EOS DIGITAL TECHNOLOGY

paths, it is difficult to combine them to form large sensors without

affecting their charge transfer

characteristics. CMOS sensors, however, can be combined easily because their vertical and horizontal wiring points simply have to be connected electronically.

DiG!C IMAGING PROCESSORS

original data captured by digital cameras. At the same time, JPEG files are convenient to use while preserving high image quality. With an eye to the future of digital photography, Canon is convinced that the further development of RAW and JPEG technologies will enable digital photographers of the future to have the highest quality images possible. Bearing that in mind, all of Canon’s digital EOS SLRs can record JPEG and RAW files simultaneously.

EOSEOS CAMERASCAMERAS

EF LENSES

imaging engine

No matter how advanced the sensor, metering or lens of your SLR, the backbone of a good digital camera is the signal processing technology that renders and writes your image to your card. Developed to maximise performance between the capture and recording aspects of digital

Often referred to as “digital negatives”, RAW files are no-compromise, reversible compression, full resolution files with minimal in-camera processing; essentially, they are unaltered raw image data. Properly post processed, RAWs provide the highest possible

Camera: EOS-1D Mark II, Lens: EF 17-35mm f/2.8L USM, Width: 2464 pixels, Height: 1648 pixels,

ISO Speed: 200, Aperture: f/11, Shutter: 60, Exposure Mode: Aperture-priority AE, Drive Mode: Single,

White Balance: Auto

SPEEDLITES

Camera: EOS-1D, Lens: 24-70mm f/2.8L, ISO Speed: 100, Aperture: f/8.0, Shutter: 1/250, White Balance Natural Sunlight

Canon Image Rendering

As the only company in the world that designs, develops and manufactures its own cameras, lenses, image sensors and image processors, Canon brings an unrivalled level of technological know-how to the digital SLR world. By sharing research and information among development teams, and keeping the entire creation and production of a product in-house, Canon is able to create technologically advanced products faster than any other company. Only Canon EOS digital SLRs benefit from Canon’s decades of innovation in both the consumer and professional markets.

Canon digital SLRs utilise the latest in sensor and processor technology to ensure the purest, highest quality images available today. All EOS digital SLRs provide the user with quick operation, virtually identical to that of a traditional 35mm SLR, so that users will feel no compromise in working with digital photography.

Innovations like Canon’s CMOS Sensor and DiG!C Imaging Processor, combined with Canon’s years of experience in making industry-leading EOS cameras and lenses, have kept Canon Digital SLRs leaps ahead of the competition.

Canon’s CMOS sensors incorporate a unique on-chip noise reduction technology to deal with both fixed-pattern and random noise, resulting in silky-smooth, film-like images, with limited power consumption, at breathtaking speed. In addition, a multi-layer low-pass filter is placed in front of the sensor in order to isolate false colours that the sensor may detect. Then, Canon’s proprietary imaging engine processes the image to eliminate the false colours while retaining full detail.

photography, Canon’s DiG!C (Digital Imaging Integrated Circuit) chip enhances the signal-processing algorithms associated with image capture, resulting in improved image quality and a more intuitive, responsive camera. This ultra-high- performance imaging engine speeds up the processing, compression, display and write times for

each image, all with low power consumption, saving valuable battery power. The latest-generation DiG!C II Imaging Processor works in concert with Canon’s newest CMOS sensor to achieve even higher levels of performance. New signal processing algorithms work with the multi-channel signal from the sensor and the high-speed DDR-SDRAM (Double Data Rate Synchronous Dynamic Random Access Memory) buffer to deliver dramatically improved camera response. Power consumption has

image quality from a digital SLR. Using software bundled with the camera, users can preview RAW files, adjust settings like colour balance, saturation, sharpness and exposure compensation, and save final images in other file formats.

preview display

colour, tone and white balance settings as recorded by the camera. Taking up less storage space, JPEGs are often more immediately pleasing to the eye, and, thanks to the high-quality signal processing applied by Canon’s image processor, can withstand significant retouching with virtually no loss in quality. In-camera JPEGs are also convenient for immediate usage

in a wide variety of applications, such as e-mail, Web galleries, and office-related applications such as word processors and presentation software.

COLOUR MANAGEMENT

At every step of the design and manufacturing process Canon ensures that your SLR, lens and computer will work together seamlessly resulting in colour that is both sharp, accurate and

captures an even wider gamut of colours than your computer is capable of recognising and, through complex operations, the processor ensures that whether you’re shooting

in sRGB for the web, or in Adobe® RGB colour space for commercial applications, your colours will turn out just right. Beyond what your EOS SLR does on its own, advanced users can set their own white balance, colour temperature, saturation and much more.

POWER SUPPLIES

ACCESSORIES

DIGITAL

A Closer Look at Canon Digital SLR Technologies

CMOS SENSORS

A good digital image sensor must meet or exceed a photographer’s requirement for film. It must work well in low light, with a good signal-to-noise ratio, yet must have a broad dynamic range for use in bright light.

CMOS sensor

It must be large enough to ensure wide depth of field, as in traditional photography, but must also be efficient, or the photographer will have to change batteries all day long.

Bearing this in mind, Canon developed its own CMOS (complementary metal- oxide semiconductor) sensor to record digital images, taking advantage of proprietary know-how gained during the development and manufacturing of its renowned autofocus sensors and semiconductor manufacturing equipment. Compared with CCD sensors which amplify signals only after they have been transferred to an image processor, CMOS sensors convert and amplify signals before they

are transferred. Using this method together with additional proprietary technology, Canon’s CMOS sensors produce a cleaner signal from the beginning. At the same time, power consumption is reduced by up to

90% compared with CCDs, and data transfer speeds can be significantly increased via multi-channel readouts.

To mirror the characteristics of 35mm cameras, CMOS sensors can easily be built as full-frame 35mm sensors, something that is difficult, if not impossible, with CCD sensors.

To fabricate a full-frame 35mm sensor, the manufacturing equipment must produce “adjoining exposures”.

Since CCDs have both vertical and horizontal electrical charge transfer

with anti-noise Processing

without anti-noise Processing

been further reduced for even longer battery life. Colour reproduction, too, is significantly better, with more natural rendition of bright, high-saturation subjects and more precise auto white balance. Colour accuracy and noise performance in low light have also been much improved.

thumbnail display

In post processing, it’s possible to find and extract highlight and shadow detail from RAW images, extending the dynamic range of your digital SLR, often exceeding the range of 35mm slide film. Additionally, RAW files are the best way to store your unaltered image data for use in the future. JPEG images created by Canon digital SLRs are compressed files, processed to reflect the sharpness,

pleasing to the eye.

Canon’s proprietary image rendering processes utilise numerous data for colour rendition. The sensor

Canon digital camera colour space

ACCESSORIES

SHOOTING

PERIPHERALS

high speed enables high quality

 

SIMULTANEOUS RAW + JPEG

 

RECORDING

 

While negatives contain all original

 

image data captured by film-based

 

cameras, RAW files contain all

white balance function

CASES AND STRAPS

4

5

Page 4
Image 4
Canon Digital Camera Lens EOS Digital Technology, Canon Image Rendering, Closer Look at Canon Digital SLR Technologies

Digital Camera Lens specifications

Canon has firmly established itself as a leading brand in the world of photography, and its digital camera lenses play a crucial role in delivering exceptional image quality and versatility. These lenses, compatible with Canon's range of digital cameras, feature advanced technologies and characteristics that cater to both amateur and professional photographers.

One of the standout features of Canon lenses is their advanced optical design. Many Canon lenses utilize Ultra-Low Dispersion (UD) glass elements and aspherical lens elements, which significantly reduce chromatic aberration and distortion. This ensures sharp, high-contrast images with minimal color fringing. The use of Super Spectra coating further enhances light transmission while minimizing ghosting and flare, allowing photographers to capture stunning images even in challenging lighting conditions.

Canon offers a diverse lineup of lenses, including prime, zoom, macro, and telephoto options. Prime lenses, known for their simplicity and wide apertures, are especially popular among portrait photographers for their ability to create beautiful bokeh. Zoom lenses provide flexibility, allowing users to easily transition between different focal lengths without changing lenses. This is ideal for dynamic shooting environments where every second counts.

In recent years, Canon has also integrated advanced autofocus technologies into its lenses. The Dual Pixel autofocus system, which is found in many of its newer lenses, enables fast and accurate focusing, making it easier to capture moving subjects. Additionally, Canon's STM (Stepping Motor) lenses provide smooth and silent autofocus performance, which is particularly beneficial for video recording.

Another key characteristic of Canon lenses is their build quality. Many of them are designed to withstand the rigors of professional use, featuring weather-sealed constructions that protect against dust and moisture. This durability ensures that photographers can confidently shoot in various weather conditions without worrying about damaging their equipment.

Canon also places a strong emphasis on compatibility and innovation through its RF lens mount system. Introduced with the Canon EOS R series, the RF lenses utilize a larger diameter and shorter flange distance, which allows for more creative possibilities and design flexibility. This innovation has led to the development of cutting-edge lenses with enhanced performance that complement the latest mirrorless camera technologies.

In conclusion, Canon digital camera lenses are a testament to the brand's commitment to excellence in photography. With their advanced optical performance, innovative autofocus technologies, and robust build quality, Canon lenses are designed to meet the demands of photographers at every skill level, empowering them to capture their vision with precision and clarity. Whether you’re exploring landscapes, photographing events, or capturing intimate portraits, Canon lenses offer the tools necessary to elevate your photographic experience.