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105 EECS Microelectronic Devices and Circuits Spring 2001, Prof. A. R. Neureuther Dept. EECS, 510 Cory 642-4590 UC Berkeley OH M11, (Tu2), W2, Th2, F11 Course Web Site http://www-inst.EECS.Berkeley.EDU/~ee105/ Homework Assignment # 14, Due May 4, 2001 MOS Device Data VTn = -VTp = 1V, nCox = 50A/V2, pCox = 25A/V2, -2p = 2n = 0.8V, n = p = 0.05V-1 @ L=2m, Cox=2.3fF/m2, Cjn=0.1fF/m2, Cjp=0.3fF/m2, Cjswn=0.5fF/m,...
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105 EECS Microelectronic Devices and Circuits
Spring 2001, Prof. A. R. Neureuther Dept. EECS, 510 Cory 642-4590 UC Berkeley OH M11, (Tu2), W2, Th2, F11 Course Web Site http://www-inst...
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Berkeley - EE - 105
Berkeley - EE - 105
Week 2, Lectures 3-5, February 22-26, 2001EECS 105 Microelectronics Devices and Circuits, Spring 2001Andrew R. NeureutherTopics: Practice Loop and Node Eqns., Two-Ports, Silicon Physics Carriers, Process Flow and Layout, Sheet Resistance, Square
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Berkeley - EE - 105
1University of California at BerkeleyEECS 105: Microelectronic Devices and CircuitsFall 1998 Costas J. SpanosEECS 105 Fall 1998 Lecture 1A Motivating ExamplenAn analog-to-digital converter for data transmission - the analog voltage is con
Berkeley - EE - 105
2Numerical Example: Carrier ConcentrationsDonor concentration: Nd = 1015 cm-3 Thermal equilibrium electron concentration: n o N d = 1015cm3Thermal equilibrium hole concentration: p o = n i / n o n i / N d = ( 102 2 10cm3 2) / 1015
Berkeley - EE - 105
6pn JunctionssThermal Equilibriumsubiquitous IC structure - pn junctions are everywhere!, , , ,p type n type xThought experiment: bring p and n Si blocks together holes flood from p side to n side of junction and electrons go the other wa
Berkeley - EE - 105
12CMOS LayoutMask LayerssIC design procedure: system specifications circuit design layout post-layout extraction and simulation IC fabrication testing select (p+) brown active green n-well purple Layer Representation Color Convention (EEC
Berkeley - EE - 105
23Common-Drain AmplifiersSimilar configuration to common collector.V+V+RS vs VBIAS + - + - iSUP + V BIAS vOUT - V- V- RL + VOUT ISUP -+ -Analysis: much the same as for CC amplifier - if VSB isn't zero, then the voltage gain is degraded
Berkeley - EE - 105
28Frequency Response of Transistor AmplifierssSimplest case: CE short-circuit current gain Ai(j) as a function of frequencyC + Iin r V C gmVIoKirchhoffs current law at the output node: I o = g m V V jC Kirchhoffs current law at the inpu
Berkeley - EE - 105
30Voltage Amplifier Frequency ResponsesChapter 9 multistage voltage amplifier5VM7B R 35 k M6BM7M5 Q4 X M3 vOUTM6100 A Q2B Q2Vs M8+ + M1M9M10V BIASsApproaches: 1. brute force OCTC - do for all capacitances in the circui
Berkeley - EE - 105
31Small-Signal Model for Common-Mode InputssNow consider other extreme situation: vi1 = vi2 = vicvo1 + v1 - vo2 + v2 -vic+ -rgmv1RCRCgmv2r+ -vici1 vxi2robi1 = i2 -> vx = (2i1) rob which will be satisfied by splitting
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Math 331 Homework 2 ( Sections 1 and 4) Due: Feb 27 (note: turn in during lecture on 2/27, or leave in envelope for your section outside 1430 LGRT BEFORE 9AM on 3/2. Exam I : March 10, 7-9 pm ; Reading: Read the discussion of partial fractions on fir
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APPM 2350Final ExamSummer 2007Be sure to include your name and a grading table on the front of your blue book. You must work all of the problems on this exam. Show ALL of your work and BOX IN YOUR FINAL ANSWERS. A correct answer with no relevan
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Berkeley - EE - 105
University of California College of Engineering Department of Electrical Engineering and Computer SciencesJan M. RabaeyTuTh 2-3:30 Thursday, September 28, 6:30-8:00pmEECS 105: FALL 06 MIDTERM 1SOLUTIONSNAMELastFirstSIDProblem 1 (8)
Berkeley - EE - 105
Berkeley - EE - 105
EECS 105 SPRING 2004, Lecture 1Lecture 2: Frequency domain analysis, PhasorsProf. J. Stephen SmithDepartment of EECSUniversity of California, BerkeleyEECS 105 Fall 2004, Lecture 2Prof. J. Stephen SmithAnnouncementsThe course web site i
Berkeley - EE - 105
EECS 105 Spring 2004, Lecture 5EECS 105 Spring 2004, Lecture 5Prof. J. S. SmithSecond Order Circuits Lecture 5: ResonanceThe series resonant circuit is one of the most important elementary circuits:Prof. J. S. SmithThis model is not only u
Berkeley - EE - 105
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Berkeley - EE - 105
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Berkeley - EE - 105
EECS 105 Spring 2004, Lecture 9Lecture 9: Diffusion, Electrostatics review, and CapacitorsProf. J. S. SmithDepartment of EECSUniversity of California, BerkeleyEECS 105 Spring 2004, Lecture 9Prof. J. S. SmithContextIn the last lecture,
Berkeley - EE - 105
EECS 105 Spring 2004, Lecture 9EECS 105 Spring 2004, Lecture 9Prof. J. S. SmithElectrostatics ReviewLecture 9: Diffusion, Electrostatics review, and CapacitorsThe force between any two charges is given by Coulomb's law r qq ^ F = e 1 22 4r ^
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Berkeley - EE - 105
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Berkeley - EE - 105
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Berkeley - EE - 105
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Berkeley - EE - 105
Berkeley - EE - 105
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Berkeley - EE - 105
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Berkeley - EE - 105
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Berkeley - EE - 105
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Berkeley - EE - 105
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Berkeley - EE - 105
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Berkeley - EE - 105
EECS 105 Spring 2004, Lecture 39EECS 105 Spring 2004, Lecture 39Prof. J. S. SmithReading Lecture 39: Intro to Differential AmplifiersAll of the reading assignments are done Time to start reviewing for the final!Prof J. S. SmithDepartment o
Berkeley - EE - 105
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Berkeley - EE - 105
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Berkeley - EE - 105
Berkeley - EE - 105
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Berkeley - EE - 105
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Berkeley - EE - 105
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Berkeley - EE - 105
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Berkeley - EE - 105
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Berkeley - EE - 105
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