 feet) to see the same smaller field of view.The 1.6x longer focal length is the conventional Equivalent Focal Length placed on the 1x camera, as compared to the lens focal length that the 1.6x crop factor is using. APS-C sensors are smaller than full-frame sensors and are used in consumer-level cameras. If standing in the same place, the 1x crop factor could use a focal length 1.6x longer (for example, 160 mm vs 100 mm) to then see the same smaller field of view as the 1.6x crop factor sees. : AAWipes Sensor Cleaning Swabs for APS-C Sensors of DDR DSLR or SLR Camera (20 Pack of 16 mm Sensor Cleaning Swabs) (HCS-16).Two Equivalent Fields of View: If two cameras with two sensor sizes of Full Frame 1x and 1.6x crop factors (fill in your own number for the 1.6x) then: