801 resources related to Mechanical cables
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ICC 2021 - IEEE International Conference on Communications
IEEE ICC is one of the two flagship IEEE conferences in the field of communications; Montreal is to host this conference in 2021. Each annual IEEE ICC conference typically attracts approximately 1,500-2,000 attendees, and will present over 1,000 research works over its duration. As well as being an opportunity to share pioneering research ideas and developments, the conference is also an excellent networking and publicity event, giving the opportunity for businesses and clients to link together, and presenting the scope for companies to publicize themselves and their products among the leaders of communications industries from all over the world.
The conference program will consist of plenary lectures, symposia, workshops and invitedsessions of the latest significant findings and developments in all the major fields of biomedical engineering.Submitted papers will be peer reviewed. Accepted high quality papers will be presented in oral and postersessions, will appear in the Conference Proceedings and will be indexed in PubMed/MEDLINE
The PCIC provides an international forum for the exchange of electrical applications technology related to the petroleum and chemical industry. The PCIC annual conference is rotated across North American locations of industry strength to attract national and international participation. User, manufacturer, consultant, and contractor participation is encouraged to strengthen the conference technical base. Success of the PCIC is built upon high quality papers, individual recognition, valued standards activities, mentoring, tutorials, networking and conference sites that appeal to all.
The International Conference on Robotics and Automation (ICRA) is the IEEE Robotics and Automation Society’s biggest conference and one of the leading international forums for robotics researchers to present their work.
Innovative Smart Grid Technologies
Contains articles on the applications and other relevant technology. Electronic applications include analog and digital circuits employing thin films and active devices such as Josephson junctions. Power applications include magnet design as well asmotors, generators, and power transmission
Broad coverage of concepts and methods of the physical and engineering sciences applied in biology and medicine, ranging from formalized mathematical theory through experimental science and technological development to practical clinical applications.
IEEE Communications Magazine was the number three most-cited journal in telecommunications and the number eighteen cited journal in electrical and electronics engineering in 2004, according to the annual Journal Citation Report (2004 edition) published by the Institute for Scientific Information. Read more at http://www.ieee.org/products/citations.html. This magazine covers all areas of communications such as lightwave telecommunications, high-speed data communications, personal communications ...
Telephone, telegraphy, facsimile, and point-to-point television, by electromagnetic propagation, including radio; wire; aerial, underground, coaxial, and submarine cables; waveguides, communication satellites, and lasers; in marine, aeronautical, space and fixed station services; repeaters, radio relaying, signal storage, and regeneration; telecommunication error detection and correction; multiplexing and carrier techniques; communication switching systems; data communications; and communication theory. In addition to the above, ...
Electrical insulation common to the design and construction of components and equipment for use in electric and electronic circuits and distribution systems at all frequencies.
Proceedings of the American Institute of Electrical Engineers, 1909
To those not closely in touch with the telephone situation to-day, the importance of the modern telephone cable may be indicated by stating that of the 8,000,000 miles of wire in the exchange plants of the Associated Bell telephone companies, more than 6,800,000 miles are in the form of underground, aerial, or submarine cable. These figures refer solely to the ...
Electrical Engineering, 1938
Application of a recently developed method whereby it is possible virtually to see the voids in the layer structure of high voltage cable insulation shows most such insulation to be mechanically irregular. Lack of mechanical uniformity in the cable as manufactured is responsible for much of the ionization after the load cycle, and probably to a great extent for ionization ...
OCEANS '87, 1987
'Challenges of Our Changing Global Environment'. Conference Proceedings. OCEANS '95 MTS/IEEE, 1995
A high reliability, long life fiber optic branching unit has been successfully installed as part of a 1.2 Gbit/second fiber optic telecommunication system off the coast of California. This branching unit will be used to connect a second offshore site into the existing network at a later date. The installed branching unit allows future expansion to be accomplished without grappling ...
IEEE Transactions on Magnetics, 1981
A pulsed superconducting magnet with a stored energy of 375 kJ has been developed. The central field is 6 T at 2510 A. The conductor is a compacted strand cable which is composed of 23 strands. Each copper-stabilized filament in the strand is separated by a hexagonal cupronickel wall. The cable is not solder filled and thus not mechanically rigid. ...
High-current HTS cables for magnet applications - ASC-2014 Plenary series - 8 of 13 - Thursday 2014/8/14
EMBC 2011-Workshop- Biological Micro Electro Mechanical Systems (BioMEMS): Fundamentals and Applications-Utkan Demirci
EMBC 2011-Workshop- Biological Micro Electro Mechanical Systems (BioMEMS): Fundamentals and Applications-Ali Khademhosseini
EMBC 2011-Workshop- Biological Micro Electro Mechanical Systems (BioMEMS): Fundamentals and Applications-Mehmet R. Dokmeci
EMBC 2011-Workshop-Biological Micro Electro Mechanical Systems (BioMEMS): Fundamentals and Applications-Michelle Khine
MIRAI Program and the New Super-high Field NMR Initiative in Japan - Applied Superconductivity Conference 2018
Robotics History: Narratives and Networks Oral Histories: Yoshiaki Shirai
APEC 2013 MicroMouse Competition
Robotics History: Narratives and Networks Oral Histories:Mark Yim
Maker Faire 2008: Babbage's Difference Engine No. 2 Replica
Microstructure-Property Correlations in Superconducting Wires - Applied Superconductivity Conference 2018
Part One: Interview with Grant Imahara—IEEE VIC Summit 2018
Analog Devices SP4T RF MEMS Switch with Integrated Driver Circuitry for RF Instrumentation: MicroApps 2015 - Analog Devices
Zhun Fan - Mechatronic Design Automation Using Evolutionary Approaches
Sustainable Energy Explored At Solar Splash
Young Engineering Innovators Emerge at Solar Splash
Life Sciences Grand Challenge Conference - Roger Kamm
Capturing Sound with Smoke and Lasers
ICRA Keynote: Dr. Shigeo Hirose
To those not closely in touch with the telephone situation to-day, the importance of the modern telephone cable may be indicated by stating that of the 8,000,000 miles of wire in the exchange plants of the Associated Bell telephone companies, more than 6,800,000 miles are in the form of underground, aerial, or submarine cable. These figures refer solely to the wire used for outside construction and do not include the thousands of miles of wire in cable form employed in central offices or the wiring of large buildings.
Application of a recently developed method whereby it is possible virtually to see the voids in the layer structure of high voltage cable insulation shows most such insulation to be mechanically irregular. Lack of mechanical uniformity in the cable as manufactured is responsible for much of the ionization after the load cycle, and probably to a great extent for ionization break-down. Application of the method and of supplementary methods should lead to better load cycle stability, improved installation practice, and ultimately to reduced insulation thicknesses.
A high reliability, long life fiber optic branching unit has been successfully installed as part of a 1.2 Gbit/second fiber optic telecommunication system off the coast of California. This branching unit will be used to connect a second offshore site into the existing network at a later date. The installed branching unit allows future expansion to be accomplished without grappling and with a minimum of at-sea time. The design, test, fabrication and installation of the branching unit is discussed. Branching unit applications for telecommunication systems are also discussed. Modern in-water fiber optic cable systems require flexibility in configuration and capabilities. Incorporating a high reliability, long life branching units in the system design allows more options in network configuration when compared to a simple point-to-point cable. This is particularly true of a scalloped or festooned system where a high fiber count trunk cable in conjunction with branching units allows fibers to be split out at different shore landings. The installation method described involves a pre-packaged branch unit included as part of the main cable system. Multiple branch units can be installed serially, allowing multiple branch connections to be installed in one exercise. The branching unit includes a branch cable which can be recovered and deployed as appropriate. The branch cable is terminated in an end housing which is essentially half of a splice box. When needed, the end housing can be recovered, spliced to additional cable if required, and laid to the shore landing site.
A pulsed superconducting magnet with a stored energy of 375 kJ has been developed. The central field is 6 T at 2510 A. The conductor is a compacted strand cable which is composed of 23 strands. Each copper-stabilized filament in the strand is separated by a hexagonal cupronickel wall. The cable is not solder filled and thus not mechanically rigid. The winding inner and outer and axial length of the magnet are respectively 220 mm, 399 mm, and 345 mm. The magnet bobbin is made of epoxy glass-fiber material. The magnet was charged up to 2600 A after having experienced training three times. At that current the stored energy was about 402 kJ. The first quench occurred at 2460 A, a little lower current than the design current. In pulse operations, the magnet was successfully charged up to 6 T at a ramping rate of about 1.5 T/sec and up to 5.4 T at about 3.5 T/sec and discharged to zero at a ramping rate of about 3.1 T/sec without quenching. Noticeable evaporation of liquid helium due to ac losses did not occur. The faster ramping rates were limited by the power supply, not by the coil performance. During the charges, no major conductor motions were observed.
WHILE there exists a large volume of printed matter on all the aspects of high-voltage cables, the design of the related joints on a theoretically rigorous basis has not hitherto been published in a comprehensive manner. Joints can be classified as the homogeneous case and the heterogeneous case. In the former case the joint and cable insulants are assumed of identical material, whereas in the latter the conditions pertain where the cable insulant is of the usual graded construction and the joint insulant of some different material or dielectric constant.
A vehicle mounted passive cable accumulator has been developed to isolate ship-coupled cable motion from a remotely operated vehicle on the sea floor. Elastomer energy storage is used. Dacron straps wrapped on a cable drum shaft provide mechanical coupling between the elastomer and the cable. A shaped cam generates 110 lb constant tension in the bottom mode. An alternate tow mode provides a tension ranging from 0 to 1200 lbs at full extension. The accumulator is fail safe to the tow mode in case of power failure. The system was tested at sea at a depth of 3000 ft.
For a typical system, the mechanical components are cable terminations, cable- to-cable junctions, repeater housings, and the lightguide cable itself. The methodology consists in identifying various failure mechanisms associated with each component, and using either a mathematical model or experimental data to analyze these. The cable termination is used as an example to demonstrate the reliability analysis methodology. The failure mechanisms for the other components are summarized to provide an overview, without any detailed analysis.<<ETX>>
This paper presents our new experimental facility and techniques to measure ac loss and current distribution between the layers for High Temperature Superconducting (HTS) cables. The facility is powered with a 45 kVA three- phase power supply which can provide three-phase currents up to 5 kA per phase via high current transformers. The system is suitable for measurements at any frequency between 20 and 500 Hz to better understand the ac loss mechanisms in HTS cables. In this paper, we will report techniques and results for ac loss measurements carried out on several HTS cables with and without an HTS shielding layer. For cables without a shielding layer, care must be taken to control the effect of the magnetic fields from return currents on loss measurements. The waveform of the axial magnetic field was also measured by a small pick-up coil placed inside a two-layer cable. The temporal current distribution between the layers can be calculated from the waveform of the axial field.
This guide covers the technical requirements for the design, fabrication, testing, installation, and in-service performance of gas-insulated substations(GIS). In line with the user functional one-line diagram, the supplier should furnish all components of the GIS such as circuit breakers(CB), disconnect switches(DS), maintenance ground switches (MGS), fast-acting ground switches(FGS), voltage transformers(VT), current transformers(CT), SF6-to-air bushings, SF6-to-cable terminations, surge arresters, all the ...
The scope of this project has been expanded to no only cover power and control cables (per original PAR) but many types of special purpose cables used in the petroleum and chemical industry. This Guide provides the user information on cable standards, specifications, applications, installations, testing and areas of interest on cable pertaining to the petrochemical industry. Special purpose cables ...
This standard covers the construction, mechanical, electrical and optical performance, installation guidelines, acceptance criteria, test requirements, environmental considerations, and accessories for an all-dielectric self-supporting fiber optic cable designed to be located on overhead or underground electric utility facilities.
This standard will cover the testing and acceptance requirements for overhead transmission and distribution line hardware.