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3.13 Thermistor transfer function. A new type of thermistor rated at 100 kQ at 20°C is...
3. You are given a system transfer function belowl 20 points): 100 (1 +0.001 je) TF(a) a. Convert...
3. You are given a system transfer function belowl 20 points): 100 (1 +0.001 je) TF(a) a. Convert TF(o) to transfer function H (s) of the system in polynomial ratio form. Draw a Bode plot using Matlab statements: tf and bode. List two commands to plot Bode chart. b. There are two cutoff frequencies at low and high from the poles. Estimate lower cut off frequencies (from 40 dB to 37db) from the Bode plot using "data cursor" icon in...
2.3 Analytic form of transfer function. In certain cases the transfer function is available as an...
2.3 Analytic form of transfer function. In certain cases the transfer function is available as an analytic expression. One common transfer function used for resistance temperature sensors (to be discussed in Chapter 3) is the Callendar- Van Duzen equation. It gives the resistance of the sensor at a temperature T as R(T)= Ro(1+AT+ BT2 - 100CT3 +CT*) [2), where the constants A, B, and C are determined by direct measurement of resis tance for the specific material used in the...
Problem 4: For the following RLC circuit, R-1.01 kQ, 100 mH and C-0.1 μF. 1. Find...
Problem 4: For the following RLC circuit, R-1.01 kQ, 100 mH and C-0.1 μF. 1. Find the transfer function H(jo) = Vo(jo)Vi(jo) 2. Find the gain of the transfer function | H(o) 3. Determin 4. Find the phase Ф(c) of the transfer function 5. Find Vo(t) if Vi(t) 100 cos(102 t) +60 cos (101 t) + 10 cos(106t) e the type of the filter. b) c) RVout Lo VoutVin Vin Vin Vin Vout Vout
HW11F19.pdf Download Q1 (10pts.): Extract an estimation of the transfer function that was used to create the Bode plot shown below IK- v(3) 20° 8dB 0d -8d 16d 24d -32dB -40d 48d -56dB -64d 72dB -80dB...
HW11F19.pdf Download Q1 (10pts.): Extract an estimation of the transfer function that was used to create the Bode plot shown below IK- v(3) 20° 8dB 0d -8d 16d 24d -32dB -40d 48d -56dB -64d 72dB -80dB -20° -40° -60° -80° 100° 120 140° 160° ト·H 111翔 1-2 200° 100Hz 1MHz 10KHz 100KHz 1KHz 1. What kind of filter is it? 2. What order is the filter? 3. What is the DC, AC, or Midband Gain (not in dB)? 4. What...
Metabolic rate as a function of environmental temperature in a resting animal 60 50 e 40 30 20 C ...
Metabolic rate as a function of environmental temperature in a resting animal 60 50 e 40 30 20 C 10 40 60 80 100 120 140 TE (x) Match the temperature range to the statement about what occurs within that range Metabolic rate as a function of environmenta temperature in resting an mal 60 40 30 20 [ Choose] 45° to 110° 370 to 98.6° 60° to 80° 45° to 90° 45° to 120° 40 60 80 1CO 120 140...
Please solve these using matlab Problem 1 Given the transfer functions e S +5 (a) C(s)...
Please solve these using matlab
Problem 1 Given the transfer functions e S +5 (a) C(s) 20 S + 20 (b) Use the step function to determine the time constant and rise time for each system. Note: estimate these values from the plot and do not use the stepinfo function. Problem 2 Given the transfer function 100 G(S) = 22 +45 + 25 a. Use the plot resulting from the step function in MATLAB to determine the percent overshoot, settling...
As a process engineer with the Complex Pole Corporation, you are assigned a unit with an exothermic chemical reacto...
As a process engineer with the Complex Pole Corporation, you are assigned a unit with an exothermic chemical reactor, In order to learn more about the dynamics of the process, you decide to make a step change in the input variable, the coolant temperature, from 10 °C to 15 C. Assume that the reactor was operating initially at steady state. You obtain the following plot (FIGURE Q2) for the output variable, which is the reactor temperature. 290 285 280 275...
consider a negative unity feedback system whose feedforward transfer function is: (s) + 1/[(s+0.11(s+1)(s+10)] Braw a...
consider a negative unity feedback system whose feedforward transfer function is: (s) + 1/[(s+0.11(s+1)(s+10)] Braw a Bode plot of the open loop transfer function that includes an asymptotic and approximate estimate for both magnitude and phase. Answer he following questions D Question 1 5 pts Low frequency DC gain is_db 00 0 1 10 100 none of these Question 2 Low frequency DC phase lag is _ degrees 0 -90 -180 -270 -360 none of these Question 3 Asymptotic magnitude...
Do only parts C and D 1. A second-order system has the following transfer function that...
Do only parts C and D
1. A second-order system has the following transfer function that describes its response: F(s)- s2 +as + 9 A. For a -3, calculate the following performance specifications of the system: Natural frequency (on) Damping ratio( Estimated rise time and settling time with ±5% change (tr, ts) Estimated overshoot (MP) . B. Label (a) ±5% range of steady state, (b) tr, (c) ts, and (d) MP on the step response curve below (You may also...
1) A spherical aluminum ball at a uniform temperature of 250°C is dropped into an oil...
1) A spherical aluminum ball at a uniform temperature of 250°C is dropped into an oil t(s) Tscat t(C] bath at 50°C. The ball's surface temperature is measured using a thermocouple. The 250.3 table below (also provided as a spreadsheet in a separate file) shows the recorded 10 238.1 temperature versus time every ten seconds for 300 seconds. If the Bi #<<1, the lumped capacitance solution 20 230.1 30 221.0 6h e(t) = 0,exp( 219.0 40 PCD is valid. Here,...
3. You are given a system transfer function belowl 20 points): 100 (1 +0.001 je) TF(a) a. Convert TF(o) to transfer function H (s) of the system in polynomial ratio form. Draw a Bode plot using Matlab statements: tf and bode. List two commands to plot Bode chart. b. There are two cutoff frequencies at low and high from the poles. Estimate lower cut off frequencies (from 40 dB to 37db) from the Bode plot using "data cursor" icon in...
2.3 Analytic form of transfer function. In certain cases the transfer function is available as an analytic expression. One common transfer function used for resistance temperature sensors (to be discussed in Chapter 3) is the Callendar- Van Duzen equation. It gives the resistance of the sensor at a temperature T as R(T)= Ro(1+AT+ BT2 - 100CT3 +CT*) [2), where the constants A, B, and C are determined by direct measurement of resis tance for the specific material used in the...
Problem 4: For the following RLC circuit, R-1.01 kQ, 100 mH and C-0.1 μF. 1. Find the transfer function H(jo) = Vo(jo)Vi(jo) 2. Find the gain of the transfer function | H(o) 3. Determin 4. Find the phase Ф(c) of the transfer function 5. Find Vo(t) if Vi(t) 100 cos(102 t) +60 cos (101 t) + 10 cos(106t) e the type of the filter. b) c) RVout Lo VoutVin Vin Vin Vin Vout Vout
HW11F19.pdf Download Q1 (10pts.): Extract an estimation of the transfer function that was used to create the Bode plot shown below IK- v(3) 20° 8dB 0d -8d 16d 24d -32dB -40d 48d -56dB -64d 72dB -80dB -20° -40° -60° -80° 100° 120 140° 160° ト·H 111翔 1-2 200° 100Hz 1MHz 10KHz 100KHz 1KHz 1. What kind of filter is it? 2. What order is the filter? 3. What is the DC, AC, or Midband Gain (not in dB)? 4. What...
Metabolic rate as a function of environmental temperature in a resting animal 60 50 e 40 30 20 C 10 40 60 80 100 120 140 TE (x) Match the temperature range to the statement about what occurs within that range Metabolic rate as a function of environmenta temperature in resting an mal 60 40 30 20 [ Choose] 45° to 110° 370 to 98.6° 60° to 80° 45° to 90° 45° to 120° 40 60 80 1CO 120 140...
Please solve these using matlab
Problem 1 Given the transfer functions e S +5 (a) C(s) 20 S + 20 (b) Use the step function to determine the time constant and rise time for each system. Note: estimate these values from the plot and do not use the stepinfo function. Problem 2 Given the transfer function 100 G(S) = 22 +45 + 25 a. Use the plot resulting from the step function in MATLAB to determine the percent overshoot, settling...
As a process engineer with the Complex Pole Corporation, you are assigned a unit with an exothermic chemical reactor, In order to learn more about the dynamics of the process, you decide to make a step change in the input variable, the coolant temperature, from 10 °C to 15 C. Assume that the reactor was operating initially at steady state. You obtain the following plot (FIGURE Q2) for the output variable, which is the reactor temperature. 290 285 280 275...
consider a negative unity feedback system whose feedforward transfer function is: (s) + 1/[(s+0.11(s+1)(s+10)] Braw a Bode plot of the open loop transfer function that includes an asymptotic and approximate estimate for both magnitude and phase. Answer he following questions D Question 1 5 pts Low frequency DC gain is_db 00 0 1 10 100 none of these Question 2 Low frequency DC phase lag is _ degrees 0 -90 -180 -270 -360 none of these Question 3 Asymptotic magnitude...
Do only parts C and D
1. A second-order system has the following transfer function that describes its response: F(s)- s2 +as + 9 A. For a -3, calculate the following performance specifications of the system: Natural frequency (on) Damping ratio( Estimated rise time and settling time with ±5% change (tr, ts) Estimated overshoot (MP) . B. Label (a) ±5% range of steady state, (b) tr, (c) ts, and (d) MP on the step response curve below (You may also...
1) A spherical aluminum ball at a uniform temperature of 250°C is dropped into an oil t(s) Tscat t(C] bath at 50°C. The ball's surface temperature is measured using a thermocouple. The 250.3 table below (also provided as a spreadsheet in a separate file) shows the recorded 10 238.1 temperature versus time every ten seconds for 300 seconds. If the Bi #<<1, the lumped capacitance solution 20 230.1 30 221.0 6h e(t) = 0,exp( 219.0 40 PCD is valid. Here,...
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