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This is the answer to the question: What is the differential pair for If an RF block is built with an ideal differential con guration and if the input is perfectly differential, the DC offset and the even orders of non-linearity disappear. The next question is, of course, to ask why we pursue the goal of zero DC offset and canceling of the even orders of non-linearity. For the answer, let s move to the next section. 3.1.4 Importance of Differential Con guration in a Direct Conversion or Zero IF Communication System In a dual conversion communication system, the spectrum of the de-modulated signals is allocated around the central frequency fc as shown in Figure 3.5(a). The central frequency is not zero and its spectrum is spread over the bandwidth around the central frequency. The problem of DC offset does not exist because the spectrum of de-modulated signals does not contain the DC component.
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Starting with a given polygon, there is no reason why the new vertices should actually be on the edges of the polygon - and we have already seen an example of a construction in which they were not. Figure 13.42 is the diagram for Napoleon's theorem, in which the three new points are the centres of equilateral triangles constructed outwards on the edges. Alternatively, they can be seen as the vertices of triangles constructed on the sides with angles of 30",30 and 120 . Fig. 13.42
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Figure 9.14 Voltage delivered from a source to a load through an impedance matching network.
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Once the trace is captured it can be browsed through the Profiler trace window, although a more useful option is to configure the trace to save results to a database table. The data can then be analyzed and manipulated as in any other SQL table.
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First, a few de nitions [1] are given. Home Network. This is the CMN selected for mobile communication services by the owner of a MS. Roaming. A MS can receive service in its home CMN and in other CMNs. When a MS is being served by a CMN other than its home CMN, we say that the MS is roaming. A MS stores the system identi cation (SID) of its home CMN see Section 12.3. A MS knows that it is at home if the SID received in overhead parameter messages (Section 12.4.2) matches its stored SID. If the SIDs do not match, the MS is roaming. Visited Network. This is the CMN that is serving the MS when it is roaming. Home MSC. This is the MSC in the home CMN of the MS to which the PSTN delivers calls to the MS. Serving MSC. This is the MSC that is currently serving the MS. Depending on the MS location, this can be the home MSC, another MSC in the home CMN, or a MSC in another CMN. 19.1.2 Equipment Entities Involved in IS-MAP Transactions
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When Fountain codes are used, relay nodes can exploit overhearing the signals intended for other relay nodes in an even more ef cient manner: they accumulate mutual information, instead of energy, as discussed in Section 22.3.6. Still, routing with mutual-information accumulation shares two important properties with energy accumulation: (i) nding an optimum route is NP-hard, and (ii) for heuristic algorithms, it is useful to break down the problem into two subproblems: determination of the physical route or order of nodes through which packets propagate, and the allocation of resources (time, power) among the nodes. Under the assumption that each node has a xed transmission power, the determination of the optimum resource allocation (time) can be done by a Linear Program (LP) for a speci c routing order. A simple algorithm then revises the routing order based on the results of the LP. Iterating between the two subproblems (resource allocation and routing order) yields a very ef cient approach to good route nding even in very large networks. The LP can be set up the following way: by the end of the k time interval, de ned as the time at which the k th node decodes the transmitted packet, the total information ow to the k-th node from the k 1 nodes ahead of it in the route must exceed the packet payload of B bits. Formally,
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Finding Your Favorites
Note the conversation ensuing between a POP3 user and the popper process on the host:
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Part I
File, Print, and Storage Services
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One of the best ways to understand how to use a spectrum analyzer is to look at how to build one. We are only going to look at the basic functions, but we will see where most of the controls on today s sophisticated equipment come from. Figure 9.4 shows a simpli ed block diagram of a spectrum analyzer, which we use for this discussion. At the heart of the spectrum analyzer is simply a power sensor, much like the variety that we would see with a power meter. A power sensor cannot tell us anything about the frequencies in a signal. However, if we put a narrow bandpass lter in front of the power sensor, then we would know that whatever power level we read on the power meter had to be within the passband of the lter. Thus, we could build a spectrum analyzer by putting a bandpass lter in front of a power meter, tuning the lter to different frequencies, and reading the power level at each frequency. Unfortunately, building a tunable lter of this type is not practically possible. Instead, spectrum analyzers use a bandpass lter at a xed frequency and then sweep the spectrum to be measured across this xed window by shifting it up or down in frequency. The way that this is accomplished is by using a mixer and combining the measured spectrum with a controlled LO signal. A mixer is a device that takes two signals at its input and outputs the sum and difference frequencies between the two signals. In a spectrum analyzer, one of the signals is the
2.3 STARTING REAGENTS AND SOLVENTS 2.3.1 Background The rst step in the CSD process is solution preparation, which involves reagent selection (chemical precursors) and solvent choice.1,5 12,16 During solution preparation, other chemical modi ers may also be added to the solution to facilitate or limit chemical reactivity. Also during this stage of the process, identi cation of appropriate reaction conditions to promote other desired changes in precursor nature or solution characteristics is also considered. The goal for solution preparation is to develop a homogeneous solution of the necessary cation species that may later be applied to a substrate. Choices of precursor(s) may be dictated by solubility, reactivity, or other property. For multicomponent systems, mutual solubility is another factor that must be considered. For such solutions, the solvent selected must facilitate dissolution of all precursors. A nal factor in precursor selection is the general synthetic route to be followed. Historically, these routes have been categorized as Pechini,21 nitrate,22 metallo-organic decomposition,23 29 chelate,16,30 32 or sol-gel.1,3,4 Species selection and choice of reaction conditions serve to de ne the nature of the CSD process, including factors such as level of achievable lm processing control, simplicity, and solution shelf life. Other solution characteristics that may be closely controlled are the concentration and viscosity of the solution, which will impact lm formation and drying behavior. Classes of starting reagents and principal types of CSD routes are discussed below. 2.3.2 Starting Reagents For polymeric CSD processes, three classes of metal organic (metallo-organic) compounds are used most often as starting reagents: metal alkoxides, metal carboxylates, and metal beta-diketonates. These species differ in their solubility and reactivity, as well as their tendency to react with one another, all of which are factors that may in uence starting reagent selection. Representative structures of these classes of precursors are illustrated in Fig. 2.2.8 Metal alkoxide compounds, frequently represented as M(OR)x, where M is a metal and R is an alkyl group, are the most common precursors in sol-gel CSD processes and are also frequently used in chelate processes.3 12,30 34 Groups such as OR, which are bound to a metal center, are frequently referred to as ligands. Alkoxide compounds, including commonly used alkoxides such as
Understanding the role of mobile e-mail with smart phones Managing your e-mail on the go with the Mail application Navigating Mail views Working with flagged and urgent e-mail messages Receiving, viewing, and saving attachments Triaging new e-mail
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