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...EE100 07S Mid-Term 1
Name _|_
LAST FIRST
Student ID _
DO NOT OPEN UNTIL INSTRUCTED TO DO SO.
We will copy some graded exam papers for archival purposes! Put your name in the blank on EVERY page. Show your setup. Circle your answers. Add notes...
...Stack Sample Solutions
Hint: This is an absolute address
0F00 0F06 0F0C 0F12 0F18 0F1E 0F20 0F26 0F2A 0F2E 0F32 0F36
START
L0
VAR_1 VAR_2
ORG MOVE.L MOVE.L MOVE.L SUBI.L MOVE.L ROL.L MOVE.L BSR.L DS.L DS.L MOVE.L STOP ORG MOVEA.L MOVE.L MOVE.L ...
...The 68000's Instruction Set
We have included this appendix to save you the task of having to turn to secondary
material when writing 68000 assembly language programs. Since most programmers are not interested in the encoding of instructions, detail...
...C to ASM translation samples
Result Result = (int*) 0x0F00; *Result = 0; for (i=1; i<100; i+) *Result += i; START LOOP ORG $0F00 DC.L 0 ORG $1000 MOVE.L #1, D0 CLR.L Result ADD.L D0, Result ADD.L #1, D0 CMP #100, D0 BNE LOOP STOP #$2700 END START ORG...
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Berkeley >> EE >> 100 (Fall, 2008)
E 4z/ roo lr 16^ S,i lo l/in o tro, p v6rl - V:,- Ve Vt\'rr,/ut y\'1rnJ Vesp Vo& . Ivr^ : -Irct Vss l/o,rt ...
Berkeley >> EE >> 100 (Fall, 2008)
Precision Rail-to-Rail Input and Output Operational Amplifiers OP184/OP284/OP484 FEATURES Single-supply operation Wide bandwidth: 4 MHz Low offset voltage: 65 V Unity-gain stable High slew rate: 4.0 V/s Low noise: 3.9 nV/Hz PIN CONFIGURATIONS NULL I...
Berkeley >> EE >> 100 (Fall, 2008)
Muthuswamy, Bharathwaj mbharat@cory.eecs.berkeley.edu EECS Department, UC Berkeley Summer 2006 Version 1.00 EE100/EE42 MultiSim Tutorial 1. Introduction The purpose of this document is to introduce the many features of MultiSim 8 from the perspecti...
Berkeley >> EE >> 100 (Fall, 2008)
418 IEEE JOURNAL OF SOLID-STATE CIRCUITS, JUNE 1976 Correspondence The Differential ROBERT Pair as a Triangle-Sine Wave Converter G. MEYER, WILLY M. C. SANSEN, AND STEFAN PEETERS SIK LUI, R~ 1 AbstractThe performance of a differential pair with emi...
Berkeley >> EE >> 100 (Fall, 2008)
http:/nonlinear.eecs.berkeley.edu/bharath/books.ht CIRCUITS: 1. Electric Circuits by Nilsson, James W. and Riedel, Susan A. 7th Edition, 2004. ISBN 0131465929 2. Electronic Principles by Malvino, Albert P. 3rd Edition,1993 (17th reprint). ISBN 0-07-0...
Berkeley >> EE >> 22 (Fall, 2009)
http:/nonlinear.eecs.berkeley.edu/bharath/books.ht CIRCUITS: 1. Electric Circuits by Nilsson, James W. and Riedel, Susan A. 7th Edition, 2004. ISBN 0131465929 2. Electronic Principles by Malvino, Albert P. 3rd Edition,1993 (17th reprint). ISBN 0-07-0...
Berkeley >> EE >> 100 (Fall, 2008)
EE100: Midterm 1 (07/17, in class): 25% Midterm 2 (07/31, in class): 25% Final (08/18, in class): 30% Homework : 5% Lab : 10% Project : 5% EE42: 25% 30% 35% 10% EE43: P/NP ...
Berkeley >> EE >> 2 (Fall, 2009)
EE100: Midterm 1 (07/17, in class): 25% Midterm 2 (07/31, in class): 25% Final (08/18, in class): 30% Homework : 5% Lab : 10% Project : 5% EE42: 25% 30% 35% 10% EE43: P/NP ...
Berkeley >> EE >> 100 (Fall, 2008)
EE 43/100 RC Circuits Experiment Guide for RC Circuits I. Introduction A. Capacitors A capacitor is a passive electronic component that stores energy in the form of an electrostatic field. The unit of capacitance is the farad (coulomb/volt). Practi...
Berkeley >> EE >> 100 (Fall, 2008)
EECS 100 Konrad Aschenbach Bharath Muthuswamy EE100 Lab 2 Experiment Guide: The Oscilloscope I. Objective: Understand how to use the function generator and oscilloscope. II. Theory 1. The HP33120A Function Generator The front panel of the function ...
Berkeley >> EE >> 100 (Fall, 2008)
EECS 100 Spring 2004 Muthuswamy, Bharathwaj Diodes: Experiment Guide Components required for this lab: 1. 2. 3. 4. 5. I. Diodes Overview Diodes are mostly used in practice for emitting light (as Light Emitting Diodes, LEDs) or controlling voltages ...
Berkeley >> EE >> 100 (Fall, 2008)
EE100 Bharath Muthuswamy Building Relaxation Oscillators Objective In this lab, you will build and study the relaxation oscillator from the Introduction to Nonlinear Circuit Analysis chapter. Prelab 1. Please read and understand the chapter titled ...
Berkeley >> EE >> 100 (Fall, 2008)
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Berkeley >> EE >> 14 (Fall, 2009)
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Berkeley >> EE >> 100 (Fall, 2008)
EE 43/100 RC Circuits EE 43/100 Pre-Lab: RC Circuits Name: _ TA: _Section: _ Please read the lab manual first then show your work here. V = Q/C = [ i(t)dt ] / C Differentiating this equation, we obtain i(t) = C(dV/dt) 1. If a constant current of ...
Berkeley >> EE >> 100 (Fall, 2008)
Muthuswwamy, Bharathwaj mbharat@cory.eecs.berkeley.edu EE100 Summer 2006 Introduction to MultiSim 1. Objective: Simulate two very simple circuits in MultiSim 2. MultiSim Tutorial Please go through the MultiSim tutorial available on the EE100 homepa...
Berkeley >> EE >> 100 (Fall, 2008)
EE100,EE42/43 - Electronic Techniques for Engineering General Course Information by Bharathwaj Bart Simpson Muthuswamy Department of Electrical Engineering and Computer Sciences, University of California at Berkeley Summer 2006 EE100 and EE42/43: ...
Berkeley >> EE >> 100 (Fall, 2008)
http:/inst.eecs.berkeley.edu/~inst/anon/ ...
Berkeley >> EE >> 6 (Summer, 2009)
http:/inst.eecs.berkeley.edu/~inst/anon/ ...
Berkeley >> EE >> 100 (Fall, 2008)
EE100/EE42 Lecture 1 - Introduction Manaloor Govindarajan Balasubramnian Manikantan Bharathwaj Muthuswamy Bharath Bart Simpson EE Ph.D. Student (BS in EE @ UC Berkeley, May 2002; MS in EE @ UC Berkeley, May 2005) Nonlinear Electronics Laboratory (NOE...
Berkeley >> EE >> 100 (Fall, 2008)
EECS 100 Spring 2004 Muthuswamy, Bharathwaj Name : TA: Section: Diodes: Prelab 0. READ THE LAB GUIDE. 1. In the circuit below find VA and I, assuming all diodes are ideal (threshold voltage is zero). HINT: Each diode can be on or off. Since you a...
Berkeley >> EE >> 100 (Fall, 2008)
Name: _ TA: _Section: _ EECS 100 Oscilloscope Pre-Lab 1. Plot the following voltage signals on the grids below. PLEASE USE THE SCALE SHOWN V is 0.5 volts/box (vert) and t is 1millisecond/box (horiz). (a) V1(t) = sin (2 1000 t) (b) V2(t) = sin (2 ...
Berkeley >> EE >> 100 (Fall, 2008)
EECS 100 Lab Guide Bharathwaj Muthuswamy The Operational Amplfier Lab Guide COMPONENTS REQUIRED FOR THIS LAB : 1. LM741 op-amp integrated circuit (IC) 2. 1k resistors 3. 10k resistor 4. Wires, wire cutters and breadboard 1. Introduction So far in...
Berkeley >> EE >> 100 (Fall, 2008)
EE 100 Summer 2008 Final Project EE 100 Final Project Part I: General instructions 1. The final project will count for 10% of your grade. 2. Every effort must be made to team up as a team of 2 or 3. NO EXCEPTIONS! One of your team members will keep ...
Berkeley >> EE >> 100 (Fall, 2008)
UNIVERSITY OF CALIFORNIA, BERKELEY EE100 Summer 2008 Lab 3 Capacitors and Inductors Lab Guide I. Introduction 1. Capacitors A capacitor is a passive electronic component that stores energy in the form of an electrostatic field. The unit of capacitan...
Berkeley >> EE >> 100 (Fall, 2008)
Summer 2008 EE100/EE43 Lab 7 EECS 100/43 Lab 7 Strain Gauge 1. Objective In this lab, you will build an op-amp amplifier circuit for a strain gauge. 2. Equipment a. Breadboard b. Wire cutters c. Wires d. Oscilloscope e. Function Generator f. Power ...
Berkeley >> EE >> 100 (Fall, 2008)
UNIVERSITY OF CALIFORNIA, BERKELEY EE100 Summer 2008 Lab 3 Capacitors and Inductors Prelab Name: _ TA: _Section: _ Please read the lab manual first then show your work here. V = Q/C = [ i(t)dt ] / C Differentiating this equation, we obtain i(t) = ...
Berkeley >> EE >> 100 (Fall, 2008)
UNIVERSITY OF CALIFORNIA, BERKELEY Department of Electrical Engineering and Computer Sciences EE100/EE42 Intro. To Electronics Engineering Summer 2008 Bharath Bart Simpson Muthuswamy SAMPLE FINAL August 15h 2008 Time Allotted: 2 hours NAME: __ , _ (...
Berkeley >> EE >> 100 (Fall, 2008)
EECS 100/42-43 Course Overview EECS 100/42-43 (called EE100 from now on): Course that teaches the fundamentals of electronics from the perspective of non-electrical engineers. Prerequisites: Math 1B, Physics 7B (official), none (unofficial) Cours...
Berkeley >> EE >> 100 (Fall, 2008)
Name:_ Student ID:_ Section:_ Date:_ UNIVERSITY OF CALIFORNIA, BERKELEY EE100 Summer 2008 Lab 2 Equivalent Circuits Prelab NOTE: Many of these theoretical values will be used in your lab. Please record your theoretical values in questions 2 and 5 o...
Berkeley >> EE >> 100 (Fall, 2008)
Summer 2008 Rev. 1 Department of EECS University of California, Berkeley EE100 Summer 2008 Nonlinear Problem Set Muthuswamy, Bharathwaj mbharat@cory.eecs.berkeley.edu 1. Plot the IV graph of the following circuit at the terminals indicated: Figur...
Berkeley >> EE >> 100 (Fall, 2008)
Summer 2008 EE100/EE43 Lab 7 EECS 100/43 Lab 7 Strain Gauge: Prelab NAME:_/SECTION_ a. TASK 1 Derive the gains of the two op-amp circuit in figure 2 (refer to your guide for figure 2). Fill table 1. Op-amp U1A (Difference amplifier) U1B (Noninverti...
Berkeley >> EE >> 100 (Fall, 2008)
...
Berkeley >> EE >> 100 (Fall, 2008)
EE100Su08 Lecture #17 (August 4th 2008) OUTLINE HW #3s-#6s: Pick up from lab, regrades: talk to Bart (HW #4s are in lab as well) QUESTIONS? Lecture schedule: Today: wrap up transistors Wednesday (08/06): Review Friday (08/08), Monday (08/11)...
Berkeley >> EE >> 7 (Summer, 2009)
EE100Su08 Lecture #17 (August 4th 2008) OUTLINE HW #3s-#6s: Pick up from lab, regrades: talk to Bart (HW #4s are in lab as well) QUESTIONS? Lecture schedule: Today: wrap up transistors Wednesday (08/06): Review Friday (08/08), Monday (08/11)...
Berkeley >> EE >> 100 (Fall, 2008)
EE100Su08 Lecture #5 (July 2nd 2008) Outline Questions? Lab notes: Labs 2 and 3 have been shortened Monday lab: go to your SECOND lab section next week. Node-Voltage Analysis: wrap up Mesh analysis: read it, OPTIONAL Superposition Thevenins...
Berkeley >> EE >> 2 (Fall, 2009)
EE100Su08 Lecture #5 (July 2nd 2008) Outline Questions? Lab notes: Labs 2 and 3 have been shortened Monday lab: go to your SECOND lab section next week. Node-Voltage Analysis: wrap up Mesh analysis: read it, OPTIONAL Superposition Thevenins...
Berkeley >> EE >> 100 (Fall, 2008)
EE100Su08 Lecture #10 (July 18th 2008) Outline Midterm #1: pick it up from me in OH today HW #1: Pick up from labs HW #2: should be returned next week HW #1 and Midterm #1 regrade deadline: Wednesday, July 23rd 2008, 5:00 pm PST. Procedure: HW ...
Berkeley >> EE >> 4 (Spring, 2009)
EE100Su08 Lecture #10 (July 18th 2008) Outline Midterm #1: pick it up from me in OH today HW #1: Pick up from labs HW #2: should be returned next week HW #1 and Midterm #1 regrade deadline: Wednesday, July 23rd 2008, 5:00 pm PST. Procedure: HW ...
Berkeley >> EE >> 100 (Fall, 2008)
UNIVERSITY OF CALIFORNIA, BERKELEY EE100 Summer 2008 Lab 1 Introduction to Circuits and Instruments Prelab Name_ Session/TA_ 1. Two resistors are connected in parallel to an ideal voltage source of 5 V. Choose the value of R2 so that the total curren...
Berkeley >> EE >> 100 (Fall, 2008)
10 8 6 4 2 Charge (mC) 0 2 4 6 8 10 0 0.2 0.4 0.6 0.8 1 t...
Berkeley >> EE >> 100 (Fall, 2008)
Lecture Week 7a Types of Circuit Excitation Why Sinusoidal Excitation? Phasors Types of Circuit Excitation Linear TimeInvariant Circuit Steady-State Excitation Digital Pulse Source Linear TimeInvariant Circuit OR Linear TimeInvariant Circuit Sinu...
Berkeley >> EE >> 100 (Fall, 2008)
EE 42/43/100 Prof. Fearing and Prof. White University of California, Berkeley: Fall 2005 September 13th, 2005 Solutions for Homework #2 by D. Nguyen, edited by RSF 1.) 2.) 3.) 1 4.a) First, obtain the resistivity of copper from Table 1.3 in Ham...
Berkeley >> EE >> 100 (Fall, 2008)
EE43 Lab #1 Introduction to Lab: Guide Objective The student will use the following circuit elements and laboratory equipment to make basic circuit measurements: Resistors, Breadboards, multimeters (DMM), and Power supplies. Theory a. Resistor A res...
Berkeley >> EE >> 100 (Fall, 2008)
UNIVERSITY OF CALIFORNIA College of Engineering Department of Electrical Engineering and Computer Sciences Professors Fearing & White Fall 2005 EE43/EE100 LAB #3 Equivalent Circuits Guide Important Notes Please make sure the current limit is ...
Berkeley >> EE >> 100 (Fall, 2008)
EE42/100 Problem Set 5 Due at 12:00 noon TUESDAY October 4 in box in 240 Cory Hall. Well Make a solution available 1 hour later on top of the boxes in 240 so you can study it for the midterm, which is Thursday Oct. 6 in class. 1. (Initial condition o...
Berkeley >> EE >> 100 (Fall, 2008)
Tips for the midterm that have come up in office hours this week 12/13/2005 1. When working on purely digital circuits, it is safe (unless specified otherwise) to assume that an NMOS will be on if the gate is set to the high voltage, and low if the g...
Berkeley >> EE >> 100 (Fall, 2008)
Experiment The Oscilloscope I. Objective: Understand how to use the function generator and oscilloscope. II. Theory 1. The HP33120A Function Generator The front panel of the function generator is shown in Figure 1. This instrument outputs a time-var...
Berkeley >> EE >> 100 (Fall, 2008)
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Berkeley >> EE >> 100 (Fall, 2008)
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Berkeley >> EE >> 100 (Fall, 2008)
EE43 Fall 2005 Project 1: Audio Amplifier, Part II EE 43 PROJECT 1: AN AUDIO AMPLIFIER Part 2: Audio Amplifier Lab Guide In this lab were going to extend what you did last time. Were going to use your AC to DC converter to power an audio amplifie...
Berkeley >> EE >> 2 (Fall, 2009)
EE43 Fall 2005 Project 1: Audio Amplifier, Part II EE 43 PROJECT 1: AN AUDIO AMPLIFIER Part 2: Audio Amplifier Lab Guide In this lab were going to extend what you did last time. Were going to use your AC to DC converter to power an audio amplifie...
Berkeley >> EE >> 100 (Fall, 2008)
EE43 Fall 2005 Project 1: Audio Amplifier, Part II EE 43 PROJECT 1: AN AUDIO AMPLIFIER Part 2: Audio Amplifier Prelab 1 Amplifier Block Diagram In this lab well be building a simple audio amplification system. This system will be powered by the AC...
Berkeley >> EE >> 2 (Fall, 2009)
EE43 Fall 2005 Project 1: Audio Amplifier, Part II EE 43 PROJECT 1: AN AUDIO AMPLIFIER Part 2: Audio Amplifier Prelab 1 Amplifier Block Diagram In this lab well be building a simple audio amplification system. This system will be powered by the AC...
Berkeley >> EE >> 100 (Fall, 2008)
Name: _ TA: _Section: _ EE 43 Lab # 2 Oscilloscope Pre-Lab 1. Plot the following voltage signals on the grids below. PLEASE USE THE SCALE SHOWN V is 0.5 volts/box (vert) and t is 1millisecond/box (horiz). (a) V1(t) = sin (21000 t) (b) V2(t) = sin (...
Berkeley >> EE >> 100 (Fall, 2008)
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Berkeley >> EE >> 100 (Fall, 2008)
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Berkeley >> EE >> 100 (Fall, 2008)
EE 40 Op-Amp Op-Amp Prelab Name:_ TA:_ Session:_ 1. For the Op-Amp we are going to use LMC 6482, which pin is VDD (V+) and which is ground (V-)? What are the voltages we are going to use for VDD and VSS? [2] 2. Derive the gain (Vout/Vin) expression...
Berkeley >> EE >> 100 (Fall, 2008)
...
Berkeley >> EE >> 100 (Fall, 2008)
EE43/EE100 Prelab #3 Equivalent Circuit Name: _ TA: _ Section: _ Req = _ 25V ...
Berkeley >> EE >> 100 (Fall, 2008)
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Berkeley >> EE >> 100 (Fall, 2008)
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Berkeley >> CS >> 150 (Fall, 1996)
PC900V/PC900VQ PC900V/PC900VQ . s Features 1. High reliability type ( PC900VQ ) 2. Normal OFF operation, open collector output 3. TTL and LSTTL compatible output 4. Operating supply voltage V CC : 3 to 15V 5. High isolation voltage between input and...
Berkeley >> CS >> 150 (Fall, 1996)
CS150 FPGA Board Digital Video in a Nutshell Many video standards have been developed over the years since television was invented, and with the advent of digital video, even more formats and standards have evolved. But for a number of reasons one sp...
Berkeley >> CS >> 150 (Fall, 1996)
Virtex-5 Libraries Guide for HDL Designs ISE 10.1 Xilinx Trademarks and Copyright Information Xilinx is disclosing this user guide, manual, release note, and/or specification (the Documentation) to you solely for use in the development of designs t...
Berkeley >> CS >> 150 (Fall, 1996)
0 R System ACE CompactFlash Solution 0 0 DS080 (v2.0) October 1, 2008 Product Specification Features System-Level Features: - High-capacity pre-engineered configuration solution for FPGAs1 - System ACE CF Controller XCCACE-TQG144I device - Maxi...
Berkeley >> CS >> 150 (Fall, 1996)
IS61NLP25636A/IS61NVP25636A IS61NLP51218A/IS61NVP51218A 256K x 36 and 512K x 18 9Mb, PIPELINE \'NO WAIT\' STATE BUS SRAM FEATURES 100 percent bus utilization No wait cycles between Read and Write Internal self-timed write cycle Individual Byte Writ...
Berkeley >> CS >> 150 (Fall, 1996)
SmartRF CC2420 CC2420 2.4 GHz IEEE 802.15.4 / ZigBee-ready RF Transceiver Applications 2.4 GHz IEEE 802.15.4 systems ZigBee systems Home/building automation Industrial Control Wireless sensor networks PC peripherals Consumer Electronics Prod...
Berkeley >> CS >> 150 (Fall, 1996)
128Mb: x4, x8, x16 SDRAM SYNCHRONOUS DRAM FEATURES PC100-, and PC133-compliant Fully synchronous; all signals registered on positive edge of system clock Internal pipelined operation; column address can be changed every clock cycle Internal bank...
Berkeley >> CS >> 150 (Fall, 1996)
Virtex-5 FPGA XtremeDSP Design Considerations User Guide UG193 (v3.3) January 12, 2009 R R Xilinx is disclosing this user guide, manual, release note, and/or specification (the \"Documentation\") to you solely for use in the development of designs ...
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