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find the reciprocal of the following
1. Find the reciprocal of the following: a. 2.5 GHz...
shows two versions of a common-emitter amplifier and (i Fig. 1 (a) Find the expression for the small-signal voltage gai...
shows two versions of a common-emitter amplifier and (i Fig. 1 (a) Find the expression for the small-signal voltage gain of Fig. 1(i) in terms of relevant small- signal parameters. (b) Over what frequency range will the gain of the Fig. 1(i) circuit be the same as that of the Fig. 1(i) circuit? (c) Which of the two circuits will show less variation in its de biasing in the presence of processing or temperature variations? Justify your answer. (d) Explain,...
shows two versions of a common-emitter amplifier and (i Fig. 1 (a) Find the expression for...
shows two versions of a common-emitter amplifier and (i Fig. 1 (a) Find the expression for the small-signal voltage gain of Fig. 1(i) in terms of relevant small- signal parameters. (b) Over what frequency range will the gain of the Fig. 1(i) circuit be the same as that of the Fig. 1(i) circuit? (c) Which of the two circuits will show less variation in its de biasing in the presence of processing or temperature variations? Justify your answer. (d) Explain,...
Quiz-1 Review Questions: AC Circuits CETT-1405 1: Calculate the frequency “F” for each of the following...
Quiz-1 Review Questions: AC Circuits CETT-1405 1: Calculate the frequency “F” for each of the following values of sine wave period. T = 0.1 sec, F = T = 4 milli seconds, F = 2: A sine wave has a peak of 120V. Determine the Vrms value: 3: A hair dryer having 8 Ohms resistance was connected to 110 Vrms supply. Calculate the following: Irms = Ipeak = Voltage across the resistor = Power Lost as heat at...
ances 1. Using the exact exponential treatment, find how much time is required to charge an...
ances 1. Using the exact exponential treatment, find how much time is required to charge an initially uncharged 142 pF capacitor through a 76 MA resistor to 90% of its final voltage. ta S la mo 1. A 590 n resistor, an uncharged 1.8 uF capacitor, and a 6.17 V emf are connected in series. А W R mp +9 E C -9 (a) What is the initial current? (0) = (b) What is the RC time constant T? T...
Table 1 Parameters for manual model of 0.13 micron CMOS process DSAT 0.416 0.39 0.297 254 0.14 NM...
Table 1 Parameters for manual model of 0.13 micron CMOS process DSAT 0.416 0.39 0.297 254 0.14 NMOS PMOS -0.426 -0.29-0583 633 10261 Table 2 Capacitance parameters of NMOS and PMOS transistors in 0.13 micron CMOS process Cox Cov ma MOS 10.7 0.323 0.958 0.395 08 01 0288 0.8 P MOS-110.22ー10.298 11.02ー1042ー08 ー0.107ー0.1ーー0.8 (35 pt Q2 Inverter shown below is implemented in 0.13 um CMOS (8RF). The supply voltage is VDD-1.2 V. Both transistors have a channel length of 0.13...
5. (20 points) For the amplifier in the following figure: +Vcc Rout Rc C3 R2 Rin Ri 1 k R3 Vo Vi R1 RE -VEE a) Draw the de equivalent circuit and find the Q-point. Assume B -75 b) Draw the equiv...
5. (20 points) For the amplifier in the following figure: +Vcc Rout Rc C3 R2 Rin Ri 1 k R3 Vo Vi R1 RE -VEE a) Draw the de equivalent circuit and find the Q-point. Assume B -75 b) Draw the equivalent circuit used for ac analysis. Find the values in Thevenin equivalent representation for the amplifiers between C, and C as shown below. What is the maximum value of v, that satisfies the small- signal assumption? Rout Ri vi...
2. Lumped versus distributed circuits (15%) (a) A transmission line of length 1 connects a load...
2. Lumped versus distributed circuits (15%) (a) A transmission line of length 1 connects a load to a sinusoidal voltage source with an oscillation frequency of f. Assuming that the velocity of wave propagation in the line is c (that is, the speed of light in vacuum), for which of the following sit- uations can we model the transmission line as a wire (that is, use a lumped-element model) and where do we need a distributed model? (i) f =...
Yes, this is one problem. Please solve ALL PARTS. Guaranteed thumbs up for the person who solves it. 3 1. Photodiode...
Yes, this is one problem. Please solve ALL PARTS. Guaranteed
thumbs up for the person who solves it.
3 1. Photodiode amplifier circuit You are designinga CF photosensor circuit for a light detection and ranging LiDAR) system in autonomous vehicles. The circuit utilizes a transimpedance amplifier to convert low-level RF photodiode current signal to a usable voltage output. It consists of a photodiode, an amplifier, and feedback capacitor/resistor pair as shown in Figure 1. We will derive simple equations to...
In this lab, you will design a finite state machine to control the tail lights of...
In this lab, you will design a finite state machine to control the tail lights of an unsual car. There are three lights on each side that operate in sequence to indicate thedirection of a turn. Figure ! shows the tail lights and Figure 2 shows the flashing sequence for (a) left turns and (b) right rums. ZOTTAS Figure 28:8: BCECECece BCECECECes BCECECECB BCECECBCB 8888 Figure 2 Part 1 - FSM Design Start with designing the state transition diagram for...
Submission should follow the ET190 homework format. Ensure you show all work completety to receive full...
Submission should follow the ET190 homework format. Ensure you show all work completety to receive full credit. Make sure all problems are done in using labels and appropriate units or subscripts. Box your final answer. 1. There are 5 capacitors with the value of 1500 pF. a. What is the total capacitance when they are all in series? -10 3e 1500 1500 1500 b. What is the total capacitance when they are all in parallel? Cr cie C Cs de...
shows two versions of a common-emitter amplifier and (i Fig. 1 (a) Find the expression for the small-signal voltage gain of Fig. 1(i) in terms of relevant small- signal parameters. (b) Over what frequency range will the gain of the Fig. 1(i) circuit be the same as that of the Fig. 1(i) circuit? (c) Which of the two circuits will show less variation in its de biasing in the presence of processing or temperature variations? Justify your answer. (d) Explain,...
shows two versions of a common-emitter amplifier and (i Fig. 1 (a) Find the expression for the small-signal voltage gain of Fig. 1(i) in terms of relevant small- signal parameters. (b) Over what frequency range will the gain of the Fig. 1(i) circuit be the same as that of the Fig. 1(i) circuit? (c) Which of the two circuits will show less variation in its de biasing in the presence of processing or temperature variations? Justify your answer. (d) Explain,...
ances 1. Using the exact exponential treatment, find how much time is required to charge an initially uncharged 142 pF capacitor through a 76 MA resistor to 90% of its final voltage. ta S la mo 1. A 590 n resistor, an uncharged 1.8 uF capacitor, and a 6.17 V emf are connected in series. А W R mp +9 E C -9 (a) What is the initial current? (0) = (b) What is the RC time constant T? T...
Table 1 Parameters for manual model of 0.13 micron CMOS process DSAT 0.416 0.39 0.297 254 0.14 NMOS PMOS -0.426 -0.29-0583 633 10261 Table 2 Capacitance parameters of NMOS and PMOS transistors in 0.13 micron CMOS process Cox Cov ma MOS 10.7 0.323 0.958 0.395 08 01 0288 0.8 P MOS-110.22ー10.298 11.02ー1042ー08 ー0.107ー0.1ーー0.8 (35 pt Q2 Inverter shown below is implemented in 0.13 um CMOS (8RF). The supply voltage is VDD-1.2 V. Both transistors have a channel length of 0.13...
5. (20 points) For the amplifier in the following figure: +Vcc Rout Rc C3 R2 Rin Ri 1 k R3 Vo Vi R1 RE -VEE a) Draw the de equivalent circuit and find the Q-point. Assume B -75 b) Draw the equivalent circuit used for ac analysis. Find the values in Thevenin equivalent representation for the amplifiers between C, and C as shown below. What is the maximum value of v, that satisfies the small- signal assumption? Rout Ri vi...
2. Lumped versus distributed circuits (15%) (a) A transmission line of length 1 connects a load to a sinusoidal voltage source with an oscillation frequency of f. Assuming that the velocity of wave propagation in the line is c (that is, the speed of light in vacuum), for which of the following sit- uations can we model the transmission line as a wire (that is, use a lumped-element model) and where do we need a distributed model? (i) f =...
Yes, this is one problem. Please solve ALL PARTS. Guaranteed
thumbs up for the person who solves it.
3 1. Photodiode amplifier circuit You are designinga CF photosensor circuit for a light detection and ranging LiDAR) system in autonomous vehicles. The circuit utilizes a transimpedance amplifier to convert low-level RF photodiode current signal to a usable voltage output. It consists of a photodiode, an amplifier, and feedback capacitor/resistor pair as shown in Figure 1. We will derive simple equations to...
In this lab, you will design a finite state machine to control the tail lights of an unsual car. There are three lights on each side that operate in sequence to indicate thedirection of a turn. Figure ! shows the tail lights and Figure 2 shows the flashing sequence for (a) left turns and (b) right rums. ZOTTAS Figure 28:8: BCECECece BCECECECes BCECECECB BCECECBCB 8888 Figure 2 Part 1 - FSM Design Start with designing the state transition diagram for...
Submission should follow the ET190 homework format. Ensure you show all work completety to receive full credit. Make sure all problems are done in using labels and appropriate units or subscripts. Box your final answer. 1. There are 5 capacitors with the value of 1500 pF. a. What is the total capacitance when they are all in series? -10 3e 1500 1500 1500 b. What is the total capacitance when they are all in parallel? Cr cie C Cs de...
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