This 25-part training series provides a basic but thorough description of digital electronic systems and uses a non-mathematical approach to show the underlying logic inherent in digital techniques.
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Digital Techniques: Introduction To Digital TechniquesCovers analog vs. digital items, advantages and characteristics of digital techniques, and the binary number system.
Digital Techniques: Transistor OperationsHelps students understand semiconductors and apply this fundamental information to digital circuits.
Digital Techniques: Bipolar Switch/MOSFETIntroduces students to the two switches used in most digital logic circuits.
Digital Techniques: Digital Logic CircuitsDefines digital logic circuits and provides information about how they function.
Digital Techniques: Logic Circuit CharacteristicsIntroduces types of integrated circuits and describes the characteristics used to select them for digital applications.
Digital Techniques: TTL/ECL Logic CircuitsIntroduces two types of ICs, the transistor-transistor logic IC and the emitter coupled logic IC.
Digital Techniques: MOS/I2L Logic CircuitsDescribes two more ICs, the metal oxide semiconductor IC and the integrated injection logic IC.
Digital Techniques: Boolean Algebra BasicsIntroduces Boolean algebra and shows students how it is used to analyze digital logic circuits.
Digital Techniques: Boolean RulesTeaches students to minimize logic expressions and implement Boolean expressions with NAND or NOR gates.
Digital Techniques: Latch/D-Type Flip-Flops & RegistersProvides information on four operations – storage, counting, sequencing, and timing.
Digital Techniques: JK Flip-FlopsHelps students learn to complete the output waveform and application for a JK flip flop.
Digital Techniques: Sequential Logic Circuits "Binary Counters"Explains binary counter operation&, how to determine the count sequence of a binary counter from a logic diagram, and more.
Digital Techniques: Sequential Logic Circuits "BCD & Special Counters"Teaches students to identify commonly used BCD and special counters and explain their operation.
Digital Techniques: Sequential Logic Circuits "Shift Registers"Helps students explain the operation and uses of shift registers.
Digital Techniques: Sequential Logic Circuits "Clocks"Explains the purpose of the clock signal and how to develop it.
Digital Techniques: Combinational Logic Circuits "Decoders/Encoders/Multiplexers"Introduces four types of functional logic circuits and explains their operation.
Digital Techniques: Combinational Logic Circuits "Exclusive OR/Code Converters"Introduces exclusive OR/code converters and demonstrates their applications.
Digital Techniques: Combinational Logic Circuits "ROMs & Programmable Logic Arrays"Introduces ROMs and PLAs and demonstrates their applications.
Digital Techniques: Semiconductor Memories "Memory Basics"Introduces semiconductor memories, specifically random access and read only memory.
Digital Techniques: Semiconductor Memories "Read/Write Memories"Discusses both static and dynamic semiconductor RAMs.
Digital Techniques: Semiconductor Memories "Dynamic/PROM Memories"Introduces dynamic RAM memory and programmable ROMs.
Digital Techniques: Data Conversion "DigitaltoAnalog"Covers how to covert one form of data to another, the two basic methods of doing so, and error sources.
Digital Techniques: Data Conversion "AnalogtoDigital"Explains how sampling rate affects conversion accuracy and how analog multiplexers and sample/hold circuits work.
Digital Techniques: Digital Test InstrumentsExplains how to use test instruments such as multimeters and oscilloscopes to detect problems in digital circuits.
Digital Techniques: Digital TroubleshootingExplains the techniques that can be applied when digital circuits fail.
Our DVDs are portable and easy-to-use. Training content is "chapterized," or organized by learning objectives to:
- Help with course navigation
- Enable training administrators to cover specific training points and conduct refresher training
- Facilitate classroom discussion.
Click here for the PDF Spec Sheet.