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Q/calculate the average power delivered to the load according to the given input voltage and draw...
1. Draw a Voltage Divider biased transistor circuit. Sketch the Load Line if, Vcc 18V, Rc-1.2K(2,...
1. Draw a Voltage Divider biased transistor circuit. Sketch the Load Line if, Vcc 18V, Rc-1.2K(2, and RE-600Ω. 3. Find ic, VCE and mode of operation, if RBI-30.2 and RB2-10 ΚΩ, for β-150 4. Determine RB2, for Q to be on center of LL. Verify, Ic, VcE and mode of operation 5. Find mode of operation, Ic, and VcE, if: a. RBi is Short b. RBi is Open c. RB2 is Short. d. RB2 is Short Mode of operation 4...
2. For figure 2; a. Determine the dc parameters Vera1), VB(02), VE, Ica, VCEaQra1), VCEQ(a2). b....
2. For figure 2; a. Determine the dc parameters Vera1), VB(02), VE, Ica, VCEaQra1), VCEQ(a2). b. For the 5 Vrms input, determine the power delivered to the load resistor. c. Draw the load line for the npn transistor. Label the saturation current, Ic(sat), and show the Q-point. +9 V 1.0 kn Di V RL 50 5.0V ms 1.0 kn Vc -9 V 10.Represent the translational mechanical system shown in the Figure in state- space, where xX3(t) is the output IN-...
6.26. Calculate the average power delivered to the load for the full-wave bridge rectifier circuit in...
6.26. Calculate the average power delivered to the load for the full-wave bridge rectifier circuit in Figure 6.9 if the diode is ideal, Vac is sinusoidal with a peak value of 170 V, and the load resistor has a value of 100 12. AC D4 -DC 4 +DC 4 D AC RL FIGURE 6.9 Full-wave bridge rectifier circuit.
3. (30% ) The voltage and current at the terminals of a load circuit are given...
3. (30% ) The voltage and current at the terminals of a load circuit are given by: )=1202 sin(ar) V i ()=812 sin(ar-60)+6/2 sin(Bax -120) A (V) and (A). (a) Find (b) Find the real (average) power P delivered to the load. (c) The distortion factor of the current waveform. (e) Find the displacement power factor DPF for this circuit. (f) Find the power factor of the load. (g) Is the load linear? 3. (30% ) The voltage and current...
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...
For the circuit in the given figure, find the average, reactive, and complex power delivered by...
For the circuit in the given figure, find the average, reactive, and complex power delivered by the dependent voltage source. Assume V = 58 2259 V. 40 -j1 2220 v 19 v 129 2V The average power is W. The reactive power is VA. The complex power is ( ) VA
2) For circuit A5-1 below, given that the input voltage to transformer AB is 12.4 KVZ0°,...
2) For circuit A5-1 below, given that the input voltage to transformer AB is 12.4 KVZ0°, and Z is 300215° solve for I Ie Solve for the apparent power S delivered to the load Z. Solve for the the power factor of the load. Solve for the apparent power S at the primary side of trans former AB. What is the efficiency of the system in delivering real power to the load? (7 marks) 3) For circuit A5-1 below, given...
12. A series RC circuit is driven by a periodic square wave voltage V(t) with a period T=0.3 sec. V(t)0 for t<0. Aft...
12. A series RC circuit is driven by a periodic square wave voltage V(t) with a period T=0.3 sec. V(t)0 for t<0. After t=0, the voltage alternates between 15 V and 0 V. Assume that R-40 , C-150 HF. We will call the voltage across the capacitor and the resistor Ve(t and Vr(t) respectively (a) Calculate the current I(t) in the circuit, the voltage Vc(t), and the power delivered by the driving source as a function of time for the...
12. A series RC circuit is driven by a periodic square wave voltage V(t) with a period T=0.3 sec. V(t) 0 for t<0. A...
12. A series RC circuit is driven by a periodic square wave voltage V(t) with a period T=0.3 sec. V(t) 0 for t<0. After t=0, the voltage alternates between 15 V and 0 V. Assume that R-40 , C 150 HF. We will call the voltage across the capacitor and the resistor Ve(t) and Vr(t) respectively (c) The capacitor above is now replaced by an inductor whose inductance is 0.24 H. We call the voltage across the inductor VL(t) Calculate...
Electronics1. It's a multiple choices question. use the formula sheet if needed (the last picture). Question...
Electronics1. It's a multiple choices question. use the formula
sheet if needed (the last picture).
Question 3 CIRCUIT B1 (2.5 Marks) + VC Rc IRC < + RB IC IB V ce → IE FIG. 3: CIRCUIT B1 Statement: Sketching relevant output (V-Ic) characteristics decide on Q-point coordinates and DC load-line details: That is, determine DC operating conditions of the NPN-BJT/Si circuit of Fig.3 (denoting the type Circuit B1). Assume the following: Vcc= 20 volt; Rc = 2.5 k; RB...
1. Draw a Voltage Divider biased transistor circuit. Sketch the Load Line if, Vcc 18V, Rc-1.2K(2, and RE-600Ω. 3. Find ic, VCE and mode of operation, if RBI-30.2 and RB2-10 ΚΩ, for β-150 4. Determine RB2, for Q to be on center of LL. Verify, Ic, VcE and mode of operation 5. Find mode of operation, Ic, and VcE, if: a. RBi is Short b. RBi is Open c. RB2 is Short. d. RB2 is Short Mode of operation 4...
2. For figure 2; a. Determine the dc parameters Vera1), VB(02), VE, Ica, VCEaQra1), VCEQ(a2). b. For the 5 Vrms input, determine the power delivered to the load resistor. c. Draw the load line for the npn transistor. Label the saturation current, Ic(sat), and show the Q-point. +9 V 1.0 kn Di V RL 50 5.0V ms 1.0 kn Vc -9 V 10.Represent the translational mechanical system shown in the Figure in state- space, where xX3(t) is the output IN-...
6.26. Calculate the average power delivered to the load for the full-wave bridge rectifier circuit in Figure 6.9 if the diode is ideal, Vac is sinusoidal with a peak value of 170 V, and the load resistor has a value of 100 12. AC D4 -DC 4 +DC 4 D AC RL FIGURE 6.9 Full-wave bridge rectifier circuit.
3. (30% ) The voltage and current at the terminals of a load circuit are given by: )=1202 sin(ar) V i ()=812 sin(ar-60)+6/2 sin(Bax -120) A (V) and (A). (a) Find (b) Find the real (average) power P delivered to the load. (c) The distortion factor of the current waveform. (e) Find the displacement power factor DPF for this circuit. (f) Find the power factor of the load. (g) Is the load linear? 3. (30% ) The voltage and current...
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...
For the circuit in the given figure, find the average, reactive, and complex power delivered by the dependent voltage source. Assume V = 58 2259 V. 40 -j1 2220 v 19 v 129 2V The average power is W. The reactive power is VA. The complex power is ( ) VA
2) For circuit A5-1 below, given that the input voltage to transformer AB is 12.4 KVZ0°, and Z is 300215° solve for I Ie Solve for the apparent power S delivered to the load Z. Solve for the the power factor of the load. Solve for the apparent power S at the primary side of trans former AB. What is the efficiency of the system in delivering real power to the load? (7 marks) 3) For circuit A5-1 below, given...
12. A series RC circuit is driven by a periodic square wave voltage V(t) with a period T=0.3 sec. V(t)0 for t<0. After t=0, the voltage alternates between 15 V and 0 V. Assume that R-40 , C-150 HF. We will call the voltage across the capacitor and the resistor Ve(t and Vr(t) respectively (a) Calculate the current I(t) in the circuit, the voltage Vc(t), and the power delivered by the driving source as a function of time for the...
12. A series RC circuit is driven by a periodic square wave voltage V(t) with a period T=0.3 sec. V(t) 0 for t<0. After t=0, the voltage alternates between 15 V and 0 V. Assume that R-40 , C 150 HF. We will call the voltage across the capacitor and the resistor Ve(t) and Vr(t) respectively (c) The capacitor above is now replaced by an inductor whose inductance is 0.24 H. We call the voltage across the inductor VL(t) Calculate...
Electronics1. It's a multiple choices question. use the formula
sheet if needed (the last picture).
Question 3 CIRCUIT B1 (2.5 Marks) + VC Rc IRC < + RB IC IB V ce → IE FIG. 3: CIRCUIT B1 Statement: Sketching relevant output (V-Ic) characteristics decide on Q-point coordinates and DC load-line details: That is, determine DC operating conditions of the NPN-BJT/Si circuit of Fig.3 (denoting the type Circuit B1). Assume the following: Vcc= 20 volt; Rc = 2.5 k; RB...
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