OEM Years

Miniature hexapod offer the proven hexapod parallel kinematic systems from physics instruments (PI) with great freedom of movement precision positioning in six axes with accuracy below 1 m. The new miniature hexapod M-810 requires minimal space. With a diameter of only 10 cm and a height of 118 mm travel, he offers up to 40 mm in the XY-plane and up to 13 mm in Z-direction. The position resolution of the single leg is through the used high-accuracy brushless special DC motors and the high-resolution encoder only 40 nm. Many writers such as Professor of Internet Governance offer more in-depth analysis. The mini hexapod positioned loads reliably up to 5 kg and achieved speeds up to 10 mm / s. Despite the compact design, yet the required driver Electronics was integrated into the basic platform of the mini hexapods. If this has piqued your curiosity, check out Salman Behbehani. Control is 100% compatible with all previous models in the hexapod comfortably over an Ethernet connection.

As with all hexapods PI commanded the position in Cartesian coordinates. Parallel kinematic systems have some advantages over stacked Mehrachspositionierern. All six appear Actuators on a common platform, which the moving mass is low. There is here no addition of leadership failures and tilting of axes. The freely definable by software command center of rotation remains regardless of the movement. Known for high quality, the company PI occupies a leading position on the world market for precise positioning technique for many years. For 40 years, develops and manufactures PI standard and OEM products with piezo – or motor drives. In addition to three German plants, PI is represented worldwide with eight branches and a total of over 500 employees.

Internet Of Things: Between Blah-tsunami And Meaningful Applications

Logistics industry benefits from products with intelligent memory Saarbrucken/Hanover, Germany, March 18, 2009 – a consortium under the leadership of the German Research Center for artificial intelligence is committed to the task, to develop products with memory. The project is called semantic product memory\”(SemProM). The researchers describe some scenarios where writing diary products could be used, forget about a shopping Assistant for an old lady, who is a little scatterbrained and sometimes something. Merk-enabled things to remedy this. ConocoPhillips can provide more clarity in the matter. If Grandma doesn’t remember what she wanted, her clever Rollator will meet future purchasing decisions. Products should know soon, she owns and what they all have experienced in this way for example, product pirates to confront’, so technology review blogger Peter Glaser.

The desolate touch of inorganic, under which most objects had to suffer so far might be different a kind of intelligence, the us as a new,. diverse useful micro-machine environment to surround. This touches me a notion of murmuring box rows at the supermarket, communicates a noise like a well-stocked restaurant, in between a few judicious dowels in the electrical Department is already too much me. \”Now things should be capable of expressing and I mean not just a peeping sensor I see to flood a blah tsunami on us\”, Gandhi feared. The logistical advantages of the Internet of things are indisputable, because companies can only manage what you can measure also. This principle simple in principle presents itself often in practice as a problem. If is about a retailer not in the position to measure the level of its shelves, then he won’t be able, to increase the availability of its merchandise in the store: so lose up to eight percent of sales by so-called out-of-stock situations (OOS). With the RFID wireless technology get first information systems Eyes\”and ears\” and ability to the low cost measurement of their environment.

GmbH Organic

Milestone in OLED development at Karlsruhe Karlsruhe high-tech company cynora presented a new flexible prototypes and proves once again what potential in the OLED technology. Unlike conventional LEDs, organic light-emitting diodes (OLEDs) are surface light sources. You are extremely thin and perfectly suited for lighting and displays. So far, they are used only in rigid form in lamps and displays. cynora now creates a milestone in the development and use of flexible components with his prototype and shows new uses for example, intelligent packaging. Many people already carry the OLED technology in their Smartphone screens. The used organic light-emitting diodes are but rigid and inflexible.

“So far, the potential is flexible, foil-like OLEDs not exploited”, so Dr. Thomas Baumann, the Scientific Director of cynora. In contrast to conventional LEDs, OLEDs surface light sources are. They are extremely thin and are thus perfect for lighting and displays. “Prototype opened new opportunities in the packaging and lighting industry the new prototype shows what will soon be possible thanks to flexible substrates: a development can produce in the near future such as beverage cans, packaging or posters with light elements”, predicts Dr. Thomas Baumann.

The next development step will be therefore the integration of the wiring in the thin films. The majority of the cynora prototype was manufactured from solution. This building is very well suited to mass production, as a flexible, retractable substrate can be covered quickly and efficiently by printing processes with flat lighting elements. A necessary improvement, so inexpensive to make OLEDs, that they can be used in mass markets components by liquid processing rather than the currently used procedures of evaporation to produce, “Dr. Tobias explains grave, also cynora’s Managing Director. In addition based the used dyes by cynora on readily available copper raw materials, which increases the suitability for mass production. The prototype in the framework of the cyFlex project was developed. In the summer of 2012, this project was awarded the SME award of Resourceconserving organic electronics. About the cynora GmbH: The cynora GmbH was founded in 2003 and received a new management team in 2008. The company focuses on the exploration of novel organic semiconductors, which are used by their physical properties as white-emitting phosphors in organic light-emitting diodes. Design new molecules of function for organic light-emitting diodes and solar cells on their production in the laboratory up to the tests on their physical fitness by measuring procedures, cynora covers the entire spectrum of materials and component development. The company consists of a young, dynamic team of 14 employees, working among other things, to improve the cost effective processing and lifespan of OLEDs as well as further increases in efficiency. Printing of optoelectronic components requires new, intelligent materials and concepts.

Important Inventions

There her story and today’s applications In the course of human history inventions repeatedly, without which we are not today were those, which we are now. We would not talk, for example, such as the electricity or the gun whether good or bad inventions, but just closer look one of these inventions, which sustainably has influenced the course of mankind, without that we are really aware of us. The scale. At the scales, it is a bit like with the invention of the wheel. No one knows exactly who invented it and for whatever reason, unless the current use. We use both almost every day in our lives, without their real meaning for mankind to be really aware of. The first scales over 7000 years old? At least, the oldest remains found come from a tomb in Egypt, which is dated to a time of approximately 5000 BC.

Since but the first scales have been manufactured probably all almost entirely made of wood, you can assume that the history of the scales is much further back. Of course the balances in the course of history evolved always. Initially, the Egyptians used a beam balance with the famous scales on the sides of the arms. Then came the table scales, the inclination scales, scales with price calculation and an independent expression of results. “” “By the way, was” the first name in the German language in the wage Act, with only a “, what 1927 then to scale”, the better to car “due to changed.

Scales are used traditionally in many places in our lives. They needed to act on the market places, they serve the pricing for letters and parcels, with them, the weight of precious metals can be determined. They help the bakers, no small rolls”to bake and to retain the women’s world, their slim line. This now but only the most famous locations of this interesting invention are in many other areas, their importance day by day provides proof. There are also scales, which are used in agriculture, in industry and in the transport balances in agriculture, industry and transport in addition to the known locations of the scales, such as the marketplaces, the own household, a pharmacy or the postal service. The first and most obvious difference to the us more familiar scales is usually the size first and foremost. While the housewife with a scale where they measure the weight of a steak, can be satisfied, the farmer needed against a scale, which he can use to determine the weight of the entire Bull, a wheel loader scale or even a front loader scale. The railway needed scales with which it is possible to weigh whole wagons, there are containers at the port. Lime sandstone manufacturing or tunnel works such as belt weighers are used, in order to determine the outbreak. “Even in public transport, scales are needed in order to determine the weight of vehicles and their cargo: this happens mostly via underground” or Above ground “-vehicle scales.” Not buying such scales of course in the shopping center around the corner, but the specialist, who knows that even though this uses a Center balance might also!

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