Us Army Electronics Course - Digital Circuits And Precision Soldering.pdf

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SUBCOURSE
OD 0465
EDITION
6
DIGITAL CIRCUITS AND PRECISION
SOLDERING
DIGITAL CIRCUITS AND PRECISION SOLDERING
SUBCOURSE OD0465
US Army Combined Arms Support Command
Fort Lee, VA 23801-1809
8 Credit Hours
GENERAL
The purpose of this subcourse is to enhance your knowledge regarding digital
circuits and precision soldering.
Eight credit hours are allowed for this subcourse. It consists of two
lessons, with a total of seven tasks and an examination, outlined as
follows:
Lesson 1:
THEORY OF BINARY NUMBERS, BOOLEAN ALGEBRA, DIODE LOGIC GATES,
DIGITAL CIRCUITS, AND THEIR INTERRELATIONSHIP WITH DIGITAL
COMPUTERS
TASK 1:
Describe the basic fundamentals and components which comprise
a digital computer.
TASK 2:
TASK 3:
TASK 4:
TASK 5:
Explain the theory of binary numbers.
Explain the theory of Boolean algebra.
Explain the theory of diode logic gates.
Explain the theory of digital circuits.
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DIG. CIRCUITS & PRECIS. SOLDER - OD 0465
Lesson 2:
PROCEDURES FOR SOLDERING, DESOLDERING, AND REPAIR OF DEFECTIVE
ELECTRICAL/ELECTRONIC CIRCUITS, INCLUDING INSPECTION STANDARDS
TASK 1:
Identify the procedures used to solder, desolder and repair
defective electrical/electronic circuits.
TASK 2:
(MU).
Identify inspection standards in accordance with MIL-STD 1460
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DIG.
CIRCUITS & PRECIS.
SOLDER - OD 0465
TABLE OF CONTENTS
Section
TITLE ..............................................................
TABLE OF CONTENTS ..................................................
Lesson 1:
THEORY OF BINARY NUMBERS, BOOLEAN
ALGEBRA, DIODE LOGIC GATES, DIGITAL
CIRCUITS, AND THEIR
INTERRELATIONSHIP WITH DIGITAL
COMPUTERS................................................
Page
i
iii
1
Task 1: Describe the basic fundamentals
and components which comprise a digital
computer ........................................................
Task 2: Explain the theory of binary
numbers .........................................................
Task 3: Explain the theory of Boolean
algebra .........................................................
Task 4: Explain the theory of diode logic
gates
.........................................................
Task 5: Explain the theory of digital
circuits ........................................................
Practical Exercise 1.............................................
Answers to Practical Exercise 1..................................
1
11
25
41
55
72
75
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