I have posted this question 4 times previous with 4 different answers. note, there is a step in o...
Question 2 For the circuit shown in Figure 2, determine its sketch transfer characteristics. Diodes have Voo 0 V and R 50 50Ω D1 100 Ω 1500 V 2.5V Figure 2. Please answer clearly
Please note that D4 is the one that was destroyed not D1. Please I posted this but they answer it differently QUESTION (2) Due to an abnormal operating condition, Diode D4 in this full-wave rectifier circuit was suddenly destroyed, and stopped Vconducting in both forward and reverse directions (i.e. open circuit) C- R Assume that all other diodes are ideal with zero forward voltage drop and that the time constant RC- 5 ms. stt) 10V For a 1 kHz triangular...
Q1. i) Will the current flow from A to C, for the connection shown in Figure. 12 Support your answer (11 with proper reasons. Both D1 and D2 are silicon diodes. D1 D2 A_* B Figure 1 ii) Draw the equivalent circuit diagram for Ideal Diode under forward bias and reverse bias. iii) Determine the value of I for the circuit shown in Figure. 2 R - 5V 15.2 V 5 kΩ Ge Figure 2 iv) Compute Vo and Ir...
Consider the circuit shown in Figure 1. Assume that the diodes have an exponen Question 21 tial i-v characteristic. Diode D1 has 10 times the junction area of D2, i.e. Isı = 10Is2. Determine the value of voltage V indicated in the figure. The circuit operates at room temperature, i.e. the value of the thermal voltage is Vr = 26 mV 10 mA 3 mA Fig. 1 O+V Consider the circuit shown in Figure 1. Assume that the diodes have...
This is the third time ive posted this question...and have received wrong answers for all parts, please provide an accurate answer! thank you! (a,b,c) (10%) Problem 11: Consider the circuit in the diagram, with sources of emf listed below. Randomized Variables &1 = 21 V E2 = 44 V Ez = 12.5 V E4 = 43 V 33% Part (a) Find I in amps. I=0.53 X Attempts Remain * 33% Part (b) Find I in amps. 12 = 0.47 X...
may be use proposed circuit. what value should R have? solve (i) and(iii). alpha,beta,gamma,epsilon=1 1. Design a circuit whose input-output characteristic is as shown in Figure 1. Slope=m Slope=k Slope=m Figure 1 Draw schematic and show the analysis that proves your design will operate as desired. You can assume that all diodes you use are ideal with a threshold of 0.7V. Take Ve- (5000+a) mV, m = (100+ B)/1000 and k = 1. (4 points) Verify your design in LTspice...
Could you please help with solving the following question. Note answers are attached below: please show how these answers were obtained: Q4. A single phase 50-Hz, 100 kVA, 11000/400 V-rms transformer is connected with the grid supply (Vi) as shown in Figure 3 15Ω j100 Ω j0.12 Ω 0.016 Ω Wll j50k 2 Load V240P 300k Ideal Transformer Figure 3 The load is connected on the secondary terminal to operate at 75% of its rated kVA at 0.8 lagging power...
Question 2: (10 points) In the full rectifier circuit shown, the input is a sine wave with a frequency of 50 Hz and an amplitude of 6 V. 1 For this circuit, sketch on the figure below the output voltage across the resistor R assuming ideal diodes. Show the time scale on the figure. Sketch also on the same figure a typical output when a capacitor is placed in parallel with the resistor. vou TOU to ts. ti to 0.00...
Please answer me step by step thanks Question 2: Th is question relates to diodes and transistor amplifiers The following question relates to the diode circuit in Figure 2a below. if t E- SV, and the diode was a Red LED, determine; (i) the voltage across the diode, Vo (ii) the value of resistor R, that will give a current, 1 4mA (ii) the current, I, if E--5V (a) he voltage source Figure 2a 8 marks] er amplifier circuit shown...
Problem 1) [15 marks] The gain of the dual-op-axap instrumentation amplifier shown in Fig. 1 can be adjusted by the variable resistor Ro. The op-amps are ideal. atu Fig. 1 a)Show that v.-2(1 RG )(v2-v.). b Specify suitable components to have a variable gain from 10 to 100 V/V. Problem 2) [15 marks] a) Design an op-amp limiter circuit for amplitude control with the transfer characteristic of Fig. 2(a). Use +-15V DC sources to power the circuit. Assume Vo-0.7 V...