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1. The circuit in Fig. 1 shows a cascade connection of two integrators. Determine the output...
3. In the circuit of Fig. 3, find (t) & it) for > 0. Assume that...
3. In the circuit of Fig. 3, find (t) & it) for > 0. Assume that v(0) = 0 V and i(0)=1 A. Use the time domain method that you learnt in the course to solve the problem. (5 pts) 4u(t) A 222 2. F 1H 64
The diagram in Fig. 1 depicts a cascade connection of two linear time-invariant systems; i.e., the...
The diagram in Fig. 1 depicts a cascade connection of two linear time-invariant systems; i.e., the output of the first system is the input to the second system, and the overall output is the output of the second system. LTI System #1 hi[n] LTI System #2 h21n] r[n] iIn] yInl Figure 1: Cascade connection of two LTI systems (a) Suppose that System #l is a blurring filter described by the impulse response 0 "=0.1.2.3.4.5 n>5 and System #2 is described...
QUESTION 1 Figure Q1 shows a common emitter (CE) and common Base (CB) cascade amplifier circuit....
QUESTION 1 Figure Q1 shows a common emitter (CE) and common Base (CB) cascade amplifier circuit. Determine the input and output impedance, Z; and Zo, voltage gain, Avi and Av2 and total cascade voltage gain, Ayr and Ays. [25 marks) 2 +8V 1.5 kn 2.2 F 82 k2 3.3 k2 Vo 2.2 uf B = 100 6.8 k12 1 k 2 what B = 100 tuf ZA 5.6 k 2 47012 ZA V. 33 k2 IuF w 10k_2 -2V w...
PROBLEM #1: The circuit shown in Figure P4.4 consists of the cascade connection of three sections....
PROBLEM #1: The circuit shown in Figure P4.4 consists of the cascade connection of three sections. In the total circuit all C's are equal and all R's are equal. (a) Let V= 0 and find the transfer function T(s) = (8) (b) Connect node 0 to node 2 such that V. =V,, and determine the transfer function under this condition. V (S) linn -- R +013 + RS FIGURE P4.4
(5) Capacitor and Transient Analysis 7 marks Fig. P-5A shows a switching circuit with switches Si...
(5) Capacitor and Transient Analysis 7 marks Fig. P-5A shows a switching circuit with switches Si and S2 that are opened and closed periodically. Fig. P-5B shows the steady state waveform of the output voltage V.(t). Compute the steady state values of V1 and V2. R: Vo(t) Vo(t) Vot 5V V2 --- -- 1kΩ 1uF C Vi Ve 5V Fig. P-5A Fig. P-5B (not to scale) (5a) 3 marks Let the initial voltage of the capacitor be V.(O)= V1. The...
please show steps, and solve asap BEE 433 Electronic Circuit Design Problem Set #1 Due date:...
please show steps, and solve asap
BEE 433 Electronic Circuit Design Problem Set #1 Due date: Answer the following problems and Circle the answers. 1.1 (Fig. 1.1 from the textbook) In the voltage amplifier circuit of Fig. 1.1, let vs = 100 mV, Rs = 100 k 52, Vi = 75 mV, RL = 10 S2, and vo = 2 V. If connecting a 30-S2 resistance in parallel with RL drops vo to 1.8 V, find Ri, A., and R....
Q1. For the cascade amplifier circuit shown in Fig (1): a) What are the functions of the capacitors C, C2 and C3? And w...
Q1. For the cascade amplifier circuit shown in Fig (1): a) What are the functions of the capacitors C, C2 and C3? And what are the functions of the capacitors Cs and CE? b) What are the functions of the resistors RD and Rc? c) Draw the DC biasing circuits for each stage. d) Find loa, VGsa, VDs and gm for the JFET stage (you may use either mathematical or graphical methods) e) Calculate l, Ic, le and Ve for...
For the circuit shown in Fig. 4.1, there is no initial energy storage. Draw and label...
For the circuit shown in Fig. 4.1, there is no initial energy storage. Draw and label the circuit in the s domain and use it to determine H(s)=Vo(s)/Vsrc(s). Using H(s) and given: (a) vsrc(t)= e'u(t) V, find vo(t) using the inverse Laplace Transforms. (b) vsrc(t)=2 cos 2t V, determine the steady state output vo(t). + 0.50, 1H 192 w + + + USRC 1 F V, 212 vo
Fig. 5 shows a converter circuit with the following parameters: V = 110 V, L =...
Fig. 5 shows a converter circuit with the following parameters: V = 110 V, L = 0.2 mH, R-0.25 12, Vc=40 V, T= 2500 us, ton = 1250 us. Part a) (4 points): Calculate the average output current <io> and the average output voltage <vo. Part b (4 points): Calculate the minimum and maximum values, lo min and lomax, of the instantaneous output current. Parte) (14 points): Sketch to scale the time variations of volt), io(t), igi(t), ig2(t), iDi(t), ip(t),...
1. Calculate the RC time constant of the circuit in Fig. 1 using equation (1) 2....
1. Calculate the RC time constant of the circuit in Fig.
1 using equation (1)
2. Derive expressions of Vout(t) for circuits in
Figs. 1 and 2
3. Sketch your derived results for Vout(t), clearly
labeling your initial voltages and time constants
10 k22 M + + Vin 0.1 uf Vout Fig. 1. RC circuit 0.1 uf + + Vin 10 k2 Vout Fig. 2. RC circuit.
3. In the circuit of Fig. 3, find (t) & it) for > 0. Assume that v(0) = 0 V and i(0)=1 A. Use the time domain method that you learnt in the course to solve the problem. (5 pts) 4u(t) A 222 2. F 1H 64
The diagram in Fig. 1 depicts a cascade connection of two linear time-invariant systems; i.e., the output of the first system is the input to the second system, and the overall output is the output of the second system. LTI System #1 hi[n] LTI System #2 h21n] r[n] iIn] yInl Figure 1: Cascade connection of two LTI systems (a) Suppose that System #l is a blurring filter described by the impulse response 0 "=0.1.2.3.4.5 n>5 and System #2 is described...
QUESTION 1 Figure Q1 shows a common emitter (CE) and common Base (CB) cascade amplifier circuit. Determine the input and output impedance, Z; and Zo, voltage gain, Avi and Av2 and total cascade voltage gain, Ayr and Ays. [25 marks) 2 +8V 1.5 kn 2.2 F 82 k2 3.3 k2 Vo 2.2 uf B = 100 6.8 k12 1 k 2 what B = 100 tuf ZA 5.6 k 2 47012 ZA V. 33 k2 IuF w 10k_2 -2V w...
PROBLEM #1: The circuit shown in Figure P4.4 consists of the cascade connection of three sections. In the total circuit all C's are equal and all R's are equal. (a) Let V= 0 and find the transfer function T(s) = (8) (b) Connect node 0 to node 2 such that V. =V,, and determine the transfer function under this condition. V (S) linn -- R +013 + RS FIGURE P4.4
(5) Capacitor and Transient Analysis 7 marks Fig. P-5A shows a switching circuit with switches Si and S2 that are opened and closed periodically. Fig. P-5B shows the steady state waveform of the output voltage V.(t). Compute the steady state values of V1 and V2. R: Vo(t) Vo(t) Vot 5V V2 --- -- 1kΩ 1uF C Vi Ve 5V Fig. P-5A Fig. P-5B (not to scale) (5a) 3 marks Let the initial voltage of the capacitor be V.(O)= V1. The...
please show steps, and solve asap
BEE 433 Electronic Circuit Design Problem Set #1 Due date: Answer the following problems and Circle the answers. 1.1 (Fig. 1.1 from the textbook) In the voltage amplifier circuit of Fig. 1.1, let vs = 100 mV, Rs = 100 k 52, Vi = 75 mV, RL = 10 S2, and vo = 2 V. If connecting a 30-S2 resistance in parallel with RL drops vo to 1.8 V, find Ri, A., and R....
Q1. For the cascade amplifier circuit shown in Fig (1): a) What are the functions of the capacitors C, C2 and C3? And what are the functions of the capacitors Cs and CE? b) What are the functions of the resistors RD and Rc? c) Draw the DC biasing circuits for each stage. d) Find loa, VGsa, VDs and gm for the JFET stage (you may use either mathematical or graphical methods) e) Calculate l, Ic, le and Ve for...
For the circuit shown in Fig. 4.1, there is no initial energy storage. Draw and label the circuit in the s domain and use it to determine H(s)=Vo(s)/Vsrc(s). Using H(s) and given: (a) vsrc(t)= e'u(t) V, find vo(t) using the inverse Laplace Transforms. (b) vsrc(t)=2 cos 2t V, determine the steady state output vo(t). + 0.50, 1H 192 w + + + USRC 1 F V, 212 vo
Fig. 5 shows a converter circuit with the following parameters: V = 110 V, L = 0.2 mH, R-0.25 12, Vc=40 V, T= 2500 us, ton = 1250 us. Part a) (4 points): Calculate the average output current <io> and the average output voltage <vo. Part b (4 points): Calculate the minimum and maximum values, lo min and lomax, of the instantaneous output current. Parte) (14 points): Sketch to scale the time variations of volt), io(t), igi(t), ig2(t), iDi(t), ip(t),...
1. Calculate the RC time constant of the circuit in Fig.
1 using equation (1)
2. Derive expressions of Vout(t) for circuits in
Figs. 1 and 2
3. Sketch your derived results for Vout(t), clearly
labeling your initial voltages and time constants
10 k22 M + + Vin 0.1 uf Vout Fig. 1. RC circuit 0.1 uf + + Vin 10 k2 Vout Fig. 2. RC circuit.
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