A recent analysis by Industrial Economics and Knowledge (IEK) of
Industrial Technology Research Institute (ITRI), a government-sponsored
researcher, says that a free trade agreement (FTA) between China and
South Korea may gravely impact Taiwan's manufacturing industry in 3-5
years totaling some NT$600 billion (US$20 billion) in output, coupled
with exports to shrink over NT$300 billion (US$10 billion).
In
contrast South Korea will benefit from the FTA, with GDP growth of 1.76%
in addition to estimated rise of 2.95% in imports and 2.18% in exports.
Taiwan's industries to be impacted by such FTA include LCD panels,
electronic & optical items, petrochemicals, machine tools, steel
& iron, textiles etc., particularly LCD panels and polarizers that
are Taiwan's major exports to China.
Taiwan and S. Korea are
China's two major suppliers of LCD panels and polarizing plates, with
the former taking a 31% of China's LCD panel market and 33% of its
polarizing plate market, and S. Korea's corresponding percentages being
36% and 25%, respectively.
Taiwan's LCD panels and parts
industry hire over 100,000 workers, generating products of NT$1.48
trillion (US$49.33 billion) yearly, accounting for 8.2% of the island's
total manufacturing output value.
The statistics released by
the Ministry of Economic Affairs (MOEA) show that Taiwan exports to
China US$15.4 billion worth of LCD panels and US$1.2 billion worth of
plates yearly. Currently China imposes 5% tariff on imported LCD panels
and 8% on polarizing plates. A Sino-S. Korea FTA, to be inked
reportedly at the end of 2014, looks certainly to work against Taiwan in
the Chinese market.
IEK suggests that Taiwan should focus on
exploring the Asian market as the region is becoming economically
important. Today Taiwan's exports to ASEAN (Association of Southeast
Asian Nations) account for 17% of that to its top-10 export outlets. IEK
believes the impact from the Sino-S. Korea FTA may be offset by
Taiwan's raising exports to ASEAN by 5%.
IEK urges the
government to resume as soon as possible the commodity trade talks with
China and continue to try to join regional economic blocs.
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Source: http://en.ofweek.com/news/Sino-S-Korea-FTA-May-Impact-Taiwan-s-Manufacturing-Industry-by-NT-600-Billion-IEK-17220
2015年8月31日 星期一
【infrared sensors suppliers,gas sensor manufacturers,gas sensor suppliers sensors suppliers】Sensors are fundamental to Industrial IoT | en.ofweek.com
The Industrial Internet of Things (IIoT) in many respects is the
progression of distributed computing. IIoT relies on sound data to be
effective. The fundamental components of an automation (or other) system
are sensors; they are the “eyes, ears, and fingers” of any system. If
the concepts of IIoT are to succeed, we need more effective, powerful
sensors. The leaders in the Industrial Internet of Things race may well
be innovators in the development of new sensor technologies.
More computing power is being distributed upward into the cloud and also down to end devices. This architectural shift is referred to as pushing intelligence to “the edge.” The importance of sensors and powerful edge devices was emphasized again at the 2014 Internet of Things World Forum (IoTWF) in Chicago with the introduction of a seven-level IoT Reference Model. The model was developed by the IoTWF Steering Committee, which includes Intel, Rockwell Automation and Schneider-Electric. The lowest level of the reference model consists of physical devices and controllers, and includes sensors, devices, machines and other intelligent nodes.
At the IoTFW, representatives from Intel, Rockwell Automation and other suppliers talked about real-life deployments of IoT solutions in government and private sectors. Wim Elfrink, Executive Vice President for Industry Solutions and Chief Globalization Officer at Cisco, said, “The Internet of Everything is a global industry phenomenon where the intelligent networked connections between people, process, data and things make networked connections more relevant and valuable than ever before.” Read more about Elfrink’s comments at IoTWF at this blog post.
Sensor Innovation
Industrial and process systems rely on sensors for reliable and accurate data in all aspects of control and automation. There is a new wave of innovative sensors based on the application of technology to improve performance. Here are a couple of examples of new innovative sensors:
Level Measurement - Solids & Powders
Real-time measurement of level, volume and mass of bulk solids and powders in large vessels, bins and silos has been a real challenge for owners/operators. Accurate measurements are required for inventory management and process control. Very often owners/operators are required to make these measurements manually. Emerson’s Rosemount group solved this problem with the 5708 Series 3D Solids Scanners. The 5708 instrument uses acoustic waves and high speed embedded processors to provide accurate measurement information.
Previously, laser-based technologies could require several hours to take measurements and require the process to be shut down. In contrast, the 5708 scanners provide continuous volume measurements that are representative of the material’s surface. They can measure practically any kind of material, including difficult-to-measure fly ash and low-dielectric materials that would challenge other technologies. The scanner maps the uneven surface typically found in solids applications and can provide the minimum and maximum level, the total volume, and a 3D visualization of the surface.
Temperature Monitoring - Long Distances or Wide Areas
Temperature measurement and monitoring over long distances or across wide areas is another real challenge. Yokogawa solved this problem with the DTSX3000, which applies fiber optic measurement technology. Conventional techniques rely on the use of multiple surveillance cameras, thermocouples, resistance temperature detectors or other distributed temperature sensors. These techniques are cumbersome and difficult to install and maintain. The innovative Yokogawa solution has a one-meter spatial resolution that can measure the temperature along fiber-optic cables up to 50 km in length. Applications include:
•monitoring temperatures in unconventional oil and gas wells
•detecting leaks of high or low temperature liquids and gasses from pipelines or tanks
•detecting abnormal heat buildup in coal and wood chip conveyors
•monitoring conductor temperatures in power lines
What is on the horizon?
There are number of interesting developments that provide a glimpse into the near future of sensing. For example, an Israeli firm has developed the world’s first nanotech-based “electronic nose” to sniff out security threats like bombs, biological warfare agents, and toxic liquids. The system was designed by Tel Aviv-based Tracense Systems and can detect even the smallest amounts of material. “Our ‘laboratory-on-a-chip’ nano-sensors can detect a wide range of chemical threats, such as explosives, chemical and biological warfare agents, in air, solid and liquid samples, at extremely low concentrations, unmatched by existing technologies,” said Dr. Ricardo Osiroff, the company’s CEO. “Our system meets and beats the capabilities of sniffing dogs and other animals.” Think about the possibilities for manufacturing and process improvements with better sensing options.
Measurement Fundamental for Success
Innovations in measurement technologies are required to fully leverage the Internet of Things concepts. More powerful, effective sensors will provide the big data for analytics that will, in turn, improve manufacturing processes.
Simply adding software on top of automation systems will only add a limited amount of new value and functionality. Sensors that leverage embedded computing will create refined, intelligent real-time information at the data source and then communicate that information back to the supervisory or control system. The increased embedded computing at the sensor level will become more important as you further implement industrial wireless and cellular communications infrastructures at your facilities.
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Source: http://en.ofweek.com/news/Sensors-are-fundamental-to-Industrial-IoT-21282
More computing power is being distributed upward into the cloud and also down to end devices. This architectural shift is referred to as pushing intelligence to “the edge.” The importance of sensors and powerful edge devices was emphasized again at the 2014 Internet of Things World Forum (IoTWF) in Chicago with the introduction of a seven-level IoT Reference Model. The model was developed by the IoTWF Steering Committee, which includes Intel, Rockwell Automation and Schneider-Electric. The lowest level of the reference model consists of physical devices and controllers, and includes sensors, devices, machines and other intelligent nodes.
At the IoTFW, representatives from Intel, Rockwell Automation and other suppliers talked about real-life deployments of IoT solutions in government and private sectors. Wim Elfrink, Executive Vice President for Industry Solutions and Chief Globalization Officer at Cisco, said, “The Internet of Everything is a global industry phenomenon where the intelligent networked connections between people, process, data and things make networked connections more relevant and valuable than ever before.” Read more about Elfrink’s comments at IoTWF at this blog post.
Sensor Innovation
Industrial and process systems rely on sensors for reliable and accurate data in all aspects of control and automation. There is a new wave of innovative sensors based on the application of technology to improve performance. Here are a couple of examples of new innovative sensors:
Level Measurement - Solids & Powders
Real-time measurement of level, volume and mass of bulk solids and powders in large vessels, bins and silos has been a real challenge for owners/operators. Accurate measurements are required for inventory management and process control. Very often owners/operators are required to make these measurements manually. Emerson’s Rosemount group solved this problem with the 5708 Series 3D Solids Scanners. The 5708 instrument uses acoustic waves and high speed embedded processors to provide accurate measurement information.
Previously, laser-based technologies could require several hours to take measurements and require the process to be shut down. In contrast, the 5708 scanners provide continuous volume measurements that are representative of the material’s surface. They can measure practically any kind of material, including difficult-to-measure fly ash and low-dielectric materials that would challenge other technologies. The scanner maps the uneven surface typically found in solids applications and can provide the minimum and maximum level, the total volume, and a 3D visualization of the surface.
Temperature Monitoring - Long Distances or Wide Areas
Temperature measurement and monitoring over long distances or across wide areas is another real challenge. Yokogawa solved this problem with the DTSX3000, which applies fiber optic measurement technology. Conventional techniques rely on the use of multiple surveillance cameras, thermocouples, resistance temperature detectors or other distributed temperature sensors. These techniques are cumbersome and difficult to install and maintain. The innovative Yokogawa solution has a one-meter spatial resolution that can measure the temperature along fiber-optic cables up to 50 km in length. Applications include:
•monitoring temperatures in unconventional oil and gas wells
•detecting leaks of high or low temperature liquids and gasses from pipelines or tanks
•detecting abnormal heat buildup in coal and wood chip conveyors
•monitoring conductor temperatures in power lines
What is on the horizon?
There are number of interesting developments that provide a glimpse into the near future of sensing. For example, an Israeli firm has developed the world’s first nanotech-based “electronic nose” to sniff out security threats like bombs, biological warfare agents, and toxic liquids. The system was designed by Tel Aviv-based Tracense Systems and can detect even the smallest amounts of material. “Our ‘laboratory-on-a-chip’ nano-sensors can detect a wide range of chemical threats, such as explosives, chemical and biological warfare agents, in air, solid and liquid samples, at extremely low concentrations, unmatched by existing technologies,” said Dr. Ricardo Osiroff, the company’s CEO. “Our system meets and beats the capabilities of sniffing dogs and other animals.” Think about the possibilities for manufacturing and process improvements with better sensing options.
Measurement Fundamental for Success
Innovations in measurement technologies are required to fully leverage the Internet of Things concepts. More powerful, effective sensors will provide the big data for analytics that will, in turn, improve manufacturing processes.
Simply adding software on top of automation systems will only add a limited amount of new value and functionality. Sensors that leverage embedded computing will create refined, intelligent real-time information at the data source and then communicate that information back to the supervisory or control system. The increased embedded computing at the sensor level will become more important as you further implement industrial wireless and cellular communications infrastructures at your facilities.
If you want to get more about gas sensor,gas transmitter, humidity sensors suppliers, humidity sensors manufactures, infrared sensors manufactures, infrared sensors suppliers,gas sensor manufactures,gas sensor suppliers from
en.ofweek.com, please follow http://en.ofweek.com/manufacturer/sensor.
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http://en.ofweek.com/Manufacturing-Processing-Machinery-id1017
http://en.ofweek.com/Company/Apollo-Optronics-Co-Ltd-159/
Source: http://en.ofweek.com/news/Sensors-are-fundamental-to-Industrial-IoT-21282
【gas sensor,gas transmitter, humidity sensors suppliers, sensors supplier】Trillion-Sensor vision, results shared | en.ofweek.com
Saving the planet one sensor at a time, the backers of the Trillion
Sensor Summit here shared their visions and some research working toward
a fully instrumented world.
"I believe in a world with abundance -- a world without hunger, with medical care for all, with clean energy for all, no pollution," said Janusz Bryzek, chairmen and CEO of the event. "One of the components creating this world is a sensor at the bottom of the pyramid for mobile health, the Internet of Things, and wearable applications. In order to get there, we need to completely transform the economy."
Experimental chips from the Energy-Efficient Microsystems Group at UCSD's Center for Wearable Sensors. (Image: UCSD)
Abundance will require another 45 trillion sensors, many of which haven't been developed, Bryzek said. Wearable medical sensors pose enormous potential, speakers said.
Researchers at the University of California San Diego are among those driving the trend. "Elimination of poor countries by 2035… galvanizes the student population," said Albert Pisano, dean of UCSD's Jacobs School of Engineering. If I'm pumping out almost 2,000 graduates a year, and they're pumped up about this, it doesn't take much to have an army dedicated to this."
Proof-of-concepts from UCSD's Center for Wearable Sensors included small, inexpensive sensors for a variety of medical uses. For example, the center has developed a proprietary board with glucose monitoring sensors that can be plugged into any smartphone, a retinal prosthesis with an implanted integrated circuit, and wireless power for data telemetry.
Joe Wang, distinguished professor in UCSD's Department of Nanoengineering and faculty director of its wearables center, showed off a variety of very small skin sensors. Screen printed tattoos with embedded sensors can monitor metabolism, electrolytes, and stress indicators, he said. The same sensors could be worn or placed on objects to measure environmental conditions such as pollution or mineral levels in water.
Real stats moving up and to the right fueled some of the enthusiasm. The mobile sensor market grew more than 200% between 2007 and 2013, and the mobile health market is expected to lower treatment costs by 35%.
"The biggest challenges are the amount of data, processing this [data], and supporting infrastructure," Bryzek said. Global health monitoring will require the cost of sensors to drop to less than 50 cents each.
Wang's prototypes may be on the right track, with price points of $1 for the tattoos and $23 for the glucose meters. However, price isn't the only or even the main factor. Bryzek said a "dramatic shift of skills" and "massive retraining" will be needed to create the technology for a trillion sensors.
Developing that many sensors "is not inevitable," according to Steve Whalley, chief strategy officer at the MEMS Industry Group. "If it wasn't for TSensors Summit, we'd be going on an evolutionary pace, and maybe we'd get there, but it wouldn't be at the pace we need for the growing population."
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Source: http://en.ofweek.com/news/Trillion-Sensor-vision-results-shared-21103
"I believe in a world with abundance -- a world without hunger, with medical care for all, with clean energy for all, no pollution," said Janusz Bryzek, chairmen and CEO of the event. "One of the components creating this world is a sensor at the bottom of the pyramid for mobile health, the Internet of Things, and wearable applications. In order to get there, we need to completely transform the economy."
Experimental chips from the Energy-Efficient Microsystems Group at UCSD's Center for Wearable Sensors. (Image: UCSD)
Abundance will require another 45 trillion sensors, many of which haven't been developed, Bryzek said. Wearable medical sensors pose enormous potential, speakers said.
Researchers at the University of California San Diego are among those driving the trend. "Elimination of poor countries by 2035… galvanizes the student population," said Albert Pisano, dean of UCSD's Jacobs School of Engineering. If I'm pumping out almost 2,000 graduates a year, and they're pumped up about this, it doesn't take much to have an army dedicated to this."
Proof-of-concepts from UCSD's Center for Wearable Sensors included small, inexpensive sensors for a variety of medical uses. For example, the center has developed a proprietary board with glucose monitoring sensors that can be plugged into any smartphone, a retinal prosthesis with an implanted integrated circuit, and wireless power for data telemetry.
Joe Wang, distinguished professor in UCSD's Department of Nanoengineering and faculty director of its wearables center, showed off a variety of very small skin sensors. Screen printed tattoos with embedded sensors can monitor metabolism, electrolytes, and stress indicators, he said. The same sensors could be worn or placed on objects to measure environmental conditions such as pollution or mineral levels in water.
Real stats moving up and to the right fueled some of the enthusiasm. The mobile sensor market grew more than 200% between 2007 and 2013, and the mobile health market is expected to lower treatment costs by 35%.
"The biggest challenges are the amount of data, processing this [data], and supporting infrastructure," Bryzek said. Global health monitoring will require the cost of sensors to drop to less than 50 cents each.
Wang's prototypes may be on the right track, with price points of $1 for the tattoos and $23 for the glucose meters. However, price isn't the only or even the main factor. Bryzek said a "dramatic shift of skills" and "massive retraining" will be needed to create the technology for a trillion sensors.
Developing that many sensors "is not inevitable," according to Steve Whalley, chief strategy officer at the MEMS Industry Group. "If it wasn't for TSensors Summit, we'd be going on an evolutionary pace, and maybe we'd get there, but it wouldn't be at the pace we need for the growing population."
If you want to get more about gas sensor,gas transmitter, humidity sensors suppliers, humidity sensors manufactures, infrared sensors manufactures, infrared sensors suppliers,gas sensor manufactures,gas sensor suppliers from
en.ofweek.com, please follow http://en.ofweek.com/manufacturer/sensor.
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http://en.ofweek.com/Company/Apollo-Optronics-Co-Ltd-159/
Source: http://en.ofweek.com/news/Trillion-Sensor-vision-results-shared-21103
2015年8月28日 星期五
【 CNC router suppliers,CNC controller,CNC controller suppliers】Emerson signs a 10-year automation deal with BP| en.ofweek.com
BP and Emerson have signed a global agreement for Emerson Process Management, a global business of Emerson, to provide automation technologies and aftercare services for BP’s upstream oil and gas operations.
The new 10-year agreement extends the existing arrangement between the companies, allowing Emerson to provide an expanded scope of technologies and expertise that help ensure safe and competitive projects and support BP’s Field of the Future programme for enhanced operating efficiency and oil recovery.
“This agreement further underscores BP’s commitment to safe and reliable operations, as well as our commitment to remaining at the forefront of upstream oil and gas technology,” said Adrian Luckins, vice president of global project solutions at BP.
In addition to automation that helps companies like BP run their processes smoothly, safely, and efficiently, Emerson also provides services and technologies to reduce project cost and schedule risk and to improve reliability and reduce expensive downtime in ongoing operations.
The new agreement expands the companies’ existing relationship on upstream projects. Under the scope of the new agreement, Emerson will continue to supply automation system technologies, including distributed control systems and safety instrumented systems, but will now also provide valves and measurement instruments as well as technologies for supervisory control and data acquisition, asset management, and machinery health monitoring.
As main automation contractor, Emerson will also continue to deliver a range of project and support services that include system engineering, installation, configuration, testing, and ongoing support. The agreement also provides for ongoing maintenance of existing systems.
“We appreciate BP’s continued confidence in our proven ability to execute large, complex oil and gas developments,” said Steve Sonnenberg, President of Emerson Process Management.
“Our team welcomes the opportunity to put that experience to work as we help BP operate its assets safely and responsibly, get to first production more quickly and easily, maximise operating efficiency, and optimise production and yield.”
This new agreement builds on the successful collaboration between BP and Emerson on a number of major upstream projects around the world. Emerson is currently providing automation services to BP for a floating production, storage, and offloading (FPSO) vessel for the Quad 204 development and Clair Ridge offshore platform, both in the North Sea to the west of Shetland, and for the Chirag Oil Project and Shah Deniz Stage 2 project in the Caspian Sea.
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Source: http://en.ofweek.com/news/Emerson-signs-a-10-year-automation-deal-with-BP-33195
【 cnc machine suppliers,cnc cutting machine,CNC router】Auckland considers automation| en.ofweek.com
Ports of Auckland could become the first automated container port in New Zealand
Ports of Auckland could become the first automated container port in New Zealand if consultations with staff on the proposal proceed satisfactorily.
CEO, Tony Gibson said: “Auckland freight growth is relentless. To handle it we’ve pushed our performance to world class levels but we’re reaching the limit of what we can do with our current technology. We need more room. We can’t go out so we need to go up, and for that automation looks the best bet.”
While the more complex operations under the quay crane would continue to be performed by manual straddle carriers, the proposal, which would see container yard operations automated. This would involve the use of new larger 1-over-3 automated straddles replacing the 1-over-2 high machines currently in use. As a result the container stack height would be raised, increasing container capacity at the terminal by 30% increase without the need for new reclamation.
“Automation has the potential to deliver capacity, cost and environmental benefits,” said Gibson, but he warned that it would have an impact on jobs.
“Up to 50 jobs could be lost, although we would work hard to reduce this number. Staff turnover, growth in the business and some changes to the way we work would help us keep this number as low as possible. My priority is to ensure our people are looked after and helped through any change that may occur,” he said.
Unions were previously advised by the port’s management that automation was being investigated, with preliminary work showing that the idea has merit. On-going staff consultation will take around six weeks.
A scoping study to produce a detailed proposal for partial automation will also be carried out and is expected to take about three months to complete. The port has said that the results of this and the consultation will be taken into account when making a decision on whether or not to proceed further with automation. A decision is expected to be made in early 2016, following a second round of consultation.
The introduction of automated straddle carriers is expected to deliver significant savings, including a reduction of 10% in fuel use and lower carbon emissions, along with less maintenance and repair and less terminal lighting, thereby reducing electricity costs and light pollution.
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Source:http://en.ofweek.com/news/Auckland-considers-automation-33076
【gas sensor,gas transmitter, humidity sensors suppliers,sensor suppliers】GalaxyCore develops 'through-silicon' image sensor| en.ofweek.com
Fabless image sensor company GalaxyCore Inc. (Shanghai, China), which
was ranked in the top ten image sensor vendors in 2012, has announced
it has developed a technology called Through-Silicon-Illumination (TSI).
The technology is suitable for image sensors with pixel sizes of 1.75-micron down to 1.1-micron and could be extended down to 0.9-micron pixels, GalaxyCore said.
The technology brings several advantages: improved sensitivity and signal-noise ratio with reduced thermal noise, dark current, and crosstalk; high-speed and low power, allowing higher frame rates; simpler and lower-cost manufacturing based on fewer process steps.
GalaxyCore said it expects to launch 5- 8- and 13-megapixel image sensor products utilizing this technology in 2014 and 2015. It uses a 90nm logic process made for the company by Taiwan Semiconductor Manufacturing Co. Ltd. (Hsinchu, Taiwan) and will begin volume production of sensors based on the technology shortly, GalaxyCore said.
GalaxyCore, founded in 2003, owns intellectual property associated with TSI including the analog design, pixel layout, and pixel-related process technology.
"We will promptly launch 5-megapixel, 8-megapixel and 13-megapixel image sensors utilizing this TSI technology with 1.1 to 1.4-micron pixel size in the next a few months,: said GalaxyCore CEO Zhao Lixin, in a statement. "We dedicate to offer high performance and cost efficient world-class image sensors products for the fast-growing market of mobile devices such as smartphones and tablets."
Slideshare gives a snapshot of GalaxyCore business up to February 2014.
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Source: http://en.ofweek.com/news/GalaxyCore-develops-through-silicon-image-sensor-21599
The technology is suitable for image sensors with pixel sizes of 1.75-micron down to 1.1-micron and could be extended down to 0.9-micron pixels, GalaxyCore said.
The technology brings several advantages: improved sensitivity and signal-noise ratio with reduced thermal noise, dark current, and crosstalk; high-speed and low power, allowing higher frame rates; simpler and lower-cost manufacturing based on fewer process steps.
GalaxyCore said it expects to launch 5- 8- and 13-megapixel image sensor products utilizing this technology in 2014 and 2015. It uses a 90nm logic process made for the company by Taiwan Semiconductor Manufacturing Co. Ltd. (Hsinchu, Taiwan) and will begin volume production of sensors based on the technology shortly, GalaxyCore said.
GalaxyCore, founded in 2003, owns intellectual property associated with TSI including the analog design, pixel layout, and pixel-related process technology.
"We will promptly launch 5-megapixel, 8-megapixel and 13-megapixel image sensors utilizing this TSI technology with 1.1 to 1.4-micron pixel size in the next a few months,: said GalaxyCore CEO Zhao Lixin, in a statement. "We dedicate to offer high performance and cost efficient world-class image sensors products for the fast-growing market of mobile devices such as smartphones and tablets."
Slideshare gives a snapshot of GalaxyCore business up to February 2014.
If you want to get more about gas sensor,gas transmitter, humidity sensors suppliers, humidity sensors manufactures, infrared sensors manufactures, infrared sensors suppliers,gas sensor manufactures,gas sensor suppliers from
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Source: http://en.ofweek.com/news/GalaxyCore-develops-through-silicon-image-sensor-21599
【gas transmitter, humidity sensors suppliers,sensor supplier,infrared sensors suppliers】Chip market for wireless sensor networks on 23% CAGR | en.ofweek.com
The number of Internet connection will grow from 9 billion in 2014 to
100 billion devices by 2020, according to market research firm Radiant
Insights (San Francisco).
That's twice as many as the estimate from Cisco Systems Inc., which has been widely used by proponents of the Internet of Things (IoT). Radiant's figure represents a compound annual growth rate (CAGR) over the period of about 50 percent. It also four times higher than the 26 billion figure estimated by Gartner.
But as a result of this explosion of connectivity the worldwide market for chips supplying wireless sensor networks is set to grow from $2.7 billion in 2013 and reach $12 billion by 2020. This is a CAGR over the period of 23 percent.
Radiant predicts that wireless sensor networks will be used to monitor and control very many domestic, urban and industrial systems. As such this promises to produce an explosion of data much of which will be discarded as users are overwhelmed by the volume. As a result analysis of the data at within the wireless sensor network will become necessary so that alerts and meaningful information are generated at the leaf nodes.
The change from wired networks to wireless networks will add to the growth as wireless networks can have a broader reach than wired networks and are more flexible and extensible.
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Source: http://en.ofweek.com/news/Chip-market-for-wireless-sensor-networks-on-23-CAGR-21743
That's twice as many as the estimate from Cisco Systems Inc., which has been widely used by proponents of the Internet of Things (IoT). Radiant's figure represents a compound annual growth rate (CAGR) over the period of about 50 percent. It also four times higher than the 26 billion figure estimated by Gartner.
But as a result of this explosion of connectivity the worldwide market for chips supplying wireless sensor networks is set to grow from $2.7 billion in 2013 and reach $12 billion by 2020. This is a CAGR over the period of 23 percent.
Radiant predicts that wireless sensor networks will be used to monitor and control very many domestic, urban and industrial systems. As such this promises to produce an explosion of data much of which will be discarded as users are overwhelmed by the volume. As a result analysis of the data at within the wireless sensor network will become necessary so that alerts and meaningful information are generated at the leaf nodes.
The change from wired networks to wireless networks will add to the growth as wireless networks can have a broader reach than wired networks and are more flexible and extensible.
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Source: http://en.ofweek.com/news/Chip-market-for-wireless-sensor-networks-on-23-CAGR-21743
2015年8月27日 星期四
【gas sensor,sensor supplier,gas transmitter, humidity sensors suppliers】Irlynx teams with Leti to develop IR sensor on CMOS| en.ofweek.com
Irlynx SA (Meylan, France), a startup developer of infrared sensing
modules, has formed a technology partnership with CEA-Leti to develop a
CMOS infrared sensing technology.
Working with Leti's silicon, optics and photonics divisions, the two organizations expect to create a technology that will enable pyroelectric detector arrays to count people, distinguish humans and location and determine posture. The collaboration is based on the development of specific microelectronic steps above a conventional CMOS IC and on the hosting of Irlynx R&D's activities inside Leti's clean-room facilities.
Leti will provide the partnership with its expertise in advanced materials and photonics technologies while Irlynx focuses on IC design, optic integration and "on-die" data processing.
The sensor is based on CMOS-compatible proprietary uncooled thermal sensing technology made using the pyroelectric properties of polyvinylidene fluoride (PVDF). The company plans to create arrays from 16 by 16 up to more than 128 by 128 pixels formed above a CMOS wafer where the on-die processing is done. The technology has a thermal resolution of less than 1 degree C and a range of up to 15 meters or depending on the optics, the company claims. Irlynx hopes to find applications in energy saving and building management, security, assisted living and more general interactive objects.
The company was founded in 2012 by Sebastien Fabre. Fabre previously worked as a product manager for CMOS and MEMS sensors at NXP Semiconductors and Tronics. The company has received €1 million (about $1.3 million) in funding.
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Source: http://en.ofweek.com/news/Irlynx-teams-with-Leti-to-develop-IR-sensor-on-CMOS-19646
Working with Leti's silicon, optics and photonics divisions, the two organizations expect to create a technology that will enable pyroelectric detector arrays to count people, distinguish humans and location and determine posture. The collaboration is based on the development of specific microelectronic steps above a conventional CMOS IC and on the hosting of Irlynx R&D's activities inside Leti's clean-room facilities.
Leti will provide the partnership with its expertise in advanced materials and photonics technologies while Irlynx focuses on IC design, optic integration and "on-die" data processing.
The sensor is based on CMOS-compatible proprietary uncooled thermal sensing technology made using the pyroelectric properties of polyvinylidene fluoride (PVDF). The company plans to create arrays from 16 by 16 up to more than 128 by 128 pixels formed above a CMOS wafer where the on-die processing is done. The technology has a thermal resolution of less than 1 degree C and a range of up to 15 meters or depending on the optics, the company claims. Irlynx hopes to find applications in energy saving and building management, security, assisted living and more general interactive objects.
The company was founded in 2012 by Sebastien Fabre. Fabre previously worked as a product manager for CMOS and MEMS sensors at NXP Semiconductors and Tronics. The company has received €1 million (about $1.3 million) in funding.
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Source: http://en.ofweek.com/news/Irlynx-teams-with-Leti-to-develop-IR-sensor-on-CMOS-19646
【gas sensor,sensor supplier,gas transmitter, humidity sensors suppliers】Dissolvable silicon circuits and sensors | en.ofweek.com
A new generation of transient electronic devices function in water but dissolve when their function is no longer needed. (Credit: J.Rogers/UIUC)
Electronic devices that dissolve completely in water, leaving behind only harmless end products, are part of a rapidly emerging class of technology pioneered by researchers at the University of Illinois at Urbana-Champaign. Early results demonstrate the entire complement of building blocks for integrated circuits, along with various sensors and actuators with relevance to clinical medicine, including most recently intracranial monitors for patients with traumatic brain injury. The advances suggest a new era of devices that range from green consumer electronics to 'electroceutical' therapies, to biomedical sensor systems that do their work and then disappear.
John A. Rogers' research group at the Department of Materials Science and Engineering Frederick Seitz Materials Research Laboratory is leading the development of such concepts, along with all of the required materials, device designs and fabrication techniques for applications that lie beyond the scope of semiconductor technologies that are available today.
"Our most recent combined developments in devices that address real challenges in clinical medicine and in advanced, high volume manufacturing strategies suggest a promising future for this new class of technology," said Rogers. He will present these and other results at the AVS 61st International Symposium & Exhibition, being held November 9-14, 2014 in Baltimore, Md.
Practical applications might include: bioresorbable devices that reduce infection at a surgical site. Other examples are temporary implantable systems, such as electrical brain monitors to aid rehabilitation from traumatic injuries or electrical simulators to accelerate bone growth. Additional classes of devices can even be used for programmed drug delivery, Rogers said.
Such envisioned uses are all best satisfied by devices that provide robust, reliable, high performance operation, but only for a finite period of time dictated, for example, by the healing process -- they are not only biologically compatible, but they are biologically punctual, performing when and as the body needs them.
After their function has been fulfilled, they disappear through resorption into the body, thereby eliminating unnecessary device load, without the need for additional surgical operations. In terms of consumer electronics, the technology holds promise for reducing the environmental footprint of the next generation of "green" devices.
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【 cnc machining,cnc machine suppliers,cnc cutting machine】Building an enterprise-wide automation architecture | en.ofweek.com
As manufacturers collect more and more data for analysis and decision-making, the need for an enterprise-wide automation system architecture strategy becomes ever more critical.
After a couple of decades of fighting over technology turf, manufacturing and corporate IT groups still struggle over certain decisions. However, the merger of operations and information technologies in light of the industry’s push toward Big Data, remote access, cloud computing and even Internet of Things initiatives has been bringing the two groups together more than ever before.
One area where the best practices of IT are infiltrating OT (operations technology) for the better is in the approach toward building enterprise-wide automation architectures.
During Inductive Automation’s 2014 customer conference, Travis Cox, director of training at Inductive Automation shared a number of best practices for building an enterprise architecture for OT. Granted, his presentation focused on how to do this using Inductive Automation’s Ignition product, but many of his points were widely applicable to smart enterprise architecture building regardless of whose systems you may be using.
The essence of his presentation dealt with smartly managing the amount of servers, projects and templates you need to operate efficiently.
The first step in determining how many servers you need is to know your data requirements. To determine this, Cox said, you need to know:
* How many PLCs you are using;
* What kinds of PLCs they are;
* Which protocols the PLCs use;
* How many tags you have (and how many are associated with each PLC);
* How many historical tags you have;
* How quickly your system needs to process real time tag values;
* Which tags need to be read constantly;
* How many alarms you have;
* How fast you need to log historical data; and
* How long do you need to keep historical data.
Cox said that, in his experience, when asking manufacturers these questions, the typical answers he gets are: We have 100,000 tags, 25 different PLCs, and we want real time and historical data collected at a 10 second rate.
The problem is that “no SCADA software can do that,” Cox said. To step back and approach the process more realistically, you should: Keep in mind that I/Os will typically be the bottleneck to your data collection; know your PLC limit; and ask yourself how fast can your PLCs get all the data you need.
Cox says that a more realistic answer is to have:
* 75,000 real-time tags, with 50,000 being on-demand (leased at a 10 second rate), 15,000 captured at a 10 second rate; 5,000 captured at a 30 second rate, 4,000 at a one minute rate, and 1,000 at a one second rate;
* 25,000 historical tags with 5,000 captured at a one second rate, 5,000 at a 10 second rate, 10,000 at a 30 second rate, and 5,000 at a one minute rate; and
* 25 different PLCs.
Once you’ve determined your realistic data collection needs, Cox says the following best practices are the next step you should take in building your enterprise automation system architecture:
* Put leased scan class tags into a separate PLC connection than the one that holds your constant tags;
* Expression and query tags should be placed into separate scan classes;
* Stagger scan classes (e.g., 5 sec, 5.5 sec, 6 sec) to spread out the load;
* Use multiple I/O servers when you can’t read all your tags from a single machine.
* Use multiple I/O servers to distribute the device communication load in large tag systems.
* Separate you database from app server. “Keeping both on the same server means that your system is not scalable because databases require more resources,” Cox said. “The more space you give databases on a server, the better their performance.” Plus, by having databases on a dedicated server, IT can do maintenance on this server and not affect production apps like Ignition. Cox recommends that a database server have multiple cores, 8 GB+ memory, 1 TB+ hard disk space, and RAID 1+0.
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production apps like Ignition. Cox recommends that a database server have multiple cores, 8 GB+ memory, 1 TB+ hard disk space, and RAID 1+0.
2015年8月26日 星期三
【cnc machine, cnc machining,cnc machine suppliers】A Big Space for Robot in Manufacturing Industry | en.ofweek.com
Guide reading: In the recent years, the domestic robot enterprises
have mainly developed the robot application for simple and routine tasks
such as loading and unloading (including press forming), polishing,
spraying, welding and casting, which have formed a mature overall
application scheme, being a strong base for robot application in
manufacturing industry except for automotive.
Even in a down economy in this year, robot industry is still
booming. Sales volume of domestic robot enterprises like EFORT and GSK
have increased its year-on-year segment volumes by 100% in the first
half year.
The year of 2015 is the first year of robot localization. Taking
key parts as an example, the reducer of Leader Drive Co. in Suzhou has
achieved industrialization. So there is no barrier for the localization
of micro-robot under 20 kg, which is suitable for manufacturing in
general. The localization of RV reducer from Zhen Kang Co. in Nantong
will came true faster than expected. It will probably be the same case
in servo motor field. With the development of localization and
improvement of production and sales, some robotic enterprises have
gained more profits than before.
With an increasing market demand from manufacturing industry, there
is a big space for service robot. In the recent years, the domestic
robot enterprises have mainly developed the robot application for simple
and routine tasks such as loading and unloading (including press
forming), polishing, spraying, welding and casting, which have formed a
mature overall application scheme, being a strong base for robot
application in manufacturing industry except for automotive. As
estimated, the scale of domestic robot market is expected to reach 200
billion RMB in the following 5 years and giants of industrial robot
enterprise will appear to make huge space for increasement. Service
robot will win larger market capacity to provide huge assessment space
for coming into the market.
Investment advice: Because of the great demand differences of
products, we keep "hold" ratings in machinery industry. According to
increasing demands in robot industry by the development of
manufacturing, we give "buy" ratings in robot sub-industry. We estimated
that with the ongoing development of domestic robot market and
localization, it will become more and more clear for the robot
competitive landscape in the next 2 or 3 years. Giants with more than
5,000 sales volume will appear as the leading firm in the industry.
Risk prompt: There is uncertainty in the investment fluctuation of manufacturing and breakthrough in the key technology.
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【gas sensor,gas transmitter, humidity sensors suppliers】Chip market for wireless sensor networks on 23% CAGR | en.ofweek.com
The number of Internet connection will grow from 9 billion in 2014 to 100 billion devices by 2020, according to market research firm Radiant Insights (San Francisco).
Chip market for wireless sensor networks on 23% CAGR
That's twice as many as the estimate from Cisco Systems Inc., which has been widely used by proponents of the Internet of Things (IoT). Radiant's figure represents a compound annual growth rate (CAGR) over the period of about 50 percent. It also four times higher than the 26 billion figure estimated by Gartner.
But as a result of this explosion of connectivity the worldwide market for chips supplying wireless sensor networks is set to grow from $2.7 billion in 2013 and reach $12 billion by 2020. This is a CAGR over the period of 23 percent.
Radiant predicts that wireless sensor networks will be used to monitor and control very many domestic, urban and industrial systems. As such this promises to produce an explosion of data much of which will be discarded as users are overwhelmed by the volume. As a result analysis of the data at within the wireless sensor network will become necessary so that alerts and meaningful information are generated at the leaf nodes.
The change from wired networks to wireless networks will add to the growth as wireless networks can have a broader reach than wired networks and are more flexible and extensible.
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Source: http://en.ofweek.com/news/Chip-market-for-wireless-sensor-networks-on-23-CAGR-21743
Chip market for wireless sensor networks on 23% CAGR
That's twice as many as the estimate from Cisco Systems Inc., which has been widely used by proponents of the Internet of Things (IoT). Radiant's figure represents a compound annual growth rate (CAGR) over the period of about 50 percent. It also four times higher than the 26 billion figure estimated by Gartner.
But as a result of this explosion of connectivity the worldwide market for chips supplying wireless sensor networks is set to grow from $2.7 billion in 2013 and reach $12 billion by 2020. This is a CAGR over the period of 23 percent.
Radiant predicts that wireless sensor networks will be used to monitor and control very many domestic, urban and industrial systems. As such this promises to produce an explosion of data much of which will be discarded as users are overwhelmed by the volume. As a result analysis of the data at within the wireless sensor network will become necessary so that alerts and meaningful information are generated at the leaf nodes.
The change from wired networks to wireless networks will add to the growth as wireless networks can have a broader reach than wired networks and are more flexible and extensible.
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Source: http://en.ofweek.com/news/Chip-market-for-wireless-sensor-networks-on-23-CAGR-21743
2015年8月24日 星期一
【cnc machining,cnc machine suppliers,CNC router suppliers】OPAK project develops Industry 4.0 prototype stopper module | en.ofweek.com
Festo engineers say that progress is being made by the Open Engineering Platform for Autonomous Mechatronic Automation Components (OPAK) multi-partner Industry 4.0 development team and that a prototype integrated stopper module for conveyors has been developed. Festo also reported on its work with Siemens on the 4.0 inspired Multi-Carrier System for flexible machine transport capabilities.
Industry 4.0
The OPAK research project, which is subsidized in Germany by the Federal Ministry of Economics and Energy, brings together public and private organizations to develop Industry 4.0 enabling technologies. The term Industry 4.0 refers to the idea that manufacturing is undergoing a fourth industrial revolution characterized by the individualization of products under the conditions of highly flexible production. Tasks that are currently still performed by a central master computer will be taken over by components. Components will network with one another in an intelligent way, carry out their own configuration with minimal effort, and independently meet the varying requirements of production.
The first outcome of the research activities in the OPAK project is a prototype of an integrated stopper module: the CPS-Gate. Prototypes like the CPS-Gate are proof of concept of the kinds of flexible plug-and-play components that will be vital to the implementation of Industry 4.0. The CPS-Gate prototype incorporates in one component all the functionality required for stopping work piece carriers on a conveyor belt – functionality that resides today in individual components and systems, including a PLC, sensors, actuators, RFID/NFC technology and communication functions within an MES/ERP application. The CPS-Gate prototype will be incorporated within Festo Didactic Learning Systems facilities for training on Industry 4.0 concepts.
Multi-carrier systems
Festo and Siemens have collaborated on an Industry 4.0 product, the Multi-Carrier System. This machine transport system enables high flexibility in work piece transfer. The system moves work pieces freely and synchronously to the process at hand and can be integrated within the existing material flow – including seamless loading and unloading of carriages. The Multi-Carrier System allows for quick conversion of the machine to various formats to accommodate a range of product types. The Multi-Carrier System supports overall integration of transport movements, motion control functionality, and coordination of additional machine modules.
Industry 4.0 will create an environment where plant engineering will be carried out more intuitively, faster, and more efficiently than presently possible. Under Industry 4.0 individual automation components will be more intelligent and production facilities will be more flexible.
“We are dealing with two topics in the OPAK project,” said Professor Peter Post, PhD, head of corporate research and technology at Festo. “On the one hand, we are simplifying and making more efficient the engineering process for new plants. On the other hand, we are developing automation components that have a digital memory – the first step along the road to intelligent components for Industry 4.0.”
Simplifying new plant engineering processes
To make the engineering process more intuitive and efficient, a virtual emulation of the production plant is generated within an OPAK framework. This allows all processes and functions within the plant to be simulated and tested by means of engineering software before a plant is built.
Components for Industry 4.0
As a requirement for generating a virtual emulation of a production plant, the automation components must incorporate all the information needed for operation within an integrated and networked controller environment. These components must have adaptable interfaces that minimize assembly time and create as close as possible plug-and-play operation. The work that is being carried out by Festo and other OPAK program partners is focused on small scale systems that will be transferable to the factory of the future. The CPS-Gate embodies all these principles.
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Source: http://en.ofweek.com/news/OPAK-project-develops-Industry-4-0-prototype-stopper-module-33212
【cnc machine, cnc machining,cnc cutting machine,CNC router】Thorlabs to acquire fiber-optic processing company Vytran from NKT | en.ofweek.com
Vertically integrated photonics products manufacturer Thorlabs
entered into a definitive asset purchase agreement to acquire Vytran
from NKT Photonics. Vytran produces products to taper and fuse optical
fiber. Their fiber-optic processing technologies are used in a broad
range of precision applications including telecommunications, medical
components, fiber lasers, and sensing systems. A closing of the
transaction is anticipated to take place in September 2015. The
acquisition follows a string of prior photonics industry acquisitions by
Thorlabs.
"We are excited to have Vytran join the Thorlabs team," said Alex Cable, president and founder. "Their expertise and product offering are natural additions to our current fiber draw and cabling competencies. As we bring them on board, we will leverage the extensive experience Thorlabs has in nanopositioning, imaging, electronics, and mechanics to further develop their core competencies so as to remain at the forefront of current market needs while also expanding the product line to address new market opportunities."
Vytran's New Jersey manufacturing facility as well as its customer support centers in Exeter, United Kingdom and Hangzhou, China will continue to operate from their current geographical locations. In addition, Thorlabs will fully integrate Vytran's product line into its ecommerce site and provide service and support through its global offices.
Vytran supplies fiber fusion splicing and glass processing solutions for the fiber laser, sensing, medical, telecom, aerospace, and specialty fiber products markets. The company’s patented filament fusion technology is paired with machine monitoring and control capabilities to provide process control unattainable with other fusion splicing methods.
Thorlabs was founded in 1989 to serve the laser and electro-optics research market. Its integrated and diverse manufacturing assets include semiconductor fabrication of Fabry-Perot, DFB, and VCSEL lasers, fiber towers for drawing glass optical fibers (silica, fluoride, tellurite, and hollow core), MBE/MOCVD epitaxial wafer growth reactors, extensive glass and metal fabrication facilities, advanced thin-film deposition capabilities, and optomechanical and optoelectronic shops.
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"We are excited to have Vytran join the Thorlabs team," said Alex Cable, president and founder. "Their expertise and product offering are natural additions to our current fiber draw and cabling competencies. As we bring them on board, we will leverage the extensive experience Thorlabs has in nanopositioning, imaging, electronics, and mechanics to further develop their core competencies so as to remain at the forefront of current market needs while also expanding the product line to address new market opportunities."
Vytran's New Jersey manufacturing facility as well as its customer support centers in Exeter, United Kingdom and Hangzhou, China will continue to operate from their current geographical locations. In addition, Thorlabs will fully integrate Vytran's product line into its ecommerce site and provide service and support through its global offices.
Vytran supplies fiber fusion splicing and glass processing solutions for the fiber laser, sensing, medical, telecom, aerospace, and specialty fiber products markets. The company’s patented filament fusion technology is paired with machine monitoring and control capabilities to provide process control unattainable with other fusion splicing methods.
Thorlabs was founded in 1989 to serve the laser and electro-optics research market. Its integrated and diverse manufacturing assets include semiconductor fabrication of Fabry-Perot, DFB, and VCSEL lasers, fiber towers for drawing glass optical fibers (silica, fluoride, tellurite, and hollow core), MBE/MOCVD epitaxial wafer growth reactors, extensive glass and metal fabrication facilities, advanced thin-film deposition capabilities, and optomechanical and optoelectronic shops.
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【gas sensor,sensors supplier,humidity sensors suppliers,gas transmitter】Airbus hails laser airspeed sensor | en.ofweek.com
Dauphin helicopter
Aerospace and defense giant Airbus says that it has completed successful flight tests on a new laser-based sensor system from Virginia-based Optical Air Data Systems (OADS).
The system, previously developed through a series of small business innovation awards, employs laser Doppler velocimetry, a variant of lidar.
By measuring the wavelength shift induced by the scattering effect of natural particulates like ash and sand in the air, the technique is said to be able to deliver accurate airspeed information in three axes at low and even negative airspeeds. “This range of capability is not possible with pitot tubes, the longstanding industry standard for airspeed sensors,” points out Airbus.
AF447 pitot tube problems
Problems with pitot tubes during severe turbulence over the Atlantic Ocean are thought to have been a contributing factor in the crash of Air France flight 447 in June 2009, which involved an Airbus A330 aircraft.
The laser sensor system was installed on board an Airbus Dauphin 6542 helicopter for a series of flight tests conducted in Marignane, France by the company. “With the successful completion of these tests, the stage is now set for Airbus Group to work with OADS for certification, with the ultimate goal being commercialization aboard rotary wing aircraft,” it said.
In a company statement the Airbus CEO Allan McArtor said: “We are very impressed by the system's performance during flight tests and believe this technology can offer significant performance improvements in changing the way we design and operate aircraft in the future due to the accuracy and timeliness of the information.”
“This technology reflects our corporate commitment to advancing innovative technologies to benefit the aviation industry and represents a dramatic evolution for flight control systems," he added.
No icing impact
Airbus says that the OADS system can measure airspeeds as low as 20 knots, to an accuracy of better than 2 knots over the entire flight. In comparison, standard pitot tubes do not work below airspeeds of around 30 knots.
In addition, it is able to monitor the air 50-60 meters away from the aircraft. “This factor is especially significant in rotary wing applications, where airspeed measurements may be affected by the downwash effect,” Airbus says.
But as well as measuring airspeed around an aircraft, the OADS technology is also able to monitor wind and turbulence several thousand feet above and below – in principle providing pilots with the ability to select the most favorable altitude for a flight, saving fuel and offering a smoother ride.
As a result, Airbus says that its executives are examining the technology's capability in collecting wind data for “tactical en route and strategic flight planning over extended periods of time”.
Another important factor is that the optical system is not affected by icing - a dangerous condition during which ice can form in the sensor openings of pitot tubes, blocking their ability to accurately measure airspeed. That has been suggested as the reason for the sensor problems that were experienced by Air France flight 447.
"We've just scratched the surface in exploring the operational efficiencies that this technology can potentially enable," concluded McArtor.
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【gas sensor,gas transmitter, sensors supplier,humidity sensors suppliers】Canatu partners with iTouchWorks for touch sensors | en.ofweek.com
Canatu has qualified iTouchWorks as its official partner for
producing CNB Film based touch sensors. Through Canatu’s Sensor
Qualification Program, iTouchWorks has proven its capability to laser
pattern CNB Films and to produce high-performance projected capacitive
touch sensors used in flat or flexible touch screens.
After having conducted extensive tests, iTouchWorks has selected to add CNB Film based touch sensors to its product offering due to the superior optical performance of CNB Films at a competitive cost.
This partnership offers original equipment manufacturers (OEMs) in portable and wearable consumer devices an easy and fast access to CNB touch module mass manufacturing in Asia. iTouchWorks has 600 employees and its manufacturing plants are located in Shenzhen, China.
iTouchWorks’ manufacturing plant in Shenzhen has a capacity for 1.5 million touch modules per month. Canatu produces the CNB Films in Helsinki, Finland and iTouchWorks makes the modules by laser patterning, FPC bonding and substrate lamination.
“The cooperation with iTouchWorks gives our customers a direct route to high volumes of CNB touch modules out of China,” says Risto Vuohelainen, CEO at Canatu. “Our joint focus is to provide our customers with high contrast touch screens and a quick access to volume manufacturing,” continues Vuohelainen.
“With Canatu’s innovative touch technology we are able to open up totally new kinds of product possibilities for our customers,” says Leo Chen, President at iTouchworks. “By combining Canatu’s touch technology with our mass manufacturing capabilities in China, our customers can benefit from the fast route to touch display products with enhanced product features,” comments Chen.
Canatu’s touch technology is based on a new type of carbon nanomaterial which is not limited by the brittleness or metal fatigue associated with more traditional ITO (Indium Tin Oxide) and metal mesh structures used in majority of the touch display products currently. CNB Films result in touch displays with high contrast, crisp images, vivid colors and invisible touch sensor patterns. Moreover, CNB Films are highly foldable down to bending radii below 1mm, making them suitable for all kinds of curved, flexed or rolled touch display solutions.
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After having conducted extensive tests, iTouchWorks has selected to add CNB Film based touch sensors to its product offering due to the superior optical performance of CNB Films at a competitive cost.
This partnership offers original equipment manufacturers (OEMs) in portable and wearable consumer devices an easy and fast access to CNB touch module mass manufacturing in Asia. iTouchWorks has 600 employees and its manufacturing plants are located in Shenzhen, China.
iTouchWorks’ manufacturing plant in Shenzhen has a capacity for 1.5 million touch modules per month. Canatu produces the CNB Films in Helsinki, Finland and iTouchWorks makes the modules by laser patterning, FPC bonding and substrate lamination.
“The cooperation with iTouchWorks gives our customers a direct route to high volumes of CNB touch modules out of China,” says Risto Vuohelainen, CEO at Canatu. “Our joint focus is to provide our customers with high contrast touch screens and a quick access to volume manufacturing,” continues Vuohelainen.
“With Canatu’s innovative touch technology we are able to open up totally new kinds of product possibilities for our customers,” says Leo Chen, President at iTouchworks. “By combining Canatu’s touch technology with our mass manufacturing capabilities in China, our customers can benefit from the fast route to touch display products with enhanced product features,” comments Chen.
Canatu’s touch technology is based on a new type of carbon nanomaterial which is not limited by the brittleness or metal fatigue associated with more traditional ITO (Indium Tin Oxide) and metal mesh structures used in majority of the touch display products currently. CNB Films result in touch displays with high contrast, crisp images, vivid colors and invisible touch sensor patterns. Moreover, CNB Films are highly foldable down to bending radii below 1mm, making them suitable for all kinds of curved, flexed or rolled touch display solutions.
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Source:http://en.ofweek.com/news/Canatu-partners-with-iTouchWorks-for-touch-sensors-22802
【cnc machine, cnc machining,cnc cutting machine,CNC router】Voltage Regulator Chip Boosts DC-DC Conversion Efficiency | en.ofweek.com
The Californian chip-maker Maxim Integrated Products has developed a
high-voltage regulator for industrial DC-DC converter applications
which, it says, will reduce heat dissipation, improve reliability, cut
space requirements by up to 50% and external component counts by 75%.
The
Max17503 chip, designed specifically for industrial control and
automation applications, is suitable for PLCs, CNC systems and
distributed I/O modules in industrial process control, motor control,
power grid, and building automation applications.
By
integrating two Mosfet switches and eliminating the need for an
external Schottky diode, the chip is claimed to deliver higher power
efficiencies, and to operate 50% cooler than any other industrial HV
DC–DC converter.
The synchronously-rectified DC–DC step-down converter chip
operates from 4.5–60V and delivers output currents up to 2.5A. Maxim
says that the ability to operate at 60V will eliminate the need for
external protection circuitry and extend design margins in harsh
industrial applications.
“Synchronous
rectification in switching regulators at high voltages and currents on a
single chip requires advanced process technology and innovative IC
design,” says Anil Telikepalli, Maxim’s director of business management.
“As the first company to bring synchronous rectification to HV
applications, Maxim delivers unparalleled power efficiency and size
advantage to industrial customers who can now leapfrog their
competition.”
Prices for the new chip will start at less than $2 in quantities of 1,000 or more.
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【 gas sensor,gas transmitter, infrared sensors suppliers,sensor supplier】Sony to cut TV, smartphone lineup; sees growth in PlayStation, image sensors | en.ofweek.com
The logo of Sony Corp and a Christmas tree are reflected on the company's 4K television set at the company's headquarters in Tokyo November 18, 2014. (Credit: Reuters/Toru Hanai)
Japan's loss-making Sony Corp plans to slash its TV and mobile phone product line-ups to cut costs, counting on multi-billion dollar revenue surges for its buoyant PlayStation 4 and image sensor businesses over the next three years.
Having lost ground to nimbler rivals like Apple Inc and Samsung Electronics Co Ltd in consumer electronics, Sony said on Tuesday its goal for TV and smartphones is to turn a profit, even if sales slide as much as 30 percent.
"We're not aiming for size or market share but better profits," Hiroki Totoki, Sony's newly appointed chief of its mobile division told an investors' conference. A poor showing by its Xperia smartphones has weighed heavily on recent earnings and Sony said more detail on plans for the unit will be unveiled before end-March.
With cost cuts on the way in some divisions, Sony is also not planning to renew its FIFA soccer sponsorship contract next year, people familiar with the matter told Reuters.
Under its new three-year electronics business plan, Sony said it was aiming to boost sales for its videogame division by a quarter to as much as 1.6 trillion yen ($13.6 billion). It said that will be helped by personalized TV, video and music distribution services that should lift revenue per paying user.
At its devices division, which houses its image sensor business, Sony said sales could increase 70 percent to as much as 1.5 trillion yen. Sony's sensor sales are already robust, with Apple using them in its iPhones while Chinese handset manufacturers are increasingly adopting them.
In a similar event last week for its entertainment units, the conglomerate said it was aiming to lift its movie and TV programming revenues by a third over the next three years.
Shares in Sony finished 6 percent higher on hopes that the new measures show a greater sense of restructuring urgency, while the Nikkei 225 index rose 0.3 percent.
"There's a lot of expectation for Sony now, but nothing is sure until there are results," said Ichiyoshi Asset Management chief fund manager Akino Mitsushige. "Getting out of the mobile market is an option, but they can't do that now, so they will need to make some fundamental changes."
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Source: http://en.ofweek.com/news/Sony-to-cut-TV-smartphone-lineup-sees-growth-in-PlayStation-image-sensors-21665
【gas sensor,gas transmitter, sensor suppliers,humidity sensors suppliers】Chip market for wireless sensor networks on 23% CAGR | en.ofweek.com
The number of Internet connection will grow from 9 billion in 2014 to
100 billion devices by 2020, according to market research firm Radiant
Insights (San Francisco).
That's twice as many as the estimate from Cisco Systems Inc., which has been widely used by proponents of the Internet of Things (IoT). Radiant's figure represents a compound annual growth rate (CAGR) over the period of about 50 percent. It also four times higher than the 26 billion figure estimated by Gartner.
But as a result of this explosion of connectivity the worldwide market for chips supplying wireless sensor networks is set to grow from $2.7 billion in 2013 and reach $12 billion by 2020. This is a CAGR over the period of 23 percent.
Radiant predicts that wireless sensor networks will be used to monitor and control very many domestic, urban and industrial systems. As such this promises to produce an explosion of data much of which will be discarded as users are overwhelmed by the volume. As a result analysis of the data at within the wireless sensor network will become necessary so that alerts and meaningful information are generated at the leaf nodes.
The change from wired networks to wireless networks will add to the growth as wireless networks can have a broader reach than wired networks and are more flexible and extensible.
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Source: http://en.ofweek.com/news/Chip-market-for-wireless-sensor-networks-on-23-CAGR-21743
That's twice as many as the estimate from Cisco Systems Inc., which has been widely used by proponents of the Internet of Things (IoT). Radiant's figure represents a compound annual growth rate (CAGR) over the period of about 50 percent. It also four times higher than the 26 billion figure estimated by Gartner.
But as a result of this explosion of connectivity the worldwide market for chips supplying wireless sensor networks is set to grow from $2.7 billion in 2013 and reach $12 billion by 2020. This is a CAGR over the period of 23 percent.
Radiant predicts that wireless sensor networks will be used to monitor and control very many domestic, urban and industrial systems. As such this promises to produce an explosion of data much of which will be discarded as users are overwhelmed by the volume. As a result analysis of the data at within the wireless sensor network will become necessary so that alerts and meaningful information are generated at the leaf nodes.
The change from wired networks to wireless networks will add to the growth as wireless networks can have a broader reach than wired networks and are more flexible and extensible.
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Source: http://en.ofweek.com/news/Chip-market-for-wireless-sensor-networks-on-23-CAGR-21743
2015年8月21日 星期五
【gas sensor manufacturer,gas sensor supplier,sensor supplier】Airbus hails laser airspeed sensor | en.ofweek.com
Dauphin helicopter
Aerospace and defense giant Airbus says that it has completed successful flight tests on a new laser-based sensor system from Virginia-based Optical Air Data Systems (OADS).
The system, previously developed through a series of small business innovation awards, employs laser Doppler velocimetry, a variant of lidar.
By measuring the wavelength shift induced by the scattering effect of natural particulates like ash and sand in the air, the technique is said to be able to deliver accurate airspeed information in three axes at low and even negative airspeeds. “This range of capability is not possible with pitot tubes, the longstanding industry standard for airspeed sensors,” points out Airbus.
AF447 pitot tube problems
Problems with pitot tubes during severe turbulence over the Atlantic Ocean are thought to have been a contributing factor in the crash of Air France flight 447 in June 2009, which involved an Airbus A330 aircraft.
The laser sensor system was installed on board an Airbus Dauphin 6542 helicopter for a series of flight tests conducted in Marignane, France by the company. “With the successful completion of these tests, the stage is now set for Airbus Group to work with OADS for certification, with the ultimate goal being commercialization aboard rotary wing aircraft,” it said.
In a company statement the Airbus CEO Allan McArtor said: “We are very impressed by the system's performance during flight tests and believe this technology can offer significant performance improvements in changing the way we design and operate aircraft in the future due to the accuracy and timeliness of the information.”
“This technology reflects our corporate commitment to advancing innovative technologies to benefit the aviation industry and represents a dramatic evolution for flight control systems," he added.
No icing impact
Airbus says that the OADS system can measure airspeeds as low as 20 knots, to an accuracy of better than 2 knots over the entire flight. In comparison, standard pitot tubes do not work below airspeeds of around 30 knots.
In addition, it is able to monitor the air 50-60 meters away from the aircraft. “This factor is especially significant in rotary wing applications, where airspeed measurements may be affected by the downwash effect,” Airbus says.
But as well as measuring airspeed around an aircraft, the OADS technology is also able to monitor wind and turbulence several thousand feet above and below – in principle providing pilots with the ability to select the most favorable altitude for a flight, saving fuel and offering a smoother ride.
As a result, Airbus says that its executives are examining the technology's capability in collecting wind data for “tactical en route and strategic flight planning over extended periods of time”.
Another important factor is that the optical system is not affected by icing - a dangerous condition during which ice can form in the sensor openings of pitot tubes, blocking their ability to accurately measure airspeed. That has been suggested as the reason for the sensor problems that were experienced by Air France flight 447.
"We've just scratched the surface in exploring the operational efficiencies that this technology can potentially enable," concluded McArtor.
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Source:http://en.ofweek.com/news/Airbus-hails-laser-airspeed-sensor-22927
【gas sensor,sensor supplier, humidity sensors suppliers】KPMG: Sensors, big data, medical are hot in 2015 | en.ofweek.com
Cautious optimism characterizes the outlook for 2015 according to the
annual Global Semiconductor Industry Survey conducted by audit and
consultancy firm KPMG LLP.
KPMG surveyed 155 semiconductor industry business leaders in companies from all over the world and deduced that the semiconductor industry confidence index edged higher to 59, up from 57 a year ago. A value above 50 is an optimistic outlook on the business environment for the next 12 months. The index is based on survey responses to questions on revenue, profitability, workforce, capital spending and R&D investment.
Growth or no growth?
The respondents do not agree on what stage the semiconductor market is at in terms of its boom-bust cycle. Thus 37 percent believe the industry will be in late expansion in 2015, while 19 percent believe the market will move from growth to contraction during the year, while 8 percent said the semiconductor industry is no longer cyclical!
More than 80 percent of the executives surveyed expect the market to show revenue growth in 2015 but at lower percentage rates than in 2015. Less semiconductor executives than a year ago anticipated 6 to 10 percent growth, while more of them saw a one to five percent increase.
Sensors: highest growth product
In terms of product categories with the most growth the majority of survey respondents (61 percent) predicted sensors will provide the strongest sector growth opportunity in 2015. In terms of end markets, medical (66 percent) and networking and communications (62 percent) will provide the strongest growth opportunity in 2015, according to semiconductor executives.
The biggest drivers of semiconductor revenue in 2015 will be data centers and mobile equipment but over the next three years the semiconductor executives highlighted robotics, automotive sensors, medical imaging, biometrics and security, and wearables as the most important markets.
Three sides of the same coin
The biggest challenge the semiconductor industry faces over the next three years is the rising cost of R&D, according to 43 percent of the respondents. Another 37 percent said a lack of technology to maintain the progress of Moore's Law while 32 percent said the high cost of equipment and plant was the problem.
When asked specifically about Moore's Law, 26 percent of the semiconductor company business leaders said they expected the benefits of Moore's Law to continue for the foreseeable future, while 16 percent said it has already ended. Fifty-eight percent said Moore's Law ceases to apply at manufacturing nodes below 22nm.
450mm wafers pushed back
In a shift from the findings of the 2013 survey, 54 percent said the transition to chip manufacturing on 450mm-diameter wafers will occur between 2015 and 2018, though more likely in 2017-2018 (39 percent). In last year's survey, 63 percent believed the transition would occur by 2018.
Spending up, mergers down
Additional findings included that: 83 percent of those surveyed said that their company's semiconductor-related capital spending will increase for the next year, with 22 percent expecting an increase greater than 10 percent. Last year, just 12 percent said spending would increase by more than 10 percent. Two-thirds, down from 73 percent last year, anticipated an increase in the number of merger and acquisition deals in the industry next year.
KPMG's study, conducted in September, surveyed 155 semiconductor industry business leaders, primarily senior level executives, including device, foundry and fabless manufacturers. More than 87 percent of the companies represented in the survey have annual revenue of $1 billion or more.
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Source: http://en.ofweek.com/news/KPMG-Sensors-big-data-medical-are-hot-in-2015-22372
KPMG surveyed 155 semiconductor industry business leaders in companies from all over the world and deduced that the semiconductor industry confidence index edged higher to 59, up from 57 a year ago. A value above 50 is an optimistic outlook on the business environment for the next 12 months. The index is based on survey responses to questions on revenue, profitability, workforce, capital spending and R&D investment.
Growth or no growth?
The respondents do not agree on what stage the semiconductor market is at in terms of its boom-bust cycle. Thus 37 percent believe the industry will be in late expansion in 2015, while 19 percent believe the market will move from growth to contraction during the year, while 8 percent said the semiconductor industry is no longer cyclical!
More than 80 percent of the executives surveyed expect the market to show revenue growth in 2015 but at lower percentage rates than in 2015. Less semiconductor executives than a year ago anticipated 6 to 10 percent growth, while more of them saw a one to five percent increase.
Sensors: highest growth product
In terms of product categories with the most growth the majority of survey respondents (61 percent) predicted sensors will provide the strongest sector growth opportunity in 2015. In terms of end markets, medical (66 percent) and networking and communications (62 percent) will provide the strongest growth opportunity in 2015, according to semiconductor executives.
The biggest drivers of semiconductor revenue in 2015 will be data centers and mobile equipment but over the next three years the semiconductor executives highlighted robotics, automotive sensors, medical imaging, biometrics and security, and wearables as the most important markets.
Three sides of the same coin
The biggest challenge the semiconductor industry faces over the next three years is the rising cost of R&D, according to 43 percent of the respondents. Another 37 percent said a lack of technology to maintain the progress of Moore's Law while 32 percent said the high cost of equipment and plant was the problem.
When asked specifically about Moore's Law, 26 percent of the semiconductor company business leaders said they expected the benefits of Moore's Law to continue for the foreseeable future, while 16 percent said it has already ended. Fifty-eight percent said Moore's Law ceases to apply at manufacturing nodes below 22nm.
450mm wafers pushed back
In a shift from the findings of the 2013 survey, 54 percent said the transition to chip manufacturing on 450mm-diameter wafers will occur between 2015 and 2018, though more likely in 2017-2018 (39 percent). In last year's survey, 63 percent believed the transition would occur by 2018.
Spending up, mergers down
Additional findings included that: 83 percent of those surveyed said that their company's semiconductor-related capital spending will increase for the next year, with 22 percent expecting an increase greater than 10 percent. Last year, just 12 percent said spending would increase by more than 10 percent. Two-thirds, down from 73 percent last year, anticipated an increase in the number of merger and acquisition deals in the industry next year.
KPMG's study, conducted in September, surveyed 155 semiconductor industry business leaders, primarily senior level executives, including device, foundry and fabless manufacturers. More than 87 percent of the companies represented in the survey have annual revenue of $1 billion or more.
If you want to get more about gas sensor,gas transmitter, humidity sensors suppliers, humidity sensors manufactures, infrared sensors manufactures, infrared sensors suppliers,gas sensor manufactures,gas sensor suppliers from
en.ofweek.com, please follow http://en.ofweek.com/manufacturer/sensor.
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Source: http://en.ofweek.com/news/KPMG-Sensors-big-data-medical-are-hot-in-2015-22372
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