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Declare an event.
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to as the C band, and represents the third well-known telecommunications window. An erbium ion exposed to an intense level of light at certain wavelengths will absorb photons, while some of its electrons will jump to a higher-energy metastable orbit. After an electron jumps to the higherenergy band, it returns to the base band and gives up a photon that has the same wavelength and phase as the incoming photon. Thus, the doping of erbium acts as an optical amplifier since the incoming photons result in a cascade of new photons with the same direction, wavelength, and phase. In addition to the doping of a length of fiber with erbium, a power source is required to provide the energy for erbium electrons to jump to a higher-energy metastable orbit. That power source is a pump laser that commonly operates at 980 nm. Thus, the pump laser provides the energy for the amplification process. With the use of erbium-doped fiber amplifiers (EDFAs), it becomes possible to have optical fiber routed for distances from hundreds to thousands of kilometers at operating rates as high as 10 Gbits/s without requiring an electronic optical repeater. Because the EDFA replaces the electronic optical repeater, significant savings can be obtained when a long-haul fiber is installed. Although a hut is still required approximately every 80 km to contain an EDFA and pump laser, the size, complexity and cost of equipment in each hub , is less than when electrical optical repeaters were previously required. As research progressed following the development of EDFA, this method of optical amplification was determined to have the potential to simultaneously boost the power of many closely spaced optical channels. Thus, EDFA technology opened the door to the ability to design optical systems that could contain an increasing number of channels at different wavelengths, with the power of all the signals boosted by one optical amplifier. One practical result of EDFA was the ability to develop economical WDM systems, which, as a result of erbium doping, had an extended range prior to requiring conventional amplification. After the year 2000, WDM quickly became dense -WDM (DWDM). In fact, the ITU (International Telecommunication Union)-standardized DWDM by defining a grid of wavelengths that we discuss later in this chapter. Because of the demand for an increased level of transmission capacity vendors , introduced proprietary systems that use as few as 0.8 nm sections of frequency enabling 80 channels to be created in the frequency spectrum ,
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This statement converts the first four characters in the multibyte string pointed to by mb and puts the result in wstr.
13. Connect the wall transformer wire to the control unit. 14. Look for an indicator light, showing the unit has power.
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Painting techniques Sculpting Anatomy and life drawing Physiology and kinesiology Visual design fundamentals Composition Lighting and color Graphic design Visual design in an interactive context Motion Graphics: Animation Cinematography Camera angles and framing Visual narrative Non-narrative graphics/Abstraction as expressive tool Fundamental principles of architecture Introduction to visual asset generation: 2-D graphics 3-D modeling Architecture: History of architecture Real-world spaces vs. game spaces Advanced Visual Asset generation: Textures Interface design Character design Conceptual design
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A few speci c MEMS devices consisting of cams and gears will be described in this section. As stated earlier, cams used in MEMS do not belong to the same category of cams used in traditional cam-follower type mechanisms because of the entirely different objective of MEMS, which so far has been primarily transduction rather than mechanical transmission. When sophisticated, coordinated mechanical movement nds applications at the microscale level and some of the practical problems of friction and wear (discussed in Sec. 15.8) are better understood and remedied, we can expect to see more cams in MEMS. As can be seen in the examples presented later, the scope of cams is somewhat expanded in this presentation. Nevertheless, they all possess the essential features of cam-action in that the motion and force transmission take place by virtue of line or point contact between rigid bodies. In each of the devices, an association is made to a traditional cam. This may be debatable in some cases but the connection to traditional cams is necessary to promote the use of cams in MEMS.
Here, ExcepType is the type of exception that has occurred. When an exception is thrown, it is caught by its corresponding catch clause, which then processes the exception. As the general form shows, more than one catch clause can be associated with a try. The type of the exception determines which catch is executed. That is, if the exception type specified by a catch matches that of the exception, then that catch is executed (and all others are bypassed). When an exception is caught, the exception variable exOb will receive its value. Actually, specifying exOb is optional. If the exception handler does not need access to the exception object (as is often the case), there is no need to specify exOb. The exception type alone is sufficient. For this reason, many of the examples in this chapter will not specify exOb. Here is an important point: If no exception is thrown, then a try block ends normally, and all of its catch clauses are bypassed. Execution resumes with the first statement following the last catch. Thus, a catch is executed only if an exception is thrown.
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