Revision as of 15:57, 15 April 2013 by Rhea (Talk | contribs)

(diff) ← Older revision | Latest revision (diff) | Newer revision → (diff)

ECE 270 List

Course Outcomes:
i. an ability to analyze static and dynamic behavior of digital circuits.
ii. an ability to represent Boolean functions in standard forms, to map and minimize them, and to implement them as combinational logic circuits.
iii. an ability to use a hardware description language (e.g., ABEL) to specify combinational logic circuits, including various "building blocks" such as decoders, multiplexers, encoders, and tri-state buffers.
iv. an ability to design and implement arithmetic logic circuits.
v. an ability to analyze, design, and implement sequential circuits and use a hardware description language (e.g., ABEL) to specify them, including various "building blocks" such as counters and shift registers.
vi. an ability to design and implement a simple computer.

Concepts:

1. Overview of basic ECE knowledge (power, voltage, etc.) and circuit components

2. Review of Diodes     (connected to ECE 255)

3. Boolean algebra, Huntington’s Postulates     (used in ECE 362)

3. Logical Signals, AND, OR, NOT gates     (used in ECE 362, ECE 402)

4. Timing diagrams, logic families

5. Reading datasheets, logic levels, noise margins, fan-in, fan-out

6. Current spikes, decoupling (ECE 402)

7. Transition time, propagation delay

8. Power consumption

9. Schmitt-trigger inputs, 3-state buffer, open-drain outputs, pull-up resistors

10. Axioms, duality, single/2/3-variable theorems, truth tables

11. Combinational circuit analysis/synthesis

12. Karnaugh (“K”) maps, representation of logic functions with K-maps

13. Minimization of functions with K-maps

14. Timing Hazards (static, dynamic), XOR, XNOR

15. ABEL, PLDs, decoders, encoders, tri-state buffers, multiplexers

16. Bi-stable elements, latches, flip-flops, machine-state analysis and design

17. Unsigned number base conversion, signed number notation, radix addition/subtraction

18. Adder/Substractor/Comparator circuits, carry look-ahead circuits, multiplier circuits

19. Design of simple computer

(Meyers (2010, Spring) ECE 270 Course Notes

   Retrieved April 2,2010 from  https://engineering.purdue.edu/ece270/)


ECE Course List
Snikitha

Alumni Liaison

Followed her dream after having raised her family.

Ruth Enoch, PhD Mathematics