| 1.
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Convert numbers and characters between codes; describe the operation
of logic elements and an arithmetic logic unit. (I)
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| 2.
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Describe the parts and functioning of microcomputer hardware. (II)
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| 3.
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Write and run an assembly language program; describe the use of
program development tools. (III)
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| 4.
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Implement standard program structures in an assembly language program.
(IV)
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| 5.
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Write assembly programs which use string instructions, call
procedures, consist of multiple modules, write an assembler macro. (V)
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| 6.
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Use assembler directives. (VI)
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| 7.
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Diagram a simple microcomputer hardware system, describe operation and
troubleshooting. Use an oscilloscope to observe bus signals and to
measure clock frequencies. (VII)
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| 8.
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Describe the input of keyboard data and handling of graphic displays.
Use circuit schematic diagrams to make hardware connections, and use
an oscilloscope to check frequencies. (VIII)
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| 9.
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Make hardware connections, and write a program to scan a keyboard,
detect the key pressed and convert the keypress code to ASCII. (IX)
|
| 10.
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Describe input/output, timing, and data transfer between a
microcomputer and hardware digital devices. (X)
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| 11.
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Draw a schematic diagram and use a digital voltmeter and oscilloscope
to connect analog devices and AD/DA converters to a microcomputer
port. Write programs to test hardware operation. (XI)
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| 12.
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Describe serial date transmission methods and standards. (XII)
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| 13.
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Draw diagrams to show how microcomputer hardware is connected and
operates with memories and coprocessors. (XIII)
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