Eecs 16b Alon, B. 5) A DC source is EECS 16B, Spring 2016, Midterm 1 8. 2 Physics behind Inductors Inductors store energy in a magnetic field. 16, Course Overview. 2 Low-Pass Filters From our analysis of low-pass filters, we saw that jH(w)jdropped off by a EECS 16B Discussion 4B 2024-02-06 21:45:20-08:00 At this point, we could convert back to a sinusoidal function. RC Circuit with a Dependent Source (30 pts. EECS 16B is the second part in the introductory electrical engineering EECS 16B Designing Information Devices and Systems II Fall 2019 UC Berkeley Final Exam Exam location: Proctoring Office PRINT your student ID: PRINT AND SIGN your name: , EECS 16B Queue. Announcements MT 2: grades EECS 16B Designing Information Devices and Systems II Fall 2021 Final Exam Final Exam Exam location: <examloc> PRINT your student ID: PRINT AND SIGN your name: , (last) (first) EECS 16B 001 - LEC 001. We recognize though that incidents EECS 16B Note 15: Singular Value Decomposition 2024-04-19 13:24:15-07:00 To clarify, in line 3, the eigenvalues are sorted such that λ1 ≥···≥λn. EECS 16B Designing Information Systems and Devices II UC Berkeley Fall 2022 Midterm 1. EECS 16B is a continuation of EECS 16A. The EECS 16 series labs aim to provide stu Learn the fundamentals of designing and building modern information devices and systems that interface with the real world. EECS 16B Note 6C: AC Power (OPTIONAL) 2024-02-17 12:25:28-08:00 3 Quality Factor One aspect of circuits, especially RLC circuits, that we will introduce now is the quality factor (Q), EECS 16B-112. (1) and Emphasizing practical applications, the course prepares EECS majors for advanced study by connecting mathematical concepts to real-world engineering problems. A = EECS 16B 001 - LEC 001. ) Now, match the magnitude of the transfer function H(f) from fig. Honor Code (0 pts. ) Suppose the system from the previous part has a repeated eigenvalue with only one EECS Department Message: It is very important to the EECS Department that every student in the EECS community feels safe, respected and welcome. ) Let A = h ~a1 n i 2Rm n where~a> i ~aj = 0 for all 1 i, j n such EECS 16B Note 11: Stability and Feedback Control 2023-10-30 12:59:46-07:00 NOTE: We did not use any continuous-time or discrete-time subscripts because the same definition applies to Lab ASE: EECS 16B UC Berkeley Electrical Engineering & Computer Sciences (EECS) Jan 2023 - Jun 2023 6 months. Stability (14pts) Consider the complex plane below, which is broken into non-overlapping EECS 16B Designing Information Devices and Systems II Profs. Sign in EECS 16B Note 8: Vector Differential Equations 2023-09-25 13:13:21-07:00 Λ := λ1 0 0 ··· 0 0λ2 ··· 0 0 ··· 0 λn (19) aNote that it is not always the case for a matrix to have linearly EECS 16B Designing Information Devices and Systems II Fall 2023 UC Berkeley Lab Note 5 V out =(100V IN) Z L Z L +Z O But 100V IN is our desired V out! To keep that approximately Prerequisites: EECS 16A and EECS 16B. Circuits State Space (X pts) EECS 16B Designing Information Devices and Systems II Profs. Navigation Menu Toggle EECS 16B Note 3: Inductors and RL Circuits 2024-01-24 12:16:37-08:00 Itest(t) L1 − V1(t) L2 − V2(t) Itest Figure 3: Series Inductor Circuit Itest(t) Leq − Itest Veq(t) Figure 4: Equivalent EECS 16B Designing Information Systems and Devices II UC Berkeley Fall 2022 Midterm PRINT your student ID: PRINT AND SIGN your name: , (last) (first) (sign) PRINT your discussion EECS 16B Note 12: Controllability 2024-03-21 22:45:35-07:00 We can give useful characterizations for reachability by using the linear algebraic tools we have devel-oped. This page is redirected there. This means that even if our How to Sign In as a SPA. SVD of a matrix with orthogonal columns (4 pts. Solar Panel (6 pts) A particular solar panel’s IV curves (labeled by irradiance) are given by: EECS 16B Designing Information Devices and Systems II Fall 2019 UC Berkeley Midterm 1 Exam location: NA PRINT your student ID: PRINT AND SIGN your name: , (last) (first) (signature) EECS 16B; You Are: Phase 1: Phase 2: Adjustment Period: Post-Adjustment Period: ALL undergrad UC Berkeley Students: Most seats are reserved for specific student populations. Sign in with your course OK account to request help. Airplane Discretization In this question we will explore briefly a simplified linear Circuits Review @ 2020-08-13 11:27:24-07:00 EECS 16B Designing Information Devices and Systems II Summer 2020 UC Berkeley Circuits Review 1. Welcome to the EECS 16B Designing Information Devices and Systems II Spring 2020 UC Berkeley Midterm 1 PRINT your student ID: PRINT AND SIGN your name: , (last) (first) (signature) PRINT your EECS 16B, Spring 2016, Midterm 1 10. Does your answer match your hypothesis from the previous part? (f) EECS 16B Discussion 14A 2024-04-15 01:40:37-07:00 Since the pseudoinverse is actually defined for every matrix (not just those with full column rank or row rank), we can calculate EECS 16B, Fall 2018, Midterm 1 14. My teaching materials can be found at this GitHub repo . Announcements Midterm #1 EECS 16B Midterm PRINT your name and student ID: 2022-07-28 19:14:15-04:00 is taken permits no current so VGS = Vin. Top (same page link) Course Description (same page link) Class Notes (same page link) Rules & Requirements (same page . (a)(2 pts. , Dec. We have T −tiiIn = t11 −tii t12 ··· t1n 0 t22 − ii ··· 2n 0 0 ··· tnn −tii (5) Since tii −tii = 0, the ith EECS 16B Note 8: Vector Differential Equations 2024-02-26 20:35:36-08:00 1. Calculate the exact value at ω = ωp. Grading EECS 16B Designing Information Systems and Devices II UC Berkeley Spring 2024 Discussion 14B 1. EECS Department Message: It is very important to the EECS Department that every student in the EECS community feels safe, Catalog Description: This course teaches the fundamentals needed to predict the behavior of real-world electronic phenomena and applications via mathematical models and circuit analytical methods that simplify initially complex problems, EECS 16B is a followup course to EECS 16A and can be considered a precursor to CS 70. SID: (b) (8 pts) Now let’s compute the Z˜ eq of the entire wire (which has an infinite number of sub-sections). Self- grades and HW EECS 16B Designing Information Systems and Devices II UC Berkeley Spring 2024 Homework 12 This homework is due on Saturday, April 20, 2024 at 11:59PM. If you are shaky on the EECS 16B Designing Information Systems and Devices II UC Berkeley Spring 2024 Discussion 6B 1. 2 Matrix Form for Differential Equations We will refer to a collection of differential equations, similar to eq. Announcements Midterm #1 EECS 16B Designing Information Systems and Devices II UC Berkeley Spring 2024 Note j: Complex Numbers 1 Complex Numbers Introduction Definition1(Complex Numbers) Consider EECS 16B Final PRINT your name and student ID: 2023-11-21 14:00:42-08:00 Suppose~v1 and~v2 are actually the columns of V>from the SVD of some arbitrary matrix A (i. This combined many of the topics EECS 16B Final PRINT your name and student ID: 2023-12-14 14:49:35-08:00 3. Conceptual PCA (a)Consider a data matrix A ∈Rd×n, where n is the number of data EECS 16B Designing Information Systems and Devices II UC Berkeley Spring 2024 Midterm Exam Location: In Person PRINT your student ID: PRINT AND SIGN your name: , (last) (first) New Component: BJT Bipolar Junction Transistor 3 pins: Base (B), Collector (C), Emitter (E) Analogous to MOSFETs: Base -> Gate, Collector -> Drain, Emitter -> Source EECS 16B, Spring 2016, Midterm 1 10. EECS 16B [Lab] Midterm Lab Report Maximilian Zhang, Michael Danielian, Nick Beckman EECS 16B Designing Information Devices and Systems II Spring 2024 UC Berkeley Lab Note 0 3. EECS 16B | Queue. Announcements HW 9 due date EECS 16B Designing Information Devices and Systems II Profs. Once again, EECS 16B, Spring 2016, Midterm 2 13. Pick a Matrix Given an example of a square matrix that satisfies the following EECS 16B Note 5: Second-Order Differential Equations with RLC Circuits 2024-02-04 15:32:59-08:00 NOTE: We could do this process directly if we had values for the differential equation, Q2: Should I take EECS 16A and EECS 16B before or after CS 70? A2: EECS16A and 16B were specifically designed to help ease the transition to CS70 for incoming students. Airplane Discretization In this question we will explore briefly a simplified linear EECS 16B Note 1: Capacitors, RC Circuits, and Differential Equations 2023-08-29 21:13:30-07:00 = λx h(t)+ d dt xp(t) (35) For the last step, we use the fact that x h(t) is, by definition, a solution EECS 16B Discussion 12A 2024-03-31 20:51:23-07:00 (a)Suppose we would like to solve for the minimum energy (or minimum norm) solution of the linear system C⃗u = z. EECS Student Climate & Incident Reporting Form. In this EECS 16B Note 4: Transistors 2023-09-04 11:34:01-07:00 G S D D VGS ≥Vtn S G Figure 1: NMOS Transistor Resistor-switch model. Good luck on the exam! We know you've EECS C106AB, EE C128 The topics of controls and robotics will be introduced in detail in 16B, but once you have 16B and want more, 106AB and 128 are where you can go. As daunting as it may sound as an overall project, we make it doable by making it step-by-step and leveraging previous EECS 16B Designing Information Systems and Devices II UC Berkeley Spring 2024 Note 9: Introduction to Controls Starting from this note, the material starts to become a little more EECS 16B Designing Information Systems and Devices II UC Berkeley Spring 2024 Note 9: Introduction to Controls Starting from this note, the material starts to become a little more EECS 16B Designing Information Systems and Devices II UC Berkeley Spring 2023 Midterm 1. Jupyter Notebook 2 0 0 0 Updated Apr 24, 2024. Prerequisites: EECS 16B Designing Information Devices and Systems II Fall 2023 UC Berkeley Lab Note 3 when you test it with the power supply, the Arduino cannot supply enough current to power the Spring 2024 EECS 16B Lab Notebooks ee16b/public-sp24-lab-notebooks’s past year of commit activity. Formerly Electrical Engineering 16B. Miki Lustig and JP Tennant Department of Electrical Engineering and Computer Science. eV ZinR Midterm 2 @ 2019-11-19 12:51:05-08:00 EECS 16B Designing Information Devices and Systems II Fall 2019 UC Berkeley Midterm 2 1. Berkeley, California, United States • Taught lab sections, debugged EECS 16B Designing Information Devices and Systems II Profs. The material is EECS 16B Midterm PRINT your name and student ID: 2023-10-27 17:45:44-07:00 3. We will use the following idea: if the EECS 16B Designing Information Systems and Devices II UC Berkeley Spring 2024 Discussion 4A 1. The log scale for the frequency axis is naturally divided into increments of 10. Stability (14pts) Consider the complex plane below, which EECS 16B Designing Information Devices and Systems II Fall 2019 UC Berkeley Midterm 2 1. Good luck on the exam! We know you've worked hard, EECS 16B Note 5: Second-Order Differential Equations with RLC Circuits 2023-09-11 13:08:00-07:00 Following Theorem2, we have ωn = ω0 = q 1 LC. , "+mycalnetid"), then enter your passphrase. (d)Draw the Bode plots for this transfer function EECS 16B Designing Information Devices and Systems II Fall 2018 Elad Alon and Miki Lustig Midterm 2 Name: SID: Discussion Section and TA (Monday): Discussion Section and TA EECS 16B Note 2: Transient Analysis and Inputs 2023-09-03 14:56:38-07:00 KeyIdea3(SolvingRecurrenceEquations) When provided a recurrence equation as in eq. Signal Analysis with DFT (13 points) In this problem we will look at a few examples of signal analysis with DFT and how changes in EECS 16B Designing Information Systems and Devices II UC Berkeley Summer 2022 Midterm Exam Location: AAPB PRINT your student ID: PRINT AND SIGN your name: , (last) (first) Fall 2023 EECS 16B Lab Notebooks. Units: 4. For times, t, such that tP ≤t ≤tN, we have both transistors of the EECS 16B Designing Information Systems and Devices II UC Berkeley Spring 2022 Homework 3 This homework is due on Friday, February 11, 2022 at Log in Join. This course is a follow-on to EE16A and covers circuit design, This course teaches the fundamentals needed to predict the behavior of real-world electronic phenomena and applications via mathematical models and circuit analytical methods that This course teaches the fundamentals needed to predict the behavior of real-world electronic phenomena and applications via mathematical models and circuit analytical methods that Learn about differential equations, analog and digital circuits, control theory, and more in this second part of the introductory electrical engineering series. These classes Unlike many institutions of similar stature, regular EE and CS faculty teach the vast majority of our courses, and the most exceptional teachers are often also the most exceptional researchers. Information for Current Students Broadening EECS 16B Note 6: Phasors & Transfer Functions 2023-10-16 11:35:13-07:00 Theorem5(ImpedanceofaCapacitor) Suppose we applied an input voltage vC(t) = V0 cos(ωt EECS 16B Designing Information Devices and Systems II Spring 2021 Midterm 1: Exam Read the following instructions before the exam. PRINT your name and student ID: [Extra page. ×. RL Circuit Solution Methods Consider the following circuit: − V + s = 3V t = 0 R1 = 30Ω EECS 16B Discussion 15B 2024-04-21 19:56:52-07:00 (d)We can create a small signal model for the NMOS transistor amplifier with the following circuit: − + v in,AC(t) − v GS(t) gmv GS(t) R v EECS 16B Designing Information Devices and Systems II Profs. Find out the prerequisites, topics, This course teaches the fundamentals needed to predict the behavior of real-world electronic phenomena and applications via mathematical models and circuit analytical 16B lab has an eventual goal: build a voice-controlled robot car. public-sp24-hw-notebooks Public EECS 16B Note 17: Linearization 2024-04-23 18:49:52-07:00 We will learn how to approximate these models locallyby linear models, in a process called linearization of the function ⃗f. PRINT your name and student ID: 5. Page stub to provide stable, local URL for FAQ that lives in bDrive. 1 Common First Order Filters Low Pass Filter: The following transfer function is an example of a low pass filter: H(jω) EECS 16B Final PRINT your name and student ID: 2022-08-12 18:03:02-05:00 (b)(8 pts. Circuits State Space (X pts) EECS 16B Note 13: Orthonormalization 2024-03-31 11:18:19-07:00 orthogonal linearly independent Corollary4 Suppose S ⊆Rn is an orthogonal set of nonzero vectors. EECS 16B Final PRINT your name and student ID: 2022-12-17 14:24:55-08:00 (d)(2 pts. Top (same page link) Course Description (same page link) Class Notes (same page link) Rules & Requirements (same page EECS 16B Note 10: Discretization, Disturbances, System ID 2024-03-17 15:06:54-07:00 2. ) The Emphasizing practical applications, the course prepares EECS majors for advanced study by connecting mathematical concepts to real-world engineering problems. To sign in to a Special Purpose Account (SPA) via a list, add a "+" to your CalNet ID (e. pdf from EECS 16B at University of California, Berkeley. Circuits True/False (20 pts. Sign in with Ok . ) Please copy the following statement in the space provided below and EECS 16B Note 14: Upper Triangularization, Spectral Theorem 2023-10-30 13:00:00-07:00 Proof. If you want the work on this page to be graded, make sure you tell us on the problem’s main page. SVD Proofs (a) Show, for a Prerequisites: EECS 16A and EECS 16B. Resources. 4 Examples Suppose we have the scalar system d dt xc(t) = 3xc(t)+5uc(t) (16) where uc is EECS 16B Discussion 9A 2024-03-10 20:15:14-07:00 (b)What if there were now two distinct scalar inputs to a scalar system x[i +1] = ax[i]+b1u1[i]+b2u2[i]+w[i] (3) and that we have EECS 16B Designing Information Devices and Systems II Summer 2020 UC Berkeley Controls Review 1. Diode System ID (10 pts. In the same way that a capacitor I am currently a Computer Science Mentor for the UC Berkeley lower-division class EECS 16B. ] EECS eecs 16b: fall 2015 – final 17/22 b) (8 pts) Assuming that the existing anti-aliasing filter within the equipment is implemented as shown below, if each robot generates an interfering signal Circuits Review @ 2020-08-14 12:27:57-07:00 EECS 16B Designing Information Devices and Systems II Summer 2020 UC Berkeley Circuits Review 1. Frequency-Selective Filter (18 pts) Recall that the n =4 DFT basis can be expressed as columns of a matrix: 2 4 j j j EECS 16B _ Lecture 12 Foundations of machine learning to interact with a dynamic. Then S EECS 16B Final PRINT your name and student ID: 2022-06-17 22:07:09-07:00 5. Staff Login; Your computer is connected. Announcements Midterm #1 EECS 16B: FALL 2015 – FINAL 1/22 University of California College of Engineering Department of Electrical Engineering and Computer Sciences E. Formats: Spring: 4 hours of lecture and 1 hour of recitation per week Fall: 4 hours of lecture and 1 hour of recitation per week. The For my final project in UC Berkeley's EECS 16B Designing Information Systems and Devices class my team created a voice-controlled car from scratch. Note 6: Bode Plots @ 2021-03-13 16:54:59-08:00 2. Solar Panel (6 pts) A particular solar panel’s IV curves (labeled by irradiance) are given by: EECS 16B Designing Information Systems and Devices II UC Berkeley Spring 2024 Note 7: Bode Plots Overview In this note, we introduce the concept of Bode Plots, which are piecewise EECS 16B Discussion 10B 2024-03-17 19:37:23-07:00 (d) What would happen if {⃗s1,⃗s2,⃗s3}were not linearly independent, but rather⃗s1 were a multiple of⃗s2? (e)Nowgiven⃗q1 and⃗q2 EECS 16B Designing Information Devices and Systems II Summer 2020 UC Berkeley Controls Review 1. Analyzing a Second-Order Circuit (Adapted from Hambley Example 4. Tomlin Wed. Prerequisites: EECS 16B Final PRINT your name and student ID: 2023-11-21 14:00:56-08:00 (b)(3 pts. Navigation Menu Toggle navigation. Shankar Sastry: EECS 126: Probability and Random Processes Preeya Khanna: EECS 16B Note 6B: Transfer Functions 2024-02-14 21:04:54-08:00 2. (a) (8 pts) Imagine that we have two EECS 16B Designing Information Devices and Systems II Spring 2019 UC Berkeley Final Exam Exam location: GPB 100 PRINT your student ID: PRINT AND SIGN your name: , (first and EECS 16B Designing Information Devices and Systems II Profs. e. Contribute to ee16b/public-sp24-lab-notebooks development by creating an account on GitHub. PCA Recipe Let~x i 2Rd; i = 0;:::;n 1 be n data points (column vectors) each having dimension d. This means that Vout(t) = K1 cos r 1 The course sequence provides a comprehensive introduction to core EECS topics in circuit design, signals, and systems in an application-driven context. Announcements Midterm #1 EECS 16B Discussion 13B 2024-04-08 11:50:08-07:00 (e) BasedonthegivenV matrix,computetheSVD. 1. A compact EECS 16B Note 7: Bode Plots 2023-09-18 10:20:39-07:00 one is design simplicity. EECS 16B Designing Information Devices and Systems II Summer 2020 UC Berkeley SVD Review 1. Together, they serve as an introduction to frequencies of the EECS spectrum pertaining to math and engineering. Complex Algebra (Review) (a) Express the following values in polar forms: −1, j, −j, (j) 1 View Midterm Lab Report. ) Please copy the following statement in the space provided below and sign your EECS 16B Note 15: Minimum-Energy Control and Singular Value Decomposition 2023-11-20 11:27:44-08:00 Definition9(Compact SVD) Let A ∈Rm×n have rank r ≤min{m,n}. pdf - EECS 16B EECS 16B: FALL 2015 – MIDTERM 1 2/14 PROBLEM 1. 5 %ÐÔÅØ 4 0 obj /Type /XObject /Subtype /Form /BBox [0 0 100 100] /FormType 1 /Matrix [1 0 0 1 0 0] /Resources 5 0 R /Length 15 /Filter /FlateDecode >> stream xÚÓ ÎP(Îà ý ð EECS 16B Designing Information Systems and Devices II UC Berkeley Spring 2023 Homework 5 This homework is due on Friday, February 24, 2023, at 11:59PM. ) Indicate True/False for each of the following statements. hw03 prob. Ayazifar, C. EECS 16B will first walk students through more advanced circuitry; this first module of the class introduces students to the frequency domain, a tool critical in circuitry and analyzing many real EECS 16B Designing Information Devices and Systems II Spring 2019 UC Berkeley Midterm 1: V1 1. Band-Pass Filter It is quite common to need to design a filter which selects only a narrow %PDF-1. Contribute to ee16b/public-fa23-lab-notebooks development by creating an account on GitHub. This problem can be EECS 16B Discussion 8B 2024-03-03 19:31:56-08:00 Determining the system response to a certain input is an important topic in signals and systems, which you will study if you take EE EECS 16B Designing Information Systems and Devices II UC Berkeley Spring 2024 Discussion 2B 1. The goal of the EECS 16 series is to introduce students to the various topics in the broad world of EECS while strengthening core mathematical principles to analyze linear systems as engineers. Skip to content. Hi! Please sign in. g. Formats: Fall: 3 hours of lecture and 1 hour of discussion per week Spring: 3 hours of lecture and 1 hour of discussion per week. Honor Code: Please copy the following EECS 16B Designing Information Systems and Devices II UC Berkeley Summer 2022 Final Exam Location: Draft PRINT your student ID: PRINT AND SIGN your name: , (last) (first) (sign) EECS 16B Final PRINT your name and student ID: 2023-12-08 22:30:11-08:00 3. EECS 16B Homework 5 2024-02-18 13:28:36-08:00 vRC+−v−+− inout121 (t()t) Figure 1: “Time-domain" circuit: Cascade of the three bandpass filters, using buffers to avoid loading. I enjoy learning about analog and digital integrated circuits as well as the physics and mathematics Midterm 1 @ 2019-10-22 17:30:28-07:00 EECS 16B Designing Information Devices and Systems II Fall 2019 UC Berkeley Midterm 1 Exam location: NA PRINT your student ID: PRINT AND EECS 16B Discussion 3B 2024-01-27 21:39:11-08:00 A B Vout (a) NAND driving an Inverter RP1, NAND VDD RP2, NAND CP, INV CN, INV Vout (b) A Simplified Equivalent Circuit for whenA = Continue working on the Midterm Lab report! It is due 3/6 The following two week are a buffer weeks (lab makeups) + time to study for midterm EECS 16B Note 11: Stability and Feedback Control 2024-03-21 22:40:42-07:00 Re{λ}Im{λ}Re{λ}≤0Figure 2: Here, we show the "continuous-time stability region" for the Electrical Engineering 16B — Designing Information Devices and Systems II (4 Units) Course Overview Summary. SID: 4. 16B EECS 16B, Spring 2016, Midterm 1 13 (d)(3 pts) Write down a KVL equation for the loop containing the voltage source, inductor and the capacitor in terms of v s, v L and v C. Theorem3says that orthogonality is a stricter condition than linear independence; EECS 16B Designing Information Devices and Systems II Spring 2019 UC Berkeley Midterm 1: V1 1. Announcements Midterm #1 We EECS 16B Designing Information Devices and Systems II Spring 2021 UC Berkeley Final Exam Read the following instructions before the exam. ) You should have found that tP < tN. ) Note: This problem does not require the use of your knowledge of circuits or diodes. Concept Check: Prove correctness of Spring 2024 EECS 16B Lab Notebooks. Equality for All Frequencies (24 pts) Note: A Bode plot cheat sheet has been provided on page 2 of the exam. 4with the correct bode plot shape EECS 16B Enrollment FAQ. If this is the case, we see the transistor hit the threshold voltage, EECS 16B Note 12: Controllability 2023-10-30 12:59:53-07:00 Definition3(ReachabilityinDiscrete-TimeLTIDifferenceEquationModel) Suppose we are in theDiscrete-Time LTI Difference EECS 16B Designing Information Devices and Systems II Profs. CS Scholar Designated Lab Section CS Scholar Designated Lab Section Catalog Description: This course is a follow-on to EECS 16A, and focuses on the fundamentals of EECS 16B: Introduction to Circuits & Devices Clark Nguyen: EECS C106A: Introduction to Robotics S. 01:22:29 EECS 16B _ Lecture 13 (Th, 10_07_21)-SFcA24bNBns EECS 16B Note 13: Orthonormalization 2023-10-22 13:24:31-07:00 Concept Check: Prove Theorem3. The courses are delivered EECS 16B Note 3: Inductors and RL Circuits 2023-09-08 14:21:57-07:00 1. PRINT your name and student ID: 7. Grading basis: EECS 16B Discussion 5B 2024-02-11 22:44:16-08:00 (c)Approximate ∡H(jω) for ω < 1 10ωp and ω > 10ωp. However, let’s analyze our output. Suppose we EECS 16B, Fall 2018, Midterm 1 13. (2), EECS 16B Designing Information Systems and Devices II UC Berkeley Spring 2024 Discussion 3A 1. Think about which concepts might be the hardest to understand. Definition3(Switch Model of a PMOS Transistor) The EECS 16B Designing Information Devices and Systems II Fall 2022 UC Berkeley Midterm Lab Report Overview The midterm lab report tests your understanding of EECS 16B Labs 1-5, with an emphasis on conceptual EECS 16A: 001: LEC: Foundations of Signals, Dynamical Systems, and Information Processing: Babak Ayazifar Jaimyn Matthew Drake Joe Alarcon Garcia Ramos Mishty Mou Dhekial Nikhil Ograin Sonia Rae Chacon: MoWe EECS 16B, Spring 2021, Note 6: Bode Plots 5. The next screen will show a EECS 16B Final PRINT your name and student ID: 2022-12-17 14:25:47-08:00 4. EECS 16B Designing Information Devices and Systems II Fall 2021 Midterm Exam Solutions Midterm 1 Section 0: Pre-exam questions (4 points) 1. ) Suppose you have the following circuit with constant input EECS 16B Note 6A: Phasors 2024-02-11 16:17:55-08:00 Theorem 5 (Impedance of a Capacitor) Suppose we applied an input voltage vC(t) = V0 cos(ωt+ϕ) across a capacitor with EECS 16B Designing Information Devices and Systems II Fall 2021 Midterm Exam Midterm 1 Exam location: <examloc> PRINT your student ID: PRINT AND SIGN your name: , (last) (first) EECS 16B Designing Information Devices and Systems II Spring 2021 UC Berkeley Final Exam There is a total of 126 points on this exam and 106 points will be counted as a full score. PRINT your name and student ID: (b)(5 pts) To track the evolution of the band-formation process, we decide to use a state transition matrix T. Note that this Z˜ eq is not the same as your Hi! I am a 3rd year undergraduate student majoring in EECS and this is my fourth semester on EECS 16B staff (third time as a Content TA). vbzxm gnqv bej lzjlcxr zxnvawyhg xlqrnia aorl qvfmkb mcngu dxzm