Thursday, December 15, 2011
There is a growing demand from combatant commanders, law enforcement officers and political establishments for NLW capabilities. This demand is driven by the need to help them win the hearts and minds of the non-combatant population and prevent world outcry and media attention due to non-combatant casualties. As a result, many governments have entered into non-lethal weapons R&D and procurement dedicated to the full spectrum of public safety, law enforcement, crowd control and asymmetric warfare.
The new Non-Lethal Weapons: Technologies & Global Market - 2012-2020 report is the first and only comprehensive study of the emerging NLW market. In this report HSRC analysts forecast that the NLW market will triple towards 2020. The growth will be accelerated in 2016-2020 to a 17% CAGR due to pipeline NLW technologies.
The report, segmented into 61 sub-markets, offers for each sub-market 2011 data and 2012-2020 forecasts and analysis. In more than 320 pages, 124 tables and 99 figures, the report analyses and projects the 2012-2020 market and technologies from several perspectives, including:
* Market forecast by user sector: military and law enforcement sectors
* Market forecast by application: (e.g., blunt impact NLW, disperse NLW, anti-vehicle NLW, non-lethal ammunition, NLW RDT&E)
* National markets in 16 leading countries, (e.g., US, UK, Germany, France, Saudi Arabia, China, India, Japan, South Korea, Israel, Brazil)
* The NLW Industry: Vendors , Products, Prices ,Performance and RDT&E programs
* Market analysis (e.g., market drivers & inhibitors, SWOT analysis)
* Business environment (e.g., competitive analysis, recent contracts)
* Current and pipeline technologies
* Business opportunities and challenges
Wednesday, December 14, 2011
Twine is a wireless module tightly integrated with a cloud-based service. The module has WiFi, on-board temperature and vibration sensors, and an expansion connector for other sensors. Power is supplied by the on-board mini USB or two AAA batteries (and Twine will email you when you need to change the batteries).
For $99 to support the project development, you can monitor temperature and motion with one module and receive a text message, Twitter or e-mail if the conditions you set are exceeded. There is a simple web interface to setup the module and conditions of your choice with each sensor. The WiFi module comes with a built-in temperature and accelerometer and you can add other external sensors for things such as moisture, magnetic switch, etc. which you can add via an external connector board.
Applications include sensing water in your basement, opening of doors, washer/dryer is finished, etc. They have already exceeded their funding goal by a huge margin but you can order the various configurations on the KickStarter website for delivery in March of 2012.
The Quattro (patent pending) is the first product in the industry that replaces a standard electrical wall outlet with four powerful USB charging ports. The Quattro's four USB ports deliver a combined output of 22Watts, making the Quattro the most powerful in-wall charging solution available anywhere. The Quattro also features an innovative (patent pending) tamper-resistant door that when closed completely eliminates standby power, also known as vampire power. The Quattro has the ability to replace four bulky USB AC adapters with one wall outlet.
The Duo (patent pending) features two powerful in-wall USB charging ports delivering 16Watts of output power from a standard 110V wall outlet. The Duo's advanced power management design gives the consumer a total of four charging solutions, two USB charging ports and two standard US/CAN sockets from a single wall outlet. This makes the Duo the second most powerful in-wall charging solution available in the market today, surpassed only by the Quattro. The Duo supports 15Amp and 20Amp wall receptacles.
The Quattro and Duo USB Wall Outlets, with their energy-saving design, are ideal for both commercial and residential applications. They are powerful enough to provide the fastest charge available to even the most power-hungry portable devices, such as Apple's iPad® and iPhone® as well as Android® smartphones and tablets. The Quattro and Duo outlets are designed to maximize charging power and wall outlet space available for charging, while eliminating unnecessary charging wall clutter.
The Current Werks USB wall outlets are priced at $39.98 for the Quattro and $24.98 for the Duo
Tuesday, December 13, 2011
At end of November, IDTechEx held the world's largest printed electronics and photovoltaics conference and tradeshow in Silicon Valley at the Santa Clara Convention Center. This show brought together more than 1300 attendees from 28 countries. Players active across the entire value chain were present; covering the full range from research organisations to end-users, and from small start-ups to multi-billion internationals.
Mr Raghu Das, CEO, IDTechEx, opened the show with his keynote speech, arguing that there lies a great untapped market opportunity in offering final integrated products. Indeed, product integrators are in the privileged position of being able to cherry pick the best materials from an ever expanding range of options. This conclusion is supported by IDTechEx statistics showing that 97% of all companies profiled are currently offering only materials and/or components, and not final products. Therefore, IDTechEx is excited to see the printed electronics world evolve towards its next step, which will witness more and more final solutions and/or products appearing on the market.
New printed electronics products
Indeed, things are already moving quickly, as testified by a range of end-user companies including Proctor and Gamble (P&G), MWV Packaging, Boeing, Decathlon SA and more. A notable example was from P&G, the world's largest consumer packaged goods company with sales of more than $80 billion, which unveiled a decorative tissue box featuring an electroluminescent (EL) display. Here the product consisted of two parts: an interchangeable tissue box featuring the display and a fixed base providing the circuitry and power required to drive the EL display. This will be in stores this season. Also interesting was the novel anti-theft packaging produced by MWV Packaging in collaboration with Vorbeck. This product, which won IDTechEx's Best Product Development award, features a low-cost printed flexible graphene conducting layer and will be used in Home Depot stores in 2012.
Boeing discussed their current use of printed electronics as a bird strike detector in aircraft.
System and device manufacturers also presented their latest progress. PolymerVision showcased their truly rollable display capable of showing animated images. This is good news for printed electronics as flexible displays could provide a platform for a plethora of printed components, enabling large new markets. These include flexible Indium Thin Oxide (ITO) replacement, printed thin film transistors (TFTs), printed OLEDs, etc. However, replacing vacuum processed devices still remains ambitious, not least because printed TFTs will struggle in the near future to match the performance of the mature organic and the emerging metal oxide TFT technologies. For more information on Thin Film Transistors read the report from IDTechEx; "Printed and Thin Film Transistors and Memory 2011-2021" www.IDTechEx.com/tftc.
Printed sensors and actuators are also showing very promising signs of rapid improvement. PST Sensors offered a printed silicon-based temperature sensor that could be employed as a touch screen. Peratech offered a quantum-tunnelling ink that would change its conductivity by as much as 16 orders of magnitude when pressed with a finger! The Peratech ink can be formulated in opaque, translucent and transparent formats. This technology, which won IDTechEx's Best Commercialisation Award, could extend touch screen capability to a vast array of substrates and products. Artificial Muscle, Inc showcased their morphiepulseTM technology in the "Demonstration Street" area. This technology can bring a high definition feel to touch screens by printing voltage-controlled actuators. This means that touch screens can respond back to users in a fun and intelligent way, giving rise to different vibration modes for different events.
A large variety of different conductive inks were also on show. The inks were differentiated on the basis of their conductivity and price. Nanoparticle inks (Nanogap, Nanomas, Intrinsiq, PChem, Applied Nanotech etc) claimed the higher conductivity ground with higher cost. Traditional flake-based polymer thick films (Dupont, Dow International, etc) offered low-cost and familiarity, but that came at the expense of conductivity at the same temperature. All have an opportunity depending on the application. Copper oxide nanoparticles (Novacentrix) offered truly low-cost inks suitable for high-volume applications such RFID tags, but mandate the use of special equipment to provide high-intensity light pulses. Graphene inks (Vorbeck) were also presented, plugging a gap in the market which requires low cost, moderate conductivity and flexibility.
Conductive inks offering high levels of optical transparency are also becoming a viable ITO replacement option. Most notably, Cambrios announced that their silver nanowire inks are now in hundreds of thousands of Samsung cell phones. This represents a significant endorsement of their technology and a clear leapfrog towards capturing a portion of the $3 billion ITO market. Moreover, Evonik brought an exciting nanoparticle ITO ink to the play that could be printed only where needed thus doing away with the subtractive and wasteful sputter-etch process predominantly used today.
There is currently no one-size-fits-all solution on the conductive ink market. They are a variety of technologies, each sitting in its own niche based on its own attributes. Breaking into mature multibillion dollar markets traditionally served by polymer thick films is one strategy - the other is to deploy the new functionality (such as better conductors on flexible substrates) to do new things. This however still remains a challenge.
While such presentations bear testimony that printed electronics is indeed fast making significant progress and inroads into markets, they also highlight critical challenges that lie ahead. From the end user prospective, these include the fact that the current state of the market largely requires them to take on the challenge of product design and integration. And from the prospective of material/component providers, these include the delay in the realisation of high-volume markets that would enable printed electronics to realise its ultimate promise of being truly low cost.