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Posts Tagged ‘Global’

Samsung wants to dethrone Sony, reach #1 in the global image sensor market

17 Mar

According to a new report out of South Korea, Samsung is increasing production of its ISOCELL image sensors at its Hwasung, South Korea location in a bid to clinch the #1 spot in image sensors worldwide.

However, this feat is definitely easier said than done. Current market leader Sony has a comfortable advantage over its South Korean rival, and certainly won’t go down without a fight. In the lucrative smartphone segment alone, Sony currently has a 46 percent market share versus Samsung’s much smaller 19 percent.

That said, technologically at least, Samsung is well-placed to take on the challenge. Its latest Galaxy Note 8 and Galaxy S9/S9 Plus devices all come with innovative imaging technologies and offer excellent camera performance built on Samsung’s own sensor technology.

The company rebranded its image sensor range as Isocell in June 2017. Since then, Samsung has not only expanded its high-end sensor offerings, it also designed low-cost image sensor modules that are easy to implement into devices by other manufacturers. Several of those, for example Xiaomi and Meizu, are already using Samsung image sensors.

However, market leadership cannot be achieved with smartphones alone. Samsung is also planning to grow in the automotive space where CMOS sensors are increasingly used in the autonomous vehicle space and for other applications. In this segment, Samsung will face stiff competition from the likes of Bosch and Continental.

Whoever ends up ruling the image sensor market, a large company like Samsung challenging Sony’s quasi-monopoly for image sensors can only be good news for consumers.

Articles: Digital Photography Review (dpreview.com)

 
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Panasonic unveils ‘industry-first’ 8K organic image sensor with global shutter

22 Feb

Panasonic has developed an 8K image sensor capable of shooting 60p video, with wide dynamic range and global shutter. The latter removes the ‘rolling shutter’ effect from stills and video. The sensor combines an organic photosensitive film that sits atop CMOS circuitry, circumventing one of the biggest problems with traditional global shutter CMOS chips: co-located photosensitive and charge storage areas that compete with one another for space within the surface area of each pixel. This allows Panasonic’s chip to comparatively achieve far greater photosensitive area (better low light performance) and expansive charge capacity (wide dynamic range), and perform some other unique tricks.

Comparing typical BSI CMOS image sensor design (left), Panasonic’s new OPF/CMOS image sensor (right). Note how thin the OPF layer is compared to a traditional silicon photodiode. This allows a large area to be devoted to circuitry, and also means each pixel can accept a wider cone of incident light. This increases the CRA (chief ray angle) from the traditional 30-40º to 60º.

In June of 2013, Fujifilm and Panasonic announced a collaboration that got a lot of photography nerds talking: together, the two companies had developed an ‘industry-leading’ organic / CMOS sensor technology that replaces the silicon photodiode in a conventional CMOS chip with a much thinner, high absorption coefficient organic photoelectric conversion (OPC) layer. A transparent electrode sits on top of this organic photoconductive film (OPF) and modulates its photosensitivity when a voltage is applied. This approach brings a number of advantages, like the ability to accept more oblique light rays, higher pixel capacities and global shutter.

Advantages include the ability to accept more oblique light rays, higher pixel capacities and global shutter

It’s been many years since we first heard about the collaboration, but it now appears to be at the heart of Panasonic’s latest announcement: the news that it has developed an ‘industry-first’ 8K global shutter sensor that uses OPF/CMOS tech to perform all of its tricks. Panasonic claims its new sensor can capture 8K images and 60fps video while offering incredible dynamic range, global shutter, and a built-in electronically-controlled variable ND filter function.

At face value, this sensor seems to offer quite a bit more than the backlit CMOS sensor with global shutter announced by Sony last week. Furthermore, Sony has only so far managed to build a 1.46-megapixel sensor using its pixel-parallel ADCs, while Panasonic seems to have an 8K organic/CMOS sensor already operational. Ostensibly, Panasonic’s technology shouldn’t place any particular restrictions on pixel size – which likely explains how it was able to achieve high resolution via small pixels – while Sony’s approach of an ADC for every pixel presumably places some size constraints on the design.

This Figure shows the dynamic range capabilities of the sensor’s ‘high saturation’ mode (left) and the advantages of its global shutter functionality (right)

Technical Details

Organic/CMOS sensors are able to offer these capabilities by separating the photosensitive area (the organic light-sensitive material) from the signal processing area (all the circuitry), and by then modulating the organic photoconductive film to turn its photosensitivity on or off (or tune it). A transparent electrode sits on top of the OPF – which spans the entire sensor – and the application of increasing voltage to the electrode makes the OPF more photosensitive. This allows for fine tuning of the photosensitivity of the sensor, and the ability to turn all pixels on or off simultaneously.

The organic film layer allows all pixels to be turned on or off simultaneously

The separation of the photoelectric conversion part from the circuitry allows each to be optimized independently, rather than the optimization of one placing constraints on the other. This, combined with how thin the OPF layer is compared to a traditional silicon photodiode, has allowed Panasonic to dedicate a large area to circuitry, separating the (traditionally somewhat co-located) photoelectric conversion and charge storage parts. The result? Large capacitors that allow for enormous full-well capacity: Panasonic claims its sensor can collect up to 450,000 photoelectrons per pixel, which is insane and means this sensor is likely to have a very wide dynamic range. By comparison, we’re more used to seeing an order of magnitude less full-well capacity: ~45,000 photoelectrons per pixel in full frame cameras.

‘In-pixel gain switching technology’ also allows the Panasonic sensor to switch to a high efficiency mode, though in this mode the pixels saturate at 4,500 photoelectrons – yielding far less dynamic range but enhanced low light ability.

Panasonic shows off the incredible dynamic range of this new organic sensor.

In this latest design, these benefits have been combined with a new “in-pixel capacitive coupled noise cancellation technique” which can suppress pixel reset noise very quickly, even when you’re shooting at really high resolution… say, 8K.

The organic layer is also the source of the electronically-controlled ND function. By changing how much voltage you apply to the organic layer, you can change its sensitivity and therefore have it capture more or less light per unit time. You can see the relationship between applied voltage and signal, with higher voltages making the OPF more light sensitive (increasing photoconductivity), and lower voltages making the sensor less sensitive. VH (high voltage) is the default voltage applied to make the OPF maximally sensitive, while VL (low voltage) simulates the effect of a 5 stop ND filter.

This would, ostensibly, save photographers and videographers from needing to carry around a set of ND filters, allowing you to adjust to challenging lighting situations in-camera.

This figure shows the stepless, electronically-controlled ND filter functionality of the Panasonic sensor.

Finally, the organic layer is also the source of the global shutter function. Global shutter involves capturing/reading all of the pixels on a sensor at once. Most CMOS sensors read the image row-by-row, leading to ‘rolling shutter’ distortion where fast moving objects look warped because the bottom part of the object was actually captured a split second later than its top.

This is what Sony addressed with its new BSI CMOS sensor announced last week. That sensor achieves global shutter by adding an ADC to every single pixel rather than every column of pixels. Unfortunately, this approach is currently difficult to scale—which is why Sony has only managed to put it into a 1.46MP sensor with fairly large pixels thus far.

Panasonic’s design achieves this same trick by taking advantage of the ability to turn the entire organic layer on or off simultaneously. At the end of an exposure, the voltage applied to the transparent electrode is simply switched off, effectively turning off the photosensitivity of all pixels simultaneously. This decouples the end of an exposure from read-out, which can still be done sequentially, line-by-line. Impressively, Panasonic’s sensor can operate in this manner “even driving a large number of pixels like the 8K sensor”.

The sensor’s global shutter functionality eliminates rolling shutter distortion caused by reading the sensor row-by-row, rather than all at once.

What’s Next?

So, are we going to see this in any upcoming Panasonic video cameras? Will the Panasonic GH6 or its best high-end Varicam shoot 8K/60p with insane dynamic range, global shutter, and built-in electronic ND filter? We’d sure like to hope so, but probably not.

Remember, this organic/CMOS sensor technology was first introduced as a major breakthrough in 2013. To the best of our knowledge, not a single camera has used that technology in the intervening 5 years. Apple recently acquired InVisage QuantumFilm technology, which uses a film layer to to roll-off highlights for 2-3 stops of additional dynamic range. All this makes us wonder if the tech is really ready for prime time.

Not that we shouldn’t be excited about this breakthough—those are some really incredible specs. We’re just tempering our excitement with a little bit of experience… and maybe a touch of patience and skepticism.


Panasonic Develops Industry’s-First 8K High-Resolution, High-Performance Global Shutter Technology using Organic-Photoconductive-Film CMOS Image Sensor

The new technology enables 8K high resolution and high picture quality imaging without motion distortion, even in extremely bright scenes.

Osaka Japan, – Panasonic Corporation today announced that it has developed a new technology which realizes 8K high-resolution (36M pixels), 60fps framerate, 450k high-saturation electrons and global shutter [1] imaging with sensitivity modulation function simultaneously, using a CMOS image sensor with an organic photoconductive film (OPF). In this OPF CMOS image sensor, the photoelectric-conversion part and the circuit part are independent. By utilizing this OPF CMOS image sensor’s unique structure, we have been able to newly develop and incorporate high-speed noise cancellation technology and high saturation technology in the circuit part. And, by using this OPF CMOS image sensor’s unique sensitivity control function to vary the voltage applied to the OPF, we realize global shutter function. The technology that simultaneously achieves these performances is the industry’s first*1.

With the technology, it is possible to capture images at 8K resolution, even in high contrast scenes, such as a field under strong sunlight and shaded spectator seats under a stadium roof. Moreover, by utilizing the global shutter function that enables simultaneous image capture by all pixels, it is expected to be able to capture moving objects instantaneously without distortion, be utilized for multi viewpoint cameras (performing multi-view synchronized imaging using plural cameras) and used in fields requiring high-speed and high-resolution, such as machine vision and ITS monitoring. In addition, conventionally, even in scenes where it was necessary to utilize different ND filters [2] according to capturing conditions, the technology realizes a new electronically-controlled variable ND filter function which enables stepless adjustment of the OPF sensitivity [3] merely by controlling the voltage applied to the OPF.

The new technology has the following advantages.

  1. 8K resolution, 60fps framerate, 450k saturation electrons and global shutter function are realized simultaneously.
  2. Switching between high sensitivity mode and high saturation mode is possible using gain switching function.
  3. The ND filter function can be realized steplessly by controlling the voltage applied to the OPF.

This Development is based on the following technologies.

  1. “OPF CMOS image sensor design technology”, in that, the photoelectric-conversion part and the circuit part can be designed independently.
  2. “In-pixel capacitive coupled noise cancellation technique” which can suppress pixel reset noise at high speed even at high resolution
  3. “In-pixel gain switching technology” that can achieve high saturation characteristics
  4. “Voltage controlled sensitivity modulation technology” that can adjust the sensitivity by changing the voltage applied to the OPF.

Panasonic holds 135 Japanese patents and 83 overseas patents (including pending) related to this technology.

Panasonic will present some of these technologies at the international academic conference: ISSCC (International Solid-State Circuit Conference) 2018 which will be held in San Francisco on February 11 – 15, 2018.

Notes:

*1: As of February 14, 2018, according to Panasonic data.

More on the Technology

1. “OPF CMOS image sensor design technology”, in that, the photoelectric-conversion part and the circuit part can be designed independently.

The OPF CMOS image sensor has a unique structure, in which, the OPF performs a photoelectric conversion and the circuit area performs charge storage and signal readout functions completely independently. Using this OPF CMOS image sensor structure, we developed high-speed noise cancellation technology and high saturation technology in the circuit area which has a large available space. As a result, it is possible to realize simultaneously 8K resolution, 60fps framerate readout, wide dynamic range [4] (by achieving a high saturation level) and global shutter function, which are normally traded off.

2. “In-pixel capacitive coupled noise cancellation technique” which can suppress pixel reset noise at high speed even at high resolution

Because the OPF CMOS image sensor has a structure in which the OPF and the charge storage part are connected by metal plugs, accumulated charges cannot be completely read out. Therefore, there is a problem that it is affected by reset noise at the time of resetting the pixel (signal charge storage node). And, in a high-resolution sensor, such as an 8K sensor, it is necessary to drive large loads exceeding 4000 pixels aligned in the vertical direction at the same time as the time of noise cancellation, and therefore, the long time it takes to suppress noise is a problem. So, we developed a new structure that cancels pixel reset noise at high speed, even when high resolution pixels have to be driven, by using Panasonic’s original semiconductor device technology and the newly developed “in-pixel capacitive coupled noise canceller”. In this structure, the reset noise is suppressed at high speed by using the negative feedback loop provided for each pixel.

3. “In-pixel gain switching technology” that can achieve high saturation characteristics

In the OPF CMOS image sensor, by incorporating a large capacitor in the circuit part with a large available area, it is possible to realize both high sensitivity mode and high saturation mode with the same pixel structure merely by switching modes from the camera system. In the high sensitivity mode, it is possible to capture data up to a light intensity of 4.5k electrons with high sensitivity. Furthermore, by switching to the high saturation mode, it is possible to capture data up to a light intensity of 450k electrons. In this way, since the high saturation mode can capture up to 10 times the high sensitivity mode, it is possible to clearly display the fine winding structure of the lamp filaments, in which bright part gradation cannot be expressed, because it becomes overexposure in high sensitivity mode, as shown in Fig. 3 (a). Even in a scene with high contrast, such as shown in Fig. 5, from the facial expression of the person in the shadow of the stadium roof to the blue sky and clouds during a mid-summer day, and such as shown in Fig. 6, from the dimly lit room to the sunny garden, it will be possible to capture brilliant images without overexposure or underexposure.

4. “Voltage controlled sensitivity modulation technology” that can adjust the sensitivity by changing the voltage applied to the OPF.

The OPF CMOS image sensor can change the sensitivity of the OPF simply by controlling the voltage applied to the OPF. By utilizing this function, we can realize the following functions which could not be realized with conventional silicon image sensors.

Sensitivity Modulation Example 1: Global shutter function which can capture all pixels simultaneously at 8K resolution

By controlling ON / OFF of the voltage applied to the OPF and controlling the sensitivity of the OPF, we realize the “global shutter function” capable of imaging all pixels at the same time, even driving a large number of pixels like the 8K sensor. By capturing with the global shutter function, as shown in Fig. 3 (b), the letters on the rotating body are read sharply without distortion. In addition, as shown in Fig. 7, even at the time of high speed moving object capturing, such as when driving on a highway or at industrial inspection, capturing without distortion becomes possible.

In the conventional global shutter type silicon image sensor, it is necessary to add new elements such as transfer circuits and charge storage capacitors in order to accumulate charges simultaneously in all pixels. As a result, the area of the photodiode and that of the additional circuits must compete for space, there is a problem that the pixel size cannot be reduced and the amount of saturation electrons cannot be increased. On the other hand, in the OPF CMOS image sensor, since there is no need for additional elements, it is possible to realize small cell, high resolution sensors, and by incorporating large capacitors in the circuit part with a large available area, accurate imaging with no distortion from dark scenes to extremely bright scenes is possible. For example, as shown in Fig. 9, with the OPF CMOS image sensor, when buildings are photographed while panning [5] at high speed, even in scenes with high contrast like a bright sky and dark windows, it is possible to acquire image data maintaining all gradations of the whole area without distortion.

Sensitivity Modulation Example 2: “Electrical ND Filter Technology” which can change sensitivity continuously and steplessly

Conventionally it has been necessary to provide a plurality of ND filters according to photographing conditions and change them many times. On the other hand, in the OPF CMOS image sensor, merely by controlling the voltage applied to the OPF (VITO in Fig. 8) and changing the sensitivity of the OPF to the desired value, it is possible to electrically implement the ND filter function. By using this function, it becomes possible to simplify the photographic equipment and continuously, steplessly control the sensitivity which could not be realized with a conventional silicon sensor. Therefore, the possibility of capturing according to the scene is expanded.


In the future, we will utilize this OPF CMOS image sensor technology in various applications such as broadcasting cameras, surveillance cameras, industrial inspection cameras, automotive cameras, etc., and will contribute to realize high resolution, high speed and high precision imaging and sensing functions.

Technical Terms:

[1] Global shutter:
Shutter operation which can captures the image at the same time with all pixels. Organic CMOS image sensors operate in rolling shutter mode in which exposure and shutter operation is executed row by row.
[2] ND filter
Abbreviated name of neutral density filter.
A filter that functions to evenly absorb light in the visible range and reduce only the light intensity without affecting color.
[3] Sensitivity modulation
The photoelectric conversion efficiency is changed according to the control. In the OPF CMOS image sensor, the photoelectric conversion efficiency can be changed by controlling the voltage applied to the OPF.
[4] Dynamic Range
Range of brightness that can be imaged.
(Ratio between the largest and the smallest values of brightness.)
[5] Panning
A technique for capturing wide scenes by moving the framing in the horizontal direction with a fixed camera, which is a common video capturing technique.

Articles: Digital Photography Review (dpreview.com)

 
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Sensor breakthrough: Sony has developed a backlit CMOS sensor with global shutter

17 Feb

Sony has made something of a breakthrough in sensor development, announcing a new backside-illuminated stacked sensor that can read out every pixel simultaneously to enable global shutter. While the company has only made it work with a 1.46-million-pixel sensor so far, the nascent technology has significant potential.

The sensor is able to read out from every pixel instantly because each pixel has its own analog-to-digital converter (ADC) buried in a ‘bottom chip,’ which is stacked beneath a ‘top chip’ containing the active, photosensitive pixels. This allows all exposed pixels to be read simultaneously, rather than sequentially row-by-row as is done with traditional CMOS sensors containing far fewer ‘column parallel’ ADCs.

This instant read-out avoids the rolling shutter distortion caused by the time delay as each row of pixels is recorded one after the other. In most existing chips, fast-moving objects become warped as they progress across the frame, because the pixels at the top of the sensor were read earlier than those at the bottom. This can also lead to banding under certain types of artificial lighting.

Global shutter—reading out all of the pixels at once—solves both these problems.

Shot with an exposure time of 0.56ms

Sony claims its sensor is the first back-illuminated high-sensitivity CMOS sensor with pixel-parallel ADCs and a pixel-count greater than 1 million.

While one million pixels may not be much good to photographers, this is a big step towards the production of a photographic quality sensor. Chips with ‘global shutter’ need only an electronic shutter to record undistorted action pictures, boast the ability to use short electronic shutter speeds with flash, and are able to work under fluorescent and solid state (LED) lighting without banding.

In the end, a global shutter sensor like this be useful for both still and movie photographers.

It’s also a major improvement over current global shutter CMOS sensors, which have a photosensitive pixel, and then a ‘storage’ pixel that the charge is transferred to after the exposure is made. This storage pixel holds the charge until the column ADCs read out, row by row. The problem with this approach is that your active pixel area now has a bunch of dead space per pixel taken up by the ‘storage pixel’.

By going BSI and stacked, we believe this technology eliminates the need for the storage pixel entirely, because you can read all the pixels at once at the end of your exposure.

The company says it has had to include 1000x more ADCs than it would normally in a 1MP sensor. The extra ADCs would require far more current, so Sony developed low current, compact ADCs for this chip. Additionally, new high speed data transfer construction allows for the fast read and write speeds required to operate all the ADCs in parallel and transfer the digital data.

While it might be some time before one is ready for use in a standard camera, this is a big step forward for global shutter sensor technology, which has traditionally been plagued by higher noise levels and lower dynamic range.

When will we see it scaled up to larger, smaller pixel pitch higher-resolution sensors? Hard to tell, but we’re keeping our fingers and toes crossed.

Press Release

Sony Develops a Back-Illuminated CMOS Image Sensor with Pixel-Parallel A/D Converter That Enables Global Shutter Function

Sony CorporationSony Semiconductor Solutions Corporation Tokyo, Japan – Sony Corporation today announced that it has developed a 1.46 effective megapixel back-illuminated CMOS image sensor equipped with a Global Shutter function*1. The newly developed pixel-parallel analog-to-digital converters provide the function to instantly convert the analog signal from all pixels, simultaneously exposed, to a digital signal in parallel. This new technology was announced at the International Solid-State Circuits Conference (ISSCC) on February 11, 2018 in San Francisco in the United States.

CMOS image sensors using the conventional column A/D conversion method*2 read out the photoelectrically converted analog signals from pixels row by row, which results in image distortion (focal plane distortion) caused by the time shift due to the row-by-row readout.

The new Sony sensor comes with newly developed low-current, compact A/D converters positioned beneath each pixel. These A/D converters instantly convert the analog signal from all the simultaneously exposed pixels in parallel to a digital signal to temporarily store it in digital memory. This architecture eliminates focal plane distortion due to readout time shift, making it possible to provide a Global Shutter function*1, an industry-first for a high-sensitivity back-illuminated CMOS sensor with pixel-parallel A/D Converter with more than one megapixel*3.

The inclusion of nearly 1,000 times as many A/D converters compared to the traditional column A/D conversion method*2 means an increased demand for current. Sony addressed this issue by developing a compact 14-bit A/D converter which boasts the industry’s best performance*4 in low-current operation.

Both the A/D converter and digital memory spaces are secured in a stacked configuration with these elements integrated into the bottom chip. The connection between each pixel on the top chip uses Cu-Cu (copper-copper) connection*5, a technology that Sony put into mass production as a world-first in January 2016.

In addition, a newly developed data transfer mechanism is implemented into the sensor to enable the high-speed massively parallel readout data required for the A/D conversion process.

*1:A function that alleviates the image distortion (focal plane distortion) specific to CMOS image sensors that read pixel signals row by row.*2:Method where the A/D converter is provided for each vertical row of pixels in a parallel configuration.*3:As of announcement on February 13, 2018.*4:As of announcement on February 13, 2018. FoM (Figure of Merit): 0.24e-?nJ/step. (power consumption x noise) / {no. of pixels x frame speed x 2^(ADC resolution)}.*5:Technology that provides electrical continuity via connected Cu (copper) pads when stacking the back-illuminated CMOS image sensor section (top chip) and logic circuits (bottom chip). Compared with through-silicon via (TSV) wiring, where the connection is achieved by penetrating electrodes around the circumference of the pixel area, this method gives more freedom in design, improves productivity, allows for a more compact size, and increases performance. Sony announced this technology in December 2016 at the International Electron Devices Meeting (IEDM) in San Francisco.

Main FeaturesGlobal Shutter function*1 achieved in a high-sensitivity back-illuminated CMOS image sensor by using the following key technologies:

Low-current, compact pixel-parallel A/D converter In order to curtail power consumption, the new converter uses comparators that operate with subthreshold currents, resulting in the industry’s best-performing*4, low current, compact 14-bit A/D converter. This overcomes the issue of the increased demand for current due to the inclusion of nearly 1,000 times as many A/D converters in comparison with the traditional column A/D conversion method*2.

Cu-Cu (copper-copper) connection*5 To achieve the parallel A/D conversion for all pixels, Sony has developed a technology which makes it possible to include approximately three million Cu-Cu (copper-copper) connections*5 in one sensor. The Cu-Cu connection provides electrical continuity between the pixel and logic substrate, while securing space for implementing as many as 1.46 million A/D converters, the same number as the effective megapixels, as well as the digital memory.

High-speed data transfer construction Sony has developed a new readout circuit to support the massively parallel digital signal transfer required in the A/D conversion process using 1.46 million A/D converters, making it possible to read and write all the pixel signals at high speed.

Articles: Digital Photography Review (dpreview.com)

 
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UN seeks worldwide drone registry to pave way for global standards

12 Sep

The United Nations has revealed a controversial proposal to create a worldwide drone registry that would require UAV owners around the globe to register their details in a single unified database. The registry would, in an ideal situation, serve as a single database through which government and law enforcement officials in many countries could access drone operator information from a central location.

The proposal was recently detailed by Reuters, which reports that the plan was put forth by the UN agency International Civil Aviation Organization (ICAO). The agency intends to hold a symposium next week to discuss drone-related matters, though details about this proposal are still largely absent.

Central to the goal behind a single global registry is the ability to create standardized regulations that could be adopted by many countries. Such standardization would relieve the burden drone makers currently face over creating devices that meet the requirements of different markets. Whether the ICAO would operate the database isn’t clear.

Talking about this during an interview with Reuters last week, ICAO air navigation bureau director Stephen Creamer explained that drone manufacturers “are worried that Europe might create one set of standards, United States might do a second and China might do a third. And they’ve got to build a drone differently in these different environments.”

Whether any given country would be willing to adopt the proposed registry and accompanying global regulations is yet to be seen. Compounding potential problems may be backlash from some consumers who are resistant to drone registries, the personal information they require, and the associated fees. Earlier this year, for example, a legal case brought against the FAA resulted in its Registration Rule being struck down for model aircraft.

Articles: Digital Photography Review (dpreview.com)

 
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Apple captures 79 percent of global smartphone profits with 14.5 percent market share

09 Mar

According to Flickr the iPhone is the most popular camera(s) in the world and even 10 years after the original model was launched, iPhone continues to generate enormous profits for Apple. According to research from Strategy Analytics, that was obtained by The Korea Herald, in 2016 the iPhone captured 79 percent of profits in the global smartphone market, at a market share of only 14.5 percent. In absolute numbers that is $ 44.9 billion out of a $ 53.7 billion total profit.

Apple’s biggest rival Samsung leads the market share ranking in front of Apple at 20.7 percent but only grabs 14.6 percent of the profit, amounting to $ 8.3 billion. This is a similar picture to previous years when, thanks to very high margins, Apple was able to claim a much bigger proportion of smartphone profits than its market share would suggest. 

With the upcoming iPhone 8 models expected to bring a range of innovative features at what are projected to be high price points, the situation is unlikely to change in 2017. If Apple continues to invest profits into camera development, we could all benefit from its success.

Articles: Digital Photography Review (dpreview.com)

 
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HMD Global releases Nokia 6 Android smartphone

11 Jan

HMD Global, the Finnish company that acquired the exclusive Nokia brand licensing rights for mobile phones in late 2016, has released its first model under the legendary Nokia moniker. The Nokia 6 is best described as an upper mid-range device with an unibody that is machined from a solid block of 6000 series aluminum and would not look out of place on a top-end smartphone. 

Images can be viewed and displayed on the 5.5” Full-HD IPS LCD display with 2.5D Gorilla Glass and the Android 7 Nougat OS is powered by a Qualcomm Snapdragon chipset and 4GB of RAM.  The device also features 64GB of expandable storage and dual amplifiers in combination with Dolby’s Atmos surround technology should be capable of delivering excellent sound.

Juho Sarvikas, Chief Product Officer, HMD Global said: “We have set ourselves a mission to deliver the best possible smartphone experience, with a beautiful premium design touch, to everyone, at every price point. By building on true Nokia phone hallmarks of leading design and materials, an obsessive focus on the latest technology and solving real-life issues, we believe we have a unique proposition for consumers. The Nokia 6 marks the first step on our journey, with more to come in 2017.”

In the camera department the Nokia 6 packs a 16MP camera with 1.0 µm pixel size, F2.0 aperture and phase detection AF. The 8MP unit at the front also has an F2.0 aperture and at 1.12 µm slightly larger pixels. Both cameras can record 1080p video at 30 frames per second.

The Nokia 6 will, at least to start with, be exclusively available through JD.com in China and set you back approximately $ 245. On paper at least, the Nokia 6 looks like a very solid device at an attractive price point and a good first step for re-establishing the Nokia brand in the marketplace. That said, we are still hoping to see Nokia’s rumored camera super-phone revealed at MWC at the end of February. 

Press Release:

HMD Global launches first smartphone, the Nokia 6 in China

  • Nokia 6 will be available exclusively in China through JD.com. Available in early 2017, Nokia 6 is 1699 CNY
  • New design philosophy embraces much-loved Nokia phone hallmarks of quality, superior craftsmanship and relentless focus on the consumer experience
  • Nokia 6 marks the first step for the Nokia brand into Android smartphones with more to come in H1 2017

Espoo, Finland – 8 January 2017: After securing the exclusive Nokia brand licensing rights in mobile phones in late 2016, HMD Global Oy (“HMD”) is proud to announce the launch of its Nokia 6 smartphone in China. The Nokia 6 marks the first step in HMD’s ambition to set a new standard in design, material quality and manufacturing innovation across every tier of its products by building on the hallmarks of a true Nokia phone experience. The device, which is designed explicitly with the needs of users in mind, combines quality and in-built durability to deliver a real-life premium smartphone experience at a price point for the highly aspirational Chinese consumer.

The decision by HMD to launch its first Android smartphone into China is a reflection of the desire to meet the real world needs of consumers in different markets around the world. With over 552 million smartphone users in China in 2016, a figure that is predicted to grow to more than 593 million users by 20171, it is a strategically important market where premium design and quality is highly valued by consumers.

With the arrival of Nokia 6, consumers will see superior craftsmanship and design quality in action. It takes 55 minutes to machine a single Nokia 6 from a solid block of 6000 series aluminium. It then receives two separate anodising processes, taking over ten hours to complete, with each phone being polished no less than five times. The end result is an aluminium unibody with the highest level of visual and structural quality.

Delivering quality to the core, the Nokia 6 display has a bright hybrid in-cell 5.5” screen with full HD resolution and incredible colour reproduction wrapped in 2.5D Gorilla Glass. The display stack is laminated together with a polarizer layer enabling excellent sunlight readability and slim form. The build is completed with the latest generation Qualcomm Snapdragon™ 430 processor with X6 LTE modem designed for excellent battery life and superior graphics performance.

The Nokia 6 has 4GB RAM and 64GB storage with which to run the latest version of Android Nougat and is packed with entertainment to bring to life the latest that Android has to offer. The dual amplifiers deliver a 6dB louder sound than a regular amp, giving higher voice, deeper bass and unmatched clarity. Dolby Atmos creates powerful, moving audio that seems to flow all around users. The Nokia 6 packs a 16MP phase detection auto focus rear camera for sharp detailed pictures, and an 8MP front camera. The f/2.0 aperture lenses and exclusive camera UI with automatic scene detection make it easy to take great shots every time.

Arto Nummela, CEO, HMD Global said: “Just a short while ago we announced the launch of HMD Global. From the outset we have stated that we intend to move with speed to establish a position as a player in the smartphone category and create products that truly meet consumer needs. The Nokia 6 is a result of listening to our consumers who desire a beautifully crafted handset with exceptional durability, entertainment and display features.

Our ambition is to deliver a premium product, which meets consumer needs at every price point, in every market. We start today, with our premium, high quality Nokia 6; built to deliver a fantastic core user experience for Chinese consumers. We look forward to unveiling further products in the first half of this year.”

Nestor Xu, Vice President Greater China, HMD Global said: “China is the largest and most competitive smartphone market in the world. It is no coincidence that we have chosen to bring our first Android device to China with a long-term partner. JD.com is known for its upwardly mobile customer base and it has for many years believed in the Nokia brand and sold millions of our products to Chinese customers. Launching our first smartphone device, in such a strategically important market, with JD.com a trusted online retailer marks a signal of intent.”

Juho Sarvikas, Chief Product Officer, HMD Global said: “We have set ourselves a mission to deliver the best possible smartphone experience, with a beautiful premium design touch, to everyone, at every price point. By building on true Nokia phone hallmarks of leading design and materials, an obsessive focus on the latest technology and solving real-life issues, we believe we have a unique proposition for consumers. The Nokia 6 marks the first step on our journey, with more to come in 2017.”

Shengli Hu, President of 3C Business Unit, JD.com, said: “The Nokia 6 marks a new milestone for the iconic brand, and JD.com is proud to work with HMD on this exclusive launch in China. Our 200 million active consumers come to JD.com to shop for guaranteed high-quality products from the world’s leading brands, and we are proud to provide a trusted outlet for them to reconnect with Nokia phones.”

Nokia 6 will debut exclusively through JD.com in early 2017 in China. Competitively priced for the aspirational smartphone user, the Nokia 6 is 1699 CNY at JD.com.

Articles: Digital Photography Review (dpreview.com)

 
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Global digital photography market value to grow to $110.79 billion by 2021

28 Dec

The digital photography market, including cameras, software and processing equipment, is expected to grow to $ 110.79 billion by the year 2021, according to a new report from Zion Market Research. The research firm valued the digital photography market at $ 77.66B USD in 2015, and anticipates a 6.1-percent growth rate between 2016 and 2021. Asia Pacific is expected to represent the greatest regional market growth during this time frame.

According to the report, Asia Pacific is estimated to hold a ‘significant’ share of the digital photography market due to growing economies, with North America coming in second. The research firm anticipates an increased demand for replacement devices among consumers in Europe and North America, while Asia Pacific countries have seen digital photography market growth due to, among other things, ‘steady income’ in select countries. Also contributing to expected market growth in coming years is ‘strong product penetration’ throughout Latin America.

Social networks including Instagram, Facebook, and Tumblr are helping drive digital photography market growth, as well as software including Photoshop and other photo editors. ‘Digital photography allows consumers to take professional quality photos themselves,’ the study notes as one driving force, as well as digital photography’s suitability for a variety of industries beyond the scope of traditional photography, including surveillance, science, machine vision, and more.

Via: Globalnewswire

Articles: Digital Photography Review (dpreview.com)

 
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Sensor innovations push global shutter chip capabilities

21 Dec

Engineers with Tohoku University have detailed a new project in which a CMOS sensor with a global shutter is able to record ultra-high-speed footage without the constraints of existing technology, namely short-duration recording and low resolutions. The end result is a CMOS sensor capable of recording one million frames-per-second over a ‘large’ duration of time, relatively speaking (480 micro-seconds in this case), at full resolution.

By re-designing the sensor’s memory bank, researchers have tested a 96 x 128 pixel array with global shutter at 480 frames. The design is intended to be tiled on a sensor with 1MP resolution – clearly not enough for consumer photography, but great for engineering applications. 

Don’t feel left out though, consumer photography and videography may also see benefits from this kind of technology – Canon also reported progress on its research of global shutter sensors. Canon’s technology similarly uses memory in an innovative way: by assigning each pixel its own memory cell. While Tohoku University’s research is concerned with ultra high speeds, Canon is looking for ways to improve the dynamic range of global shutter sensors. The company has tested a 10MP sensor at 30 fps – take a look at the results below. 

Global shutter chips typically offer poor dynamic range. To improve DR, Canon has increased the number of ‘accumulations’ per frame, or the number of times each pixel deposits electrons to its associated memory cell. Image supplied by Canon

Via: IEEE Spectrum

Articles: Digital Photography Review (dpreview.com)

 
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Olympus to give away OM-D E-M1 ll and 1M Yen in global competition

15 Nov

An Olympus OM-D E-M1 ll with a 12-40mm F2.8 Pro lens and ¥1M is up for grabs for the winner of the 2016-2017 Olympus Global Open Photo Contest. The competition is open to amateur and professional photographers alike, and the company has placed no restriction on the equipment used to take entered images saying ‘Any photographic device from a DSLR to smartphone may be used.’

There are four categories with these themes:

  • Power of life
  • Connections to Cherish
  • Places that Inspire
  • Perspectives Often Missed

There will be three prizes for each category with first place images winning an OM-D E-M5 ll with the 12-40mm F2.8 Pro lens, second placed winners getting an OM-D E-M10 ll with 14-42mm F3.5-5.6 EZ and those coming in third receiving a Pen E-PL8 with 12-42mm F3.5-5.6 EZ. The overall winner will get the OM-D E-M1 ll with the 12-40mm F2.8 Pro lens and the cash.

Entry is free and entrants may submit up to five pictures for each category until the closing date on January 10th 2017. Winners will be announced in April 2017. At current exchange rates 1,000,000 Japanese Yen is worth about $ 9200/£7400/€8600.

For more information visit the Olympus Global Open Photo Contest website.

Articles: Digital Photography Review (dpreview.com)

 
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Full frame 48MP sensor with global shutter and 8K video hits market from CMOSIS

13 Nov

The Belgian manufacturer that makes some of the sensors used in Leica’s cameras has announced a new offering that features 48MP and a global shutter. Although the CMV50000 CMOS sensor is described as medium-format in the press release, it is actually nearer to being 35mm-sized and measures 36.43 x 27.62mm (the width of a 35mm ‘full-frame’ sensor but elongated out to 4:3 aspect ratio).

The new sensor is also designed to record 8K video at a rate of 30fps and offers, according to the manufacturer, a dynamic range of 64dB at full resolution and a signal-to-noise ratio of 41.4dB. The sensor can increase the dynamic range of its output by recording alternate row of pixels at different exposures (a process comparable with the DR mode of Fujifilm’s EXR CCD designs).

The global shutter design of the sensor allows all pixels to record at the same time instead of in sequence as is usually the case. This means fast moving objects traveling across the frame can be captured without distortion in cameras when using a fully electronic shutter. While some of the company’s target market is industrial inspection the sensor is also said to be suited to still photography and professional and broadcast video.

At the moment the sensor is only available in black and white, but a color version is on its way for the end of the year. The existing sensor costs €3450 (approx. $ 3800). For more information visit the CMOSIS website.

Press release:

Industry’s first global shutter 48Mpixel CMOS image sensor from CMOSIS supports 8k image resolution at 30 frames/s

CMV50000 features low noise, high frame rate, and high dynamic range; easy-to-design-with sensor excels in automated optical inspection systems, machine vision uses and prosumer video applications

Premstaetten, Austria — CMOSIS a member of the ams AG (SIX: AMS) group, a leading provider of high performance sensors and analog ICs, today launched the CMV50000, an industry first global shutter CMOS image sensor offering high resolution of 48Mpixels, more than twice the resolution of its previous generation CMOSIS global shutter CMOS image sensors.

The CMV50000 is a medium format 48Mpixels sensor with 7920 x 6002 4.6-µm sized pixels using the patented 8-transistor pixel architecture to offer low noise and excellent electronic shutter efficiency. Global shutter operation means, that images of fast-moving objects can be captured without distortion.

Its pixel offers 64dB optical dynamic range at full resolution and up to 68dB in subsampled 4k mode, and the imagers benefits from the implementation of sophisticated new, on-chip noise-reduction circuitry such as black level clamping to enable it to capture high quality images under low-light conditions.

Operating at a fast 30 frames/s with 12 bit pixel depth at full resolution or a binned 4k mode, and at up to 60 frames/s with pixel subsampling to 4k resolution, the sensor is suitable for use in high-speed machine-vision systems, as well as in TV broadcasting and video cameras.

The CMV50000 provides detailed views of a large surface area required in factory automation applications such as automated optical inspection (AOI) systems and systems for the inspection of displays of mobile phones, tablets, laptops and TVs. The combination of high frame rate and high re-solution allows further increase of the already high throughput rates at consumer product assembly plants.

A High Dynamic Range (HDR) mode is supported by an odd/even row dual-exposure operation.

The CMV50000 is expected to replace high pixel-count charge-coupled device (CCD) image sensors used in machine-vision cameras and high-end security cameras. Compared to the older CCD sensor technology, CMOS image sensors are easier to integrate in camera designs, use less power, and can operate at much higher frame rates.

“The introduction of the 48Mpixel CMV50000 gives camera manufacturers the opportunity to enjoy the design and operating advantages of a CMOS image sensor while gaining the ultra-high resolution, which has previously only been available through the use of CCD sensors”, said Wim Wuyts, Marketing Manager for image sensors at ams.

“The CMV50000’s advanced noise-reduction features such as black level clamping combined with its high optical dynamic range, results in high picture quality at full operation speed without the need for complex analog output matching required for multi-tap CCD image sensors and therefore also decreases the camera development time significantly.”

The monochrome version of the CMV50000 is sampling now. The color version will be available for sampling by the end of 2016. Unit pricing is €3,450.

Articles: Digital Photography Review (dpreview.com)

 
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