Panasonic Lumix DMC-G1

Panasonic Lumix DMC-G1
Overview
Type Micro Four Thirds System
Lens
Lens Micro Four Thirds System mount
Sensor/Medium
Sensor 17.3 mm × 13 mm Live MOS
Maximum resolution 4000×3000 (12.0 megapixels)
ASA/ISO range ISO 100–3200
Storage SD, SDHC
Focusing
Focus modes Automatic or Manual Face detection / AF Tracking / 23-area-focusing / 1-area-focusing
Exposure/Metering
Exposure modes Manual, Program, Automatic, Shutter Priority, Aperture Priority
Flash
Flash Built-in pop up, TTL, GN 11 equivalent (ISO100 · m)
Flash bracketing ±3.0 EV in ⅓ EV steps
Shutter
Shutter speed range 60–1/4000 sec
Viewfinder
Viewfinder EVF color display, 100% field of view, 0.7x (35mm equiv), 1.4x magnification, with 1,440K dots equivalent; LCD or articulated multi-angle 3-inch (76 mm) inch color LCD (460,000 dots equivalent)
Image Processing
Custom WB custom modes
General
Battery Li-Ion 7.2 V, 1250 mAh
Weight body 385 g, with 14–45mm lens 638 g

The Panasonic Lumix DMC-G1 was the first digital mirrorless interchangeable-lens camera (MILC) adhering to the Micro Four Thirds system design standard. The G1 camera is similar to the larger Four Thirds system format DSLR cameras, but replaces the complex optical path needed for the optical viewfinder with an electronic viewfinder EVF displaying a live view image directly from the sensor. Eliminating the mirror box and optical viewfinder allows for smaller and lighter camera bodies, while the less complex optical path also allows for smaller, lighter lens designs.[1]

The DMC-G1 (also known as simply the "G1") was displayed for the first time at photokina 2008; it was available for sale in the United States and Europe in November 2008.

Micro Four Thirds system

The Micro Four Thirds system standard uses the same sized sensor (nominal 4000 pixels by 3000 pixels) as the original Four Thirds system. One advantage of the smaller MFT system sensor (when compared to market leaders Canon and Nikon APS-C and full frame sized) is the ability to engineer smaller and lighter lenses since the smaller sensor allows for a reduced image circle.

Features

The G1 camera and its lenses are smaller than competing DSLRs. It uses a sophisticated projection system[2] to achieve a clearer, smoother image in its electronic viewfinder than in compact camera EVFs. As it lacks a separate autofocus sensor, the G1 uses contrast-detect autofocus, utilizing the readout from the main sensor. The performance of this AF system is comparable to the phase-detect systems in conventional DSLRs.

The G1 was packaged with a 14–45 mm ƒ/3.5–5.6 kit lens (28–90 mm equivalent) and can use all native Micro Four Thirds System lenses regardless of manufacturer. Four Thirds System lenses can be used with an adapter, although response time, especially focus response, can be slower. Legacy lenses from nearly every major manual focus camera mount, such as Leica M, Leica R, Olympus OM, Nikon F, Canon FD, Minolta SR, M42 Screw Mount, Contax/Yashica Mount and others can also be mounted and used in manual mode. Canon EF mount lenses can be used with an adapter, but native EF lenses are electronically controlled, and will therefore not have aperture control or autofocus. The Micro Four Thirds system specification supports lenses with optical image stabilization.

In many ways, the G1 was considered a landmark camera, kicking off a new market for mirrorless interchangeable lens system cameras. The camera was available in three colors: black (suffix K), red (R) and blue (A). Upon introduction the United States, MSRP for body and kit lens was set at USD 800.00[3]

Successor Models

For more details on this topic, see List of Micro Four Thirds system cameras.

The G1's successor model is the Panasonic Lumix DMC-G2 which was announced in March 2010. The third model in the "G" line, the Panasonic Lumix DMC-G3, was announced in May 2011.

References

Media related to Panasonic Lumix DMC-G1 at Wikimedia Commons

Preceded by
None - first MFT model
Panasonic Micro Four Thirds System cameras
November 2008–present
Succeeded by
Panasonic Lumix DMC-G2
This article is issued from Wikipedia - version of the 11/14/2016. The text is available under the Creative Commons Attribution/Share Alike but additional terms may apply for the media files.