Model: | Olympus Pen E-P3 |
Kind: | Micro Four Thirds, interchangeable lens camera |
Sensor: | Four Thirds System 18.00 × 13.50 mm (17.30 × 13.00 mm imaging area) Live MOS |
Res: | 4032×3024 (12.3 megapixels) |
Lens: | Micro Four Thirds System mount |
Shutter: | 1/4,000 to 60 s, 30 minutes bulb |
Speedrange: | ISO 200–12800 |
Flash: | Built-in pop up, TTL, GN 10.5m equivalent (ISO100 · m); hotshoe for external flash attachment |
Metering: | Digital ESP metering, Centre weighted average metering, Spot metering |
Emode: | Program, shutter-priority, aperture-priority, manual |
Mmode: | TTL ESP multi patterned (324-area multi pattern metering), Center-weighted average, Spot (1%) |
Farea: | 11 area contrast detect auto-focus, selectable |
Fmode: | Single, continuous, manual |
Cont: | 3 frame/s |
Viewfinder: | live preview, optional electronic viewfinder VF-2; optional electronic viewfinder VF-3; optional optical viewfinder VF-1 |
Rearlcd: | 3" 614K dots OLED LCD on screen with live preview with capacitive touchscreen control |
Storage: | Secure Digital card
|
Battery: | Olympus BLS-1 or BLS-5 Lithium-ion battery |
Weight: | 321g (body only) 369g (body, battery and SD memory card) |
Dimensions: | 122 × 69.1 × 34.3 mm (4.8" × 2.72" × 1.35") |
Footnotes: | Optional, exchangeable grips are available for right side of body |
The Olympus PEN E-P3 announced on 30 June 2011[1] is Olympus Corporation's seventh camera that adheres to the Micro Four Thirds (MFT) system design standard. The E-P3 succeeds the Olympus PEN E-P2, and was announced in concert with two other models, the Olympus PEN E-PL3 (Lite version of E-P3), and the Olympus PEN E-PM1 (a new "Mini" version of the PEN camera line with similar features to the E-PL3).
The EP-3 addresses some of the concerns that critics had about previous PEN models, notably, slow handling, due to slow autofocus speed and difficulty seeing the LCD panel under certain (e.g., bright, sunny) conditions.
The E-P3 increases autofocus speed through use of a 120 Hz refresh rate for its sensor, similar to the technology used in the recently released Panasonic Lumix DMC-GH2 and G3 cameras. Olympus claims, based on in-house testing, that the E-P3 has the world's fastest autofocus speed of any camera as of the product announcement date.[2] The benefits of the 120 Hz refresh rate also provides the ability for continuous autofocus tracking during bursts of exposures, a faster shutter response (less lag) and less blackout time between exposures.
The E-P3 now uses a capacitive touchscreen for creative camera control, and a new OLED type display[3] that is supposed to vastly improve performance in sunny conditions, and off-angle viewing. The EP-3 continues with the proprietary Accessory Port, a power and communication port, which allows the use of various accessories, such as an external stereo microphone for HD video recording, LED macro lights, and a bluetooth communications adapter. The accessory port continues to be compatible with the high resolution, optional hotshoe mounted VF-2 electronic viewfinder (EVF). The VF-2 had a flip angle eyepiece, allowing viewing from 0–90 degrees. The VF-2 had been criticized for being very expensive and for not having a locking device, with some users reporting easy dislodgement of the VF-2 from the hotshoe. To address these criticisms, in July 2011, Olympus announced the introduction of an optional VF-3 EVF, which has a lower resolution, a locking device, and probably most importantly a US$100 lower MSRP.
In the United States the E-P3 MSRP with new 14–42 mm kit zoom lens or 17 mm f/2.8 pancake lens was US$899. The accessory VF-3 EVF was also available separately for US$180.00. Available body colors were black and silver.
See main article: Micro Four Thirds system. The Micro Four Thirds (MFT) system design standard was jointly announced in 2008[4] by Olympus and Panasonic, as a further evolution of the similarly named predecessor Four Thirds System pioneered by Olympus.[5] The Micro Four-Thirds system standard uses the same sized sensor (nominal 4000 pixels by 3000 pixels) as the original Four Thirds system. One potential advantage of the smaller MFT system sensor (when compared to market leaders Canon and Nikon APS-C and full frame sized) are smaller and lighter lenses. The smaller MFT sensor allows for a reduced image circle, which allows the development of smaller and lighter native lenses. The MFT sensor has a crop factor of 2.0 when compared to 35mm film equivalent full frame sensors. By comparison, the more popular consumer (as opposed to professional) DSLRs such as those made by Canon, Nikon and Sony have 1.5 to 1.6 crop factor APS-C sensors, which means larger and heavier lens designs. For example, a typical Olympus MFT M.Zuiko 14-42mm f/3.5–5.6 kit lens weighs, is in diameter and in length.[6] The equivalent Canon APS-C DSLR EF-S 18–55mm f3.5–5.6 kit lens weighs 190g, and is 69mm in diameter and 80mm in length[7]
While the older Four Thirds system design standard allowed the incorporation of a single lens reflex (SLR) camera design including a mirror box and pentaprism based optical viewfinder system, the MFT system design standard sought to pursue a technically different camera, and specifically slimmed down the key physical specifications which eliminated the ability to include the traditional complex optical path and the bulky mirror box needed for a SLR optical viewfinder. Instead, MFT uses either a built-in (Panasonic) or optional (Olympus/Panasonic) compact electronic viewfinder (EVF) and/or LCD back panel displaying a Live view from the main image sensor. Use of an EVF/back panel LCD and smaller four thirds image sensor format and allows for smaller and lighter camera bodies and lenses. The MFT system standard also specifically includes seamless switching between still photography and HD video recording as a design criterion.
MFT cameras are physically slimmer than most interchangeable lens cameras because the standard specifies a much reduced lens mount flange to imaging sensor plane distance of just . Typically this so-called flange focal distance is over on most interchangeable lens cameras. The MFT system design flange focal length distance allows for, through use of an adapter, the possibility to mount virtually any manufacturer's existing and legacy still camera interchangeable lens (as well as some video and cine lenses) to an MFT body, albeit using manual focus and manual aperture control. For example, many theoretically obsolete 35mm film camera lenses, as well as existing current lenses for APS-C and full frame DSLR's are now usable on MFT cameras. As an example, an older (i.e., used, obsolete and low priced), but still high quality, 50mm f/1.8 "standard" lens from a 35mm film camera can be used on a MFT camera body. With MFT sensors having a crop factor of 2.0, the old 50mm f/1.8 "standard" lens becomes a high-speed (although manual) 100mm f/1.8 telephoto portrait lens. So the MFT system allows the re-use of expensive lenses that may have outlived their 35mm film format camera, and can be used on a modern digital camera body capable of both still and HD video recording. Similarly, the MFT system design allows current DSLR lenses to be used as well, although only with manual focus and aperture control.
Item | Model | Sensor | Electronic View Finder (EVF) | Announced | |
---|---|---|---|---|---|
1 | 4:3 / 13.1 mp (12.1 mp effective) | EVF; 1.4x magnification; 1.44M dots | 2008, October[11] | ||
2 | 4:3; 3:2; 16:9 (multi-aspect); 14.0 mp (12.1 mp effect) | EVF; 1.4x mag; 1.44M dots | 2009, April[12] | ||
3 | 4:3 / 13.1 mp (12.3 mp effect) | 2009, July[13] | |||
4 | 4:3 / 13.1 mp (12.1 mp effect) | optional hotshoe EVF LVF1; 1.04x mag; 202K dots | 2009, September[14] | ||
5 | 4:3 / 13.1 mp (12.3 mp effect) | optional hotshoe EVF VF-2; 1.15x mag; 1.44M dots | 2009, November[15] | ||
6 | 4:3 / 13.1 mp (12.3 mp effect) | optional hotshoe EVF VF-2; 1.15x mag; 1.44M dots | 2010, February[16] | ||
7 | 4:3 / 13.1 mp (12.1 mp effect) | EVF; 1.04x magnification; 202K dots | 2010, March[17] | ||
8 | 4:3 / 13.1 mp (12.1 mp effect) | EVF; 1.4x mag; 1.44M dots | 2010, March[18] | ||
9 | 4:3; 3:2; 16:9 (multi-aspect); 18.3 mp (16.0 mp effect) | EVF; 1.42x mag; 1.53M dots | 2010, September[19] | ||
10 | 4:3 / 13.1 mp (12.1 mp effect) | optional hotshoe EVF; 1.04x mag; 202K dots | 2010, November[20] | ||
11 | 4:3 / 13.1 mp (12.3 mp effect) | optional hotshoe EVF VF-2; 1.15x mag; 1.44M dots | 2010, November[21] | ||
12 | 4:3 / 13.1 mp (12.3 mp effect) | optional hotshoe EVF VF-2; 1.15x mag; 1.44M dots | 2011, January[22] | ||
13 | 4:3 / 16.6 mp (15.8 mp effect) | EVF; 1.4x mag; 1.44M dots | 2011, May[23] | ||
14 | 4:3 / 13.1 mp (12.1 mp effect) | N/A | 2011, June[24] | ||
15 | Olympus PEN E-P3 | 4:3 / 13.1 mp (12.3 mp effect) | optional hotshoe EVF VF-2; 1.15x mag; 1.44M dots | 2011, June | |
16 | 4:3 / 13.1 mp (12.3 mp effect) | optional hotshoe EVF VF-2; 1.15x mag; 1.44M dots | 2011, June[25] | ||
17 | 4:3 / 13.1 mp (12.3 mp effect) | optional hotshoe EVF VF-2; 1.15x mag; 1.44M dots | 2011, June[26] | ||
18 | 4:3 / 16.6 mp (16.0 mp effect) | optional hotshoe EVF LVF2; 1.4x mag; 1.44M dots | 2011, November[27] | ||
19 | 4:3 / 16.9 mp (16.1 mp effect)[28] | EVF; 1.15x mag; 1.44M dots | 2012, February[29] |