RAPID prototyping, COMPUTER-aided design, CUSTOMER satisfaction, INVESTMENTS, and THREE-dimensional printing
The article discusses the benefits of using three-dimensional (3D) technologies and services for prototyping. It informs that with the help of a computer-aided design (CAD) program and a 3D printer, one can design and print with low risk which helps in incorporating consumer feedback quickly. It also informs that the technologies are more affordable and relatively minimal investments are made on a variety of technologies.
RAPID prototyping, MOLDING (Founding), ALUMINUM-zinc alloys, METAL castings, NUMERICAL control of machine tools, and GRAPHITE
The article focuses on essentials of using graphite molds to produce parts from ZA-12 which is a zinc-aluminum alloy. It asserts that graphite mold/ZA-12 casting is a lower-risk alternative to computer numerical control (CNC) of machine-tools, die casting, among other processes. It claims that additional finishing steps in casting techniques are eliminated by the accuracy and surface finish of ZA-12 parts.
RAPID prototyping, PROTOTYPES, CELL phones, MOBILE communication systems, and ENGINEERING design
Focuses on the use of rapid prototyping by Motorola in designing mobile telephones and communication devices. Advantages and disadvantages of using rapid prototyping; Approach used by Motorola's engineers; Benefits gained from the use of rapid prototyping. INSET: COLOR OFFERS TECHNICAL INSIGHT.
RAPID prototyping, PROTOTYPES, and MANUFACTURING industry equipment
Focuses on the use of rapid prototyping technology for manufacturing finished series production parts by companies in the manufacturing industry. Advantages from the use of the technology; Characteristics of rapid manufacturing applications; Adaptation of the technology in dental devises applications; Device for teeth strengthening developed at Align Technology.
PROTOTYPES, RAPID prototyping, PRODUCTION control, and MANUFACTURING processes
The article presents information on the fractional ownership program for prototype engineering. It refers to the views of Alex Linde, president of Tangible Express, new company that offers the first fractional ownership program for rapid prototyping machines. As per Linde, in fractional ownership one has complete control over production.
PROTOTYPES, INTEGRATED circuits, WELDING, ELECTRONIC apparatus & appliances, RADIO frequency, and ELECTRICAL engineering
The article focuses on prototyping techniques. According to the article, this has become more difficult as the years pass. Tiny components and high-frequency circuits now demand rigorous prototyping methods. Prototyping requires a full complement of magnifiers, microscopes, lamps and tweezers. It also notes that one of the fastest ways to prototype a circuit is the dead bug technique. It uses a solid, copper-clad board as a ground plane. Meanwhile, a wire-tapped prototype is suitable for low-frequency designs. Another method is to use perforated board with solder pads or with both solder pads and plated-through holes.
This article describes the key process requirements for integrated circuit (IC) prototyping as well as its objectives and benefits for netlist and constraint handling, placement, power and signal routing, and analysis. The primary categories of chip-design specifications are based on functionality, timing, power and area. For a successful IC prototyping strategy, designers are required to start working early with design data, which may be incomplete or inaccurate. When placing IC prototypes, the objectives should center on the principal floor plan elements.
PROTOTYPES, INTEGRATED circuits, APPLICATION-specific integrated circuits, SYSTEMS on a chip, and EMBEDDED computer systems
This article focuses on prototyping application specific integrated circuits (ASIC) and systems on chips (SOC). Prototyping ASIC and SOC is essentially a step backward--turning an SOC into what some refer to half-jokingly as a system on board. In building a prototyping system, some designers reconstruct the functions of their ASIC using a mixture of discrete components, legacy ASIC, and FPGA providing new functions. The drawback of ASIC prototypes, however, is that they are harder to debug because it is difficult for designers to pinpoint the exact location of a bug on these systems. On the other hand, building a prototyping system from scratch is in some ways easier and in other ways harder to do than it was in the past.
PROTOTYPES, RAPID prototyping, COST effectiveness, INDUSTRIAL applications, PROGRAMMING of numerically controlled machine tools, and MOLDING (Founding)
The article discusses the additive and accelerated conventional methods in prototype designing. It mentions that the addition of the additive processes has allowed prototyping to take a step forward in time and cost savings. It states that the rapid injection molding and automated computer numerical control (CNC) machining methods have closed the gap of speed and cost saving.
EDN. 02/15/96, Vol. 41 Issue 4, p131. 6p. 6 Black and White Photographs, 2 Diagrams.
ANALOG computer circuits
Presents information on electronic analog computer circuits. Details on the differentiation between high-speed and high-precision mix circuits; Techniques used for analog prototyping; Limitations of analog-circuits; Information on IC sockets. INSETS: Table 1--comparison of DIP and SOIC performance.;The limitations of analog-circuit simulation..
RAPID prototyping, PROTOTYPES, JOB analysis, MANUFACTURING processes, and ENGINEERING design
The article reports on the role of design engineers in the prototyping processes. It offers information about the technical specifications and performance applications of a preproduction injection mold from tool steel. The author also discusses the expansion of the options for prototyping processes.
RAPID prototyping, PROTOTYPES, CONCURRENT engineering, and SURGICAL instruments & apparatus
Reports on the use of fused-deposition-modeling and ultraviolet-jetting rapid prototyping machines by engineers at Medtronic Sofamor Danek for its latest surgical tool as of March 2004. Differences of the technologies; Iterations required in the ratchet application; Role of the prototype in manufacturing. INSET: Which Machine is Right for the Job?.
RAPID prototyping, PRODUCTION methods, PROTOTYPES, MANUFACTURING processes, and AUTOMOBILE industry
The author reflects on the term rapid prototyping machines in automobile manufacturing. He believes that rapid prototyping has lost its descriptive definition for it is being used for production parts rather than prototypes. He asserts that prototyping machines were not the fastest way to make parts, but using additive fabrication machines which will be used in place of rapid prototyping.
POWER resources, MICROELECTRONICS, FIELD programmable gate arrays, APPLICATION-specific integrated circuits, BOUNDARY scan testing, ELECTRIC potential, and DESIGN
The article looks at how designers can maximize the benefits of converting field programmable gate arrays (FPGAs) to application specific integrated circuits (ASICs). It stresses the importance of designing the power-supply scheme for the FPGA core supplies in such a way that they can later be easily changed to another voltage. Boundary-scan-test dependencies can also yield cost savings. It also mentions the importance of timing budgets for the device operating in the system. It offers guidelines on configuration and start-up.
MOTHERBOARDS, COMPUTER-aided design, and ELECTRONIC data processing
Explains how a computer-aided design equipment can help a designer produce a personal computer board and enclosure quickly. Stereolithography-apparatus system; Similarity of the machines to personal computer-based photofabrication. INSETS: You still want to be in pictures?;Can I go out now?;Don't forget to write.;How'd they do that?
EDN. 9/26/96, Vol. 41 Issue 20, p37. 8p. 7 Color Photographs, 2 Black and White Photographs, 1 Chart.
PROGRAMMABLE logic devices
Identifies the benefits offered by in-system programmable logic devices to electronic circuit designers. Possibility to make significant changes to the manufacturing process; Allowing electronic designers to program a device in the system until the design functions correctly. INSETS: How does ISP compare with other types of PLDs?.;Manufacturers of ISP PLDs.;Programming using a JTAG or proprietary port.;Looking ahead.
INDUSTRIAL research, RAPID prototyping, PROTOTYPES, and ELECTRONIC systems
The article presents the findings of a study on the accuracy of three-dimensional printing and desktop modeling systems conducted by engineer Todd Grimm. The study investigated the dimensional accuracy of Z Corp.'s ZPrinter 310, 3D Systems Corp.s' InVisionSR, and Stratasys Inc.'s Dimension SST. The study showed that the Dimension machine was the best performing prototype among the three systems tested. The study also proved that the resolution does not directly equate to dimensional accuracy.
Features the book `Digital Systems Design and Prototyping Using Field Programmable Logic,' written by Zoran Salcic, professor at the University of Auckland and Asim Smailagic, professor at Carnegie-Mellon University. Information provided in the book.