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Digital Overlay Learning System

Digital Overlay Learning System

K & H,Taiwan

Description

Model: OLS-2000

BrandL K & H, Taiwan

To assemble and examine experiment is laborious.  OLS Series will help the students to visualize the function of experiment circuit. Electronic theory will be taught straightly out of book accordingly.
 The main objective of this trainer is to teach the student of electronic circuits rather than focusing on the assembly of  the components.
List of Experiment:
1. FE-01 basic logic functions
  2. FE-02 basic logic functions
  3. FE-03 basic logic functions
  4. FE-04 basic logic functions
  5. FE-05 boolean algebra and simplification of logic equations
  6. FE-06 boolean algebra and simplification of logic equations
  7. FE-07 boolean algebra and simplification of logic equations
  8. FE-08 boolean algebra and simplification of logic equations
  9. FE-09 boolean algebra and simplification of logic equations
10. FE-10 boolean algebra and simplification of logic equations
11. FE-11 demorgan’s theorem
12. FE-12 demorgan’s theorem
13. FE-13 demorgan’s theorem
14. FE-14 demorgan’s theorem
15. FE-15 demorgan’s theorem
16. FE-16 TTL NAND/NOR gates definitions and operation
17. FE-17 NAND/NOR gates definitions and operation
18. FE-18 the “exclusive-OR” and its applications
19. FE-19 the “exclusive-OR” and its applications
20. FE-20 the “exclusive-OR” and its applications
21. FE-21 the “exclusive-OR “and its applications
22. FE-22 the “exclusive-OR” and its applications
23. FE-23 the “exclusive-OR” and its applications
24. FE-24 the “exclusive-OR “and its applications
25. FE-25 full-adder and full-subtractor
26. FE-26 full-adder and full-subtractor
27. FE-27 full-adder and full-subtractor
28. FE-28 full-adder and full-subtractor
29. FE-29 full-adder and full-subtractor
30. FE-30 bistable or flip-flop(FF)
31. FE-31 bistable or flip-flop(FF)
32. FE-32 bistable or flip-flop(FF)
33. FE-33 binary counters and the binary number system
34. FE-34 binary counters and the binary number system
35. FE-35 divide-by-n counters and decade counters
36. FE-36 divide-by-n counters and decade counters
37. FE-37 divide-by-n counters and decade counters
38. FE-38 divide-by-n counters and decade counters
39. FE-39 divide-by-n counters and decade counters
40. FE-40 shift registers and ring counters
41. FE-41 shift registers and ring counters
42. FE-42 shift registers and ring counters
43. FE-43 shift registers and ring counters
44. FE-44 pulse forming and shaping; the schmitt trigger
45. FE-45 pulse forming and shaping; the schmitt trigger
46. FE-46 integrated-circuit timers-the 74122, 74121, and 555
47. FE-47 integrated-circuit timers-the 74122, 74121, and 555
48. FE-48 decoding and encoding
49. FE-49 decoding and encoding
50. FE-50 decoding and encoding
51. FE-51 decoding and encoding
52. FE-52 random-access memories (RAM) scratch pad memories
53. FE-53 random-access memories (RAM) scratch pad memories
54. FE-54 the operational amplifier
55. FE-55 the operational amplifier
56. FE-56 the operational amplifier
57. FE-57 digital-to-analog (D/A) and analog-to-digital (A/D) conversion
58. FE-58 digital-to-analog (D/A) and analog-to-digital (A/D) conversion
59. FE-59 complementary symmetry MOS (CMOS)-principles and characteristics
60. FE-60 complementary symmetry MOS (CMOS)-principles and characteristics
61. FE-61 complementary symmetry MOS (CMOS)-TTL interface
62. FE-62 complementary symmetry MOS (CMOS)-TTL interface

Download catalog:Digital Overlay Learning System

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