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(a) Determine re (b) Find AmdVo/V (c) Calculate Ai (d) Determine Z, (e) Determine fis ici...
15. For the network of Fig. 9.80: a. Determine re b. Find AviVolV c. Calculate Z....
15. For the network of Fig. 9.80: a. Determine re b. Find AviVolV c. Calculate Z. d. Determine fis fie and fr e. Determine the low cutoff frequency. f. Sketch the asymptotes of the Bode plot defined by the cutoff frequencies of part (d). g. Sketch the low-frequency response for the amplifier using the results of part (e) 14 V 5.6 k2 68 k2 0.47 ?F ?-120 0,4711; 3.3 k? 04711: 1.2 k2 ?2ouF FIG. 9.80 Problems 15, 19, 27...
Figure 1 shows an amplifier application using a JFET. Given that VGSQ = -2.48 V, Ipo...
Figure 1 shows an amplifier application using a JFET. Given that VGSQ = -2.48 V, Ipo = 2.07 mA and yes = 0.1 ms. i) Determine the voltage gain at mid-range frequency, Avimid). ii) Determine fia, fic and fis for the network. iii) Determine which value contributes to the low frequency response for the network. iv) Plot the asymptotes for low frequency response of the network. Use the semi-log graph paper given in APPENDIX II for your answer. v) Plot...
Consider the function f(z) = z/|z|. (a) Write f(z) in complex standard form f = u+iv. In other words, determine Re f(z) and Im f(z). (b) Use Mathematica to plot u and v. Hint: use command Plot3D. (c)...
Consider the function f(z) = z/|z|. (a) Write f(z) in complex standard form f = u+iv. In other words, determine Re f(z) and Im f(z). (b) Use Mathematica to plot u and v. Hint: use command Plot3D. (c) Find the limit of f(z) as z approaches 0 along each of the following paths: • the negative side of the real axis, • the positive side of the real axis, • the negative side of the imaginary axis, • the positive...
Find the answers under criteria (oae 20 log10( )D Problem 1: R Low Pass and High...
Find the answers under
criteria
(oae 20 log10( )D Problem 1: R Low Pass and High Pass filters. Consider the RC series circuit in Figure 1 Refer to your clas:s activities for help with this exercise. 6. Calculate the reference magnitude f the trunsfer functionsDetemine t frequency ak where the magnitude is 0.707Mo (lll (%)-0707Mo). e expression for culolf Part 1,2,7Corect filter characterization Criteria Full Marks Figure 1. Serles R fier 1. By inspection, determine if the transter fuction ow...
B Frequency Response Modeling Frequency response modeling of a linear system is based on the prem...
Please explain every step as clearly and detailed as
possible.
B Frequency Response Modeling Frequency response modeling of a linear system is based on the premise that the dynamics of a linear system can be recovered from a knowledge of how the system responds to sinusoidal inputs. (This will be made mathematically precise in Theorem 13.) In other words, to determine (or iden- tify) a linear system, all one has to do is observe how the system reacts to sinusoidal...
4. For the circuit in Figure 3: Find Vc 60°(~ E= 120 V ㄣ Figure 3 a. Vc 260 V2-60 b. Ve 140 V260° c. Ve= 140 VL-60° d. Vc = 260 V2600 (ABET outcomes a, b, and f 4. For the circuit in Figu...
4. For the circuit in Figure 3: Find Vc 60°(~ E= 120 V ㄣ Figure 3 a. Vc 260 V2-60 b. Ve 140 V260° c. Ve= 140 VL-60° d. Vc = 260 V2600 (ABET outcomes a, b, and f
4. For the circuit in Figure 3: Find Vc 60°(~ E= 120 V ㄣ Figure 3 a. Vc 260 V2-60 b. Ve 140 V260° c. Ve= 140 VL-60° d. Vc = 260 V2600 (ABET outcomes a, b, and f
A common source amplifier circuit based on a single n-channel MOSFET is shown in Figure 4b. Assume that the transconductance gm-60 mS (equivalent to mA/ V) and drain source resistance, os,...
A common source amplifier circuit based on a single n-channel MOSFET is shown in Figure 4b. Assume that the transconductance gm-60 mS (equivalent to mA/ V) and drain source resistance, os, is so large it may be neglected. 0) Calculate the open circuit voltage gain Av Yout/ Vis. i) The amplifier has a load of 10 k2. Determine the current gain Va. = 12 V 150k 4k3 Vout Vin 200k GND = 0 V Figure 4b a) State the name...
1 point) Show that Φ(u, u) (Au + 2, u-u, 7u + u) parametrizes the plane 2x -y-z = 4, Then (a) Calculate Tu T,, and n(u, v). þ(D), where D = (u, u) : 0 < u < 9,0 < u < 3. (b) Find the area...
1 point) Show that Φ(u, u) (Au + 2, u-u, 7u + u) parametrizes the plane 2x -y-z = 4, Then (a) Calculate Tu T,, and n(u, v). þ(D), where D = (u, u) : 0 < u < 9,0 < u < 3. (b) Find the area of S (c) Express f(x, y, z in terms of u and v and evaluate Is f(x, y,z) ds. (a) Tu n(u,v)- T, (b) Area(S)- (c) JIs f(z, y,2) ds-
1 point)...
find v belt drive design power select belt type determine shive size (belt speed 4000 ft/min)...
find v belt drive
design power
select belt type
determine shive size (belt speed 4000 ft/min)
find shive size from power rating figure
find rated power
find estimated centre distance
find belt length (by selecting standard belt length)
calculate actual centre distance
find contact angle for small shieve
determine correct factors
calculate correct power per belt
no. of belt needed
V-Belt Designing Sample Problem . Given: A 4 cylinder diesel engine runs at 80 hp, 1800 rpm, to drive a...
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...
15. For the network of Fig. 9.80: a. Determine re b. Find AviVolV c. Calculate Z. d. Determine fis fie and fr e. Determine the low cutoff frequency. f. Sketch the asymptotes of the Bode plot defined by the cutoff frequencies of part (d). g. Sketch the low-frequency response for the amplifier using the results of part (e) 14 V 5.6 k2 68 k2 0.47 ?F ?-120 0,4711; 3.3 k? 04711: 1.2 k2 ?2ouF FIG. 9.80 Problems 15, 19, 27...
Figure 1 shows an amplifier application using a JFET. Given that VGSQ = -2.48 V, Ipo = 2.07 mA and yes = 0.1 ms. i) Determine the voltage gain at mid-range frequency, Avimid). ii) Determine fia, fic and fis for the network. iii) Determine which value contributes to the low frequency response for the network. iv) Plot the asymptotes for low frequency response of the network. Use the semi-log graph paper given in APPENDIX II for your answer. v) Plot...
Find the answers under
criteria
(oae 20 log10( )D Problem 1: R Low Pass and High Pass filters. Consider the RC series circuit in Figure 1 Refer to your clas:s activities for help with this exercise. 6. Calculate the reference magnitude f the trunsfer functionsDetemine t frequency ak where the magnitude is 0.707Mo (lll (%)-0707Mo). e expression for culolf Part 1,2,7Corect filter characterization Criteria Full Marks Figure 1. Serles R fier 1. By inspection, determine if the transter fuction ow...
Please explain every step as clearly and detailed as
possible.
B Frequency Response Modeling Frequency response modeling of a linear system is based on the premise that the dynamics of a linear system can be recovered from a knowledge of how the system responds to sinusoidal inputs. (This will be made mathematically precise in Theorem 13.) In other words, to determine (or iden- tify) a linear system, all one has to do is observe how the system reacts to sinusoidal...
4. For the circuit in Figure 3: Find Vc 60°(~ E= 120 V ㄣ Figure 3 a. Vc 260 V2-60 b. Ve 140 V260° c. Ve= 140 VL-60° d. Vc = 260 V2600 (ABET outcomes a, b, and f
4. For the circuit in Figure 3: Find Vc 60°(~ E= 120 V ㄣ Figure 3 a. Vc 260 V2-60 b. Ve 140 V260° c. Ve= 140 VL-60° d. Vc = 260 V2600 (ABET outcomes a, b, and f
A common source amplifier circuit based on a single n-channel MOSFET is shown in Figure 4b. Assume that the transconductance gm-60 mS (equivalent to mA/ V) and drain source resistance, os, is so large it may be neglected. 0) Calculate the open circuit voltage gain Av Yout/ Vis. i) The amplifier has a load of 10 k2. Determine the current gain Va. = 12 V 150k 4k3 Vout Vin 200k GND = 0 V Figure 4b a) State the name...
1 point) Show that Φ(u, u) (Au + 2, u-u, 7u + u) parametrizes the plane 2x -y-z = 4, Then (a) Calculate Tu T,, and n(u, v). þ(D), where D = (u, u) : 0 < u < 9,0 < u < 3. (b) Find the area of S (c) Express f(x, y, z in terms of u and v and evaluate Is f(x, y,z) ds. (a) Tu n(u,v)- T, (b) Area(S)- (c) JIs f(z, y,2) ds-
1 point)...
find v belt drive
design power
select belt type
determine shive size (belt speed 4000 ft/min)
find shive size from power rating figure
find rated power
find estimated centre distance
find belt length (by selecting standard belt length)
calculate actual centre distance
find contact angle for small shieve
determine correct factors
calculate correct power per belt
no. of belt needed
V-Belt Designing Sample Problem . Given: A 4 cylinder diesel engine runs at 80 hp, 1800 rpm, to drive a...
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...
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