Already have an account? Get multiple benefits of using own account!
Login in your account..!
Remember me
Don't have an account? Create your account in less than a minutes,
Forgot password? how can I recover my password now!
Enter right registered email to receive password!
It is required to balance the propeller driven pendulum shown in Fig. 1 at a desired angle "Θ". The length of the pendulum from the pivot point to free end of pendulum is ‘L' and the mass of the pendulum is ‘m'.
Methodology: The objective will be achieved through five major tasks 1. Derive the equation of motion for the system to obtain the mathematical model.
2. Experimentally obtain the parameters of transfer function of the pendulum system.
3. Perform stability analysis of the system using: a. Routh's stability criteria b. Draw the Root locus of the system and find the critical gain Kcr. c. Bode Plots
4. Use the system model to design a controller in MATLAB to meet the following performance criteria: a. Steady state error less than 10% b. Settling time less than 2 seconds c. Overshoot less than 5%
5. Implement the designed controller in the lab and test its performance.
Show a design for 3-bit Multiplexer using three 2-bit Multiplexer such that select lines A 1 B 1 = 00 select I0, A 1 B 1= 01 select I1, and A 1 B 1 = 1X ( x represent a don't care input)select I2 b) Using two 16-bit Multiplexers and one 2-bit Mult..
where V is given in meters per second, U is in degrees, and W is the percent grade of the road. Design a proportional control law U = -kp V that will maintain a velocity error of less than 1 m/sec in the presence of a constant 2% grade.
Design a 7.5-V zener regulator circuit using a 7.5-V zener specified at 12mA. The zener has an incremental resistance r(z) = 30 ohms and a knee current of 0.5mA. The regulator operates from a 10-V supply and has a 1.2k-ohm load.
suppose a transmission channel operates at 10 mbps and has a bit error rate of 10-2. bit errors occur at random and
When making an impedance diagram, does inductive reactance go on the positive Y-axis, or the negative Y-axis. How about capacitive reactance. How do these graphical representations relate to the phase angels of the reactances.
Sketch the root locus for the feedback control system and plot the response of the system with the tuned PID controller for step input. Manually retune the parameters of the PID so that the system has an overshoot
A differential amplifier stage has collector resistors of 5.1 Kohms each. If Ic1 = 1.35 mA and Ic2 = 1.29 mA, what is the differential output voltage.
Calculate the FLAT BAND POTENTIAL and the THRESHOLD VOLTAGE for a real n+ polysilicon / p- silicon MOS diode having Na= 1017 cm^-3 and oxide thickness d = 5 nm. Assume that the oxide has only fixed oxide charges (Qf)
Later, the high side of the transformer is connected to a multi-meter with the low side left open. The meter registers a reading of 0.11 ohms. Afterwards, the multi-meter is connected to the low side with the high side left open.
Now that you have gained some familiarity with solar cells and their characteristics, what are your impressions about the efficiencies of these devices What are some applications for solar cells that are currently being used Why is this technology..
The pixels in a certain CCD camera have identical sensitivity functions w(x,y).Write the spectrum Fs(u,v) of the sample function fs(x,y) measured by the camera. what filter H(u,v) is required to reconstruct f(x,y)
A single-phase, half-wave SCR circuit is used to control the power consumption of an inductive load. The resistive component of the load is 5 Ohm. The source voltage is 120 V (rms). When the triggering angle is adjusted to 60 degrees
Get guaranteed satisfaction & time on delivery in every assignment order you paid with us! We ensure premium quality solution document along with free turntin report!
whatsapp: +1-415-670-9521
Phone: +1-415-670-9521
Email: [email protected]
All rights reserved! Copyrights ©2019-2020 ExpertsMind IT Educational Pvt Ltd