Competing in a new world; the Internet, the home and the automobile provide three new opportunities for copper and copper alloy products.The Internet Age is upon us. We live in a time when we expect communications to be instantaneous. Response times are measured in seconds, Faster, cheaper, bigger, better is society's mantra. We want the ability to download video streams On our PCs that are of the highest quality. The infrastructure necessary to make this possible is just now being put into place. It is estimated that 117 million people have access to the Internet and that the vast majority of people do so through their telephone service provider. The speed of the connection is directly related to the system used, Telephone and cable companies are battling it out to be the provider of choice. Telephone companies are working to increase speeds by adding digital subscriber line See DSL. (communications, protocol) Digital Subscriber Line - (DSL, or Digital Subscriber Loop, xDSL - see below) A family of digital telecommunications protocols designed to allow high speed data communication over the existing copper telephone lines between end-users and technology, which increases the speed of data transmission utilizing the current infrastructure. Cable companies are using cable modem cable modem Modem used to convert analog data signals to digital form and vise versa, for transmission or receipt over cable television lines, especially for connecting to the Internet. technology, with coaxial cable, to bring high-speed Internet See broadband. access. But no matter how fast data can be transmitted to one's house, the real bottleneck may be the telephone wiring See twisted pair. inside the house. GETTING WIRED This brings us to residential communications wiring, an exciting new market for the copper industry, whose potential is just beginning to be tapped. Today the vast majority of people use conventional telephone wiring to access the Internet. Consisting typically of two pairs of wires, it is adequate for voice, fax and some data communications data communications, application of telecommunications technology to the problem of transmitting data, especially to, from, or between computers. In popular usage, it is said that data communications make it possible for one computer to "talk" with another. . Structured wiring, using Category 5 cables or better, can transmit more information faster. Two markets drive residential communications wiring: new construction and remodeling remodeling /re·mod·el·ing/ (re-mod´el-ing) reorganization or renovation of an old structure. bone remodeling of existing homes. This year approximately 1.5 million new homes will be built, of which approximately 1.2 million will be single family and 300,000 multi-family homes. New construction represents the "low-hanging fruit" for the structured wiring business. With open walls, these homes are easy to wire properly for a trained installer. And structured wiring is already beginning to penetrate this market. Parks Associates of Dallas, one of the best-known sources of forecasts for residential technology, estimates that this year about 12 percent of new homes are being wired for the future. By 2004, Parks' mid-line forecast is for 42% of new homes to be wired to accept more information. This market is now in the early-adopter phase, but competitive pressures on builders, driven primarily by consumer demand, should bring structured wiring into the mainstream shortly. The existing home market represents the greatest potential but it also has the largest obstacles. The nation's housing stock is composed of approximately 106 million single- and multi-family homes. This number has grown almost two-and-a-half times since 1950, when it totaled 43 million homes. If Parks' forecast that 42 percent of new homes will have structured wiring installed in 2004, or about 600,000 homes at today's construction rate, it would take only .6 percent of the existing homes to be wired in that year to match this. number. However, many people would say that retrofitting is difficult or impossible. The U.S. Copper Development Association does not believe that is the case. A well-wired house, wired according to according to prep. 1. As stated or indicated by; on the authority of: according to historians. 2. In keeping with: according to instructions. 3. standards, should: * use Category 5 or better wiring for voice and data; * wire virtually every room of the house * the kitchen, every bedroom, the home office, den, family room, everywhere the need might arise to get connected; * be wired in a star, or home run, configuration; * use eight-pin modular connectors, referred to as RJ-45s. These take advantage of all eight wires in the Category 5 cable. Wiring of RG-6 coaxial cable is usually installed for distributing TV signals throughout the home. To estimate the potential market for copper wire and cable one must examine structured wiring and coaxial cable. Category 5 cables use 24-gauge wire. Each wire has 1.22 pounds of copper per 1,000 feet. The cable is composed of eight such wires, totaling 9.76 pounds. Adding the twist in the cable results in approximately 10 pounds of copper per 1,000 feet of cable. A reel of 1,000 feet is sufficient to wire all rooms in a typical house, with star wiring from a central distribution device to each major room. It is generally recommended that two runs go to each location. Similarly for RG-6 coaxial cable, the key point for copper is whether the center conductor is solid copper or copper-clad steel. There is a trend toward solid copper. Copper-clad has the advantage of somewhat greater stiffness to withstand repeated insertion forces, while solid copper has the advantage of being better able to carry a low-frequency current to power a remote-control device, such as a camera in the baby's room. Since a cable installed for TV distribution might later need to be switched to another use requiring power, it's arguably ar·gu·a·ble adj. 1. Open to argument: an arguable question, still unresolved. 2. That can be argued plausibly; defensible in argument: three arguable points of law. better to use solid copper. An 18-gauge solid-copper-center-conductor wire contains 4.92 pounds per 1,000 feet. If each run has an upstream and a downstream coax, and one Category 5, which is fairly common, about 2,000 feet of coax might be used per house, or about another 10 pounds of copper, making a total of 20 pounds per house. If a second Category 5 is run to each location, as is recommended, the total becomes about 30 pounds per dwelling. Comparing 20 to 30 pounds of copper in a properly wired house to one or two pounds of station wire (also referred to as quad wire) in a typical house with only basic telephone service, results in an additional 20 pounds per house or more. A recent ruling by the FCC (1) (Federal Communications Commission, Washington, DC, www.fcc.gov) The U.S. government agency that regulates interstate and international communications including wire, cable, radio, TV and satellite. The FCC was created under the U.S. requires only category-type cable be used in certain applications. This 20 pounds of additional copper per house, when considered for a conservative 1 million houses properly wired in a near-future year, results in a minimum of 20 million annual pounds of incremental copper consumption. ELECTRICAL IMPULSES AT HOME Building wire, copper's single largest market, also offers some modern opportunities in the residence. In the not so distant future, the convergence of developments in materials science materials science Study of the properties of solid materials and how those properties are determined by the material's composition and structure, both macroscopic and microscopic. , artificial intelligence, computer vision, biometric sensing, and robotics, to name just a few, will find a new home. The home of the future will move from a passive to active state. In today's passive house, copper wire and cable are used for electrical service Electrical service, in building wiring, refers to the wiring that connects the electric utility's cables in the street to the building. Specifically, electrical service is the wiring from the street, through the meter and up to the panelboard, but no farther. , telephone and other limited low voltage Low voltage is an electrical engineering term that broadly identifies safety considerations of an electricity supply system based on the voltage used. While different definitions exist for the exact voltage range covered by "low voltage", the most commonly used ones include "mains applications, such as thermostat thermostat, automatic device that regulates temperature in an enclosed area by controlling heating or refrigerating systems. It is commonly connected to one of these systems, turning it on or off in order to maintain a predetermined temperature. wire. In the future, they will interact with the homeowner. The home will become aware of its enclosure, using sensor arrays to monitor the home's health and performance. Homes will be filled with sensing devices that will measure temperature, humidity and light, just to name a few. These sensors will be wired to some reading device, like a computer. Artificial intelligence algorithms, capable of learning patterns of behavior and weighing complex variables, will help find the optimum conditions for comfort and efficient use of resources. This sensing technology will require more wire and cable products. But even in today's home the demand for electricity consuming devices is taxing the wiring. It's easy to overlook just how rapidly the U.S. has embraced electricity as its main power source in the home. U.S. Department of Energy (DOE) data show the phenomenal growth of electricity consumption in the residential sector from the 1950s through the 1990s. In the 1950s Americans consumed 113 billion kilowatt-hours (kWh) in an average year, while in the 1990s, consumption of residential electricity was nearly 9 times as much: 1,005 billion kWh. The DOE figures are indexed, with the 1950s used as the 100 point; by the 1990s consumption rose to 889. One can argue that this seeming increase is deceptive, since it doesn't take into account the growth in the number of homes in existence over this period of time. This correction can be made by analyzing consumption of electricity per home. While this reduces the magnitude of the increase, it is nevertheless still a spectacular increase, with each home and apartment consuming more than four times as much electricity in the 1990s as in the 1950s. In the 1950s, most residential wiring was old-style nonmetallic non·me·tal·lic adj. 1. Not metallic. 2. Chemistry Of, relating to, or being a nonmetal. Adj. 1. cable, and AWG (American Wiring Gauge) A U.S. measurement standard of the diameter of non-ferrous wire, which includes copper and aluminum. In general, the thicker the wire, the greater the current-carrying capacity and the longer the distance it can span. 14 was standard for branch circuits. Children in the '50s however, didn't have neighborhood shaking sound systems, televisions and computers with peripherals in their bedrooms, nor did they, have hair dryers and curling irons an instrument for curling the hair; - commonly heated when used. Called also curler . See also: Curling on at the same time. One case that can be made is that every room in the typical home should be able to carry a heavy electrical load If an electric circuit has a well-defined output terminal, the circuit connected to this terminal (or its input impedance) is the load. (The term 'load' may also refer to the power consumed by a circuit; that topic is not discussed here. if needed. The wire needed to meet the increased loads in the home is AWG 12. Replacing the current AWG 14 wire with AWG 12 in homes is an attendant increase in copper use of about 60 percent for each foot replaced. Switching to AWG 12 could mean an additional 50 to 100 million pounds of copper each year. ON THE HIGHWAY Just as the consumer's demand for energy-consuming devices is driving electrical demands in the house, so is it in the automobile. In the last 30 years, the Years, The the seven decades of Eleanor Pargiter’s life. [Br. Lit.: Benét, 1109] See : Time power requirements for a typical vehicle have risen more than 50 percent. The rapid proliferation of electronically controlled systems and electrically powered devices is taxing the capabilities of the current electrical systems on automobiles. Today's luxury vehicles typically use up to 2.8 kilowatts of power. The current 14-volt system generates only about 3 kilowatts of power, barely enough to handle all of these tasks. Satellite navigation, on-board entertainment systems, cellular phones, Internet access See how to access the Internet. ,'electric braking, electric power steering Electric power steering (EPS or EPAS) is designed to use an electric motor to reduce effort by providing assist to the driver of a vehicle. Most EPS systems have variable assist, which allows for more assistance as the speed of a vehicle decreases and less assistance , and multiple on-board computers controlling various vehicle functions,just to name a few, could push electricity consumption to six kilowatts or more, twice the output of current systems. To meet the need for more power the industry is in the process of increasing the voltage standard for vehicles to the 42-volt system. These mini-power plants, which will provide 8 kilowatts or more, will be on the scene some time this decade. European automakers are expected to introduce the systems first, with Mercedes and BMW BMW in full Bayerische Motoren Werke AG German automaker. Founded as an aircraft engine manufacturer in 1916, the company assumed the name Bayerische Motoren Werke and became known for its high-speed motorcycles in the 1920s. expected to lead the way, with systems as soon as 2003. The last time electrical systems experienced such a major change was in the 1950s, when six-volt systems were replaced with 14-volt. That allowed automakers to introduce high-compression engines that required more powerful starter motors. At the time, cars had so few electrical accessories that automakers upgraded with little long-range planning. Today, industry groups in Europe and North America North America, third largest continent (1990 est. pop. 365,000,000), c.9,400,000 sq mi (24,346,000 sq km), the northern of the two continents of the Western Hemisphere. have spent several years creating 42-volt standards. The movement started in the late 1980s in Europe, and the German industry, which is leading the change, settled on 42 volts. The new standard was driven by the industry wanting the highest possible voltage, with the most safety. Above 50 volts, special safety systems are required to prevent contact with the wiring when the mechanic or owner goes under the hood under the hood - [hot-rodder talk] 1. The underlying implementation of a product (hardware, software, or idea). Implies that the implementation is not intuitively obvious from the appearance, but the speaker is about to enable the listener to grok it. , because 50 volts can stop the human heart. Also, a European safety regulation specifies that any voltage above 60 needs more heavily insulated wires and connectors. That would add weight and defeat many of the advantages gained in other areas. However, converting to 42 volts is much easier said than done. To change voltages, everything from a vehicle's lighting to charging systems will have to be redesigned. Wiring, connectors and relays all need to change. For the automotive industry The automotive industry is the industry involved in the design, development, manufacture, marketing, and sale of motor vehicles. In 2006, more than 69 million motor vehicles, including cars and commercial vehicles were produced worldwide. this is good news, because 42-volt systems could help them reduce weight. It starts with the wiring harness. Low-voltage electricity must flow at a high amperage amperage strength of an electric current in amperes or milliamperes. to operate a vehicle's accessories. That requires thick cables and harnesses. While advantageous for the copper industry, it presents an engineering nightmare for the automotive industry. But by tripling the voltage, this effectively cuts the current by two-thirds, while still providing the same power capability. For example, given that electrical "power" is the product of amperes times voltage, an electric motor that takes 12 amperes at 12 volts requires only 6 amperes at 24 volts or 4 amperes at 36 volts. This enables the automotive industry to downsize Downsize Reducing the size of a company by eliminating workers and/or divisions within the company. Notes: When a company downsizes, it is attempting to find ways to improve efficiency and increase profitability. It is sometimes referred to as trimming the fat. wiring, shrink components and perhaps rethink electrical architecture. The first technology to see production will be a combined starter/alternator configured for engine-off-at-idle/ warm-restart architecture. A single device mounted on the end of the engine's crankshaft works as a starter motor by spinning the crank at starting. A fly-wheel-alternator-starter is much quicker to reach ignition than current starters, and will enable the stop-and-start engine. These new generation starter/alternators are estimated to have two to three times the amount of wire as in conventional units. With North American North American named after North America. North American blastomycosis see North American blastomycosis. North American cattle tick see boophilusannulatus. light vehicle manufacturers forecast to produce as many as 18 million vehicles in 2003, that amounts to a potential of 90 to 180 million pounds of wire. The same device serves as a generator, charging the battery both directly from the engine, and during the braking, allowing recovery of energy ordinarily dissipated in the brakes. This even reduces brake wear. And since the airconditioning still needs to function with the engine off, an electronically powered compressor would probably be part of the package. For the automotive industry, one of the biggest gains in a higher voltage system comes in wiring and signal distribution. In theory they could reduce a wire gauge wire gauge n. 1. A gauge for measuring the diameter of wire, usually consisting of a disk having variously sized slots in its periphery or a long graduated plate with similar slots along its edge. 2. to one-third the size by tripling the voltage. However, automotive design Automotive design is the profession involved in the development of motor vehicles or more specifically road vehicles. This most commonly refers to automobiles but also refers to motorcycles, trucks, buses, coaches, and vans. engineers have determined that there is a maximum size reduction that can be obtained while still allowing for manufacturability and durability. This constraint will prevent wires from getting any smaller. The head of electrical and electronic architectures for Delphi Packard Europe estimates that, a realistic reduction in mass and volume is about 25 percent including connectors and insulation. While the higher voltage is good news for increased electrical and electronic features, for some applications it creates a serious problem. Higher voltage is the wrong direction for lamps with filaments. Wattage wattage the output or consumption of an electric device expressed in watts. must remain the same for bulbs, even if the current is dropped by one-third. To accomplish this, the tungsten filament filament, in astronomy: see chromosphere. has to get thinner and longer and that means problems with shock and vibration. For headlamp applications, one solution could be more widespread use of high-intensity discharge lamps High-intensity discharge (HID) lamps include these types of electrical lamps: mercury vapor, metal halide (also HQI), high-pressure sodium (Son), low-pressure sodium (Sox) and less common, xenon short-arc lamps. , since they need a higher voltage anyway. The same would be true for neon in tail lamp or interior applications. Redesigning over 100 near-commodity lamps in vehicles will be expensive. One alternative is a distributed lighting system that allows a redesign of just a few lamps as a light source. Another solution is to maintain the 14-volt circuit for the lights. This would require the vehicle to have a dual voltage system. A 14-volt system for traditional low-voltage devices such as lamps and radios and the 42-volt system for those applications that need and/or run more efficiently with higher power Higher power is a term used in a 12-step program, such as Alcoholics Anonymous, to describe "a power greater than yourself." Although many participants equate their higher power with God, a belief in God or in formal religion is not mandatory; the higher power is intended as a . This would solve a number .of problems for the automotive industry, including giving time GIVING TIME, contracts. Any agreement by which a creditor gives his debtor a delay or time in paying his debt, beyond that contained in the original agreement. When other persons are responsible to him, either as drawer, endorser, or surety, if such time be given without the consent of for suppliers, who are not yet ready with all 42 volt components, to design and test them. Dual volt systems will require two batteries: one 36-volt and one 12-volt. The 36-volt battery would take current from a new generation of higher voltage alternators, while the 12-volt battery would recharge directly from the 36-volt. Automakers are also working on onboard DC-to-DC converters that would still allow a conventional car to jumpstart a higher voltage vehicle. While higher voltage has no direct benefit to semiconductors, reworking the electrical system could profoundly change these components. The opportunities for copper usage in residential communications wiring, building wiring and automotive applications involve potentially hundreds of millions of pounds. These represent just a few of the opportunities that exist today for copper, and there are many more, involving castings (motor rotor) strip (coinage coinage Certification of a piece of metal or other material (such as leather or porcelain) by a mark or marks upon it as being of a specific intrinsic or exchange value. Croesus (r. c. ) and plumbing and commercial tube. The author is Manager of Market Research for the Copper Development Association Inc., New York New York, state, United States New York, Middle Atlantic state of the United States. It is bordered by Vermont, Massachusetts, Connecticut, and the Atlantic Ocean (E), New Jersey and Pennsylvania (S), Lakes Erie and Ontario and the Canadian province of , www.copper.org. |
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