I have already written posts on the working of film cameras, digital cameras and also on the image sensors. To know more about them click on the links below.
TAKE A LOOK : WORKING OF FILM CAMERAS
TAKE A LOOK : WORKING OF DIGITAL CAMERAS
Digital cameras are mainly classified according to their use, automatic and manual focus, and also price. Here are the classifications.
1. Compact digital cameras
Compact cameras are the most widely used and the simplest cameras to be ever seen. They are used for ordinary purposes and are thus called Ã¢Â€Âœpoint and shoot camerasÃ¢Â€Â. They are very small in size and are hence portable. Since they are cheaper than the other cameras, they also contain fewer features, thus lessening the picture quality. These cameras are further classified according to their size. The smaller cameras are generally called as ultra-compact cameras. The others are called compact cameras.
Here are some features of this camera
- Compact and simple.
- Images can be stored in computer as JPEG files.
- Live preview can be seen before taking photos.
- Low power flashes are available for taking photos in the dark.
- Contains auto-focus system with closer focusing ability.
- Zoom capability.
Although these features are available, their magnitude may be less compared to other cameras. The flashes may be available only for nearby objects. The preview of the picture to be taken will have less motion capability. The image sensors used in these cameras have a very small diognal space of about 6mm with a crop factor of 6.
Compact Digital Cameras
2. Bridge cameras
Bridge cameras are most often mistaken for single-lens reflex cameras (SLR). Though they have the same characteristics their features are different. Some of its features are
- Fixed lens
- Small image sensors
- Live preview of the image to be taken
- Auto-focus using contrast-detect method and also manual focus.
- Image stabilization method to reduce sensitivity.
- Image can be stored as a raw data as well as compressed JPEG format.
Though they resemble SLR in many ways, they operate much slower than the latter. They are very big in size and so the fixed lenses are given very high zooming capability and also fast apertures. The autofocus or manual focus is set according to our necessity. The image preview is done using either a LCD or an Electronic View Finder (EVF).
3. Digital single lens reflex cameras (DSLR)
This is one of the most high end cameras obtainable for a decent price. They use the single-lens reflex method just like an ordinary camera with a digital image sensor. The SLR method consists of a mirror which reflects the light passing through the lens with the help of a separate optical viewfinder.
Some features of this camera are
- Special type of sensors is setup in the mirror box for obtaining autofocus.
- Has live preview mode.
- Very high end sensors with crop factors from 2 to 1 with diagonal space from 18mm to 36mm.
- High picture quality even at low light.
- The depth of field is very less at a particular aperture.
- The photographer can choose the lens needed for the situation and can also be easily interchangeable.
- A focal plane shutter is used in front of the imager.
Digital single lens reflex cameras (DSLR)
4. Electronic viewfinder (EVF)
This is just a combination of very large sensors and also interchangeable lenses. The preview is made using an EVF. There is no complication in mechanism like a DSLR.
Electronic View Finder
5. Digital rangefinders
This is a special film camera equipped with a rangefinder. With this type of a camera distant photography is possible. Though other cameras can be used to take distant photos, they do not use the rangefinder technique.
6. Line-scan cameras
This type of cameras is used for capturing high image resolutions at a very high speed. To make this mechanism possible, a single pixel of image sensors are used instead of a matrix system. A stream of pictures of constantly moving materials can be taken with this camera. The data produced by a line-scan camera is 1-dimensional. It has to be processed in a computer to make it 2-D. This 2-D data is further processed to obtain our needs.