Lumix is Panasonic 's brand of digital cameras , ranging from pocket point-and-shoot models to digital SLRs .
31-565: Panasonic Lumix DMC-GF3 is the eighth camera in Panasonic's Lumix G-series adhering to the Micro Four Thirds System (MFT) design standard, and was announced in June 2011. The Panasonic DMC-GF3 uses a resistive touchscreen to provide mode selections, and as such that there is not a mode dial on the camera. Many features are no longer controlled by dials and buttons and wheels, but via
62-490: A detailed comparison of Venus III and IV, claiming better noise response by preserving detail, quick-response shutter release time-lag of around 0.008 second minimum and high power-efficiency for Venus IV. Reviews of cameras that compare the Venus IV engine to Venus III suggest that the newer engine is better, but the issue of noise reduction techniques losing detail, though improved, remains. Intelligent ISO sensitivity control
93-476: A result, the image diagonal remains the same in all three aspect ratios and provides full coverage of the sensor, and a larger field of view with higher resolution than one would get by simply cropping the 4:3 aspect to the narrower ratios. First Mirrorless Interchangeable Lens Camera capable of 4K UHD and DCI 4K video recording ( DMC-GH4 ) The highest-end photography orientated camera from Panasonic ( DC-G9 ) Panasonic collaborated with Sigma and Leica to form
124-470: A trend (SILKYPIX style) different from those developed by the Venus engine in the camera. This chip was developed based on UniPhier products. The image processing engine of the attached RAW image development software is made by Ichikawa Soft Laboratory, which outputs images with a different trend (SILKYPIX style) from those developed by the Venus engine in the camera. Some of what it aims to achieve are: This chip
155-439: Is a very compact zoom lens which in storage mode is only slightly larger than the Panasonic 20mm pancake. Panasonic has announced the following firmware update 1.1 1.0 2011-October Original Compatibility update for new Panasonic X class lenses with power zoom feature. 1. Display of the focal length When you zoom, the focal distance is displayed and you can confirm the zoom position. 2. Step zoom When you operate
186-538: Is changed to hardware processing. By incorporating the IA(Intelligent Auto) function, the name is also set to Random IA. Venus HD is the processing engine used by the first generation Panasonic Lumix DMC-G1 and Panasonic Lumix DMC-GF1 Micro Four Thirds System cameras with large sensor. It supports HDMI output to a high-definition television screen. As of February 2009 (based on all information available at official Panasonic Lumix Web pages), it appears that
217-611: Is mainly mounted on 4K incompatible models. Venus Engine IX is a quad-core processor first introduced in Panasonic's fifth-generation m43 MILC, the GH4 , and later used in the FZ1000 , LX100 and DMC-G7 . In the GH4 the IX processor allows 4K video, 12 fps continuous shooting and 1080p shooting at bit rates as high as 200 Mbit/s. First adopted by GH4 of Lumix G series. On May 18, 2015 Panasonic introduced
248-564: Is used in DMC-ZS5 and ZS10. There are many things in common, but in each case some functions have been added as a minor change from the previous chip. According to Panasonic, Venus HD II adds “Intelligent Resolution”, AVCHD Lite at a higher processing speed that utilizes twin CPUs and an advanced noise reduction system that applies noise reduction (NR) to luminance noise and chromatic noise separately. The only difference between Venus HD II and Venus VI are
279-543: Is used in fourth-generation Panasonic m43 MILC's cameras, including the DMC-G5, G6, GF7, GX7, GM1, GM5 and the GH-3. As a minor change of the previous year's chip, added several functions. No numbering will be attached after this generation. First adopted in G 5 of Lumix G series. Suppressing large size noise that was difficult to deal with conventional chips, achieving grain-free image quality. First adopted by G6 of Lumix G series. It
310-532: The CCD sensor . Secondly, they create the Y-color difference signal (image processing). Thirdly, they perform JPEG compression . Finally, they save the image data. Panasonic claims that its VENUS II processing engine performs all of these simultaneously. This chip was based on UniPhier products. The image processing engine of the attached RAW image development software is made by Ichikawa Soft Laboratory and outputs images of
341-547: The L-mount Alliance on 25 September 2018, and license the L-mount system for their own lines of lenses and cameras. (2002) (2004) (2005) (2005) (2008) (2008) (2009) (2010) (2010) (2010, upgraded in 2012, 2013) (2014) (2017) (2019) ZS70/ ZS100/ ZS200 Note: Years shown in the header row are Venus Engine release years, not the camera release years. Note: The Venus engine of
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#1732855255403372-576: The Lumix G 14mm F2.5 lens (GF3C), the Lumix G 14-42mm F3.5-5.6 (GF3K), both the Lumix G 14mm F2.5 and 14-42mm F3.5-5.6 lenses (GF3W) or the Lumix G 14-42mm X PZ lens F3.5-5.6 (GF3X). The last letter of the product code identifies the GF3 body colour, available colours are Black (Code K), Pink (Code P), Red, (Code R), Brown (Code T) and White (Code W). The GF3 is one of the world's smallest and lightest interchangeable lens system cameras. Designed in accordance with
403-500: The 3-inch touchscreen (460K dot) at the rear of the unit. At the time of introduction on 13 June 2011, the GF3 was the world's smallest and lightest digital-interchangeable lens system camera. The GF3 has received generally positive reviews for a small camera with a large sensor, and has speedy handling, including very fast auto focus, and good image quality. The camera was praised for its improvements in JPEG colour rendering and high ISO over
434-690: The AVCHD Lite improvements. This engine is used in second-generation Panasonic m43 cameras, the DMC-G2/DMC-G10 and DMC-ZS7/DMC-TZ10. This engine is used in third-generation Panasonic m43 MILC's cameras, including the DMC-G3, GF2, GF3, GX1 and the GH-2. Based on the Venus Engine HD II, this chip was developed with the aim of strengthening the movie shooting function and achieving high-speed processing. This engine
465-530: The DMC-FX40 (as is the case with all the other upcoming models with the exception of the already released DMC-G1) is, indeed, advertised as featuring a "Motion Picture" mode that (it appears) will be a very similar implementation to that of all the other upcoming models to be released that will also include this LSI hardware chip-set. Perhaps the reasoning for this is that the Panasonic Lumix marketing department (at
496-560: The GF 2 and GF1 camera bodies. The GF3 puts small size at a premium, and when paired with a pancake lens made by either Panasonic or Olympus will make a particularly attractive purse or pocketable large sensor, interchangeable lens camera. Examples of such pancake type lenses would be the Panasonic Lumix 14mm f/2.5, the Olympus 17 mm f/2.8 or the Panasonic 20mm f/1.7 pancake lenses. The newly introduced Panasonic 14-42mm f/3.5-5.6 X series power zoom lens
527-476: The LSI hardware chip-set that Panasonic Lumix refers to as the "Venus Engine V" is (substantially, if not actually) identical to the LSI hardware chip-set that Panasonic Lumix (also) refers to as the "Venus Engine HD" when describing their (released) DMC-G1, as well in all of the current Panasonic Lumix descriptions of the other (to be) released implementations of this image-processing LSI hardware chip-set. It appears that
558-425: The LSI hardware chip-set that they have chosen to (also) identify as "Venus Engine V". This use of dual phraseology appears to have generated a degree of (understandable) confusion on the part of consumers and reviewers awaiting the release of several camera models in 2009 that will (in addition to the already released DMC-G1) feature this LSI hardware chip-set. If, in fact, there exists an identifiable difference(s) (on
589-716: The Lumix DMC-FZ8 and other cameras claims enhanced noise reduction at high ISO numbers and lower power consumption. It is a chip realizing power saving based on the Venus Engine II, but they changed high sensitivity shooting. PANASONIC claims LUMIX was the most difficult to do, to hardware processing. Panasonic claims that the 2008 Venus Engine IV gives higher-quality images, and includes more accurate detection and better correction for its Optical Image Stabilizer and Intelligent ISO Control functions than earlier versions. It works at 10.1-megapixel resolution. Panasonic published
620-759: The Micro Four Thirds (MFT) system design standard, the GF3 is capable of both still and High Definition video, and is able to use a wide variety of MFT lenses supplied by both Olympus and Panasonic, as well as other third party lenses which conform to the MFT system design standard. With certain of the system pancake lenses, the GF3 is small enough to fit into a pocket, and yet is capable of delivering images that rival lower end digital single lens reflex (DSLR) cameras that are much bulkier in both size and weight. The GF3 boasts an upgraded processor, so that it can focus much faster than predecessor GF1 and GF2 models, even though it uses
651-467: The Panasonic Lumix marketing department has chosen to refer to this LSI hardware chip-set primarily using the phrase "Venus Engine HD" as a way to draw attention the capabilities of the included "Motion Picture" mode(s) of the upcoming camera models that will contain the LSI hardware chip-set. However, this choice of marketing phraseology does not (according to Panasonic Lumix's information as currently released) appear to indicate any identifiable difference in
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#1732855255403682-674: The Rest Lumix Compact digital cameras DMC-LC5 and DMC-F7 were the first products of the Lumix series, released in 2001. Most Lumix cameras use differing releases of the Panasonic Venus Engine for digital image processing ; the original version (2002) was followed by II (2004), Plus (2005), III (2006), IV (2008), HD, V (2009) and VI, HD II, FHD (2010). Some Lumix models are branded with Leica lenses (e.g. Nocticron or Elmarit lenses), although Leica does not manufacture
713-728: The S-series full frame cameras is only referred to as "the new Venus Image Processor" by Panasonic. No Video | Weather Sealed | All the Rest Venus Engine The Venus Engine is an image-processing engine for digital cameras . It was developed by the company Panasonic . Almost all of their Lumix cameras use a version of the Venus Engine. It is based on the Panasonic MN103 /MN103S. All image processors operate in four steps. Firstly, they receive data from
744-667: The United Kingdom location, at least) is (in part) describing the DMC-FX40 as a "digital still camera". It is a chip whose cost reduction of Venus engine HD is planned. For that reason, it is enhanced from Venus Engine IV in terms of specifications. 2 CPU configuration, cost reduction, high-speed playback speed, high-precision recognition, power saving, high-speed processing According to Panasonic, Venus VI adds “Intelligent Resolution”, efficient Face Recognition and an advanced noise reduction system which applies noise reduction (NR) to luminance noise and chromatic noise separately. This engine
775-489: The area, 14.1 mm to 15.4 mm / 1/1.65" to 1/1.8". dSLRs and Micro Four Thirds system cameras have much larger sensors. Larger sensors produce a better image signal-to-noise ratio and better dynamic range. The GH series of Micro Four Thirds cameras, and the LX100, have a unique "multi-aspect" sensor, that is larger than the lens image circle. This allows three different aspect ratios, 4:3, 3:2 and 16:9, to be used natively. As
806-589: The lenses. Others are rebranded as Leica cameras with different cosmetic stylings. Despite shifting focus to full frame cameras, Panasonic continues to release and support micro four thirds (MFT) cameras. As of 2023, the Lumix G9II is the flagship MFT camera of the range. Some cameras are available in a choice of color, indicated by a suffix letter: K is black, S silver, A blue, R red, W white. Most lower-priced models have small sensors of about 10.2 mm / 1/2.5". More expensive ones often have sensors of about twice
837-455: The level of the internal LSI hardware chip-set) between "Venus Engine HD" and "Venus Engine V", Panasonic Lumix has so far failed to identify it (or them). Why the Panasonic Lumix marketing department (at the United Kingdom location, at least) has chosen to (in the lone case of the DMC-FX40) refer to the LSI hardware chip-set using the alternate descriptive phrase "Venus Engine V" is unclear, since
868-454: The previous Panasonic GF2 model but criticised the GF3 for its lack of external controls and hotshoe (preventing use of the Panasonic viewfinder or flash system) and the older 12MP sensor which is showing its age against the newer Panasonic sensors and the larger APS-C sensors used in the Sony NEX cameras. The GF3 began shipping in late July 2011 and was configured in several kits available with
899-486: The same 12MP four thirds sensor. The GF3 focus and reaction time is on par with its more expensive Panasonic Lumix DMC-G3 sibling, but the GF3 cannot match the image quality of the newer, higher resolution 16MP G3 sensor, especially under low light conditions where higher ISO (greater than 800) speeds are used. However, even though the GF3 uses the older 12MP sensor the in camera JPEG processing has been improved for better colors and better high ISO performance when compared to
930-437: The zoom, the zoom will stop at positions corresponding to predetermined distances. 3. Zoom resume When you switch the power switch [ON], the zoom positions when you last switched [OFF] are automatically restored. 4. Selectable zoom speed Users can select the speed of electric-powered zooming. Original [REDACTED] Media related to Panasonic Lumix DMC-GF3 at Wikimedia Commons No Video | Weather Sealed | All
961-544: Was limited to the top range models, such as the DMC-FZ7 . It was developed mainly aiming at high image quality. After this chip (excluding Venus Engine · Plus) the camera shake correction is hardware processed. This chip was developed for mounting in an entry model. Reproducibility (meaning how well it is able to be reproduced) was considered inferior to Venus Engine II, but it realizes power saving and high speed processing comparable to Venus Engine II. The Venus III engine used in