Problem 2*. In the circuit below, find the currents I1, 12, 13 Use the constant voltage...
Problem A1: For the circuit below, if vi is 2 volt, find vo. Assume the OP-AMP is ideal and use the constant voltage drop model for the diodes. Be sure to justify any assumptions you make about the diodes. 0 3ΚΩ
In the circuit shown below, R1 1. Find output voltage Vo. 2. Find I1, 12, and Ip. 0.7V and Vps5V R2 1000, Vp R1 Vo w R2 VPs
Consider the circuit below. If R1=102, R2=212, R3=2012, and Is=10 A, Calculate: 1- The currents i1, 12, and i3, and the voltage v (20%) 2- The power absorbed by the resistance R3 (10%) 3- The power delivered by the source Is (10%) + i2 | 413 w R1 Is R2 R3 V -
1) For the following circuit: a) use Kirchoffs rules to solve for the currents flowing in the circuit, be sure to label all currents and show their directions and b) calculate the voltage drop across each resistor. R1 R3 40 1 2 B, 28 V 7 V R2 20 B2 2) The 42 resistor from circuit #1 represents the equivalent resistance of the mini-circuit below. a) What are the values of the three resistors below? b) what is the current...
Using Kirchhoff's rules, find the currents 11, 12, and 13 (each in A) in the circuit shown where R1 = 1.1 N, R2 = 2.6 N, and R3 = 7.0 N. (Include the sign of the value in your answers. Due to the nature of this problem, do not use rounded intermediate values in your calculations—including answers submitted in WebAssign.) Hint 10 V ✓ A I = 2.43 12 = -3.33 Apply Kirchhoff's rules and solve them for the unknown...
Consider the full-wave rectifier circuit below. Use a constant voltage drop model for the diodes with VD 1. 0.7 V. Let v": 10 sin(2n(2000 and RI-100Q. (6 pt) Calelae the average vales of oun uinege D1 D4 V1 R1 with respect to time or angle. out b. (2+3 pts) A capacitor is placed across RI to reduce the ripple to D3 D2 20 mVp-p. Find the capacitor value. (2+3 pts) Calculate the approximate average Vout value assuming a 20 m...
Consider the two-sided limiter circuit below. Let the load resistor RLoad = 1 kQ. The gain must be 0.8 V/V in the region where the diodes are not limiting. Use a constant voltage drop model for the diodes with VD = 0.7 V. 3. out D2 (1+2 pts) Find the value for voltage source V1 that causes D1 to start limiting the output voltage at -5 V. a. D3 D1 Vin R2 b. (1+2 pts) Find the value for voltage...
Part IIl: Diodes The Ideal-Diode Model a) For the circuit below, find ID and VD for the case VDD 5 V and R 10 k2. Assume that the diode has a voltage of 0.7 V at 1-mA current. Use (a) iteration and (b) the constant-voltage-drop model with VD 0.7 V 홍Yo b) Design the circuit below to provide an output voltage of 2.4 V. Assume that the diodes available have 0.7-V drop at 1 mA. +10 V Vo Part IIl:...
In the circuit below, find the currents and their directions. R1 R5 80 12 BAT1 6V R2 2012 BAT2 3 V R4 62 R3 922 BAT3 8V
Given the circuit, use KVL Mesh Analysis to find the currents (I1-I6) across each resistor given the following resistor values: R1 = 220Ω R2 = 180Ω R3 = 150Ω R4 = 120Ω R5 = 100Ω R6 = 82Ω R2 R4 10V