代做MECH265001 Mechatronics and Measurement Systems 2022代做留学生Matlab程序

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MECH265001

Mechatronics and Measurement Systems

May/June 2022

Q1.

Using only the following two equations:

derive the equivalent resistor between (A) and (B) of the circuit shown in Figure Q1, where the voltage source V has no internal resistance. Show all derivation steps. [5 Marks]

Q2.

Using one 2 [kΩ] resistor and two 10 [kΩ] resistors, construct the inverting amplifier to achieve 2.5-times amplification of the input voltage. Draw the circuit with the resistors and the op-amp. Show that the circuit provides 2.5-times amplification of input voltage. [5 Marks]

Q3.

The DC motor equation is given by

where  V is the input voltage to the motor, L is the motor inductance, R is the motor internal resistance, I is the electrical current, and E is the back EMF.

The motor is connected to a mobile robot with a wheel, and the dynamics is given by

where J is the wheel moment of inertia, ω is the angular velocity, and T is the motor torque.

Assume that the gear ratio between the motor and the wheel is 1:1.

a)  Obtain the transfer function between the angular velocity as the output and the motor input voltage as the input of the transfer function. Do not assume any steady-state. [10 Marks]

b)  Let  L =0.5 [H], R=0.1 [Ω], the back EMF or the torque constant is equal to 0.01

[V/(rad/s)], and the wheel moment of inertia is 2 [kg m2]. The following input voltage is applied to the motor for a sufficiently long period of time:

v(t) = sin(0.1 t)

Calculate the wheel angular velocity in terms of a function of time. Show all calculation steps [10 Marks]

c)  Design a proportional controller to achieve a desired constant angular velocity, 10

[rad/s], for the DC motor transfer function obtained in b). Draw a block diagram showing connections between the motor, the controller, and the desired angular velocity. And, show that it is practically impossible to make the steady-state error equal to zero using the proportional controller. [10 Marks]

Q4.

Using the following components

-    DC Motor

-    Wheel for autonomous mobile robots

-    H-bridge

-    Voltage source

-    PWM modulator

-    Rotary encoder

-    Micro-controller

complete the following functional block diagram to design a wheel balanced inverted  pendulum. Indicate clearly input and output signals between components in the block diagram.

[10 Marks]

Q5.

The mass M is falling at a constant velocity.  The pressure P in the hydraulic cylinder is 60 bar, and the volume flow rate Q is 5×10-4  m3/s.   The cylinder has a bore of 35 mm and a piston rod diameter is 20 mm.

•   Calculate the velocity at which the mass is dropping and the value of M.

•   Calculate the power dissipated through the restrictor (in Watt) and the restrictor constant Kr. [10 Marks]

Q6.

Two strips of PZT are bonded to form a bimorph actuator shown in the figure below. The bimorph has a small mass at the free end.

Each actuator has the following specifications:

Dimensions:

length = 50 mm, width = 5 mm, thickness = 0.5 mm

PZT charge constant:

d13 = - 133×10- 12 m/V, d33 = 500×10- 12 m/V

PZT Young’s Modulus:

E = 70×109 N/m2

Available voltage source:

±200 V

(Assume ideal actuator characteristics.)

•   With no electrical connections to the bimorph, the mass vibrates freely at  63.66   Hz when disturbed. What is the value of the mass, m?

•    By applying a voltage to the supply as shown, the mass can be raised and lowered. Find the full range of motion available.

•    Find the voltage required to maintain zero deflection with the weight added. [20 Marks]

Q7.

Design a pneumatic circuit diagram using CETOP symbols to operate two double acting cylinders in the repeating sequence  1A+ 2A+ 2A-  1A-.  Cylinder 2A must remain at full extension until a delay of T has elapsed and contact pressure of P has been achieved. [20 marks]



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