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Olympus released the new OMD and PEN firmware updated (Click here to download them). The only new added “feature” for the E-M5 and new PEN’s is the support for the new VF-4 view finder. Some PEN cameras also got a fix: “Stability of touch panel operation during playback was improved.”

The new Panasonic-Fuji organic sensor has a theoretical dynamic range of 88dB (29.2 EV!). The current best DSLR the Nikon D800E has a measured dynamic range of 46dB (15.3 EV) (Source: Adorama via PetaPixel). If the next Panasonic and Fuji cameras can really achieve such an impressive Dynamic than these will be a huge step forward! It will not only close the gap to FF sensors but on paper even “beat” them. Of course, it has to be seen that how long it will take until the new sensor can find his way in real mass production cameras. And of course the competition is certainly working on similar sensors too!

UPDATE: There seems to be a big confusion on the conversion between “dB” and “stops (EV)” A 43rumors reader shared that table:
46 dB = 4.6 B –> 10^4.6 = 2^15.3 –> 15.3 EV (Nikon D800E)
88 dB = 8.8 B –> 10^8.8 = 2^29.2 –> 29.2 EV (New Organic sensor from Panasonic-Fuji)
10 dB = 3.32 EV = log 10 / log 2
(see also http://en.wikipedia.org/wiki/Decibel)

P.S.: Short focus on real existing cameras: ….Adorama (Click here) published the full list of 115 newly discounted Olympus cameras and lenses. The same list but separated can be seen at Amazon (here at the cameras and here are the lenses).

According to BMD’s Kristian Lam, the Blackmagic Design Cinema Camera passive MFT mount camera is finally shipping. But it’s still marked as out of Stock at BHphoto  (Click here). We had to wait nine months for that moment! I hope the Blackmagic Pocket Cinema Camera with active MFT mount will not be delayed. Shipment is still scheduled for late July at Bhphoto. (Thanks Peter for finding and sharing the info!).

P.S.: All new Photography deals (including the super expensive and newly announced Leica X Vario) at DealsRunner.com.

That is really a huge surprise! Panasonic and Fuji worked together on a new kind of organic sensor! The  new sensor has the following advantages over conventional sensors:
1) it has only 1/6 of the thickness of the current sensors
2) Increased Dynamic range of 88dB
3) 1,2 times more sensible
4) range of incident angles of 60 degrees, efficiently utilizing light entering at an angle for faithful color reproduction with no color mixing. It also gives greater flexibility in lens designs, facilitating the reduction of overall camera size.

That’s really a big news! Fuji makes some of the best sensors (see their amazing X trans sensor). And Panasonic lately faced some strong competition from Sony’s MFT sensors. This news could change everything with Fuji and Panasonic may leading a new sensor revolution! This sounds good, now we have Olympus-Sony one one side and Panasonic-Fuji on the other side. Great news for the full MFT system!

I don’t know yet if the new GX7 camera will be the first to use that tech. I really don’t think…but we can always hope for a miracle don’t you think? :)

Here is the Press release (via Fujifilm):

FUJIFILM Corporation (President: Shigehiro Nakajima) and Panasonic Corporation (President: Kazuhiro Tsuga) have developed organic CMOS image sensor technology that uses an organic photoelectric conversion layer with a photoelectric conversion property at the light receiving section of an image sensor to achieve performance beyond that of conventional image sensors**. Applying this technology to the image sensors of digital cameras and other imaging devices expands its dynamic range*** and enhances sensitivity*4 further to prevent highlight clipping in bright scenes and capture a dark subject with vivid colors and rich textures.

The industry has put into continuous efforts to explore image sensor technologies for increasing their number of pixels. This has dramatically improved sensor resolutions, but, in order to further boost image quality, it is necessary to expand the dynamic range, enhance sensitivity and prevent cross-talk or color mixing between pixels. Panasonic took advantage of its semiconductor device technology to boost image quality for its high-performance image sensors. Fujifilm, on the other hand, has developed highly-reliable organic photoelectric conversion layer with high absorption coefficient to be used on a sensor’s light receiving section instead of silicon photodiode*5 in its effort to build a new image sensor technology.
In the latest collaboration, Fujifilm and Panasonic have combined Fujifilm’s organic photoelectric conversion layer technology with Panasonic’s semiconductor device technology to jointly develop an organic CMOS image sensor that outperforms conventional image sensors. The new organic CMOS image sensor offers the industry’s highest dynamic range of 88dB, advanced sensitivity 1.2 times more sensitive than conventional sensors** and broader range of incident angle*6 to enable the production of more sensitive and compact cameras with better image quality.
The two companies will promote the application of this organic CMOS image sensor technology to a wide range of products including security cameras, in-vehicle cameras, mobile device and digital cameras.

Fujifilm and Panasonic will present the research results at the 2013 Symposium on VLSI Technology (VLSI2013) to be held in Kyoto on June 11, and the 2013 International Image Sensor Workshop to be held in Utah, U.S.A. on June 15.

• *Performance of the light receiving section of image sensors, as of June 11, 2013 according to Panasonic data.
• **Estimation from Panasonic image sensors
• ***Range of light that can be recorded (ratio between the brightest and darkest areas recorded)
• *4The sensitivity of image sensors refers to the conversion ratio of light into electric signals. The greater the sensitivity is, the clearer you can capture low-light scenes.
• *5A type of photo detector that senses incident light, installed for each image sensor pixel to convert light into electric signals
• *6Range of incident light angles for efficient conversion into electric signals

Overview of the newly-developed organic CMOS image sensor technology

A conventional image sensor consists of a silicon photodiode for capturing light, metal interconnect, color filter and on-chip micro-lens. The newly-developed organic CMOS image sensor technology uses organic photoelectric conversion layer with high absorption coefficient instead of the silicon photodiode, reducing the thickness of the light receiving section down to 0.5 microns, i.e. one severalth of the thickness of a silicon photodiode. This structure provides the following benefits:

1. (1)Industry’s highest dynamic range of 88dB to prevent highlight clipping and produce a vivid and texture-rich image even in low light

Panasonic’s semiconductor device technology has improved the signal saturation value*7 by four folds compared to that of conventional image sensors. Coupled with the newly-developed noise-cancelling circuit, the sensor technology provides the industry’s highest dynamic range of 88dB, preventing highlight clipping in bright scenes and capturing a vivid and texture-rich image in low light.

• *7The maximum amount of electric signals that can be handled. Receiving a signal greater than this value leads to highlight clipping.

1. (2)1.2 times higher sensitivity than conventional sensors to capture clear images even in low light

The transistors and metal interconnects in each pixel, fabricated using Panasonic’s semiconductor device technology, are coated with photoelectric conversion layer, developed using Fujifilm’s organic material technology. The area of the light receiving section becomes limited in conventional image sensors because of the existence of metal interconnects and the need to form light shield film to prevent light incidence into areas other than the photodiode in each pixel. However, the organic CMOS image sensor technology coats the sensor with organic film, which can harvest all the light received on the sensor. This boosts sensor sensitivity by 1.2 times compared to conventional sensors to deliver clear images even in low light.

1. (3)Range of incident angle expanded to 60 degrees for faithful color reproduction (See the image sensor illustrations above)

The thickness of the organic film with high absorption coefficient, developed by Fujifilm, has been reduced to just 0.5 microns, or one severalth of the thickness of silicon photodiode in the light receiving section. Since the conventional silicon photodiode measures at least 3 microns in depth, the range of incident angles was limited to around 30 – 40 degrees. The thin film, achieved with the organic CMOS image sensor technology, has enabled the expansion of this range to 60 degrees, efficiently utilizing light entering at an angle for faithful color reproduction with no color mixing. It also gives greater flexibility in lens designs, facilitating the reduction of overall camera size.

1. (4)Offering high reliability for broader applications

Fujifilm has developed a process technology to produce inorganic films for protecting the organic film. It prevents the entry of moisture and oxygen into the organic film to safeguard it against performance degradation. The sensor technology has cleared reliability tests involving the application of stress such as temperature, humidity, electrical voltage and light, paving the way for the use of the organic CMOS image sensor in a wide range of applications.