use nodal analysis , kvl\ kcl All of the operational amplifiers are ideal. Determine the values...
3-3: Use KVL/KCL and Ohm's Law as needed to find the values of v1 and v2. You must show separate KCL and KVL equations, no credit will be given if other methods such as nodal analysis are used. 80 80 Ω υ,Σ 120 Ω V140 6 A
Q4: More Operational Amplifiers (10 marks) Assuming ideal Op Amp behaviour determine the values of R1 and R2 that are required to ensure V3 to be equal to 3.0V1-0.75V2. 1k 1k 1k + w R2 1k R11k mam <10k mi
Q2) (30 pts) For the circuit shown below, use Nodal analysis to determine the following (22 pts) the nodal equations " write the eqations in standard form" (6 pts) find the numerical values of all labeled voltages "vl, v2, v3, v4, vx (2 pts) find the current through R42 4 Q 12 22 ww Ref. 2 A 2v
please do part d only: Replace R1 with a series combination of
R1 and a capacitor. Assume Vin = V0sinwt. determine the magnitude
of vout/v0 as a function of w and sketch, noting values at critical
regions of the graph. what kind of circuit is this?
1. [50 points total] Consider the circuit model for a non- inverting operational amplifier circuit: Vin a. [10 points] Identify all of the nodes in the circuit diagram -how many are there? How many...
please answer all questions neatly and use Matlab for part C
Vout - - Current Source Current-to-Voltage Converter SkW variable voltage 0-5V Figure 4. Current- to- voltage converter 3.- Current-to-Voltage Converter An op amp can be used to produce a voltage proportional to a given current as shown in fig. 4 a) (5 points) Derive the formula for the output voltage Vout. For full credit show all the steps of the formula derivation in a clear way, and indicate which...
Show all your work and present your solutions in a clear and logical format in order to receive full and partial credit. Box in your answers and indicate the units. Total: 40 points 1- (10 points) Given the following AC circuit, use Nodal Analysis to find the current lo Note: use Matlab to solve the system of equations 20 320 310 -120 2/0°A 12/6v u {in lov
****Please ALL answers questions with complete
steps.****
1. Analysis and design of a buck-boost converter. A buck-boost converter is illustrated below. + licit) + reee c= R { v(t) A practical implementation using a MOSFET and diode is illustrated below. D + Voi(t) – H + iqi(t) IT int) lic(t) iz(t) + LE vi(t) c R v(t) For this problem, you must employ the methods of inductor volt-second balance, capacitor charge balance, and the small ripple approximation as discussed in...