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APS C vs full frame crop factor

A camera is assigned a crop factor based on the difference in diagonal size (not surface area) between its sensor and a full frame sensor. A standard APS-C sensor (Fuji, Sony, Nikon DX) has a 1.5x crop factor, meaning if you divide the diagonal length of a full frame sensor by that of an APS-C sensor, you get about 1.5 (Micro Four Thirds has a 2x crop factor) In this video I am going to show you the difference between the APS-C 1.6x crop factor on the M6 Mark II vs the full frame sensor on the Canon R6.Thank you f.. Learn the differences between crop frame sensor cameras and full frame ones and what this crop factor difference means for your lens selection. Nikon and Sony have cameras like the Nikon D7000 and the Sony A77 that have APS-C-sized sensors measuring 23.6 x 15.7mm. Canon's APS-C sensor is a bit smaller, measuring 22.2 x 14.8mm To find the equivalent angle of view for a lens on a crop sensor body, simply multiply the magnification amount by the focal length of the lens. The two most common crop sensor sizes are APS-C and Micro Four Thirds, which have a 1.6x and 1.5x crop factor respectively. Advantages of full-frame cameras Full frame vs crop sensor cameras 'Full frame' and 'crop' refer to a camera's sensor size. Full frame sensors share the same dimensions of 35mm film (24 x 36mm). Crop sensors are anything smaller than 35mm, such as those found in APS-C and Micro 4/3 cameras

Sony A7S APS-C vs Full-Frame Video - YouTube

A full-frame camera is the standard; it has no crop factor. An APS-C sensor (also known as a crop sensor), has a crop factor of 1.5x (on Nikon and Sony cameras) or 1.6x (on Canon cameras). The Micro Four Thirds crop factor is even stronger: 2x The focal length and aperture remain the same regardless if a lens is attached to a Full Frame camera or an APS-C one. An APS-C camera provides the field of view that is typically 1.5x the focal length of the lens attached - or a crop view. Burling has this to add to his video, A point that I feel gets missed and that I probably should have made clear in the video is as follows This chart is based upon a 1.5x crop factor, which is the most common crop factor for crop sensor aps-c size sensors in DSLRs. According to the table above, for example, you would have to use a 75mm lens on a full frame camera in order to get a photo with the exact same field of view as a photo from a crop sensor camera shooting at 50mm

Full Frame vs. APS-C and MFT: Crop factor explained — Pro ..

APS-C Crop Factor vs

You can expect ISO 100 on a Nikon APS-C camera (which has a 1.5x crop factor) to have similar total image noise as ISO 225 on a full frame camera. The following table gives you estimates of the amount of total noise you can expect from different ISOs and different sensor sizes, given similar sensor technology. That last clause, given similar sensor technology, is very important, and I'll discuss it further DX, full-frame, APS-C, FX, crop factor, 24×36, image circle. Confused yet? Good. With the new Nikon D700 hitting store shelves and the Canon 5D MkII imminent, now is a good time to clear the air on the whole sensor size thing.. Back in the film days, the rectangle that captured the image on a standard SLR (the film) was one size: 24mm x 36mm Full-frame focal length: APS-C Focal length: Aperture: Lens Type: Price: EF 8-15mm f/4L Fisheye USM: 8-15mm: 12.8-24mm: f/4: Ultra-Wide Zoom: EF 8-15mm f-4L Fisheye USM: EF-S 10-22mm f/3.5-4.5 USM. A 50mm lens on a camera with a 1.5x crop factor APS-C sensor gives a field of view equivalent to that of a 75mm lens on a full-frame or 35mm film camera. Remember, the actual focal length of the lens is unchanged, as is its aperture. A Fujifilm XQ2 compact camera, crop factor 3.93, focal length 7.1 mm A Canon 350D DSLR with a small sensor (APS-C), crop factor 1.62, focal length 18 mm A DSLR with a Canon 5D Mark IV full frame sensor, crop factor 1.00, focal length 28 mm. In all of these cases, the focal length after multiplication by the crop factor is around 28 or 29 mm

Understanding Sensor Crop Factors & APS-C vs Full Frame

  1. Nikon's APS-C sensors measuring 24x16mm have a diagonal of 29mm, while full-frame sensors measuring 36×24 have a diagonal of 43mm, so the ratio difference between the two is approximately 1.5x. Canon's APS-C sensors are slightly smaller and have a crop factor of 1.6x. So calculating the equivalent field of view got rather simple - take the focal length of a lens and multiply it by the crop factor
  2. This means your camera's APS-C-size sensor magnifies the scene to produce an image that will match the lens's full-frame image circle. The effect is that a 50mm full frame lens mounted on an APS-C body with a 1.5x crop factor will capture a field-of-view that is the same as a 75mm on a full frame body. For Canon, this crop factor is 1.6x
  3. A 50mm lens on a camera with a 1.5x crop factor APS-C sensor gives a field of view equivalent to that of a 75mm lens on a full-frame or 35mm film camera. Remember, the actual focal length of the lens is unchanged, as is its aperture. In our example, if you weren't familiar with a 50mm lens's field of view in the first place, this doesn't really matter
  4. Again the crop factor or digital multiplier can be used to calculate what lens on a 35mm full frame camera would be needed to give the same field of view as a 600mm lens on an APS-C crop sensor camera 35mm camera. For Canon EOS APS-C cameras the crop factor is 1.6x, so a you'd need an 960mm (600 x 1.6) on the full frame camera

Crop sensor vs. full frame A beginner's guide Adob

You have an APS-C camera with a crop factor of 1.53x (a super 35 crop factor), and you want to buy a lens that will give the same image as a 50mm f/4 full-frame lens. Here's what you do: Select the Sony APS-C crop factor with a value of 1.53x from the list of sensor sizes. Now the calculator is an APS-C focal length calculator Although a 30mm APS-C lens is equivalent to a 45mm Full Frame lens regarding the angle of view (due to the crop factor), is correct to estate that this rule does not apply to the distortion?. What I mean is that a 30mm APS-C lens has the same stretching issue of a 30mm Full Frame lens despite the fact they are not equivalent regarding the angle of view, since the focal length is equal Covering some myths and misconceptions about how lenses designed for smaller sensors work & the pros and cons of using full frame glass on crop bodies. Tha.. For the same focused distance of 12 ft, the crop-sensor (left) has more DoF than the FF camera (right), with an equivalent focal length. Different focal length, same behavior. Shooting from the same spot, the full-frame camera gives us less DoF than the crop sensor, for an equivalent focal length

Full Frame vs Crop Sensor Camera Which is Right for you

  1. Full-frame sensors have a roughly 2.5x larger photosensitive area than APS-C crop sensors. This means that the absolute amount of light they gather is 2.5x less than full-frame. So, in order to get the same exposure, a crop sensor's image has to be amplified 2.5x as much
  2. Crop Factor Calculator. Get the full-frame (35mm) equivalent focal length and aperture for different sensor sizes. Just enter the focal length and maximum aperture of your lens and then choose a sensor size. My mm f/ lens, on a. Micro Four Thirds Canon APS-C Nikon APS-C APS-H Cropped Medium Format Medium Format
  3. 18mm lens equivalent to a 28mm full frame vs crop sensor cameras what is crop factor here you full frame vs crop sensors. What S A Normal Lens And Why Is My 18mm Equivalent To 28mm Shutterbug Field Of View In Full Frame Vs Crop Sensor Cameras Includes Photo Comparison Improve Photograph
  4. Sensor size doesn't always work against you. There's a crop factor when using cameras with an APS-C sensor, and this difference increases your focal reach. For example, on a full frame camera, a 50mm lens will be simply that - 50mm. On a crop sensor camera, however, the focal length will come out a bit differently
  5. Question about crop factor and aps-c vs full frame lenses. I'm confused about the crop factor. I have memorized the fact that you have a crop factor of about 1.5 - 1.6 on a camera with the smaller aps-c sensor due to the sensor itself. From what I understand if I pick say a 50mm aps-c lens for an aps-c camera I have the equivalence of a 75 mm.
  6. Prev Page Canon Lens List 2018: Full-Frame and APS-C (Crop Factor) Lenses. Sean Captain. Sean Captain is a technology and science writer, editor and photographer. Topics. Cameras

Whether you're using a Canon APS-C camera (crop factor 1.6) a Nikon APS-C camera (crop factor 1.5), an old Nikon 1 with a 1-inch sensor (2.7x crop factor), or something completely wacky, chances. f/2.8 on an APS-C (1.5x crop) creates similar images to f/4.2 on a full frame body, so that's correct. I do specifically say in the video that it doesn't impact your exposure, and that crop factor exists only for the purpose of comparing the resulting images you'll get with different lenses and sensor sizes I have read the crop factor for Fuji cameras is 1.5, 1,53 and some says between 1.5-1.6. Do we know what exact (accurate) crop factor for Fuji? Dimensions of a typical full-frame sensor (horizontal, vertical, diagonal, in mm): 35.8, 23.8, 43.0. Dimensions of the Fuji APS-C sensor (horizontal, vertical, diagonal, in mm): 23.6, 15.6, 28.

This answer does not make sense. You said above that a 50mm full frame lens on a APS-C camera is like an 80mm field of view due to the 1.6 crop factor. So a 75mm 645 lens on a 35mm full frame camera would be like 120mm lens equivalent field of view with the crop factor Rather than buy another full frame, I was able to buy an APS-C crop camera for less than half of a new full frame sensor camera. I really struggled with my personal situation and whether to get another full frame or another APS-C crop camera. In the end I went the cheaper route because the 90D really had everything I wanted The crop factor is always calculated by dividing the full format size by the size of the APS sensor. Let's take an example. Suppose your APS-C image sensor is 25.1 x 15.7mm. If you divide 36mm by 25.1mm (36/25.1), you get 1.43. That's the crop factor. If you put a 70-mm lens on a digital SLR camera that has an APS-C image sensor and. Canon's APS-C sensors tens to have a crop factor of around 1.6x whilst Nikon's sensors are very slightly bigger giving a crop factor of 1.5x. Using a 50mm lens on a Nikon APS-C camera would give you the equivalent filed of view of a 75mm lens on a full frame camera. This Nikon D7000 has a crop factor of x1.5 carbonboy, on Flick

Crop factor - je číselná úměra mezi diagonálou 35 mm filmu a obrazovým snímačem digitální kamery nebo fotoaparátu.Za pomoci crop faktoru se dá zjistit zorné pole objektivu s různými snímači nebo filmy. Podíl diagonál mezi snímačem APS-C a full-frame se rovna 1.5.. V éře kinofilmu byly snímací plochy standardizované (velikost 36x24 mm), s výjimkou velkoformátů. Using the idea of a crop factor is slightly tricky, as to have a crop factor you need a reference guide, from which perspective all other sensor sizes are cropped. With the advent of DSLR filming and full frame 5d and 1d some people talk of all other smaller sensor sizes as being cropped Crop factor A crop factor of 1.6x - often talked about with APS-C cameras - can be explained like this: If you are using a 50mm lens on an APS-C camera and you want to shoot the same scene with the same field-of-view with a full-frame camera you need a focal length of 50 x 1.6, which is 80mm Full frame, crop frame, APS-C, crop factor - if you've heard these terms and were left puzzled, here is a quick primer on everything you need to know about sensor size and what it means for your photography. Every digital camera, even a point-and-shoot, has a sensor inside of it. For DSLRs, it is hiding behind a mirror and looks like a. Las cámaras DSLR ofrecen estos dos tipos de sensores. Los sensores Full Frame son sensores del tamaño natura de los filmes 36mm x 24mm, mientras que los sensores APS-C ofrecen un sensor un poco mas pequeño (22mm x 15mm para Canon y 23.1 mm × 15.4 mm para Nikon/Sony). Diferencias entre Full Frame y APS-

They have way to practically convert to ammeter grade video camera with APS-C sensor. As because 35mm film camera is quite different than a full frame digital camera, it is basically not possible to compare and a crop factor of 1.255× is minimum for most of them. APS-C digital camera has a crop factor of 1.55× 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 A comparison showing the rough size difference between a full-frame, APS-C and smartphone sensor. (Image credit: Future) Full-frame has a crop factor of 1x, while a crop-sensor camera has a.

So, switching a lens from a full-frame to an APS-C Canon camera is like zooming in 60 percent more. (Image credit: The red frame indicates the crop factor from Full frame to ASP-C sensor. Credit. หน้าตา Crop Factor มันเป็นอย่างไรเรามาชมภาพกันนะครับ จะเข้าใจง่ายขึ้น ภาพที่ 1 กล้อง Full Frame ( Canon 5D + EF 50 f1.2L) ที่ระยะ 5 ฟุ For example, APS-C cameras typically have a crop factor of 1.5x or 1.6x. Since the GFX system has a sensor that is larger than full-frame, we can expect our crop factor to be less than 1. In other words, 35mm full-frame equivalent focal lengths will be wider than the quoted focal length for any given GF lens They are comparable when you stop the 85mm down to f/2.8. Because of their smaller surface, crop sensors collect less light. Full-frame sensors have a roughly 2.5x larger photosensitive area than APS-C crop sensors. This means that the absolute amount of light they gather is 2.5x less than full-frame The CP is the ratio between the size of a full frame sensor (length and width) and that of the sensor under discussion. Here is the crop factor for the most common sensor types: Full Frame: CP = 1. Canon APS-C: CP = 1.6. Nikon, Pentax, Sony and Sigma APS-C: CP = 1.5. Panasonic and Olympus MFT: CP = 2

This image was shot on a full-frame DSLR at 16mm, with the yellow box showing how much of the frame would be cropped if the same lens was used on an APS-C camera . This is known as the crop factor. When the differences between full-frame and crop-sensor cameras are discussed, there is an inevitable question about whether the crop sensor multiplies the focal length. Whether a 50mm lens on a crop-sensor acts like a 75mm lens (on a 1.5x crop sensor) or 80mm lens (on a 1.6x crop sensor)

APS-C Camera & its Crop Factors on Lenses

The difference between full frame and APS-C sensors is their size. The measurement between any two sensors is known as the crop factor. Full frame to APS-C is generally 1.5x (i.e., the full frame sensor is 1.5x larger) That's two stops of difference. And, by actual magic, full-frame sensors are about two stops better in high ISO performance than 2x crop cameras. On 1.5x APS-C sensors, that's f/4 and f/6, roughly 1.3 stops of difference. Who would have guessed? Full-frame sensors are about 1.3 stops better than APS-C sensors at high ISOs. Also by magic Current Q-series cameras have a crop factor of 4.55. When full-frame sensors were first introduced, production costs could exceed twenty times the cost of an APS-C sensor. Only twenty full-frame sensors can be produced on an 8 inches (20 cm) silicon wafer, which would fit 100 or more APS-C sensors, and there is a significant reduction in yield.

Na druhou stranu, když si koupíte základní objektiv pro full frame, například 24-70mm tak Vám bude na APS-C chybět širší úhel záběru, protože je to po přepočtu 38,4-112mm. Další rozdíl u objektivů EF a EF-S je v ceně. Ty EF musí pokrávat větší snímač a tudíž jsou podstatně dražší Crop factor helps you analyze the field of view with respect to that of the reference format, full-frame sensors in this case. APS-C/DX-formats have a crop factor of 1.5x. So, if you're using a 50mm full-frame lens on an APS-C/DX camera, you'll get a focal length equivalent to 75mm (50mm x 1.5x = 75 mm focal length) APS-C/Super 35mm - ON. You will record in cropped mode regardless of whether you are using a full-frame compatible lens or a cropped-sensor-compatible lens. Lens A (full-frame 50mm prime lens. Learn the difference between APS-C vs Full Frame vs Micro 4/3 camera sensors and how each one can be used in various night photography shoots. The Crop Factor. The sensor of reference is the Full Frame. This sensor has the same size as the frame of 35mm roll film, and measures 36 x 24 mm

However, APS-C camera sensor sizes are still highly relevant. APS-C compared to full-frame sensors have a smaller depth of field, resolution and pixel size.In exchange, body and lens sizes are reduced. And the range boost offered by the crop factor makes them great choices for generalist photographers who want a bit of everything.. Micro 4/3rds has a significant crop over full-frame while. We mentioned that the APS-C sensor is 1.5x smaller than the full-frame sensor. Look at the hyperfocal numbers above. You can use the crop factor number to convert a full-frame hyperfocal distance of a lens to an accurate distance for the same lens on your APS-C camera by multiplying the full-frame hyperfocal distance by 1.5 or (1.6 for. The APS-C lenses will work on the full frame cameras, but only in crop factor mode, unless you change the setting on the camera forcing it to work in full frame mode. Some lenses like the E 10-18mm f/4 OSS Lens for example, will work in full frame mode, but only to about 12mm on the wide end. Any wider and you will see the heavy vignette start. Nikon has two sensor sizes: full-frame (marked with an FX) and crop (DX); and Canon has three: full-frame, 1.3x and 1.6x. For demonstration purposes in this article, I'll use the Nikon D800 (FX) and Nikon D90 (DX) and specify the lens used for each picture. Same Lens, Different Image. If you think about putting the same lens on both a full.

Crop Factor Explained

Full Frame vs APS-C vs Micro Four Thirds: Camera Sensors

  1. For most of the past twenty years the common digital camera sensor sizes were 1/2.3-inch, one-inch, APS-C and full-frame, with a further alternative in Four Thirds favoured only by Olympus and.
  2. 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 wouldn't be quite as wide as that. 24mm just isn't very wide on a crop body. 18 on a crop is like 29 on a full frame -- approx. the 28mm that people were used to being wide angle on a film camera
  3. Een crop sensor zou je, als het gaat om inzoomen, een voordeel kunnen noemen t.o.v. een full-frame sensor omdat je een factor 1.6 verder in kunt zoomen met dezelfde lens. Ga je uitzoomen en wil je een zo groot mogelijk hoek fotograferen dan is de crop sensor juist een nadeel
  4. d; this is just an approximation. Canon's crop factor is actually about 1.6x, and most Nikon and Sony cameras are normally closer to 1.52x
How Different Cameras Perform With The Same Lens | Crop Vs

Why You Shouldn't Apply Crop Factor to Aperture Crop vs

  1. EOS R - crop mode is just 4176 x 2784 - 11.6MP; EOS RP - crop mode is just 3888 x 2592 - 10.1MP; What is vital to remember is that you'll need to reset the crop, when you switch to a full-frame lens. You could simplify the approach and use one of the custom shooting modes with the crop factor applied
  2. An APS-C size sensor gathers about 15 times more light (area) than a 1/2.5 Type sensor and 2.4 times less than full frame. APS-C sensors in Nikon DX, Pentax, and Sony E have 1.5x diagonal field of view crop factor. APS-C sensors in Canon EF-S DSLRs have 1.6x diagonal field of view crop factor
  3. Because APS-C is an excellent size, it makes for smaller and lighter gear, and you can do ANYTHING with it except impress people by slinging around the bogus marketing term full frame. 4
  4. La mayoría de cámaras tienen un factor de conversión de 1.5 o 1.6x, que viene a ser la proporción con respecto al sensor de 35 mm. De aquí viene las conversiones con las distancias focales, puesto que un objetivo de 50 mm, por ejemplo, en una cámara que no es full frame y tiene factor de recorte (o crop factor) de 1.5 x se traduce en una.
  5. Crop Sensor Camera vs Full Frame. In order to demonstrate the differences between full frame and crop sensor cameras (APS-C), I did a little shoot with the cameras side by side using the same lenses. Often, I find the biggest confusion most people have is around understanding the crop factor, and what the heck that really means
  6. Canon calls them Full Frame and APS-C (EF-S, crop factor 1.6). Full frame is the same size of a 35 mm film frame (36x24 mm), and APS is the smaller APS film frame size (near about 24x16 mm). Compact cameras and phone cameras use much smaller sensor sizes, tiny, typically around 5 to 7 mm sensor width, no larger than the diameter of a pencil.

Here's a quick run down of information for you. APS-C = same size as APS-C film. Approximately a 1.5x crop factor vs 35mm or Full Frame. Canon's 1.6x crop sensor is close to the APS-C sensor size and they are commonly used interchangeably. Canon's 50D, T1i, T2i, and XSi use this format sensor. APS-H: Same size aS APS-H Film It is called a crop sensor camera, not a crop lens. The sensor is smaller, just as if you took the same image with a full frame camera and cropped it. The lens does not know what kind of camera you are using. You could put a crop sensor lens on a APS-C, APS-H, FF or medium format camera, and it would still be the same Size and Crop Factor. First and foremost, we need to understand the technical differences from the Full Frame sensor (35x23mm) and the APS-C sensor (23.6×15.7mm). For your information, a micro 4/3rd is 17.3x13mm and has a crop factor of 2. As you can notice, the full frame format is based on the 35mm film cameras

Field of View in Full frame vs

The Canon APS-C crop factor is 1.6x. 24 x 1.6 = 38.4. Which is pretty darn close to 40. My recommendation: don't buy APS-C lenses for your full-frame body, you're kinda defeating the point of buying a full-frame body For example, a Full-Frame sensor is bigger than an APS-C sensor, they used a smaller sensor size compared to APS-C, with a 2x crop factor, as they saw a benefit in creating a smaller camera. Simplistically the crop factor is just the ratio between the sensor width (or height) of a system relative to the full format (e.g. 36mm / 24mm = 1.5x for APS-C). Now you may notice that this is actually not so easy for Micro-Four-Thirds because the image ratio is different (4:3 vs 3:2)

Full Frame vs Crop Sensor – Which To Choose

Using a full frame lens on APS-C body - what crop factors

Meanwhile, an APS-C sensor does not cover as much area, and will only capture what is in the center [cropped] of the projected image, which is why a full frame will have a wider field of view with the same lens. The net result is that the smaller sensor will seem to have more zoom, or focal length, compared to that same lens on a full frame body Full-frame cameras are superior to the crop sensor ones. There's no doubt. Most of the professional photographers out there are making a living with full-frame bodies and thus those cameras are.

The Crop Factor Unmasked - Articles and Tips | PentaxForums

Full Frame Vs Crop: What's the Difference and Why Does It

At the end of the day, there is one and only one implication of the crop factor: the field of view is narrower on APS-C compared to full frame given the same lens. The crop factor itself is found by dividing the length of the diagonal of the 24 x 36 mm sensor (43 mm) with the length of the diagonal of the APS-C sensor (28.8 mm): 43 / 28.8 = 1.5 As you can see, when shooting at the same focal length on a full-frame vs. APS-C sensor, the frame area is significantly different. The viewing angle also changes on a crop sensor. Therefore it would be incorrect to say that the 50mm on APS-C is same as 75mm (50mm x 1.6 crop factor) on a FX camera So an APS-C DSLR has a crop factor of 1.5x1.6x meaning that it crops into the Full Frame image - using a 28 mm lens on an APS-C giving a view similar to a 45 mm lens on Full Frame

Full Frame vs. APS-C - Lenspir

Crop factor is the ratio of the dimensions of a given sensor's imaging area compared to the 35mm sensor's imaging area (full frame sensors in common). If a sensor's crop factor is more than 1 (APS-C sensors), the image area will be less by that ratio. Conversely, if the crop factor of the camera is less than 1 (medium format cameras), the. No TC, same lens, same focal, same everything. APS-C will have the 1,5X field of view factor crop, but D810 might be cropped in post production. For those who have a tight budget, it could be interesting to see if a high Mpixel FX body can be used (despite the lower frame rate) to get cropped high quality shot

Full Frame VS APS-C Crop Cameras (Sony A7II vs A6400) by

A 50mm lens on an APS-C sensor produces nearly the same zoom as a 75mm lens on a full-frame camera does (50 x 1.5 = 75). This multiplier is known as the crop factor. Each brand of camera uses a slightly different crop factor, but almost all APS-C sensors use a crop factor within the range of 1.3 to 1.7 The Ultra's 0.71x focal reduction factor was designed to work with both full-frame and APS-C crop sensor lenses. APS-C lenses project an image circle large enough to cover an APS-C sensor, which has a 1.5x (or larger) crop factor. Thankfully, most APS-C lenses project an image circle large enough to cover the 1.42x crop factor you get. Depending on the digital camera brand, APS-C, or crop sensor cameras have various sensor sizes. Typically, Canon cameras typically have a crop factor of 1.6 while Sony's average around 1.5. A camera is considered Full-Frame when the sensor size is 35mm (36mm x 24mm). A full-frame sensor is the approximate size of 35mm film It alone gives you more reason to buy a full-frame lens because you can easily shift between APS-C and a full-frame sensor. It would also be better to get a full-frame lens if you were planning to shift from APS-C to full-frame. Many lenses are made specifically for crop sensors

Sensor Size & Crop Factor - Tony & Chelsea Northru

For most APS C and crop sensors DSLRs, the crop factor is 1.5 or 1.6, so for easy math, let's use 1.5 as the crop factor. A Crop Factor Example: A 50mm lens on a full frame sensor camera will have a field of view of 50mm with a shallow depth of field The most commonly used sensor sizes are Full frame (DSLRs), APS-C (Crop sensor Canon, Nikon, other DSLRs), Micro Four Thirds (Olympus, Panasonic), 1inch / CX (in Nikon 1 cameras), 1/1.7inch (in. Full frame cameras tend to absorb more light than APS-C or micro 4/3 cameras because their sensor is bigger. Crop sensor cameras need more light and wider aperture lenses. This way they can produce the same background blur and maintain the full-frame sensor's quality. Also, there's a difference between focal lengths on different sensor sizes

Let's say you are using a 50mm focal length on both a full-frame camera, such as the Canon 6D, and on an APS-C crop-sensor camera, such as the Canon 70D. For the full-frame camera, which has a crop factor of 1x, the perspective provided when looking through and shooting with the 50mm focal length is actually 50mm Since full frame cameras have a crop factor of 1:1 (where many crop sensor cameras might be anywhere from 1.3x to 2x), they can capture more of the scene in the shot. For example, when shooting with a wide-angle lens like a 14mm, a full frame camera can capture the entire angle of view of that lens The difference in the size of the image captured is the crop factor. In this case, the crop factor for the Sony a6400 is 1.534. To simplify things a bit, if you put the same lens on a 35mm camera and then onto a camera using an APS-C CMOS sensor, you will see a smaller amount of the image with the digital camera Discussions abound concerning the pros and cons of a crop sensor dSLR versus a full-frame dSLR. Whether you're considering features like low-light capabilities, depth-of-field, the crop effect of the sensor, or simply the cost differences, the choice between a crop or a full will inevitably be a big choice you make when buying new gear