April 25, 2011
Due: April 15, 2011 at 14:00 Oclock
CEE 202 INTRODUCTION TO CONTROL SYSTEMS
HOMEWORK 4
1- a) Obtain the state equations, ( ) ,for the Colpitts oscillator (small signal equivalent) shown in
Fig.1a by using the transistor model shown in Fig.1
CEE 202 INTRODUCTION TO CONTROL SYSTEMS
SOLUTIONS: HOMEWORK 5
1- Simplify the block diagram shown in Fig.1 and obtain the closed loop transfer function .
Solution will not be given for this problem.
2-
a)
The excitation input signal for a system is
Use th
CEE 202 INTRODUCTION TO CONTROL SYSTEMS
SOLUTIONS: HOMEWORK 4
1- A coupled spring-mass system is shown in Fig.1. Use the node velocities method to
obtain the transfer functions by assuming that .
Fig.1
Solution:
Referring to the system graph given in the
DOGUS UNIVERSITY
CEE232 Discrete Time Signals and Systems
Course Instruction Manual
Faculty
Department
Credits / Hours
Course Type
Prerequisites
Lecturers
The text book
Engineering Faculty
Electronics and Communications Engineering
3 (2+2+0)
Compulsory
MA
CEE 202 INTRODUCTION TO CONTROL SYSTEMS
SOLUTIONS: HOMEWORK 3
1- When an input voltage of V is applied to a circuit, the response is known to be
What will the steady-state response be if ?
Solution:
2- The operational amplifier in the circuit seen in Fig.
CEE 202 INTRODUCTION TO CONTROL SYSTEMS
SOLUTIONS: HOMEWORK 3
1. The switch in the circuit in Figure 1
has been closed for a long time before
opening at t = 0.
a) After finding initial conditions,
construct the s-domain equivalent
circuit for t > 0.
b) Fi
CEE 202 INTRODUCTION TO CONTROL SYSTEMS
SOLUTIONS: HOMEWORK 6
1- a) Prove that
b) Consider a system with single input
Where is state vector (nx1), u(t) is the input, A is a square matrix of order nxn, and is the
column matrix (nx1). Obtain the complete so
DOGUS UNIVERSITY
CEE 202 Introduction to Control Systems - Course Instruction Manual
Faculty
Department
Credits / Hours
Course Type
Prerequisites
Lecturer
The text book
Engineering Faculty
Electronics and Communication Engineering
3 (2+2+0)
Compulsory
CEE
DOGUS UNIVERSITY
CEE 234 Microprocessor Systems- Course Instruction Manual
Faculty
Department
Credits / Hours
Course Type
Prerequisites
Lecturer
Engineering Faculty
Electronics and Communications Engineering
3 (2+0+2)
Compulsory
The text book
- MC9S08QG8