European car telematics market to boom

Despite the collapse of the new car market, iSuppli is predicting a boom in telematics equipment for vehicles in Western Europe over the next ten years, and the details of the usage of telematics for each brand make very interesting reading (below), particularly the relatively low levels of telematics used today.
Sales of automotive telematics systems are set to rise by a factor of five during the period from 2008 to 2016 as carmakers offer more telematics-equipped models in the region, reaching 24.8 million systems by 2016, expanding at a Compound Annual Growth Rate (CAGR) of 22.5 percent from 4.9 million systems last year.
“Automotive telematics is defined as the integrated use of telecommunications and informatics, allowing the sending and receiving of information,” said Anna Buettner, analyst for automotive electronics at iSuppli. “Telematics can provide a range of benefits to motorists, from notifying an emergency operator when a car’s airbags have been deployed, to reporting vehicle conditions to a remote monitoring center.”
Two major types of telematics solutions are being offered on the market: embedded systems, whose functionality is integrated into the headunit of cars; and mobile-device oriented systems, which use a wireless product like a cell phone to communicate information.
“iSuppli believes that embedded and mobile-device-based telematics systems will continue to coexist in the car market in Western Europe and elsewhere,” Buettner said. “Embedded solutions are suitable for high-end luxury models, while mobile-device-oriented systems can bring telematics services to high-volume, entry-level cars. Regardless of which approach is used, pipes used for communications and delivery of content will become increasingly transparent and will be modified to cater to a vast array of data types.”
GM’s telematics sales in Western Europe are projected to grow to more than 1.4 million units in 2016, rising at a CAGR of more than 41 percent from 210,000 million in 2008. GM currently offers only mobile-device-based telematics systems.
Ford is expected to introduce the Sync system in Europe in 2011. This should increase its mobile-device telematics system shipments in the region to more than 1.7 million systems in 2016, rising at a Compound Annual Growth Rate (CAGR) of 31 percent from 190,000 in 2008.
The Japanese brands are not as strong in Europe as they are in North America, so their telematics sales will be much lower in the region. Toyota, which maintains the largest auto sales among the Japanese brands in Western Europe, will have the highest telematics sales there—growing to 990,000 units in 2016, up at a CAGR of 31 percent from 110,000 in 2008. The Japanese leader most likely will bring an embedded solution to the market in the near future.

Domestic telematics

The Top-6 European auto manufacturers collectively control about 64 percent of the Western European auto market.
PSA now has the highest telematics sales in Europe due to its use of both embedded and mobile-device systems. Company sales are forecasted to grow to 3.1 million systems in 2016, up from nearly 620,000 in 2008. Embedded systems accounted for 42 percent of PSA’s 2008 telematics sales.
VW’s telematics sales are projected to grow to nearly 3.2 million units in 2016, increasing at a CAGR of more than 26 percent from 490,000 systems in 2008. While the company’s four brands currently use only mobile device telematics systems, the German OEM is expected to introduce an embedded telematics system in the future.
Fiat’s three brands will sell 2.3 million units in 2016, up at a CAGR of 27 percent from 340,000 in 2008. Embedded systems accounted for about 20 percent of Fiat’s telematics sales in 2008.
Renault has been slow to adopt telematics and has just recently added mobile device systems. Renault’s telematics sales are projected to grow to 1.6 million units in 2016, rising at a CAGR of 30 percent from 190,000 in 2008.
The two main luxury brands in Europe, BMW and Mercedes-Benz, already sell a high percentage of their autos with telematics systems.
BMW uses both embedded and mobile device telematics systems. Company telematics sales will rise to more than 1.3 million units in 2016, up at a CAGR of 16 percent from 390,000 in 2008.
Mercedes-Benz currently sells only mobile-device telematics systems. Sales of Mercedes-Benz telematics systems are forecasted to grow to 1.4 million systems in 2016, expanding at a CAGR of almost 20 percent from 320,000 in 2008. Similar to Toyota/Lexus and Volkswagen, Mercedes-Benz also is expected to introduce an embedded telematics solution for its future offerings.

Cognitive radio for old TV spectrum

Cambridge Consultants has developed a novel, low-cost ‘spectral sensing’ cognitive radio technology platform that will allow any radio product to transmit without interference over so the called ‘whitespace’ frequencies at 700MHz recently vacated by the US digital TV switchover. With InCognito, it is aiming to do for whitespace what it did for Bluetooth and Zigbee, spinning off companies such as Cambridge Silicon Radio.
Whitespace is highly desirable TV band frequencies that easily penetrate walls, potentially extending the range of Home Area Networks (HANs) and enabling a range of novel new applications, such as reliable high-definition video streaming from a single access point to every room in a house. Innovative use of whitespace radio will also make it possible to increase the accessibility of low-cost high speed wireless internet services, including those rural communities which are currently poorly served.
The new frequencies, recently authorised in the USA by the Federal Communications Commission (FCC), greatly increase the overall wireless bandwidth available to computers, set top boxes, laptops, WiFi hot spots and other radio devices that currently use the unlicensed band around 2.4GHz. They also have the potential to greatly extend the range of these devices.
“We’ve seen so much game-changing innovation in the unlicensed 2.4GHz band, but I believe the FCC’s decision to open up the ‘whitespace’ radio frequencies for innovation promises even more. We will quickly see a wave of innovation in wireless products and services around 700MHz, bringing benefits both to consumers and to the innovative businesses that move quickly into the whitespace market,” said Luke D’Arcy of Cambridge Consultants.
But the decision is not without controversy. The primary incumbent users of these TV band frequencies are concerned about the potential for interference caused by the influx of new users. “Based on highly complex cognitive ‘spectral sensing’ radio technology which, until now, has only been used in defence and security applications, the InCognito platform enables ‘whitespace’ radios to quickly and accurately detect and avoid other broadcasts," saidD'Arcy. "We also understand that the most successful technologies in use in these markets today are based on open industry standards, which is why we have taken our platform to the CogNeA Alliance. This, together with our track record of fast product development, means that any client can take advantage of the new spectrum quickly and easily - adding this potentially low cost technology to a client’s device could take as little as a few months. I believe we will start to see the first cognitive radio enabled products in mid 2010 and that the market will develop quickly.”
The CogNeA Alliance aims to drive the definition and adoption of industry-wide standards for wireless devices to operate over the new TV white spaces. Kiran Challapali, CogNeA’s Chairman, said “Cambridge Consultants has helped get many successful new standards such as Bluetooth, DECT and Zigbee off the ground. We welcome them to our alliance, which includes companies like Philips, Samsung Electro-Mechanics, ETRI and Georgia Tech, and we look forward to working together to make CogNeA a successful standard."

Intel moves into equipment with the Reader

Intel's Digital Health group has launched a handheld device in the US that reads out text. This is one of the few times that Intel has sold consumer equipment under its own brand and is a key step towards the Intel phone. Intel already makes notebooks and netbooks, but these are all labelled by, and sold by, other companies.
The Intel Reader is designed to increase independence for people who have trouble reading standard print. About the size of a paperback book, it converts printed text to digital text, and then reads it aloud to the user. It combines a high-resolution camera with an Intel Atom processor, allowing users to point, shoot and listen to printed text.
The original concept for the Reader came from Ben Foss, a researcher at Intel who was identified in elementary school as one of the estimated 20 percent of people nationwide who have symptoms of dyslexia. Throughout high school, college and graduate school, he had to depend on others to read to him or work through the slow process of getting words off of a page himself. As an adult, much of the content he wanted, from professional journals to pleasure reading, just wasn't available in audio form.

"As someone who is part of this dyslexic community, I am thrilled to be able to help level the playing field for people who, like me, do not have easy access to the printed word," said Foss. "Feelings of loneliness are often the experience of not being able to read easily. We hope to open the doors for people in these communities. The Intel Reader is a tool that can help give people with dyslexia, low-vision, blindness or other reading-based disabilities access to the resources they need to participate and be successful in school, work and life."

Intel says it can assist the estimated 55 million people in the U.S. who have dyslexia or other specific learning disabilities, or have vision problems such as low-vision or blindness, which makes reading printed words difficult or impossible.
The Intel Reader will be available in the United States through select resellers, including CTL, Don Johnston Incorporated, GTSI, Howard Technology Solutions and HumanWare.
When the Intel Reader is used together with the Intel Portable Capture Station, large amounts of text, such as a chapter or an entire book, can be easily captured for reading later. It is available through selected outlets in the US.

"The Intel Digital Health Group's expertise is in finding innovative technology solutions to improve quality of life," said Louis Burns, vice president and general manager of Intel's Digital Health Group. "We are proud to offer the Intel Reader as a tool for people who have trouble reading standard print so they can more easily access the information many of us take for granted every day, such as reading a job offer letter or even the menu at a restaurant."

DDR3 memory - what happend?

I've just had to buy a new laptop, and wanted something that would last for a good few years, so naturally wanted high speed, low power DDR3 memory. Could I find much? No, really just Dell and Acer.
So this analysis of what happened from Malcolm Penn at Future Horizons is well timed, and an excellent description of how technology does, or doesn't get adopted, and the implications for the embedded market! It looks like my timing is good though as now I have a lovely DDR3 system at a reasonable, not bleeding edge, cost.

Semiconductor Spotlight – DDR3

The DRAM manufacturers as a whole made a combined loss during 2008 of US$20 billion. At the moment memory pricing is firming but semiconductor memories are still plagued by a regular cyclicality of over-capacity and declining ASPs countered by tightening capacity and rising ASPs. However, although improvements are evident in the short term, the longer-term trends are still up for debate. One of the major trends currently under way is the trend to DDR3 memory from the current mainstream DDR2.
DDR, DDR2 and DDR3 are types of SDRAM (Synchronous Dynamic Random Access Memory) and use a clock signal for synchronization. DDR stands for Double Data Rate, meaning that memories from this category transfer two data chunks per clock cycle.
One of the main differences between DDR, DDR2 and DDR3 is the highest transfer rate each generation can achieve. For example, higher speed DDR2-1066 memory operates at a clock rate of 533 MHz. Whilst there is an equivalent DDR3 memory that also operates at this speed, the DDR3-1600 operates with a clock rate of 800MHz. In addition, the internal data path of DDR2 memory is 4 bits whilst DDR3 is 8 bits. DDR3 memories also operate at lower voltages compared to DDR2 memories.
This lower voltage means that DDR3 consumes less power than DDR2 for a given clock rate and lower power is becoming increasingly important for laptops and the general trend of electronic equipment to become ‘greener’.
On the minus side, DDR3 memories have higher latencies than DDR2 memories. This means that DDR3 memories take more clock cycles initially before delivering data compared to DDR2 memories.
The primary benefit of DDR3 is the ability to transfer at twice the data rate of DDR2. DDR3 can operate at higher clock rates than DDR2 and DDR3 memory uses less power for the same clock rate. An emphasis on low power and higher data rates make DDR3 memory a more attractive option provided there is a low premium on price and the motherboards are ‘DDR3 ready’.
The first DDR2's replaced DDR in PCs by Dell during the summer of 2004 and were DDR2-533 specification. Dell has been one of the leaders in new system development and it was expected that that the transition to DDR2 would start getting underway very soon after. However, history showed that the uptake of DDR2 was not a smooth transition with memory manufacturers reverting to DDR and then going back to DDR2. The changeover eventually occurred during early 2006 when DDR2-667 had both a performance and price advantage.
It looks as though history will repeat itself with the transition to DDR3 from DDR2 but perhaps over a shorter time-span. DDR3 has been in gestation since 2005 and has appeared on some motherboards during 2007. Optimistic predictions were made for adoption during early 2008 with predictions of 30 percent or more penetration of DDR3 memory with less than ten percent price difference in price over DDR2 by the end of 2008.
By mid-year 2008 this prediction was looking increasingly unlikely and eventually did not happen. However, the pricing has been altering in favour of DDR3 in the last four months and the percentage of DDR3 has been creeping up to over 20 percent of total PC memory in the first half of this year.
PC OEMs are inexorably price driven and will tend to use the cheapest available memory given comparable performance in mainstream machines. Another factor is, of course, the type of memory the motherboard can take. DDR3 has become more popular since July and, as a consequence, the price for this memory rose as demand increased.
As the DDR3 prices increased, PC manufacturers started to go back to using DDR2 as these were lower in price. However, increased DDR2 demand, in turn, drove up prices. With prices now higher for DDR2, PC OEMs will switch back to DDR3 parts. This cycle will likely continue for the next six months until DDR3 memory becomes the mainstream memory for PCs probably during mid-2010.
The adoption of any new technology is always beset by problems in its introduction and the transition from DDR2 to DDR3 is promising to be no exception. It has been clear for some time that DDR3 memory has had the potential to become the mainstream PC memory but market adoption depends on a careful mix of price and performance with a lot of emphasis on price.
As such we believe DDR3 will really come into its own when the new generation 50nm designs hit the market. This advance will also allow a large increase in die-per-wafer and either an improvement in profitability or a tool to increase market share depending on the individual memory manufacture’s strategy.

China supercomputer breaks performance barrier

China's National University of Defense Technology (NUDT) has developed a supercomputer that breaks the petaflop barrier, putting China in the same league as the US and Europe for high performance computing.
The supercomputer, called "Tianhe", meaning Milky Way, is based in Changsha, capital of central China's Hunan Province.
The 155-ton system, with 103 refrigerator-like cabinets covering an area of about 1,000 square meters cost $88m and is expected to process seismic data for oil exploration, conduct bio-medical computing and help design aerospace vehicles. It uses 6,144 Intel CPUs and 5,120 AMD GPUs, and reaches a peak performance of 1.206 petaflops and 563.1 teraflops on the Linpack benchmark, making it currently the fourth most powerful machine on the planet.
China's Dawning Information Industry Company is attempting to build its own supercomputer that overcomes the petaflop barrier by 2010, and the NUDT is planning to add "hundreds or thousands of China-made CPUs" to the machine to improve its Linpack performance to over 800 teraflops.

Ultra low power microcontroller extends battery life

A Norwegian startup is pushing the limits of low power in microcontrollers, cutting power by a factor of four over even 8bit devices.
Energy Micro has developed the EFM32 low power 32bit microcontroller based on the ARM Cortex-M3 architecture with low power clocks and peripherals that consumes less than 180µA per MHz while executing real life code from Flash memory and the lowest active mode current consumption of any microcontroller. Its standby current consumption is also the lowest, at typically 900nA while running real time clock, power-on reset, brown-out detector and full RAM and CPU retention and less than 20nA in its deepest sleep mode. The start-up time of less than 2µs is also the industry’s fastest. The power is lower than traditional 16 or 8bit devices from Silicon Labs, Texas Instruments and Microchip (see chart).

“We are very proud that we have delivered on our mission to provide the world with the most energy friendly microcontrollers,” said Geir Forre, founder and CEO. “By introducing innovative new energy saving features, such as our peripheral reflex system and energy management unit, the potential saving in battery life that can be achieved is immense.”

The low power peripherals include:
a 4x40 segment LCD controller running at less than 900nA;
an 8-channel 12-bit 1M samples/sec ADC running at less than 200µA;
a brown-out detector running at less than 100nA;
a 32kHz real time counter running at 50nA;
and a UART capable of 9600bps at 100nA.

The devices, built in standard low leakage CMOS, are initially targetted at smart metering and home automation, with battery lifetimes of 10 to 15 years with low cycle times. “The EFM32G family of microcontrollers has been specified in close partnership with many world leading companies within, for example, the energy metering, home and building automation and alarm and security industries,” said Øyvind Janbu, co-founder and CTO of Energy Micro. “Working so closely with top engineers in such sectors has enabled us to produce a family of microcontrollers that truly is a perfect fit for a variety of different applications.”
One of Energy Micro’s partner customers is window maker Velux, one of the strongest brands in the global building materials and home improvement industry. It is planning to use the EFM32 in a range of contorllers later this year.
Meter company Kamstrup is also looking to use the device for products next year.
There are 22 different EFM32G microcontroller products which will become available over the next few months, in a variety of packages including QFN32, QFN64, QFP100 and BGA112. The EFM32G operates from a single supply rail of between 1.8 and 3.8V. The operating temperature range is –40degC to +85degC. The microcontrollers provide up to 128KB Flash memory and up to 16KB of RAM.
The first products are being offered by Energy Micro in QFN64 and BGA112 profiles and are currently sampling with lead customers. Pricing for the initial 32-pin devices starts at $1.55 in 100k quantities.

Virage aims for IP powerhouse with NXP deal

So, Virage Logic is taking another step towards becoming a major IP and system on chip player with a deal to acquire key IP from NXP.
The deal sets up an R&D centre for Virage in Eindhoven, home of NXP, for advanced CMOS I/O, analogue mixed signal and System-on-Chip (SoC) infrastructure IP. These new products are expected to be commercially available in early 2011, and sit alongside the UK-based ARC configurable processor technology acquired in August this year, creating an SoC powerhouse.
Under the terms of the multi-year agreement, NXP will transfer over 160 employees and the assets associated with selected advanced CMOS libraries, IP blocks and SoC architecture along with other classes of semiconductor IP, including approximately 25 associated patent families. In return, NXP will receive 2.5 million shares of Virage Logic common stock and a share of the future revenue generated by Virage Logic from licensing the transferred IP portfolio. In addition, Virage Logic will provide to NXP services surrounding the transferred IP for a 3.5-year period, and NXP will receive a 3.5 year license to Virage Logic’s extensive standard-products semiconductor IP portfolio for all future SoC designs.
For all of this, NXP pays $60m over the next four years!
Dan McCranie, executive chairman for Virage Logic, said, “Over two years ago, we embarked on a transformation that was based on several key strategic initiatives. Amongst those initiatives were, a) the broadening of our IP product portfolio through both organic and inorganic growth and, b), establishing Virage Logic as the semiconductor industry’s Trusted IP partner. Today’s announcement with NXP represents strong progress on both of those initiatives. All of us at Virage Logic are proud of the confidence that NXP has shown in our technical teams to be selected as the IP provider to NXP for their future development. In addition, we are excited about the future ability to expand our IP offerings to the semiconductor industry through the productizing of NXP’s important IP elements.”
“Virage Logic was founded on the vision that an independent IP company could provide the technically superior building blocks the global semiconductor industry needs to develop their highly differentiated end products more cost effectively and deliver them to market more quickly,” said Dr. Alex Shubat, president, CEO and co-founder of Virage Logic.

True wireless speakers emerge with Audium

The main problem with "wireless" speakers is that they aren't - you end up replacing the speaker cable with a power cable, which can give you some advantages but really isn't the point.
Now, a Bristol startup aims to provide true wireless speakers with an audio amplifier that uses just 5% of the power of traditional amplifiers.
Audium Semiconductor has developed an amplifier architecture that can run for nearly a year off 4 C size batteries, with the first device, the AS1001, aimed squarely at wireless speakers. The architecture uses patented techniques to minise both fiexed power losses and output dependent variable power lossses with a low switch rate in the modulation.
"Traditionally audio amplifiers have only reached quoted efficiency figures at maximum output, which is like building a city car that's only efficeint at 200mph," said Huw Davies, chief commercial officer at Audium.
Altough 4 C sized batteries are still quite large, there is plenty of space in traditional speakers, giving them the flexibility to be placed anywhere in the house. With surround sound speakers there is a different challenge, as these are already small and adding the batteries would double the size of the units, but there are design tradeoffs there where styling will make a key difference. The rear surroundsound speakers also only account for 4 to 5% of the sound, so could use less batteries.
The company has rasied $8.5m for the design and development of the chip in 0.18um 30V digital technology at TSMC, and is planning a stereo device for wireless MP3 docking stations, and then looking at the automotive market.

HD video broadcast network launched by Akamai

In a move that has big implications for the developers of equipment that receives multimedia - whether tethered or portable - Akamai Technologies has launched the first platform to deliver HD video online to viewers using Adobe Flash technology, Microsoft Silverlight, and to the iPhone, at broadcast scale. The Akamai HD Network is the only solution that supports live and on-demand HD streaming with a highly-personalized and interactive online experience that matches and complements HD television.
As a first-of-its-kind streaming platform, the Akamai HD Network is designed as one, comprehensive HD network reaching multiple playback environments and devices, including Flash, Silverlight, and the iPhone. Using its globally-distributed EdgePlatform of more than 50,000 servers, the Akamai HD Network enables content providers to deliver more HD content than previously possible – due to its wide-scale distribution in 70 countries and increased throughputs in more than 900 networks.
This means that Silverlight and Flash will be a key element of any embedded multimedia software design.

The Akamai HD Network uses:
· Adaptive Bitrate Streaming - Unique network and player streaming process that is designed to enable uninterrupted playback at HD bitrates that seamlessly adjusts to fluctuations in available bandwidth to provide the best quality possible for each user
· Instant Response – Immediate response to viewer interactions with the video player, including sub-second time-shifting (such as pause, rewind, seek and play commands) video startup times, and seamless stream switching
· HD Video Player – Open, standards-based video player for faster time to market
· HD Player Authentication - Authenticates player for all three environments ensuring only authorized players access content

“Seeing is believing,” said Paul Sagan, President and CEO, Akamai. “With the Akamai HD Network, we are revolutionizing the way content traverses the Internet with a new approach to bringing an HDTV-like experience online. We’re entering a different online world, where many content owners and publishers need to deliver HD-quality video to a much wider online audience, with a higher level of interactivity for consumers. Delivering ‘web-quality’ content to ‘web-sized’ audiences is one thing, but delivering HD-quality content to broadcast-scale audiences is another.”
Two key trends have made it necessary to now evolve how streaming media is delivered on the Internet. First, online audiences have grown to broadcast scale. Second, those viewers are demanding higher quality content. Studies show that when higher quality video content is offered, viewer engagement time increases. Supporting this level of traffic requires a global network that can manage millions of simultaneous users streaming very high bitrate content. The Akamai HD Network was designed for large-scale broadcasters and film distributors looking to increase audience engagement and to expand revenues by complementing traditional mediums, such as TV and DVD, with the Internet.
The Akamai HD Network offers adaptive bitrate streaming capabilities across playback formats that are specifically optimized to work with Akamai’s HD EdgePlatform for the fastest and most consistent video bitrate switching - enabling an instant and uninterrupted viewing experience for consumers even at the highest bitrates. Leveraging Akamai’s entire HTTP footprint, video over Akamai’s HD Network is delivered from servers closer to audiences around the world. As a result, Akamai can more tightly control the amount of time the player needs to buffer before switching streams. The shorter the buffer, the faster the stream can adapt and respond to changing end-user conditions. The result is intended to create a seamless HD quality video experience – with little to no buffering.
“We are excited to see Akamai’s commitment to HTTP adaptive streaming as the future of online video delivery, as we have worked closely over the past year to build a robust end-to-end media delivery platform with IIS Smooth Streaming and Silverlight,” said Steve Sklepowich, director for Silverlight at Microsoft Corp. “Together, we’ve proven that these true HD experiences can dramatically increase online viewing times for broadcasters. In addition, Microsoft’s ability to deliver live and on-demand protected streams with Smooth Streaming and Silverlight, along with enhanced interactive experiences, such as multiple camera angles, alternate language tracks and in-stream data feeds, have raised the bar for online delivery using HTTP.”

SATA flash drives move to 62GBytes for embedded

Toshiba Electronics Europe (TEE) has moved to 32nm NAND flash technology for a series of solid state drive (SSD) modules, increasing the capacity and lowering the cost for embedded systems. The SG2 modules come in two types, one based on the new low-profile mini-SATA (mSATA) interface standard and the other a Half-Slim type, which uses a SATA connector. The drives are available in 30GB and 62GB modules. Volume production will start in October.
The two types of modules, each smaller than a business card, provide greater design flexibility and save space and cost compared to SSDs with hard disk drive form factors and cases. The 62GB module is only one seventh the volume and one eighth the weight of a 2.5-inch form factor SSD, and consumes half the power. With interface speeds up to 3Gbit/s, a maximum sequential read speed of 180MByte/s and a maximum sequential write speed of 70MByte/s,the modules will help bring the performance advantages of SSDs to notebooks, portable electronics and embedded systems. An advanced controller features a translation mode, which enables any drive configuration, and the drive supports 28-bit LBA (Logical Block Address) mode commands and 48-bit LBA mode commands. Multi-word DMA, Ultra-DMA modes and Advanced PIO commands are supported. The drives have an optional capability for secure Full Disk Encryption (FDE) backup that prevents unauthorized data access.
Embedded designers can either use the newer mobile mSATA interface where power is a key requirement, or existing, lower cost SATA.
The mSATA modules use the popular SATA interface in a small form factor module measuring 1.18 in. x 0.19 in. x 2 in. (30mm x 4.75mm x 50.95mm) that connects to the system board using a low profile SATA connector. Adaptive Power Mode and SATA Device Initiated Power Management typically reduce power consumption to less than half of the Read power level when the device is in idle, standby or sleep mode.
The Half-Slim SATA II modules feature a SATA connector, measure 1.18 in. x 0.19 in. x 2 in. (54mm x 4 mm x 39mm). The Half-Slim SATA II modules have the same SATA connector used on 2.5-inch HDD and SDD form factors. Thus, this smaller form factor can easily be used in applications designed to use 2.5-inch storage form factors. The Half Slim is also compliant to JEDEC SFF 8156.

First USB3 HD video camera

Point Grey, a Canadian developer of digital camera systems has developed the first industrial high definition video camera to use the USB3.0 standard.
It teamed up with Fresco Logic, a fabless semiconductor company that designs, develops and sells USB 3.0 chips for the launch at the 2009 Intel Developer Forum (IDF) in San Francisco. The live demonstration streamed uncompressed High Definition (HD) 1080p60 video from a Point Grey camera, equipped with a high performance Sony HD image sensor, to a USB 3.0 host controller from Fresco Logic on an ASUS P7P55D platform.
The prototype camera is designed and manufactured by Point Grey for the industrial market and uses the new 3 megapixel (MP) Sony IMX036 CMOS image sensor, which features high sensitivity, superior color fidelity, low power, and no smear. The sensor also supports an HD 1080p60 mode, which allows the camera to output raw, uncompressed 1920 x 1080 pixel images at 60 frames per second (FPS). Point Grey’s own software driver provides low-level control of the camera via the USB 3.0 bus. The camera is connected to a USB 3.0 interface card on the host side which is powered by the FL1000, a PCI Express to SuperSpeed USB Extensible Host Controller Interface (xHCI) host controller chip from Fresco Logic. The host PC uses an Intel i5-based P7P55D motherboard from ASUS.

"One of the potential benefits of the increased bandwidth of USB 3.0 is that it allows the main processor to handle compression. This means that different types of compression can be used for different applications and that some applications, like face recognition, can work on uncompressed video data for increased performance. We certainly see USB 3.0 as a key interface technology for machine and computer vision, and one we plan to integrate into future Point Grey imaging products," said said Vlad Tucakov, Director of Sales and Marketing at Point Grey.

Low power USB development kit from TI at $49

With a low power digital signal processor, Texas Instruments has managed to develop a development kit in a USB stick which drops the cost of a full-featured emulator and integrated development platform down to $49. This enables rapid creation of DSP applications including portable audio players, voice recorders, IP phones, portable medical devices, biometric USB keys, software defined radios (SDRs), hands-free headsets and metering applications. At this extremely low price point, it is the industry’s lowest cost DSP tool, making development accessible to existing and potential customers, hobbyists, researchers and students.
The TMS320VC5505 eZdsp USB stick development tool simplifies development by providing integrated features such as an on-board XDS100 emulator and on-board audio codec and connectors. Taking advantage of the energy efficient C5505 DSP, the eZdsp requires no other components or cables allowing the entire development tool to be powered by the USB port. Designers simply plug into the USB port of any laptop or workstation for hassle-free development and a simple out-of-the-box experience.
It is based on the C5505 processor, the industry’s lowest power 16-bit DSP with active power consuming less than 0.15 mW/MHz and standby power less than 0.15 mW. An on-board audio codec and connectors allow developers to evaluate many features of the C5505 processor and quickly optimize complex DSP algorithms in terms of performance and power consumption across a variety of design scenarios, and an extension connector allows developers to design and directly connect to daughter cards suitable for their application.
The C5505 eZdsp USB stick development tool is available now $49, which includes a full XDS100 emulator and a target version of the CCStudio v.4 software. Special incentives are available for educators, university students and developers actively participating in TI’s online community.

USB3 upgrade cards emerge

Taiwanese manufacturer Good Way is using the NEC USB3.0 chipset for a range of cards to support the high speed interface with the launch of Windows 7 next month.
Known for USB peripherals in Taiwan, Good Way will exhibit at the Hong Kong Electronics Autumn Edition in October, showing several USB3.0 products which will be launched by end of September.
The first USB3.0 products offered by Good Way will allow users to keep their existing hardware while upgrading to USB3.0, solving the Host compatibility issues for both Desktop and Notebook computers.
With a USB3.0 PCIe card, a desktop PC may be upgraded with two USB3.0 ports, while a USB3.0 Express card offers the same upgrade for notebook PCs.
Both of these cards are compliant to the high speed USB3.0 specifications, with the maximum data transfer rate up to 5Gbps, and with downward compatibility to USB 1.1 and USB 2.0.