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- Page 8 and 9: III. GM-C FILTERING................
- Page 10 and 11: APPENDIX C.........................
- Page 12 and 13: couplages électromagnétiques qui
- Page 14 and 15: I.1.b.i Analog modulations Most com
- Page 16 and 17: Figure 7. Time representations of I
- Page 18 and 19: Figure 10. Satellite TV transmissio
- Page 20 and 21: The transmission of the signal thro
- Page 22 and 23: I.2 TV Receivers Architecture & Spe
- Page 24 and 25: Figure 21 illustrates the uncoded B
- Page 26 and 27: I.2.b.iii Specifications of the Tun
- Page 28 and 29: Developing previous expression: Fig
- Page 30 and 31: As said before, when mixing the RF
- Page 32 and 33: Table 2. Selectivity Specifications
- Page 34 and 35: I.4 Technological Trend of RF Selec
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- Page 40 and 41: Figure 37. First order RC low-pass
- Page 42 and 43: Figure 41. Impact of the Low-pass F
- Page 44 and 45: II.1.c Bandpass Topologies II.1.c.i
- Page 46 and 47: The quality factor QL of a non-idea
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- Page 50 and 51: Figure 55. Rejections of a constant
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Figure 58. Double Notch Filtering I
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The capacitors bank is made of seve
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As it may be seen in Figure 64, an
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II.2.d Passive LC Filters from the
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II.3 Towards a Fair Figure-of-Merit
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II.4 Active Filtering Solutions Fro
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and Figure 73. Gyrator with real tr
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The equivalent impedance of a paral
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In the literature, negative impedan
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II.4.b Gm-C filtering Gm-C and OTA-
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Figure 83. Complete schematic of th
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Now let’s consider a second struc
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Reference [II.20] is based on the s
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II.5 Literature Survey Several pape
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II.6 Technological Opportunities an
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depicts this Rds resistance versus
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II.8 References [II.1] Y. Tsividis
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and As discussed in the previous ch
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g V m3 in + g′ ′ V 3 m3 in Repl
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Indeed, this phenomenon is due to a
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where Figure 103. Output noise powe
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III.1.e Introduction to Transconduc
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Figure 110. gm value versus C value
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III.2 Transconductors Linearization
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III.2.d Dynamic Source Degeneration
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III.2.f FDA//PDA technique Referenc
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However, Figure 119 shows that this
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III.3 Filter Implementations and Si
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III.3.a.iii Design of the Filters T
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III.3.b.ii Simulated Filter Perform
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Figure 130 confirms the transconduc
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Figure 134. Central frequency varia
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Figure 137 illustrates the IIP3 of
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III.4.b Filter Limitations In the f
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III.6 References [III.1] Y. Sun, C.
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IV.1.b Sallen-Key Filters The Salle
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The quality factor of such a circui
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K Gain = ⎛ 1 − K 1 1 ⎞ R ⎜
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Figure 143. Q-factor versus filter
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IV.2 Dimensioning the Rauch Filter
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Table 22. Description of the capaci
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Nevertheless, gain K can take the v
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and Loop gain LG and phase LP can b
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IV.3 Choice of the Technology and D
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IV.3.a.iii Interests of a BiCMOS Te
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Figure 156. Feedback loop on the fo
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Figure 159. Final operational ampli
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IV.3.b.iv OA Performances As it may
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100 port 1nF decoupling capacitor B
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IV.3.e Filter Chip Figure 167 depic
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IV.3.f.ii Post-layout Stability Sim
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As specified, a mean Q-factor of 3
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As described in introduction, the R
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IV.5 Frequency Limitations As said,
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IV.6 Conclusion As explained, major
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A 4-path filter, for instance, cons
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V.2.b Selectivity and Main Paramete
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In reference [V.5] is presented the
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Figure 192. Zero-IF architecture (a
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V.5 References [V.1] L.E. Franks an
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Context of the PhD thesis VI. Concl
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Table 33. Performances Comparison F
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Comparison of the Proposed Filters
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French Conclusion Après avoir intr
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APPENDIX A A.1 Available Power and
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A.2 The Various Origins of Noise A.
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A.4 Noise Factor and Noise Figure T
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A.6 Noise Measurements To measure t
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B.1 General Considerations APPENDIX
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as: B.1.b “Duo-tone” input sign
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B.1.c Intercept Point Definition No
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201. B.1.d Example Let’s consider
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B.2.b Out-of-band IIP3 measurement
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B.3 References [B.1] C. Dehollain,
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APPENDIX C The following tables sum
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year Ref. f0 (MHz) BW (MHz) Q gain
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year Ref. f0 (MHz) BW (MHz) Q gain
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year C.4 LC filtering with passive
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[C.12] R. Weng and R. Kuo, “An ω
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[C.34] Y. Sun, C. J. Jeong, I. Y. L
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APPENDIX D D.1 MOS Differential Pai
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one gets for X ≤ 2 . Hence, for s
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D.3 Linearity Enhancement of an Emi
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Now And so IIP3 4 a IIP3 = (D.43) 3
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D.4 References [D.1] B. Razavi, Des
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International Conferences Personal
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Table of Figure FIGURE 1. ADDITIVE
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FIGURE 111. LINEARIZATION OF THE TR
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Table of tables TABLE 1. TUNER SPEC
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Résumé : La présente thèse étu