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dan_h_hw3_04.pdf
Path: Berkeley >> EECS >> 225 Spring, 2003
Description: EECS 225A: Problem Set # 3 Instructor: Kannan Ramchandran (kannanr@eecs.berkeley.edu) Homework 3 TA: Dan Hazen (hazen@eecs.berkeley.edu) Assigned: February 19, 2004 Due: March 4, 2004 Problems Problem 1. A discrete time signal x[n] bandlimited to [...
dan_h_sol3_04.pdf
Path: Berkeley >> EECS >> 225 Spring, 2003
Description: EECS 225A: Problem Set # 3 Solutions Instructor: Kannan Ramchandran (kannanr@eecs.berkeley.edu) Homework 3 TA: Dan Hazen (hazen@eecs.berkeley.edu) Assigned: February 19, 2004 Due: March 4, 2004 Solutions Problem 1. a 5 x[n] b 5 LPF 5 5 + g y...
abhik_hw4_04.pdf
Path: Berkeley >> EECS >> 225 Spring, 2003
Description: ...
abhik_sol4_04.pdf
Path: Berkeley >> EECS >> 225 Spring, 2003
Description: ...
abhik_hw5_04.pdf
Path: Berkeley >> EECS >> 225 Spring, 2003
Description: u(n) H(z) x(n) w(n) y(n) ...
abhik_sol5_04.pdf
Path: Berkeley >> EECS >> 225 Spring, 2003
Description: ...
wei_hw6_04.pdf
Path: Berkeley >> EECS >> 225 Spring, 2003
Description: EECS 225A: Problem Set # 6 Instructor: Kannan Ramchandran (kannanr@eecs.berkeley.edu) Homework TA: Wei Wang (wangwei@eecs.berkeley.edu) Assigned: April 1, 2004 Due: April 15, 2004 Problem 1. Consider the system in Figure 1: G1(z) x1(n) w(n) x2(n...
wei_hw6sol_04.pdf
Path: Berkeley >> EECS >> 225 Spring, 2003
Description: z Cw z w z w Y C9H ) 9H ) z w zv w %w H ) w z zw z k o o o | nimv~q z w w C z w m n j z o zw m k v H $2 zqts 5po v U w 2 H\'w Ygsm rquro $k w 2 ow ~p|g n~H| npso \'xoo {lj z $ z z } o g k T z ...
dragan_hw7_04.pdf
Path: Berkeley >> EECS >> 225 Spring, 2003
Description: t m l 5sl~5oqn nvoE}vlsgqddtrdi~qoE|oornoQg|~gv t p p p l tn n p u l pu l v x m...
dragan_sol7_04.pdf
Path: Berkeley >> EECS >> 225 Spring, 2003
Description: } } y y y } } y wy y r { q {6tat\'4X q ty z gty qz ty q hV q y f6p \'cD { D s {s s \' s \'{\' \' g sr fp f \'F d\'s Fw{p 7\'hwcp %U# rp r r p r r p z #{S~xt } ...
p167-moreton.pdf
Path: Berkeley >> CS >> 284 Fall, 2008
Description: Computer Graphics, 26, 2, July 1992 Functional Optimization for Fair Surface Design Henry I! Moreton Carlo H. Skquin Computer Science Division University of California, Berkeley Abstract This paper presents a simple-to-use mechanism for the creatio...
hsu.pdf
Path: Berkeley >> CS >> 284 Fall, 2008
Description: A P w P V G I X WF G I P 1#2I 1ir5252@Hi@f w \'% a% hff e ` z e j j q g z l q w e ## } i x e x q g e i q e g x e e i j q } t#Hxdhm~d#EmH@h5~d1n $mx#|18|dH5xo$dx|k1b#5kH(#oxk~S e q q e e j q j ...
lect1.pdf
Path: Berkeley >> EECS >> 142 Fall, 2004
Description: EECS 142 Lecture 1: Overview of Communication Systems Fall 2008 Prof. Ali M. Niknejad University of California, Berkeley Wednesday, August 27, 2008 Example: Inside a Cell Phone EECS 117 RADIO Software EECS 142 Microprocessor EECS 150 VCO EECS...
NABasicsNotes.pdf
Path: Berkeley >> EECS >> 142 Fall, 2004
Description: Network Analyzer Basics- EE142 Fall 07 Network Analyzer Basics Joel Dunsmore Copyright 2007 EECS142 Lightwave Analogy to RF Energy Incident Transmitted Reflected Lightwave DUT RF Network Analyzer Basics Joel Dunsmore Copyright 2007 EECS142 ...
LectNotesVNA1.pdf
Path: Berkeley >> EECS >> 142 Fall, 2004
Description: For EECS142, Lecture presented by Dr. Joel Dunsmore Slide 1 Welcome to Network Analyzer Basics. Slide 2 One of the most fundamental concepts of high-frequency network analysis involves incident, reflected and transmitted waves traveling along transmi...
lect4.pdf
Path: Berkeley >> EECS >> 142 Fall, 2004
Description: EECS 142 Lecture 4: Review of MOS and BJT Technology for High-Speed Applications Prof. Ali M. Niknejad University of California, Berkeley Copyright c 2008 by Ali M. Niknejad A. M. Niknejad University of California, Berkeley EECS 142 Lecture 4 p....
lect5.pdf
Path: Berkeley >> EECS >> 142 Fall, 2004
Description: EECS 142 Lecture 5: Review of Resonance and Tuned Ampliers Prof. Ali M. Niknejad University of California, Berkeley Copyright c 2008 by Ali M. Niknejad A. M. Niknejad University of California, Berkeley EECS 142 Lecture 5 p. 1/33 Series RLC Circ...
lect7.pdf
Path: Berkeley >> EECS >> 142 Fall, 2004
Description: EECS 142 Lecture 7: Two-Port Circuits Prof. Ali M. Niknejad University of California, Berkeley Copyright c 2008 by Ali M. Niknejad A. M. Niknejad University of California, Berkeley EECS 142 Lecture 7 p. 1/27 A Generic Amplier YS + vs y11 y21 y...
twoports.pdf
Path: Berkeley >> EECS >> 142 Fall, 2004
Description: EECS 142 Two-Port Networks and Ampliers A. M. Niknejad Berkeley Wireless Research Center University of California, Berkeley 2108 Allston Way, Suite 200 Berkeley, CA 94704-1302 September 22, 2008 1 1 Introduction to Two-Port Parameters YS + vs y1...
lect10.pdf
Path: Berkeley >> EECS >> 142 Fall, 2004
Description: EECS 142 Lecture 10: Distortion Analysis Prof. Ali M. Niknejad University of California, Berkeley Copyright c 2008 by Ali M. Niknejad A. M. Niknejad University of California, Berkeley EECS 142 Lecture 10 p. 1/30 Introduction to Distortion so s...
lect11.pdf
Path: Berkeley >> EECS >> 142 Fall, 2004
Description: EECS 142 Lecture 11: Intercept Point, Gain Compression and Blocking Prof. Ali M. Niknejad University of California, Berkeley Copyright c 2008 by Ali M. Niknejad A. M. Niknejad University of California, Berkeley EECS 142 Lecture 11 p. 1/29 Gain ...
lect13.pdf
Path: Berkeley >> EECS >> 142 Fall, 2004
Description: EECS 142 Lecture 13: Effect of Feedback on Distortion Prof. Ali M. Niknejad University of California, Berkeley Copyright c 2008 by Ali M. Niknejad A. M. Niknejad University of California, Berkeley EECS 142 Lecture 13 p. 1/28 Effect of Feedback ...
DistoMeasLect.pdf
Path: Berkeley >> EECS >> 142 Fall, 2004
Description: Agenda Overview: What do we use to measure distortion What is spectrum analysis? Theory of Operation: Spectrum analyzer hardware Specifications: Which are important and why? Features Making the analyzer more effective Demo of Intermodulation and Harm...
lect14.pdf
Path: Berkeley >> EECS >> 142 Fall, 2004
Description: EECS 142 Lecture 14: Electrical Noise Prof. Ali M. Niknejad University of California, Berkeley Copyright c 2008 by Ali M. Niknejad A. M. Niknejad University of California, Berkeley EECS 142 Lecture 14 p. 1/20 Introduction to Noise vo (t) t All...
mtf04sol.pdf
Path: Berkeley >> EECS >> 142 Fall, 2004
Description: ...
mtf06_sol.pdf
Path: Berkeley >> EECS >> 142 Fall, 2004
Description: University of California, Berkeley EECS 142 Fall 2006 Prof. A. Niknejad Midterm Exam (closed book) Thursday, October 17, 2006 Guidelines: Closed book. You may use a calculator. Do not unstaple the exam. Warning: Illustrations not to scale. Common t...
lect15.pdf
Path: Berkeley >> EECS >> 142 Fall, 2004
Description: EECS 142 Lecture 15: Noise in Communication Systems Prof. Ali M. Niknejad University of California, Berkeley Copyright c 2008 by Ali M. Niknejad A. M. Niknejad University of California, Berkeley EECS 142 Lecture 15 p. 1/31 Degradation of Link Q...
lect16.pdf
Path: Berkeley >> EECS >> 142 Fall, 2004
Description: EECS 142 Lecture 16: Amplier Noise Calculations Prof. Ali M. Niknejad University of California, Berkeley Copyright c 2008 by Ali M. Niknejad A. M. Niknejad University of California, Berkeley EECS 142 Lecture 16 p. 1/20 Recap from Last Lecture R...
lect17.pdf
Path: Berkeley >> EECS >> 142 Fall, 2004
Description: EECS 142 Lecture 17: MOSFET LNA Design Prof. Ali M. Niknejad University of California, Berkeley Copyright c 2008 by Ali M. Niknejad A. M. Niknejad University of California, Berkeley EECS 142 Lecture 17 p. 1/29 MOS Amplier Noise Figure Rs 2 v Rg...
NoiseFigLect.pdf
Path: Berkeley >> EECS >> 142 Fall, 2004
Description: Objectives Noise Figure Measurements Y-Factor Cold source Correcting for Source Impedance Mismatch Correcting for Receiver Mismatch and Noise VNA Noise Figure Measurements Setup (S) Setting Input (Fwd) and Output (Rev) Powers Choosing Noise B...
s800NFSA.pdf
Path: Berkeley >> EECS >> 142 Fall, 2004
Description: SA 308: SA Enhancements Noise Figure Lab Agilent ESA Series Spectrum Analyzers Option 219 -Noise Figure Measurements Personality and Hardware Overview: A key measurement in the development of devices and systems is its noise figure; considering that ...
lect18.pdf
Path: Berkeley >> EECS >> 142 Fall, 2004
Description: EECS 142 Lecture 18: Introduction to Mixers Prof. Ali M. Niknejad University of California, Berkeley Copyright c 2008 by Ali M. Niknejad A. M. Niknejad University of California, Berkeley EECS 142 Lecture 18 p. 1/31 Mixers IF LO RF RF LO IF An ...
lect19.pdf
Path: Berkeley >> EECS >> 142 Fall, 2004
Description: EECS 142 Lecture 19: I/Q Mixers; BJT Mixers Prof. Ali M. Niknejad University of California, Berkeley Copyright c 2008 by Ali M. Niknejad A. M. Niknejad University of California, Berkeley EECS 142 Lecture 19 p. 1/14 BJT with Large Sine Drive IC ...
lect20.pdf
Path: Berkeley >> EECS >> 142 Fall, 2004
Description: EECS 142 Lecture 20: BJT/FET Mixers/Mixer Noise Prof. Ali M. Niknejad University of California, Berkeley Copyright c 2008 by Ali M. Niknejad A. M. Niknejad University of California, Berkeley EECS 142 Lecture 18 p. 1/35 A BJT Mixer C3 L3 L1 IF...
lect21.pdf
Path: Berkeley >> EECS >> 142 Fall, 2004
Description: EECS 142 Lecture 21: Balanced and Passive Mixers Prof. Ali M. Niknejad University of California, Berkeley Copyright c 2008 by Ali M. Niknejad A. M. Niknejad University of California, Berkeley EECS 142 Lecture 21 p. 1/43 Double Balanced Mixer VC...
lect22.pdf
Path: Berkeley >> EECS >> 142 Fall, 2004
Description: EECS 142 Lecture 22: Sinusoidal Oscillators Prof. Ali M. Niknejad University of California, Berkeley Copyright c 2008 by Ali M. Niknejad A. M. Niknejad University of California, Berkeley EECS 142 Lecture 22 p. 1/25 Oscillators T= V0 1 f t An ...
lect22_steady_state.pdf
Path: Berkeley >> EECS >> 142 Fall, 2004
Description: EECS 142 Lecture 22: Oscillator Steady-State Analysis Prof. Ali M. Niknejad University of California, Berkeley Copyright c 2005 by Ali M. Niknejad A. M. Niknejad University of California, Berkeley EECS 142 Lecture 22 p. 1/23 Summary of Last Lec...
lect23.pdf
Path: Berkeley >> EECS >> 142 Fall, 2004
Description: EECS 142 Lecture 23: Negative Resistance Osc, Differential Osc, and VCOs Prof. Ali M. Niknejad University of California, Berkeley Copyright c 2008 by Ali M. Niknejad A. M. Niknejad University of California, Berkeley EECS 142 Lecture 23 p. 1/28 ...
lect24.pdf
Path: Berkeley >> EECS >> 142 Fall, 2004
Description: EECS 142 Lecture 26: Power Ampliers Prof. Ali M. Niknejad University of California, Berkeley Copyright c 2005 by Ali M. Niknejad A. M. Niknejad University of California, Berkeley EECS 142 Lecture 26 p. 1/25 Introduction to PAs Pdc Pin Zout = 50...
lect25.pdf
Path: Berkeley >> EECS >> 142 Fall, 2004
Description: EECS 142 Lecture 27: Non-Linear Power Ampliers Prof. Ali M. Niknejad University of California, Berkeley Copyright c 2005 by Ali M. Niknejad A. M. Niknejad University of California, Berkeley EECS 142 Lecture 27 p. 1/32 Efciency of Class A Consid...
libbuild.pdf
Path: Berkeley >> IS >> 285 Spring, 2003
Description: Buckland LIBRARY BUILDINGS Rev. Feb 13, 2003 Planning Academic and Research Library Buildings. 3nd ed. by P. D. Leighton Bible\" on buildings, by Keyes Metcalf,. Grad Reserve Z679.M491 2000 1. Planning an academic...
mems_device_01a.pdf
Path: Berkeley >> EECS >> 143 Fall, 2005
Description: Resolution Test Patterns Important Details 2, 3, 4, and 8 m linewidths Lines and gaps have same widths Rails are 10 m wide ...
mems_device_01b.pdf
Path: Berkeley >> EECS >> 143 Fall, 2005
Description: Alignment Marks and Verniers Important Details Vernier step = 0.2 m Vernier tooth width = 4.0 m Vernier gap width = 4.0 m ...
mems_device_02a_b.pdf
Path: Berkeley >> EECS >> 143 Fall, 2005
Description: Diffusion and Poly-Si Line Resistance Tests Important Details Use 4-point probing for measurement of R Inner line segment is 20 squares (L = 200 m, W = 10 m) ...
mems_device_02c_d.pdf
Path: Berkeley >> EECS >> 143 Fall, 2005
Description: Contact Chain Resistance Tests Important Details Each chain has 14 series contacts and 7 series resistive pads Each chain has diffused segments measuring [L = 150 m x W = 50 m] 2C: 14 contacts connecting metal to diffused Si 2D: 14 contacts conne...
mems_device_03.pdf
Path: Berkeley >> EECS >> 143 Fall, 2005
Description: Field Oxide Capacitor Important Details Top Metal Plate: 200 m x 200 m ...
mems_device_04.pdf
Path: Berkeley >> EECS >> 143 Fall, 2005
Description: Gate Oxide Capacitor Important Details Active Area: 200 m x 200 m Top Plate (poly): 240 m x 240 m Metal Contact Pad (not including metal-poly overlap): 95 m x 240 m ...
mems_device_05.pdf
Path: Berkeley >> EECS >> 143 Fall, 2005
Description: Intermediate Oxide Capacitor Important Details Top Metal Plate: 200 m x 200 m ...
mems_device_06a.pdf
Path: Berkeley >> EECS >> 143 Fall, 2005
Description: Junction Capacitor Important Details Active Area: 300 m x 140 m ...
mems_device_06b.pdf
Path: Berkeley >> EECS >> 143 Fall, 2005
Description: Long Periphery Junction Capacitor Important Details Center of Active Area: 300 m x 140 m Fins: 150 m x 20 m ...
mems_device_07.pdf
Path: Berkeley >> EECS >> 143 Fall, 2005
Description: pn Diode Important Details Active Area: 50 m x 50 m ...
mems_device_08.pdf
Path: Berkeley >> EECS >> 143 Fall, 2005
Description: Standard MOSFETs Important Details Gate width = 15 m Varying gate length (4, 6, 8, 10 m) ...
mems_device_09.pdf
Path: Berkeley >> EECS >> 143 Fall, 2005
Description: Long-Channel MOSFETs Important Details Gate length = 20 m Varying gate width (10, 15, 20 m) ...
mems_device_10.pdf
Path: Berkeley >> EECS >> 143 Fall, 2005
Description: Large-area MOSFET Important Details Gate length = 100 m Gate width = 100 m ...
mems_device_11.pdf
Path: Berkeley >> EECS >> 143 Fall, 2005
Description: Field Oxide MOSFET Important Details Gate poly-Si sits on field oxide W/L = 100/100 m ...
mems_device_12.pdf
Path: Berkeley >> EECS >> 143 Fall, 2005
Description: Circular MOSFET Important Details W/L = ~560/20 m ...
mems_device_13.pdf
Path: Berkeley >> EECS >> 143 Fall, 2005
Description: Lateral Bipolar Junction Transistors (BJTs) Important Details Base Widths = 5, 7, 9 m Emitter Dimensions (Active Area): 50 m x 50 m ...
mems_device_14.pdf
Path: Berkeley >> EECS >> 143 Fall, 2005
Description: Inverter Important Details Load: W/L = 10/20 m Driver: W/L = 160/10 m (changed from 1994 mask) ...
mems_device_15.pdf
Path: Berkeley >> EECS >> 143 Fall, 2005
Description: NOR Gate Important Details Load: W/L = 10/40 m (changed from 1994 mask) Driver: W/L = 80/10 m ...
mems_device_16.pdf
Path: Berkeley >> EECS >> 143 Fall, 2005
Description: Ring Oscillator Important Details 17 series inverters + buffer (upper-right inverter) Load: W/L = 10/40 m (changed from 1994 mask) Driver: W/L = 80/10 m ...
mems_device_17a_b.pdf
Path: Berkeley >> EECS >> 143 Fall, 2005
Description: Single-Contact Resistance Test Structures Important Details 17A: Metal/Poly-Si 2 Poly-Si Line Segments - Length: 160 m; Width: 20 m (1 square overlap w/contact) 17B: Metal/Diffused Si 2 Diffused Si Line Segments - Length: 160 m; Width: 20 m (1 sq...
mems_device_18.pdf
Path: Berkeley >> EECS >> 143 Fall, 2005
Description: MEMS Thermal Bimorph Important Details Beam length (determined by ACTV mask) = 620 m Beam width (determined by ACTV mask) = 80 m Width of ACTV-CONT lip = 8 m Resistor composed of three segments of varying linewidth: Segment A: W = 24 m, L = 82 m...
mems_device_19.pdf
Path: Berkeley >> EECS >> 143 Fall, 2005
Description: MEMS UCB Campanile Important Details Freed structures supported by aluminum \"hinges\" Note that poly-Si \"lights\" sit on gate oxide Dimensions: Campanile Length, base to tip (measured using CONT mask) = 288 m Campanile Width (at its widest, measur...
mems_device_20.pdf
Path: Berkeley >> EECS >> 143 Fall, 2005
Description: MEMS Cantilever Array Close-up is available of a single cantilever structure. Important Details 4 cantilevers of varied lengths (300, 400, 500, 600 m), determined by ACTV mask Beam width (determined by ACTV mask) = 80 m Width of ACTV-CONT lip = ...
mems_device_21.pdf
Path: Berkeley >> EECS >> 143 Fall, 2005
Description: MEMS Heater Platform Close-ups are available of thermopile and center of heat platform. Important Details 3 embedded instruments: heater, thermopile, & sensing resistor Heater Poly-Si Line: - W = 4 m - L = 4 + 116 + 4 + 92 + 4 + (8 * 84) + (7 * 4)...
mems_initials.pdf
Path: Berkeley >> EECS >> 143 Fall, 2005
Description: Designers Initials 1994 IC Mask Design Jack W. Judy Kirt Williams Katalin Voros 1999 MEMS Addition Matt Last ...
Final_Presentation.ppt
Path: Berkeley >> IS >> 213 Spring, 1999
Description: Cal Course Registration Tele-Bears Redesign Kim Chambers, Nadine Fiebrich, Zhanna Shamis, Anna Teplitskaya, Amy Todenhagen Project Overview What is Tele-Bears on the Web? The current online system UC Berkeley students use for registration and class...
Spectrum-HE.xls
Path: Berkeley >> IS >> 213 Spring, 1999
Description: Heuristic Name Severity # of evaluators found by Location Mappings Documentation 3 2 Home Page Prevent Errors Simple & Natural Dialog Minimize Users\' Memory Load 3 2 3 2 Home Pag...
Spectrum-HE_Suggestions.doc
Path: Berkeley >> IS >> 213 Spring, 1999
Description: HeuristicEvaluationofCommunicationsSpectrum Evaluators:TelebearsRedesignGroup KimChambers NadineFiebrich AnnaTeplitskaya AmyTodenhagen ZhannaShamis OverallRecommendations: Thesitelooksgreat.Youhavereallytakenadifficultsubjectwithalargeamount ofconte...
CULTHAN.pdf
Path: Berkeley >> IS >> 142 Fall, 2003
Description: Infosys 142 Access to American cultural heritages. NOTES ON CULTURE Buckland. Fall 2003 Human behavior is too complex to allow simple, precise definitions however much scholars may wish to be scientific, precise, and quantitative. One has a sense o...
