Digital cameras are quite similar to traditional cameras in their operation. They both have a lens to focus the image, a shutter to allow light inside the camera, and an aperture to control the amount of light which enters the camera.

The differences between digital and traditional photography occur after the light enters the camera. A traditional camera captures the images on film, while a digital camera captures the image on an image sensor.

Image sensors are electronic devices made up of an array of electrodes (or photosites) which measure light intensity. The most common type of image sensor for digital cameras is the CCD (Charge-Coupled Device) although others such as CMOS and Foveon are sometimes used.

The number of photosites in the image sensor gives the digital camera its megapixel (millions of pixels) rating. Each photosite corresponds to a pixel in the final image, so a camera which is rated at six megapixels, for example, has an image sensor which is 3008 pixels wide by 2000 pixels high.

When light hits the image sensor it is converted into electrical signals which are amplified and fed to an analog-to-digital (A/D) converter. The A/D converter changes the electrical signal into binary numbers which are processed by a computer housed in the camera body. Once the numbers have been processed the resulting image is stored on a memory card.

Photosites can only measure intensity of light — not colour. In order to produce a colour image, each photosite must be covered with a coloured filter which can be red, blue, or green. These are the three primary colours which can be combined to produce any other colour including white.

The coloured filters are arranged in a grid so that there are twice as many green filters as there are red or blue. This is because the human eye is twice as sensitive to green light. Filters are arranged in a pattern called the Bayer pattern - one row of red, green, red, green (etc.), and the next row of blue, green, blue, green (etc).

Since each photosite can only be covered with one coloured filter, computer processing is necessary to produce a full coloured image. This is done by analyzing each individual pixel and its immediate neighbors and producing a composite colour from these calculations. For example, if a bright red pixel is surrounded by bright green and bright blue pixels, the bright red pixel must actually be white, because white is the combination of red, blue, and green. This process is called demosaicing.

After demosaicing the image is adjusted according to the settings on your camera. Most cameras have settings for brightness, contrast, and colour saturation. After these adjustments are made some cameras may also apply a sharpening algorithm to make the image clearer.

The final step before saving the image on the memory card is to compress it. Most cameras use JPEG as a compression format. This reduces the size of the file by eliminating excess data. This data cannot be recovered, so JPEG is called a ‘lossy’ format.

Many cameras have the ability to save uncompressed images as TIFF files or raw data. Raw data is the original photosite data even before demosaicing. It can be transferred to a computer for processing with special software that will perform all of the processing functions of the camera but with much greater control.

Bookmark to:

When we are ready to buy a digital camera we need to look at various facts. These facts will help us to compare digital camera features and eventually decide which digital camera we wish to buy. As there are many features that can be present in the various digital cameras you will need to isolate the main points and features of interest to you.
By narrowing this field of comparison we can look for only the items that will help us take great looking photographs. Among these items to be compared can be the amount of pixels that are offered in each type of digital camera.
To compare digital camera features like this you should have access to a buyer0s guide that will inform you about the amount of pixels that can be found in a digital camera. The amount of pixels will normally mean that your photograph quality will be very good.
You can also compare digital camera features to see if a digital camera is suited for the amateur photographer, semi-serious photographer, the serious amateur who is looking to better their photographic craft or even professional photographers.
The various information that you can find about digital cameras will let you see what […]

Full Article At: KnowHow-Now.com Articles

Bookmark to:

Many of us use digital cameras to take our pictures for a variety of functions and events. We need a good digital camera to take these fantastic pictures. To help us with choosing a good digital camera we can use digital camera ratings. These ratings will enable us to select the camera that will be suited for our photographic abilities.
To see if we have found a reliable way to choose a digital camera we can look at digital camera buyer0s guides, or photography magazines to select the criteria that will help us. These various digital camera ratings will let us see how the different digital cameras perform in value for money, the handling of the camera, the performance of the camera and the various features that can be found.
When we look at the digital camera ratings for cameras like Minolta, Nikon and Pentax we need to see the performance of these types of digital cameras in different digital camera ratings. The ratings will briefly cover the aspects of how good the optics in the digital camera of your choice is.
The rating should state if you have a digital camera that will provide you with pictures that are clear and sharp. […]

Full Article At: KnowHow-Now.com Articles

Bookmark to: