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Photographing children in their natural habitat, doing what they love to do, captures the kids at their happiest, and it comes through in the photographs. Let the personality of the child come out in your images. Some children are quiet and serious and enjoy playing alone while others are outgoing and gregarious.
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TABLE 6.5. AM0 Output Characteristics of Solar Cells Fabricated With AACVDDeposited CuInS2 Films Fabricator GRC IEC Voc (mV) 309 412 Isc (mA/cm2) 12.5 7.2 Fill factor 0.37 0.45 (%) 1.0 1.0
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susceptible to attenuation, they must be ampli ed (analog) or repeated (digital) frequently. In order to maximize the strength of such high-frequency signals over long distances, the radio beams are tightly focused. Much as a light bulb in a ashlight is centered in a mirror that serves to focus the light beam, the microwave transmit antenna is centered in a concave, re ective metal dish that serves to focus the radio beam with maximum effect on the receiving antenna (Figure 2.7). Similarly, the receiving antenna is centered in a concave metal dish that serves to collect a greater amount of incoming signal and re ect it into the receiver. Note: Antennas serve both transmit and receive functions, with transmit and receive frequencies separated to avoid self-interference. The requirement to so tightly focus the signal clearly limits microwave to application as a point-to-point, rather than a broadcast, transmission system. Additionally, microwave is a Line-Of-Sight (LOS) technology as such high-frequency radio waves will not pass through solid objects of any signi cance (e.g., buildings, mountains, or airplanes). Actually, line-of-sight is not quite enough, as the signal naturally disperses (i.e., spreads out) in a conical pattern. As a result, portions of the signal re ect off of bodies of water, buildings, and other solid objects and can interfere with the primary signal through a phenomenon known as multipath fading. The impact of multipath fading is that multiple copies of the signal reach the receiving antenna at different levels of strength at slightly different times and slightly out of phase, thereby confusing the receiver and distorting the signal much like the ghosting effect that can be so aggravating at times to broadcast television viewers. So, additional clearance is required in the form of a Fresnel ellipse, an elliptical zone that surrounds the direct microwave path. In consideration of LOS and Fresnel zone clearance, antenna positioning and tower height are important considerations in microwave path selection and network design. Clearly, so to speak, antennas atop tall towers positioned on the roofs of tall buildings and the peaks of high mountains tend to provide optimum signal paths. Figure 2.8 illustrates a multihop microwave con guration with consideration given to Fresnel zone clearance. If a microwave route traverses a smooth-earth path involving no hills, mountains, bulges of earth, tall buildings, or other signal obstructions, the link length is sensitive
Description Forward message to the specified addresses Start the specified program Start a block of recipes checked if the condition is matched End a block of recipes checked if the condition is matched Forward message to the mailbox defined by mailbox
When you are working in Slide Sorter view, it is sometimes useful to go to Normal view, where you can view a slide in detail. While in Slide Sorter view, you can quickly and easily show a slide in Normal view to see its detail.
commercial memories that utilize interpoly tunneling all seem to depend on tunneling from edges. The I-V characteristics for geometrically enhanced tunneling are very asymmetrical with respect to bias polarity because of the asymmetry of the shape of the surfaces on the two sides of the interpoly oxide. The interpoly oxides are conformal so that if the surface of a polysilicon layer has structure with positive radii of curvature (i.e., is convex), the opposing surface will have negative radii of curvature (i.e., be concave). At a given, bias, the tunnel current for the two bias polarities can differ by over 10 orders of magnitude. This is very different from the behavior of tunneling from planar surfaz-es for which the I-V characteristics of the tunnel oxide are essentially symmetrical. There are memories that depend on tunneling from the floating gate to a positively biased source or drain junction lying under the floating gate to remove electrons from the gate. The fields in the vicinity of the drain can be rather nonuniform for reasons illustrated in Figure 8.9. The high field between the n+ diffusion region and the gate that is necessary to induce tunneling will deplete a portion of the n+ diffusion region and cause the depletion region to curve back under the gate, as is illustrated in Figure 8.9. The electric fields across the gate oxide are reduced in the neighborhood of the depletion region. There are very high fields in the silicon in this depletion region that will lead to band-to-band tunneling (BBT), which occurs when the reverse field across the junction is high enough that electrons in the valence band in the n region can tunnel to states in the conduction band in the p region as shown in Figure 8.9. The hole remaining behind in the n region can be accelerated by the electric field with effects on cell performance and reliability that are discussed in later sections. Additionally, oxidations that are conducted after the floating gate edge is defined will result in growth of the oxide near the gate edge with the consequent formation of
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The substrate hot-electron injection probability 52 can be generalized to calculate the probability at a position x (from the Si/S)i02 interface)
video file type) that you wish to play, what can you do if the Windows Media Player can t seem to play them ________________________________________________________________________ ________________________________________________________________________ ________________________________________________________________________
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