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Q6) [CLO:03] [10 marks] Analyze the circuit in the following figure for percent line regulation using...
(c) A loaded zener regulator is shown in Figure 3. Given Vz= 5.1 V at, Iz...
(c) A loaded zener regulator is shown in Figure 3. Given Vz= 5.1 V at, Iz = 49 mA, Izk= 1 mA, Zz = 72 and Izm= 70 mA. [Satu pengatur beban zener ditunjukkan di dalam Rajah 3. Diberikan V2 = 5.1 V, Iz = 49mA, Izx = 1mA, 2-7 dan Izm = 70mA.] i) Calculate the minimum and the maximum load currents for which the zener diode will maintain the regulation. [Kirakan nilai minima dan maksima arus beban untuk...
Answer all the questions, please. 1) 2) In the circuit below, if VB1 = 1.3V and...
Answer all the questions, please.
1)
2)
In the circuit below, if VB1 = 1.3V and VB2 = 2.3V, what is the maximum possible value of the output voltage v? Assume a drop of 0.7V across the diodes when forward-biased. Enter your answer in volts. DÝ D2 VBI = Von The circuit below shows a linear regulator. Assume the unregulated input voltage is Vin = 18 V, the Zener specs are (Vz = 5.1 V. Iz = 50 mA), R1...
Q1)[10 marks, CLO: 01] While the switch of the circuit in the figure is held down...
Q1)[10 marks, CLO: 01] While the switch of the circuit in the figure is held down for 1.5 s, the 9V battery delivers 9 to the connected in series bulb, find: a. Show on the figure the conventional current flow and electron flow b. The amount of charge delivered 9 V c. The current produced in milliampere. d. Calculate the rate at which the electrical energy is converted in the bulb. e. Calculate the resistance of the bulb filament. 02)...
Q6: In the circuit shown in Figure-6, assume the initial conditions, i0-0 and v(0)-0.The input, Vin...
Q6: In the circuit shown in Figure-6, assume the initial conditions, i0-0 and v(0)-0.The input, Vin is a step voltage of 5V at t20. (i Draw the Laplace Transformed circuit of the network at t20. (i Find Laplace function, Vou s). (iii) Solve for Vourt) [61 2? 4? Vin-5u(t) 0.2F 0.5H v out Figure-6 4
(a) The following circuit shows a linear voltage regulator. Assuming the zener diode has specifications (VZ = 2.5 V, IZ...
(a) The following circuit shows a linear
voltage regulator. Assuming the zener diode has specifications (VZ
= 2.5 V, IZ = 60 mA), select adequate resistor values to provide a
regulated output voltage Vo = 10 V from an unregulated voltage Vi =
15V.
(b) Calculate the power efficiency of the
regulator when a load RL = 10Ω is connected to the regulator
output.
(c) Briefly explain the terms “dropout”, “line
regulation”, and “load regulation”, as they apply to voltage...
Question No.2 (CLO 21 10 marks) ) In the circuit shown the input v(O) is a...
Question No.2 (CLO 21 10 marks) ) In the circuit shown the input v(O) is a step voltage of sv and the output is the voltage across the capacitor vot) a. Find the output voltage in Laplace domain. Find the output voltage as a function of time (assume the initial voltage across the capacitor is zero). Sketch the output voltage. Find the time constant and settling time. . c. (b) Given the following system G (s)-=-: i Find the differential...
Problem: In the circuit shown in Figure 1, Vee = 1.2 V, Vcc = 20 V,...
Problem: In the circuit shown in Figure 1, Vee = 1.2 V, Vcc = 20 V, Rp = 60 kN, Rc = 2 k. The input signal is a sinusoidal voltage given by Vin(t) = 0.2 sin(2000 ) V. The input and output characteristics of the transistor are provided on Page 2. (1) Find Ig, Ic and Vce. (30 points) Hint: Use the load line method. (Vor.) and (Vce: 1c) are the operating points of the transistor in the input...
Table 1: Zener Diode Parameters Description Quantity Value 1.0 W Po Absolute maximum power dissipation Typical...
Table 1: Zener Diode Parameters Description Quantity Value 1.0 W Po Absolute maximum power dissipation Typical zener voltage 5.6 V Minimum zener (knee) current 1.0 mA 45 mA Typical zener current Maximum zener current IZM Zz Zener impedance Zener knee impedance 179 mA 52 600 22 25 °C ZzK ΤΑ Rated ambient temperature 1N4004 Rs = 100 22 220 uF 1N4734A Transformer Vs = 12.6 VRMS 1N4004 60 Hz 2. Going back to Figure 1, remove the load resistance (or,...
Part "c" Please! Consider the circuit below. Assume that the only inductance of interest is the...
Part "c" Please!
Consider the circuit below. Assume that the only inductance of interest is the load inductor L = 15mH connected to the output terminal. The resistors have the following values: R1 = 5kN, R2 = 2kN, R3 = 0.1kN, and RI, = 10kN. The supply voltage is Vs = 15V. Vs R2 R, vo R1 R3 Figure 6-1 It is known that the input voltage vị can be decomposed into two parts, a constant Vị and a small...
1. Consider the circuit in Figure 1, a) Plot and determine the voltage and for for the circuit in Figure 1 (10 Marks) b) Also estimate the time it takes to dissipate 75 percent of capacitors volt...
1. Consider the circuit in Figure 1, a) Plot and determine the voltage and for for the circuit in Figure 1 (10 Marks) b) Also estimate the time it takes to dissipate 75 percent of capacitors voltage to resistor and verify the time taken by (10 Marks) (Note: show all the necessary steps of multisim to simulation support your answers) 2k2 12 k 2 kn 0(t) Figure 1
1. Consider the circuit in Figure 1, a) Plot and determine the...
(c) A loaded zener regulator is shown in Figure 3. Given Vz= 5.1 V at, Iz = 49 mA, Izk= 1 mA, Zz = 72 and Izm= 70 mA. [Satu pengatur beban zener ditunjukkan di dalam Rajah 3. Diberikan V2 = 5.1 V, Iz = 49mA, Izx = 1mA, 2-7 dan Izm = 70mA.] i) Calculate the minimum and the maximum load currents for which the zener diode will maintain the regulation. [Kirakan nilai minima dan maksima arus beban untuk...
Answer all the questions, please.
1)
2)
In the circuit below, if VB1 = 1.3V and VB2 = 2.3V, what is the maximum possible value of the output voltage v? Assume a drop of 0.7V across the diodes when forward-biased. Enter your answer in volts. DÝ D2 VBI = Von The circuit below shows a linear regulator. Assume the unregulated input voltage is Vin = 18 V, the Zener specs are (Vz = 5.1 V. Iz = 50 mA), R1...
Q1)[10 marks, CLO: 01] While the switch of the circuit in the figure is held down for 1.5 s, the 9V battery delivers 9 to the connected in series bulb, find: a. Show on the figure the conventional current flow and electron flow b. The amount of charge delivered 9 V c. The current produced in milliampere. d. Calculate the rate at which the electrical energy is converted in the bulb. e. Calculate the resistance of the bulb filament. 02)...
Q6: In the circuit shown in Figure-6, assume the initial conditions, i0-0 and v(0)-0.The input, Vin is a step voltage of 5V at t20. (i Draw the Laplace Transformed circuit of the network at t20. (i Find Laplace function, Vou s). (iii) Solve for Vourt) [61 2? 4? Vin-5u(t) 0.2F 0.5H v out Figure-6 4
(a) The following circuit shows a linear
voltage regulator. Assuming the zener diode has specifications (VZ
= 2.5 V, IZ = 60 mA), select adequate resistor values to provide a
regulated output voltage Vo = 10 V from an unregulated voltage Vi =
15V.
(b) Calculate the power efficiency of the
regulator when a load RL = 10Ω is connected to the regulator
output.
(c) Briefly explain the terms “dropout”, “line
regulation”, and “load regulation”, as they apply to voltage...
Question No.2 (CLO 21 10 marks) ) In the circuit shown the input v(O) is a step voltage of sv and the output is the voltage across the capacitor vot) a. Find the output voltage in Laplace domain. Find the output voltage as a function of time (assume the initial voltage across the capacitor is zero). Sketch the output voltage. Find the time constant and settling time. . c. (b) Given the following system G (s)-=-: i Find the differential...
Problem: In the circuit shown in Figure 1, Vee = 1.2 V, Vcc = 20 V, Rp = 60 kN, Rc = 2 k. The input signal is a sinusoidal voltage given by Vin(t) = 0.2 sin(2000 ) V. The input and output characteristics of the transistor are provided on Page 2. (1) Find Ig, Ic and Vce. (30 points) Hint: Use the load line method. (Vor.) and (Vce: 1c) are the operating points of the transistor in the input...
Table 1: Zener Diode Parameters Description Quantity Value 1.0 W Po Absolute maximum power dissipation Typical zener voltage 5.6 V Minimum zener (knee) current 1.0 mA 45 mA Typical zener current Maximum zener current IZM Zz Zener impedance Zener knee impedance 179 mA 52 600 22 25 °C ZzK ΤΑ Rated ambient temperature 1N4004 Rs = 100 22 220 uF 1N4734A Transformer Vs = 12.6 VRMS 1N4004 60 Hz 2. Going back to Figure 1, remove the load resistance (or,...
Part "c" Please!
Consider the circuit below. Assume that the only inductance of interest is the load inductor L = 15mH connected to the output terminal. The resistors have the following values: R1 = 5kN, R2 = 2kN, R3 = 0.1kN, and RI, = 10kN. The supply voltage is Vs = 15V. Vs R2 R, vo R1 R3 Figure 6-1 It is known that the input voltage vị can be decomposed into two parts, a constant Vị and a small...
1. Consider the circuit in Figure 1, a) Plot and determine the voltage and for for the circuit in Figure 1 (10 Marks) b) Also estimate the time it takes to dissipate 75 percent of capacitors voltage to resistor and verify the time taken by (10 Marks) (Note: show all the necessary steps of multisim to simulation support your answers) 2k2 12 k 2 kn 0(t) Figure 1
1. Consider the circuit in Figure 1, a) Plot and determine the...
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