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Problem Two For the circuit shown, determine the voltages at nodes V and V, and the...
Problem #5 (20 points) Determine the voltages V, and V2 in the circuit shown below. 3 kN V, 1k1 V2 V2 = V = 30 v © 33 kl 22 9 mA
Problem 1. Find the current I and V, in the circuit. Turn on voltage of the diode is 0.7V. (10 points) 1+5V Problem 2. Find the current and V, in the circuit. Turn on voltage of the diode is 0.7V. (10 points) + +5V BR-4.30 PV
Analyze the circuit below to determine the voltages at all nodes and the currents through all branches. Assume β-100. +15 V 100 kΩ VC VB B2 50 kΩ
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4. Determine the voltages across and current each resistor shown in the circuit below. 1. E= 18 V, r = 0 60 b
Please Explain how to do 4.4
+10 V 4.3 Determine the voltage at points Vc V, and VcE in the circuit shown in Figure P4.3 when VBE -0.7V and B- 100. 2kS2 V, 4.4 If the resistance, RB, is made zero in Problem 4.3, what effect does this change have on the circuit operation? 1k2 -10 V Figure P4.3
+10 V 4.3 Determine the voltage at points Vc V, and VcE in the circuit shown in Figure P4.3 when VBE...
3) For the circuit shown below find the labeled node voltages. The NMOS transistors have Vi-0.9V and kn'(W/L)-1.5mA/V2. 5V Q1 o V1 Q2 1k -2.5V
(4 points) Determine the values of the node voltages V a , V b
and V c , and the value of the current
I x in the circuit in Fig. 2.
2. (4 points) Determine the values of the node voltages V, V, and Ve, and the value of the current I, in the circuit in Fig. 2. 122 w 12 12 Figure 2: Problem 2.
A circuit is constructed with six resistors and two batteries as shown The battery voltages are V1=18 V and V2=12 V. The positive terminals are indicated with a + sign, The values for the resistors are: R1=R5=66 Ω, R2=R6=83 Ω R3=55 Ω, and R4=69 Ω. The positive directions for the currents I1, I2 and I3 are indicated by the directions of the arrows.1) What is V4, the magnitude of the voltage across the resistor R4? 2) What is I3, the current...
D. For the transistor circuit shown in Figure 7, assuming that the transistor is in the forward active mode, and B = 100 and VBE = 0.7V, calculate Base current 1B Collector current Ic (iii) Emitter current le (iv) Collector to emitter voltage Vce and (v) Voltage across the 2009 resistor v 3 80022 10 kV W VCE VBE مت + + 1 2001} 1 1
Solve this circuit using node-voltage method. Determine the
currents through all the elements and voltages across all elements.
Verify that the total power developed equals the total power
absorbed
Without repeating the node-voltage analysis, predict the node
voltages at nodes d, c, b and g, if node a was selected as the
reference node (or ground).
R2 560 n R, 1 kn R 430 Vs a ww R 820 n ww R3 2.2 kn V6R430 R, 1.5 k Rs 820...