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All About Raspberry Pi HQ Camera Lenses

Created by Dylan Herrada

Last updated on 2020-10-19 07:56:39 PM EDT

Overview

In this guide, I'll explain the 3 main lens options for a Raspberry Pi HQ Camera. I do have a few years of experience as
a video engineer and I also have a decent amount of experience using cameras with relatively small sensors (mainly
mirrorless cinema cameras like the BMPCC) so I am very aware of a lot of the advantages and challenges associated.
That being said, I am by no means an expert, so apologies in advance if I get anything wrong.

Parts Discussed

Raspberry Pi High Quality HQ Camera

$50.00

IN STOCK

Add To Cart

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16mm 10MP Telephoto Lens for Raspberry Pi HQ Camera

OUT OF STOCK

Out Of Stock

6mm 3MP Wide Angle Lens for Raspberry Pi HQ Camera

OUT OF STOCK

Out Of Stock

Raspberry Pi 3 - Model B+ - 1.4GHz Cortex-A53 with 1GB
RAM

$35.00

IN STOCK

Add To Cart

Raspberry Pi Zero WH (Zero W with Headers)

$14.00

IN STOCK

Add To Cart

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Crop Factor

What is crop factor?

According to Wikipedia (https://adafru.it/MF0):

In digital photography, the crop factor, format factor, or focal length multiplier of an image sensor format is the ratio
of the dimensions of a camera's imaging area compared to a reference format; most often, this term is applied to
digital cameras, relative to 35 mm film format as a reference.

How is it calculated?

The crop factor of a camera is determined by dividing its diagonal dimension by the diagonal dimension of a 'full­frame' sensor, 43.3mm. For example, the Raspberry Pi HQ camera has a sensor size of 6.287mm x 4.712mm. Using the
Pythagorean theorem, we can determine that the diagonal size of this sensor is 7.85mm. Now, taking 43.3mm and
dividing it by the number we just found, 7.85mm, we get a crop factor of 5.5x.

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Practical implications

So, what does all this mean? Well, because the focal length for just about any lens uses a 43.3mm diagonal sensor as a
reference point, a much smaller sensor with the same lens only capturing the center of the image would make the
image appear much more zoomed in. The image below compares full-frame sensors with APS-C sensors. As you can
see, the smaller APS-C sensor will have a narrower field of view and will appear more zoomed in.

Practical implications

So, what does all this mean? Well, because the focal
length (the field of view, sometimes just referred to as
the zoom) uses a 43.3mm diagonal sensor as a
reference point, a much smaller sensor with the same
lens would only capture the center of the image. The
image below compares full-frame sensors with APS-C
sensors. As you can see, the smaller APS-C sensor will
have a narrower field of view and will appear more
zoomed in.

Crop factor and video

Since the CSI (https://adafru.it/MF1) connector in the Raspberry Pi transfer the Bayer data from every single one of the

12.7 million pixels on the Pi sensor 30 times a second, raspivid and raspividyuv both take the center 1920x1080. This
effectively crops the image, and for the Pi HQ camera, this is an especially large issue. When shooting a video, the Pi
HQ Camera uses around 3mmx1.7mm of the sensor, giving it a crop factor of 12.5x. This isn't really an issue with the
other Raspberry Pi cameras, as they have very wide-angle lenses to counteract this, but with the HQ camera, this can
be very problematic.

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Here are 3 images. The first was taken with a full-frame
camera at 50mm.

The second has a 5.5x crop applied in editing, giving it a
focal length of 275mm. This is the same crop factor the
Raspberry Pi HQ camera has at full resolution when
taking a photo.

The third image has a 12.5x crop applied, which is the
crop factor you'd experience when taking a video. The
focal length is effectively 625mm.

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Lens
Adapters

Going this route might make the most sense if you already own a DSLR or DSLM (mirrorless) and want to use your
lenses from that. Assuming you already have those lenses, this will be the cheapest option of the three discussed in
this guide.

There aren't very many lens adapters that let you put a lens from an interchangeable-lens camera on a C or CS-mount
body, so you may not be able to find one that fits your lens mount.

One thing to consider when using lenses intended for APS-C or full-frame cameras on a sensor as small as the one on
the Pi HQ camera is the crop factor. As discussed previously, the Raspberry Pi HQ Camera has a crop factor of 5.5.
This means that if you were to use a 50mm prime lens, the effective focal length would be 275mm, turning a lens that
would be a neutral lens on a full-frame camera into a telephoto.

Another thing to consider is weight; having a lens that weighs 10X what the rest of the camera weighs can be a bit
unwieldy at times. For heavier lenses, you need to make sure the weight of the lens is going to the 1/4" 20 tripod
adapter on the base of the camera and not the PCB itself.

Make sure that either your lens or the lens adapter has an aperture adjustment ring. The one I

purchased (https://adafru.it/Ob2) did not, and I only own one F-mount lens with a manual aperture ring.

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Vintage C-mount Cinema Lenses

Vintage C-mount cinema (often shortened to cine) lenses are an excellent option if you want the best quality you can
get and are okay with spending a little bit more. Decent ones start around $50, about the price of a higher-end new
CCTV lens or a really nice used one by a more well-known company, and nicer ones can go for hundreds of dollars
depending on the make and condition of the lens.

Owners of some mirrorless cinema cameras (also plagued by the same issues caused by a small sensor size) will
sometimes use these lenses as they're really good for the price and often come in shorter focal lengths since they
were designed for cameras that used much smaller film. They're also pretty light, so you won't get such a front-heavy
camera like you'd get using a lens from a DSLR or DSLM.

One thing to keep in mind is that since they are used, and a few decades old, C-mount cine lenses may be damaged or
have fungi. Most sellers are pretty honest about this in my experience, but just keep an eye out and definitely don't
purchase something if the seller doesn't show the actual glass of the lens.

Also, keep in mind that not all of them have focusing rings. Almost all of these lenses are prime lenses, meaning they
have a fixed focal length. If you find a lens with 2 rings on it, one for focusing and one for adjusting the aperture, then it
will probably work well with the Pi HQ camera.

Some vintage C-mount lenses measure the focal length in customary units. This is contrary to how most other lenses
are measured, and I was slightly confused by this at first. To get the focal length in millimeters, my understanding is
that you just have to multiply the focal length in inches by 25.4.

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CCTV Lenses

CCTV lenses are usually C-mount, often have very short
focal lengths, and are also very cheap compared to a
lens from a DSLR or mirrorless camera. You do still have
to consider the crop factor, but it isn't as much of an
issue because CCTV lenses usually have shorter focal
lengths. Most, but not all, CCTV lenses have focusing
rings, so keep an eye out for that.

They are really great options, and probably have the
best price to performance ratio. However, since they are
designed to be used with CCTV cameras which tend to
have pretty low-resolution sensors, the glass does not
need to be as high-quality as the glass you'd find in a
much more expensive lens from an interchangeable­lens camera.

That being said, there are so many other things that affect your image quality that in my personal opinion, it makes the
most sense to use a CCTV lens until you actually feel limited by it, and then look into upgrading.

They're probably the best option for most people, but if you're really looking for the absolute best image quality
possible, you may want to consider another option. Adafruit carries the following lenses, which are pretty solid and can
get great image quality.

16mm 10MP Telephoto Lens for Raspberry Pi HQ Camera

OUT OF STOCK

Out Of Stock

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6mm 3MP Wide Angle Lens for Raspberry Pi HQ Camera

OUT OF STOCK

Out Of Stock

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