May 03, 2024  
Course/Program Inventory 
    
Catalog Navigation
  Catalog Home
  All Courses
  Community College Course Inventory
  Community College Common Course Libraries
  TCAT Course Inventory
  TCAT Program Inventory
  Articulation Agreements
  Tennessee Transfer Pathways
  TCAT to CC Articulation Brochure
HELP
Course/Program Inventory

ELT 2010 - Digital Electronics I


Clock Hours: 90

Delivery Mode
on-ground

Course Description:
This course introduces students to the basis of Digital Electronics. Digital Electronics is the framework of every equipment use in home, schools and Industry. Upon completion of this course students will know terminology, characteristics and operation of basic Digital electronics components.

Student Learning Outcomes:
The student will be able to:

  1. Recognize the binary number system.
  2. Recognize the octal number system.
  3. Recognize the hexadecimal number system.
  4. Convert decimal numbers to binary numbers.
  5. Convert binary numbers to decimal numbers.
  6. Convert octal numbers to binary numbers.
  7. Convert hexadecimal numbers to binary numbers.
  8. Add binary numbers.
  9. Subtract binary numbers.
  10. Multiply binary numbers.
  11. Divide binary numbers.
  12. Describe the purpose of a buffer.
  13. Describe the purpose of an inverter.
  14. Describe input threshold voltages.
  15. Describe output threshold voltages.
  16. Measure threshold voltages.
  17. Identify AND operation.
  18. Identify AND logic symbols.
  19. Identify AND logic schematic representation.
  20. Construct an AND gate truth table.
  21. Identify input and output waveforms
  22. Measure input and output waveforms.
  23. Identify OR operation and logic symbols.
  24. Construct an OR gate truth table.
  25. Identify input and output waveforms.
  26. Measure input and output waveforms.
  27. Identify NAND operation.
  28. Identify NAND logic symbols.
  29. Identify NAND logic schematic representation.
  30. Construct a NAND gate truth table.
  31. Identify input and output waveforms.
  32. Measure input and output waveforms.
  33. Identify NOR operation.
  34. Identify NOR logic symbols.
  35. Identify NOR logic schematic representation.
  36. Construct a NOR gate truth table.
  37. Identify input and output waveforms.
  38. Identify XOR and XNOR operation.
  39. Identify XOR and XNOR logic symbols.
  40. Identify XOR and XNOR logic schematic representation.
  41. Construct truth tables for XOR and XNOR gates.
  42. Identify input and output waveforms of XOR and XNOR gates.
  43. Measure the input and output waveforms of an XOR gate and an XNOR gate.
  44. Define combinational logic.
  45. Describe the uses of combinational logic.
  46. Trace inputs through a combinational logic circuit.
  47. Describe the universal property of the NAND gate.
  48. Describe the universal property of the NOR gate
  49. Identify the purpose of a 4-bit adder.
  50. Describe adder circuits.
  51. Recognize serial and parallel full adder circuits.
  52. Recognize the normal operation of the 4-bit adder circuit.
  53. Predict the output of the 4-bit adder.
  54. Confirm the output of the 4-bit adder circuit.
  55. Identify the purpose of conversion circuits.
  56. Recognize basic A/D and D/A circuits.
  57. Identify the purpose of data circuits.
  58. Recognize basic data selector and data distributor circuits