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Physical effects of semiconductors are becoming more and more interrelated. Each design decision can create unintended consequences. In addition to the old problems generated by wire capacitance, engineers can no longer manually balance the myriad effects such as leakage current, inductive noise or IR drop. Manufacturing processes and environmental variation can render your functional chip useless or economically unviable. Market forces are creating demands of higher volumes at lower and lower price points. Investors are losing their appetite for risk and paying a premium for predictable success. Designers must walk a tightrope of price and performance to reach their time-to-market goals.
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Projecting of wiring harnesses for vehicle cabling
KABI is a CAD/CAE product offering comprehensive support for the design of wiring harnesses for vehicle wiring. Design is an integrated solution using KABI, from creating the electric circuits through the schematic wiring harness diagram to the production documentation (bill of materials, wire lists, cutting lists, formboard diagram, etc.).
With the aid of the interfaces to 3D-engineering CAD systems, PPS systems and cable production and testing machines, processes can be modeled completely for both the car manufacturer/engineering department and the supplier/cable assembler. However, there is also the option of utilizing only part of the KABI functionalities – e.g. purely production-oriented design without a circuit diagram.
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OOFELIE ElectroTechnics, driven by SAMCEF Field, provides engineers and analysts with unique capabilities to analyze Electro-Mechanical & Magnetic systems, such as induction heating, magnetic shielding, multi-phase inductors and MEMS.
With OOFELIE ElectroTechnics, driven by SAMCEF Field, you are getting at the core of the physics in one conveniently integrated simulation package.
OOFELIE ElectroTechnics, driven by SAMCEF Field, is a Virtual Prototyping tool for the analysis and design of Magnetic and Electro-kinetic systems, taking into account Joule Heating effects and induced deformations. Through the use of its modeling capabilities, it becomes possible to start simulating the performance of such systems even before a single physical prototype is built.
Design changes can be evaluated faster and in a more affordable manner, reducing the number of actual prototypes needed to achieve a required design maturity, thus accelerating significantly product development.
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SOLID EDGE Wiring Harness
Solid Edge Wire Harness Design is a dedicated process driven environment for the efficient creation, routing and organization of wires, cables and bundles in a Solid Edge assembly. Wire Harness Design allows electrical and mechanical design teams to collaborate on designs to create complete and accurate digital mockups containing both mechanical and electrical components, and removes the need for expensive physical prototypes. Design violations such as exceeding physical bundle size or a bend radius being too tightly routed are constantly monitored as the harness is being designed; live feedback immediately displays any problems. Reporting of cable and wire cut length and attributes (allowing for a slack percentage and wire stripping) are captured during the harness design process. The export of ready-to-use 'net list' files adds these mechanical attributes to generate harness designs that are ready for manufacturing.
Automatic wire harness design
Once electrical engineers have developed and proven their designs using electrical prototypes (a task becoming increasingly important as the size and complexity of electrical systems increase), the harness wizard allows mechanical engineers to automatically generate and route physical wires and cables. The harness wizard uses input from dedicated electrical schematics applications such as Mentor Graphics, Cimteam and Vesys to automatically transfer any net-list components and connections to Solid Edge.
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CoCreate Cabling
Design and manufacturing for electromechanical systems
CoCreate Cabling, an integrated module inside CoCreate Modeling, unites electrical and mechanical disciplines to automate the design and manufacture of routed wiring and cable harnesses. With CoCreate Cabling, you can create cables, harnesses, and bill of materials documentation, including drawings for electrical cables, harness routes, and nail boards.
Benefits
* Speed the design of rigid and flexible cabling by importing ECAD system design information
* Route wires and cables dynamically through enclosures, or automatically route through predefined paths* Customize libraries to include standard and company-specific components and materials
* Access a full set of flat cables, complete with twist, fold, and split opitions, to fully simulate true manufacturing conditions
* Generate reports to capture manufacturing documentation such as maximum wire length, wire “from-to” lists, calculated bundle diameters, and maximum bend radii
* Fully simulate electro-mechanical products to shorten development lead times
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CADDS 5 Electrical and Outfitting Design Option
CADDS 5 Electrical and Outfitting Design Option provides advanced capabilities to support the development and management of large electrical systems used in the shipbuilding industry. This solution offers specialized design capabilities which include cabling schematics, 3D cableway networks, 3D routing of cables and the cableway support structures, and a standard library of parts. The application supports multiple, concurrent users is integrated with a database to ensure design consistency and provide an interface to 3rd party cable management software. Leverage CADDS 5 Electrical and Outfitting Design Option to improve your electrical systems design collaboration and productivity.
Benefits
- Design 2D schematics and 3D cableways concurrently
- Save time by and ensure consistency of design by automatically placing 3D devices and routing 3D cabling from 2D schematics
- Create schematics faster by leveraging a library of electrical devices, cables, and systems
- Optimize cableway designs in confined spaces easily with support for size change and twist along complex non-orthogonal paths
- Customize cable path routing easily using automatic or interactive methods to optimize designs for shortest, preferred and prohibited paths, segregation and percentage fill
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| ... products without technical information |
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PASCHAL-PLAN pro - PPpro
CAD Software for planning and structural engineering
- Formwork planning
- Calculation
- Logistics
- Communication
With PASCHAL-PLAN you can simply adopt and edit formwork drawings which have been created in PPL; or you put the formwork together by hand. You have access to all panels and can move formwork panels and all accessory parts as required. Formwork elements and accesories can only be placed in the proper positions: the "intelligent" system is interactive, and only offers you correct solutions. This helps you to avoid errors and increases your productivity. Problems when assembling the formwork on the building site can thus be prevented.
This is all made perfectly clear in the collision tests, which automatically prevents two formwor panels form overlapping. Using the CAD application you can therefore move the formwork panels as on the building site and simulate the erection process.
Building-oriented CAD works like the formwork planning engineer thinks.
When do you need PASCHAL-PLAN?
Are you working on complicated building projects where you have to combine several formwork systems or with other difficult uses of formwork?
Using PASCHAL-PLAN, you can deal with such complicated structures as motorway exits, fun baths, tunnels, reservoir dams or other interesting engineering projects. On your PC you can do everything you couldn't manage with a "normal" formwork program, including special formwork solutions. Even the supports and shoring systems are included in the object library.
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FiberSIM®: The World's Leading Software for Composites
Powered by VISTAGY's unique EnCapta® technology, FiberSIM® has become the world's leading software for composites engineering-used by numerous leading manufacturers in the aerospace, automotive, marine and medical equipment industries. The FiberSIM suite of software supports all of the unique and complex design and manufacturing methodologies necessary to engineer innovative, durable and lightweight composite products and parts.
It's also the only comprehensive software suite that addresses the entire composites engineering process, from conception, laminate definition and ply creation through simulation, documentation and manufacturing. FiberSIM is integrated into the leading commercial CAD systems (CATIA V4, CATIA V5, NX and Pro/ENGINEER) to help you capture a truly complete digital product definition. And FiberSIM goes beyond CAD to create a customized environment that enables you to 'work how you think' when designing innovative, bleeding-edge products that create a competitive advantage.
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ANSYS DesignSpace is an easy-to-use simulation software package that gives designers tools to conceptualize, design and validate all their ideas right on the desktop. ANSYS DesignSpace software, a subset of the ANSYS Professional product, enables users to easily perform real-world, static structural and thermal, dynamic, weight optimization, vibration mode, and safety factor simulations on all designs without the need for advanced analysis knowledge.
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ANSYS BladeModeler software is a specialized, easy-to-use tool for the rapid 3-D design of rotating machinery components. Incorporating ANSYS, Inc.'s extensive turbomachinery expertise into a user-friendly graphical environment, the software is used to design axial, mixed-flow and radial blade components in applications such as pumps, compressors, fans, blowers, turbines, expanders, turbochargers, inducers and others.
ANSYS BladeModeler can take existing blade geometry designs created in other tools, and prepare the design data for rapid or detailed simulation and analysis. Or the meanline sizing tools from PCA Engineers that are integrated in ANSYS BladeModeler can be used to provide initial blade geometry designs for subsequent analysis and optimization. In either case, an initial blade geometry design can be further modified and extended using the rich set of tools and functions for designing rotating machinery blades within ANSYS BladeModeler. All accomplished in a user environment tailored to rotating machinery, with an intuitive interface and using industry-specific language that blade designers expect.
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The lirix3 software is the optimal tool to drive the Xiril pipetting robotic workstation through any demanding application.
Focusing on the every day routine work of thousands of laboratories around the globe, Xiril has developed the new lirix3 software to control the entire Xiril product line. The lirix3 software is straightforward, yet as flexible as the Xiril robotic workstation itself. With this high performance combination in
your hand, you are ready to automate all of your demanding assays.
More than a pipette
• Wide range of highly flexible pipetting options
• Liquid class library
• Clot detection
• Sensitive pressure based liquid level detection
• Easy layout configuration with drag and drop functionality
• Graphical support of pipetting actions
Flexible
• No programming skills needed
• Method is created in few mouse clicks
• Off-line programming of methods possible
• Labware library is freely extendable
• Simple teaching concept for new items
• Possible integration of external modules
• Enables import and export of data
Robust
• Fully traceable with audit trail
• Extended user management
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| ... products without technical information |
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