Focusing Modes - Understanding Autofocus Modes

Nothing, ruins a photograph more than a blurry, unsharp image. One of the godsends of modern DSLR technology is the autofocus feature. But as useful as autofocus is, sometimes the camera gets it wrong and focuses on the wrong subject. Additionally, there are situations where autofocus just can’t cut it. The fantastic thing about autofocus on today’s cameras is that you can let it do all the work to get the super-sharp images. The four primary focus modes (Continuous, Single, Automatic and Manual) give you a tremendous amount of flexibility to capture exactly what you want.


Continuous Focusing Mode
AI Servo AF (Canon)/AF-C (Nikon) stands for Continuous Focus and this mode is most useful for keeping moving objects sharp within the viewfinder as you track the object. As soon as you begin to depress the shutter release, the camera goes into action and begins to focus. In Continuous focusing mode, the camera detects the subject’s movements and refocuses accordingly to keep the object sharp as a tack. This mode uses a lot of battery power because it is continuously focusing and refocusing. In addition, the autofocus technology might not accuratly predict the direction in which a chaotic, fast-moving subject is going to move… so you might still get a blur.

One Shot Focusing Mode
Next we have One-Shot AF (Canon)/AF-S (Nikon), which represent single-focus capability. In this mode, when you depress the shutter release halfway, the camera focuses on the subject just once – there’s no continuous adjustment. This mode saves battery power, and is ideal for subjects that aren’t moving. However, this mode falls short when you’re trying to capture something that’s changing positions. So unless you’re trying to get a quick shot of a deer in the early morning or hoping to immortalize Tony Romo getting tackled, then One Shot mode is probably your best bet.

Automatic Autofocus Mode
The last autofocus mode is AI Focus AF (Canon)/AF-A (Nikon), which stands for Automatic Autofocus. This is a relatively new feature which has turned out to be quite useful. In this mode the camera’s focusing computer jumps back and forth between AF-C and AF-S (Nikon)/One-Shot AF and AI Servo AF (Canon) depending on the situation. This is the default autofocus mode on cameras that have this feature. You have to remember that photography can be an art, and in art you have to go with what’s in your mind’s eye. You never know what’s going to happen next or what’s going to catch your eye, so it’s useful to have the camera make quick focus adjustments. This feature maintains focus if you change subjects or the subject moves.

Manual Focusing Mode
Manually focusing the camera is perhaps the most frustrating barrier between good and great photography. Achieving perfect focus requires using the distance measurements on the lens barrel and even perhaps measuring the distance from the lens to the subject with a tape measure; high-end photographers shoot products this way, and so do fine art photographers who are using medium format cameras. This will give you the most accurate focus point. What if you can’t take a tape measure up to a subject? Well, you have to rely on your internal sense of sharpness and know the critical focus zone that you have at the specified aperture. There is a diopter adjustment on most DSLRs (it’s right next to the viewfinder) that lets you make minute adjusts to the focusing capacity based upon any irregularities in your individual eyesight. You can also use the Depth of Field preview button to help determine focus, but this is a more advanced technique. Manual focus is important when you focus on a non-traditional subject, for example, a subject that is in the background when the foreground is busy and dominating.

Conclusion
All DSLRs allow you to turn off the autofocus and let you work with the focus ring to acquire sharp focus. Some people might find this time consuming or difficult, but as we said, photography is an art. You can use focus as means of drawing attention to or away from certain subjects. Or perhaps you want the entire frame to be out of focus to a certain degree because you want to create a dream-like quality to your image. It’s up to you. In addition, the autofocus modes have difficulty shooting through certain seemingly transparent objects that are in front of a subject, like a wire fence or quasi-reflective glass; in these cameras the autofocus mode could focus on the wire fence and not the animal behind it. In this situation, you can “outthink” the autofocus mode by depressing the shutter halfway and acquiring sharp focus on the subject in the distance.

source: http://www.exposureguide.com/focusing-modes.htm

Canon EOS - M

It's now almost four years since Panasonic first introduced us to the mirrorless interchangeable lens camera, in the shape of the Micro Four Thirds Lumix DMC-G1. Since then, all of the other major manufacturers have entered the fray, in the process offering cameras in a variety of shapes and sizes - from diminutive beginner-friendly models such as the Olympus PEN E-PM1, to unashamedly high-end models like the Sony NEX-7 and Fujifilm X-Pro1. Nikon, meanwhile, has ploughed its own individual furrow with its family-friendly 1 J1 and 1 V1 models. This simply reflects the fact that different cameras are targeted to different kinds of users - be they serious enthusiasts looking for a small, highly capable camera, or compact-camera upgraders looking for SLR-like image quality in a smaller, easier-to-use package.

Canon is the last big player to show its hand, and its initial entrant - the EOS M - is unashamedly targeted to the latter group of users. To all intents and purposes it's a mirrorless version of the recently-announced EOS 650D, but with a simpler interface that's designed to be more approachable for novice users, and obviously much more compact in size. It's based around a new 'EF-M' lens mount, and two matched lenses will be available at launch: the EF-M 18-55mm f/3.5-5.6 IS STM zoom, and the EF-M 22mm f/2 STM 'pancake' prime. But it's still very much part of the EOS system, and all of the company's existing EF and EF-S SLR lenses can be used via the co-announced 'Mount adapter EF-EOS M'.

The EOS M features a compact, magnesium-alloy body, and will be available in four colours - black, white, silver and red. It has no built-in flash, but instead a hot shoe on the top plate, and in many markets (although not the US) it will come bundled with the new AAA-powered Speedlite 90EX unit. There's neither a built-in viewfinder, nor connector for an external unit - composition is solely using the camera's rear screen (which is fixed, rather than articulated).

Canon EOS M key features

  • New EF-M lens mount (optimized for APS-C sensor size)
  • 18MP APS-C 'Hybrid CMOS' sensor
  • Continuous autofocus in movie mode with subject tracking
  • 14-bit DIGIC5 processor
  • ISO 100-12800 standard, 25600 expanded
  • 4.3 fps continuous shooting, 3 fps with autofocus tracking
  • 1080p30 video recording, stereo sound (with 25p or 24p options)
  • External microphone socket and adjustable sound recording level
  • 1040k dot 3:2 touch-sensitive ClearView II LCD (capacitative type, multi-touch support)
  • Standard EOS hot-shoe for external flash (no built-in flash)
  • 'Creative Filters' image-processing controls, previewed live on-screen


New EF-M lens mount
A new mirrorless system needs a new lens mount, which Canon has called EF-M to emphasis its continued compatibility with the company's existing EF mount for autofocus SLRs. It's a fully-electronic bayonet mount, with 9 contacts between the lens and camera. Unusually, the white dot for aligning the lens is at the 11 0'clock position on the mount.

The EF-M mount is 58mm in diameter, with a flange distance of 18mm from the bayonet to the sensor. As the image above clearly shows it's matched specifically to the APS-C sensor size. So don't expect a future full frame EF-M mount camera - it's not going to happen.

Like all other mirrorless cameras, the EOS M's shutter is open by default even when the camera is turned off, exposing the sensor. This may seem disconcerting to SLR owners, but we've never experienced any problem with this approach. Like Canon's live view-capable SLRs the EOS M uses an electronic first curtain to activate the exposure, and the physical shutter is only used to end it. This helps reduces shutter lag and keep shutter noise down - meaning the EOS M is one of the quieter models of its type.

source: dpreview, more detail info, visit dpreview.

Mirrorless Camera

The Mirrorless interchangeable-lens camera (MILC) is a popular class of digital system cameras. Unlike a compact digital camera, a MILC is equipped with an interchangeable lens mount and unlike a digital single-lens reflex camera, a MILC does not have a mirror-based optical viewfinder.

Various alternative names exist – including: Compact System Camera (CSC), Mirrorless System Camera (MSC), Digital Single Lens Mirrorless (DSLM), Digital Interchangeable-Lens System camera, and – finally – Electronic Viewfinder with Interchangeable Lens (EVIL); this latter term not applying to cameras with an optical viewfinder.


Benefits

MILCs combine some of the benefits of both compact cameras and DSLRs. Compared to compact cameras, they offer the versatility allowed by interchangeable lenses. In addition to this, those MILCs which are equipped with a large sensor also offer all the advantages associated with it.

Compared to DSLRs, MILCs are smaller (due to fewer parts) and sturdier (due to fewer moving parts). Due to the lack of the mirror system, MILCs equipped by a large, DSLR-like sensor, can place lenses considerably closer to it (flange back distance) when compared to DSLRs. Thus high-quality lenses can be made smaller, cheaper, and lighter (wide-angle lenses in particular). However, current lens selection, though growing, is still relatively limited and expensive compared with the very well-developed DSLR lens market. Compact-style MILCs fitted with a thin "pancake" lens are pocketable, hence as portable as larger compact cameras, but when fitted with larger lenses they are less portable and not in general pocketable.

Noise on shutter activation is quieter as there is no moving mirror. In August 2011 prices of MILCs were higher than the cheapest entry-level DSLRs[citation needed], but decreased sharply and, as of November 2011, some models sold for less than high-end compact, non-system cameras from the same manufacturers.

Drawbacks


MILCs share many of the limitations of both compact cameras and DSLRs. These include:

No TTL optical viewfinder

The lack of through-the-lens optical viewfinder (TTL OVF) is a defining feature of MILCs, and also found on compact cameras – a TTL optical viewfinder requires an optical path from taking lens to viewfinder, hence an SLR design.

MILCs primarily use a rear LCD display for arm-level shooting, but some also feature an electronic viewfinder (EVF) for eye-level shooting, or an optical viewfinder that is not TTL (as in a rangefinder), which hence suffers from parallax, particularly at short distances.

Contrast detection autofocus, rather than phase detection autofocus system
Contrast-based AF has generally been slower than the phase-based AF systems found in DSLRs[9], often significantly, until July 2011 when the Olympus Pen E-P3 surpassed top range DSLRs in focusing speed for still shots. The improvement in speed has been achieved by reducing the time taken for the contrast-detection autofocus system to begin operation after half-pressing the shutter button, doubling the sensor readout speed to 120 frames per second (Olympus are soon to use 240 fps in some focus modes), and increasing the speed with which contrast detection routines operate. Although micros from Olympus and other manufacturers also have closed or leapfrogged this gap, there is still a gap in continuous autofocus accuracy and speed, and thus MILCs are still not as good at photographing moving objects, notably in sports, as DSLRs.

Nikon's "One" system incorporates phase focusing together with contrast-detection autofocus, and Nikon claim it is as fast focusing for sport as their high end DSLRs. One advantage of contrast detection autofocus is that, for still subjects, autofocus accuracy tends to be higher than with phase detect systems, as the camera uses the actual sensor output to determine focus. Therefore, CDAF systems are not prone to calibration issues such as front or back focus as can occur with phase detect systems.

Sony has recently announced an adapter system for their NEX series EVIL cameras that allows their SLT mirror technology to be mounted to NEX cameras by way of adapter. This adapter will allow the E-Mount camera to use A-Mount lenses and bring real time phase detection auto focus for both still and video photography.

Incompatibility with existing lenses
Most MILC camera systems use a new lens mount, which is somewhat incompatible with existing lenses – Micro Four Thirds (Panasonic and Olympus), NX-mount (Samsung), E-mount (Sony), 1-mount (Nikon) and EF-M mount (Canon). This means both that existing lenses cannot be used without an adapter, and that relatively few native lenses exist for these cameras at the time of their introduction, as new lenses must be designed and manufactured for the new mount. The only exception is the Pentax K-01, a mirrorless camera that accepts all legacy K-mount lenses without any adapter, but the consequence is that the K-01 is not as slim as the Sony NEX-7 or the Nikon 1 V1, although slimmer than one of the smallest SLRs on the market, the Pentax K-5.

As the largest investment in a system camera is the lenses, not the body, and lenses often last decades, changing a mount and rebuilding a lens collection is a significant investment.

Adapters exist for legacy lenses although most do not support autofocus on MILC bodies. Micro Four Thirds has adapters with Four Thirds, Canon FD, Leica M, M42, Nikon, Olympus OM, Minolta, Pentax K, and C mounts. The Sony E-mount has an adapter for the older Minolta A mount, Four Thirds, Canon FD, Leica M, M42, Nikon, Olympus OM, Minolta, Pentax K, and C mounts. The Nikon 1 series has an adapter for the company's F-mount, and the Canon EOS M will be introduced with an adapter for that company's EF and EF-S mounts. However, part of the benefit of MILCs is that newer, smaller lenses can be used; to realize these benefits, either new lenses or lenses for short flange distance legacy mounts, such as those used on rangefinder cameras, are required.

This can be compared with the situation for APS-C sized DSLRs, where the Canon EF-S and Nikon DX lenses are specifically designed to cover only the smaller imaging circle required for the smaller sensor, reducing lens size and manufacturing cost. However, they maintain the same mount distance to the sensor, providing compatibility with lenses designed for the larger full 35mm sensor size.

This drawback, however, is somewhat balanced by the fact that most MIL cameras are aimed at the "point-and-shoot" market where users rarely build a large system around their cameras and are usually satisfied with the lens supplied with the camera or, at best, purchase an all-around "super-zoom" lens to cover all possible shooting situations.

For manufacturers, this strategy eliminates price competition for their new lenses from second-hand legacy lenses.

source: wikipedia

Canon EOS 6D


The Canon EOS 6D Digital Camera (Body Only) is a full-frame 20.2MP DSLR offering exceptionally high image quality and detail while providing compatibility and convenience through its design and features. When paired with the powerful DIGIC 5+ image processor and 14-bit A/D conversion, the full-frame sensor is capable of recording vivid imagery with expanded sensitivity up to ISO 102400. The processing power also affords intelligent noise reduction techniques and the ability to record continuous still images at a rate up to 4.5 full resolution fps.

The 6D employs an 11-point autofocus system for acquiring precise focus regardless of the shooting situation, which is further enhanced by a center cross-type focus point for improved low-light focus sensitivity. The iFCL 63-zone dual layer metering sensor also benefits from the autofocus system when making exposure measurements, and analyzes color and luminance values within the scene to determine accurate exposure settings.

Full HD video recording is possible up to 1080/30p in the All I-frame or IPB compression, as well as the standard H.264/MPEG-4 AVC codec. When recording HD video, full manual control over exposure and sound is possible, enabling you to take complete control over the final appearance of your movies.

Built-in Wi-Fi and GPS technologies also provide extensive connectivity to the 6D. The built-in Wi-Fi capability allows you to take remote control over the 6D when used in conjunction with the Canon EOS Remote app (available for iOS and Android), as well as instantly share the images from your camera to your phone or to the CANON iMAGE GATEWAY. The GPS receiver will automatically record locational data and embed this information into the metadata of your images, allowing you to geotag your shots and map out where each shot was taken.

The 6D features a smaller form factor compared to other full-frame DSLRs, but still integrates a large 3.0" 1,040K-dot TFT LCD monitor for clear playback and review of your imagery. The construction of the body integrates an aluminum alloy and polycarbonate chassis within a magnesium and polycarbonate shell for durability while still maintaining a lightweight profile.
20.2 Megapixel Full-Frame CMOS Sensor, 14-Bit A/D Conversion, DIGIC 5+ Image Processor
The large full-frame 20.2 megapixel CMOS sensor offers a high level of image quality with attention given to sharpness, detail, and depiction of colors and tones within a scene. Due to increased information and detail, a larger sensor is capable of producing greater visual depth and smoother gradients and tonal transitions. Additionally, a large sensor provides more leeway to control the plane of focus and apply selective focus techniques.

This sensor delivers images with a maximum resolution of 5472 x 3648 pixels, with a pixel size of 6.55 µm square, for greater reception of light and a lower signal-to-noise ratio. This pixel structure works in close collaboration with the DIGIC 5+ image processor, and its 14-bit A/D conversion, to produce a native sensitivity range of ISO 100-25600, which can be further expanded to ISO 50-102400.

In addition to contributing to the low-light sensitivity, the DIGIC 5+ processor also delivers overall speed and power to the 6D and utilizes dual 4-channel A/D converter front-end processing circuits for expedited conversion of both JPEG and RAW file formats. This enables a maximum continuous shooting rate of 4.5 full resolution frames-per-second as well as greater noise reduction when working at higher ISOs. The DIGIC 5+ processor also provides real-time compensation for chromatic aberration when working with both still and moving imagery.
11-Point Autofocus System
The 6D integrates an 11-point AF system for fast and precise focusing regardless of your subject matter or working situation. These 11 points provide even coverage across the entire frame while a more refined center cross-type point with EV -3 sensitivity provides more efficient, accurate low-light focusing. One-shot AF, AI Servo AF, and AI Focus AF are all available depending on one's needs, and furthermore the AI Servo mode is customizable in regard to focus tracking, acceleration, and deceleration sensitivities, as well as 1st or 2nd image priority adjustments. Lens data can also be entered and customized within the camera for greater focus refinement when working with wide-angle or telephoto lenses.

Also contributing to sharp focus, the 6D incorporates a large, bright pentaprism viewfinder with 21mm eye point and 97% frame coverage for clear viewing of the scene. This construction greatly benefits the manual focusing capabilities, as well as general low-light composition.
iFCL 63-Zone Dual Layer Metering Sensor
An intelligent metering system works in conjunction with the autofocus system and independently analyzes focus, color, and luminance within the scene for the most precise exposure settings possible. The 63 zones cover the entire image area with great detail and the dual-layer design permits a wider sensitivity to different wavelengths of light.

The dual layers are split into a red/green channel and a blue/green channel; which counters the red light sensitivity bias electronic sensors inherently have. A series of algorithms are employed to combine data received from both layers, with the resulting exposure reading being extremely accurate regardless of the shooting conditions.

This metering system employs evaluative, center-weighted, and spot metering methods to determine exposure, as well as allowing for a +/- 5 EV exposure compensation for greater manipulation of the determined exposure setting.
EOS HD Video
Full HD video recording is supported in multiple formats, including 1080/30p, 24p, 25p; 720/60p, 50p; 480/60p, 50p. While recording video, a 4GB automatic file partition is employed in order to gain longer continuous recording times, up to 29 minutes 59 seconds. Both All I-frame (requires UHS-I memory card) and IPB compressions are supported as well as the standard H.264/MPEG-4 AVC codec. Embedding the time code is also possible for greater convenience when recording with multiple cameras.

Video performance is further enhanced with the ability to manually adjust your exposure settings and audio levels; exposure can be adjusted using both aperture and shutter speed variables, and sound can be managed through a 64-level volume control. Additionally, an external stereo microphone can be used and is connected through the 3.5mm microphone terminal.

The DIGIC 5+ processor also dramatically improves video response times and helps to reduce color artifacts, aberrations, and moiré while providing the ability to record with sensitivities up to ISO 25600 in H mode.
Built-In Wi-Fi and GPS
Built-in Wi-Fi and GPS technologies enable highly functional connectivity with other devices, including the ability to instantly share imagery from your camera and geotag your photographs.

Exposure settings can be controlled remotely from your smartphone when using Canon's proprietary iOS and Android app, Canon EOS Remote, allowing you to make exposures and modify camera settings from a distance. You can also review imagery from your camera on your smart device, and transfer files wirelessly. Full DNLA (Digital Living Network Alliance) compatibility is supported, which enables you to share your images from the 6D with other household products such as HDTVs, tablets, and other Wi-Fi-enabled Canon cameras. You are also able to upload still images directly to CANON iMAGE GATEWAY, allowing you to then easily share images with social networking sites without the use of a computer.

The GPS receiver functions similarly and is able to record locational data (longitude, latitude, altitude, and universal coordinated time) as EXIF data which is then embed into your image files. This then permits you to track where your images were recorded and view your exact route traveled.
Efficient Design
The EOS 6D contains a large full-frame sensor within a compactly-sized body for greater portability without sacrificing image quality. The body features an aluminum alloy and polycarbonate chassis with a magnesium and polycarbonate exterior for durability. The shutter rated up to 100,000 cycles.

Also contributing to the efficiency of design, an Integrated Cleaning System permits internal dust removal. To counter the effects of dust within the housing, the glass filter is cleaned through ultrasonic vibration and the dust particles are collected by an adsorbent. This unit is completely sealed from external contaminants, and the optical low-pass filter features an anti-dust fluorine coating for ease in removing more substantial dust particles.
3.0" Clear View LCD Monitor
The 3.0" Clear View TFT LCD provides high quality viewing with a 1,040,000-dot resolution and anti-reflection coating. This allows for sharp and clear viewing in even the brightest of conditions and displays images and videos with great detail and richness. The display also features a viewing angle up to 160° for review from the side or below.

When used in conjunction with Live View mode, a smaller display is superimposed over the image. Live View mode permits real-time image review and can also place grid lines over the image for compositional help. A built-in electronic level is available for maintaining consistent horizons or for lining up parallel lines within a scene. You can also zoom into and navigate within the image when in Live View and use the grid lines for minute control and precision over the alignment of your photograph.
Built-In HDR and Multiple Exposure Modes
A High Dynamic Range (HDR) mode is available and allows for the creation of HDR images in-camera, reducing the time needed to manually overlay images in post-production. When using this mode, a series of bracketed exposures are made of the same image, then automatically integrated into the same frame, resulting in a photograph without blown highlights or blocked up shadows and a long middle range of tones. This mode is especially useful when photographing scenes with a great deal of contrast.

Multiple exposures are also possible in-camera and up to 9 exposures can be recorded onto a single file using 2 distinct settings for control. When in Additive mode, this closely resembles making multiple exposures on film and layers each exposure; manual exposure compensation is required. Average mode layers the images and automatically compensates for the final exposure, eliminating the unintended possibility of gross under or overexposure. Multiple exposures can be recorded in either JPEG or RAW formats, and furthermore you can utilize an existing RAW image as a starting point from which to layer subsequent images, which can then be manipulated in real time on the LCD.
Scene Intelligent Auto and Special Scene modes
Scene Intelligent Auto mode incorporates a number of Canon's automatic exposure technology together in order to output a well-refined exposure. Picture Style Auto, Automatic Lighting Optimizer, Automatic White Balance, Autofocus, and Automatic Exposure are all employed to intelligently analyze the scene at hand and produce the most effective exposure settings to clearly render your subject matter.

Special Scene modes also help to enhance your imagery by applying a system of corrections for use in more difficult lighting situations. Handheld Night Scene automatically captures four consecutive exposures, at shutter speeds fast enough to handhold, and layers them into a single frame. This allows you to effectively record images in darker situations without the need of a tripod or stabilization device. HDR Backlight Control works in the same manner and records a series of exposures at different values to ensure highlight and shadow values are not lost. These under and over-exposed images are blended to create a final image with a wider dynamic range.
Other Features
  • Compatible with SD, SDHC, and SDXC, including Ultra High Speed (UHS-I), memory cards.
  • Peripheral illumination, chromatic aberration, and distortion corrections are available and programmable through a menu of different available EF lenses. This lens data is used to automatically correct for each individual lens' traits to produce the cleanest image possible.
  • In-camera RAW processing and JPEG resizing are available to allow for expedited offloading of imagery that is instantly reading for the method in which you intend to share it.
  • Comparative playback allows you to view two images side-by-side in order to expedite editing procedures on the camera's LCD.
  • Silent shooting is a low-vibration shooting mode that slows and mutes the shutter and mirror reflex, enabling a more discrete method of capturing imagery.


Specification Canon EOS 6D
maging
Camera TypeDigital SLR with Interchangeable lenses
Lens MountCanon EF
Camera FormatFull-Frame
PixelsActual: 20.6 Megapixel
Effective: 20.2 Megapixel
Max Resolution20MP: 5472 x 3648 @ 3:2
Other Resolutions11MP: 4104 x 2736 @ 3:2
8.9MP: 3648 x 2432 @ 3:2
5MP: 2736 x 1824 @ 3:2
2.5MP: 1920 x 1280 @ 3:2
0.35MP: 720 x 480 @ 3:2
Aspect Ratio3:2
Sensor Type / SizeCMOS, 35.8 x 23.9 mm
File FormatsStill Images: JPEG, RAW
Movies: MPEG-4 AVC/H.264, MOV
Audio: Linear PCM
Bit Depth14-bit
Noise ReductionYes
Memory Card TypeSD
SDHC
SDXC
Focus Control
Focus TypeAuto & Manual
Focus ModeSingle-servo AF (S), Continuous-servo AF (C), Manual Focus (M)
Autofocus Points11
Viewfinder/Display
Viewfinder TypePentaprism
Viewfinder Coverage97%
Viewfinder MagnificationApprox. 0.71x
Diopter Adjustment- 3.0 to +1.0 m
Display Screen3" Rear Screen   LCD (1040000)
Screen Coverage100%
Live ViewYes
Exposure Control
ISO Sensitivity100-25600 (Extended Mode: 50-102400)
ShutterType: Electronic & Mechanical
Speed: 30 - 1/4000 sec
Metering MethodSpot metering, Center-weighted average metering, Average metering
Exposure ModesModes: Aperture Priority, Manual, Program, Program Shift, Programmed Auto, Shutter Priority
Compensation: -5 EV to +5 EV
White Balance ModesAuto, Cloudy, Custom, Daylight, Flash, Fluorescent (White), Manual, Shade, Tungsten
Flash
Max Sync Speed1 / 180 sec
Flash Compensation-3 EV to +3 EV (in 1/3 or 1/2 EV steps)
Continuous ShootingUp to 4.5 fps
Dedicated Flash SystemeTTL
External Flash ConnectionHot Shoe, PC Terminal
AV Recording
Video RecordingYes, NTSC/PAL
File Size1920 x 1080p (Full HD)
1280 x 720p (HD)
640 x 480p (SD)
Frame Rate@ 1920 x 1080: 30 fps, 24 fps, 25 fps
@ 1280 x 720: 60 fps, 50 fps
@ 640 x 480: 30 fps, 25 fps
Exposure ControlManual: Shutter Speed, Aperture, ISO
Auto
ISO Sensitivity100 - 12800, Expandable to 25600
Exposure Compensation-3 EV to +3 EV (in 1/3 EV steps)
FocusAuto
Manual
Continuous Auto
Continuous Shooting Time1920 x 1080
@ 30 fps IPB: 32 min. (235 MB / min.) / ALL-I: 11 min. (685 MB / min.)
1280 x 720
@ 60 fps IPB: 37 min. (205 MB / min.) / ALL-I: 12 min. (610 MB / min.)
640 x 480
@ 30 fps ALL-I: 97 min. (78 MB / min.)
Audio RecordingWith Video, Stereo, Via Optional External Mic
Performance
Start-up Time0.1 Seconds
Self Timer2 sec, 10 sec
ConnectivityAV Output, HDMI C (Mini), USB 2.0
Wi-Fi Capable (With Optional Transmitter)Yes 1
Power
Battery1x LP-E6  Rechargeable Lithium-Ion Battery Pack, 7.2VDC, 1800mAh
Operating/Storage TemperatureOperating
32 to 104 °F (0 to 40 °C)
Humidity: 0 - 85%
Physical
Dimensions (WxHxD)5.7 x 4.4 x 2.8" / 14.5 x 11.2 x 7.1 cm
Weight27.16 oz / 770 g


source: www.bhphotovideo.com

Types of Panorama Photo - an overview

Cylindrical Panorama
A classic type of panorama photography and should be the easiest type of panoramic photography. This type of panorama can be used for landscape. You just need stick on one point, the take series of overlap circular picture.




Spherical Panorama
Used to display the space around the point of shooting. Such panoramic photos can be used for various purposes. In this kind of panorama, the object will usually appear rounded, like a glass bulb projections

Spherical images are typically represented in equirectangular format image files, which represent exactly 360 degrees on the horizontal axis and 180 degrees on the vertical. These images are intended to be viewed as if projected using a special slide projector onto the inside of a sphere. Like cylindrical images, horizontal curves can be seen in the flat image, but unlike cylindrical images, the very top and bottom of the image will seem squashed. For panoramas with a large vertical field of view, the equirectangular (spherical) image format is far more efficient than cylindrical, but if you intend to print your images out, cylindrical images look better.

In practice any panoramic image can be stored with spherical projection in mind, meaning that it is intended to be displayed on the inside of a sphere... but the panoramic image does not need to be 180 degrees tall or 360 degrees wide. However if the image is less than 360 degrees wide, either the image must be padded with empty pixels, or the actual horizontal field of view needs to be noted down and provided to the display software so that the image is displayed correctly. ISeeMedia's PhotoVista software is an example of panoramic software that uses the spherical format for partial panoramic images.





Surface Panorama
Not a classic type of panorama. This kind of panorama used to produce high resolution format. Surface panorama usually combine some pictures that taken with wide lens.




Planar Panorama
Conventional photographs may be described as "flat" or "planar", meaning that they are intended to be viewed as is without any perspective correction.