1Preface
842.6.1 Adder
2Cabling
852.6.2 Arithmetic Logic Unit (ALU)
3Hubs
862.6.3 Equivalence Element
4Resource Links
872.6.4 Pseudotetrade Recognizer
51 Basics
882.6.5 Number Comparator
61.1 Information Transfer and Power Supply
892.6.6 Bus Driver, 3-State Driver
71.2 Electrical Circuit
902.7 Encoder
81.2.1 Blown Circuits
912.7.1 Decimal BCD (8421) Encoder
91.2.2 Committed Circuits
922.7.2 BCD (8421) Decimal Encoder
101.2.3 Issues in Homes without Dedicated Circuits
932.7.3 Binary Gray Encoder
111.2.4 The Works of an Electrical Circuit
942.8 Multiplexer, Demultiplexer
121.3 Electrical Quantities
952.8.1 Multiplexer (MUX)
131.3.1 What is an Electrical Current?
962.8.2 Demultiplexer (DMUX)
141.3.2 Ohm’s Law
972.9 Bistable Elements, Flip-flops
151.3.3 Fundamental Laws of Electronics
982.9.1 Successive Circuit
161.3.4 Kirchhoff’s Laws
992.9.2 RS Flip-flop
171.3.5 Work, Performance and Efficiency
1002.9.3 D Flip-flop
181.4 Series Connection
1012.9.4 Single-edge Flip-flops
191.5 Parallel Connection
1022.9.5 Conversion of Flip-flops
201.6 Adaptation
1032.9.6 Two-Memory Flip-flop (Master-Slave Flip-flop)
211.6.1 Transmitting Voltages, Amperages and Resistance Values
1042.9.7 Transcoder
221.6.2 Deciding Transmitter Power Dissipation
1052.10 Counting Circuits
231.7 Fork Connection
1062.10.1 Asynchronous Counter
241.7.1 Operating Voltage Supply
1072.10.2 Synchronous Counters
251.7.2 DC, AC and Mixed Voltages
1082.10.3 Integrated Counting Circuits
261.8 Sinusoidal and Non-sinusoidal Tensions
1092.11 Registers
271.9 Building Blocks for Signal Processing
1102.11.1 Shift Register
281.9.1 Kinds of Audio Signal Processors
1112.11.2 Parallel-to-serial Converter
291.9.2 Brief Explanation of Digital Signal Processing, Compression, Encryption, and File Translation
1122.11.3 Serial-to-Parallel Converter
301.10 Capacitor
1132.11.4 Scrambler, Descrambler
311.10.1 Coil
1142.11.5 Latch
321.10.2 Low Pass, High Pass and Band Pass
1152.12 Arithmetic Units
331.10.3 Resonance Circuits
1162.12.1 Serial Adder
341.11 Band Filter
1172.12.2 Serial Subtractor
351.12 Transistor
1182.12.3 Serial Multiplier
361.13 Op AMP
1192.12.4 Parallel Adder
371.13.1 Voltage
1202.13 Digital-to-analog Converter
381.13.2 Amperage
1212.13.1 DA Converter with Stepped Resistors
391.13.3 Watts
1222.13.2 DA Converter with Resistance Ladder / R2R Network
401.13.4 Operation Amp Specifications
1232.14 Analog-to-digital Converter
411.14 Optoelectronics
1242.14.1 AD Converter with Resistor Network
421.14.1 General Information about Optoelectronics
1252.14.2 AD Converter after the Sawtooth Method
431.14.2 Uses of Optoelectronics Devices
1262.14.3 AD Converter after the Weighing Process
441.14.3 Receiver Components
1272.14.4 AD Converter According to the Parallel Method
451.14.4 Emitter Components
1282.14.5 AD Conversion by Delta Modulation
461.15 Installation of Electrical Resources
1292.15 Semiconductor Memory
471.15.1 Generation and Distribution of Electrical Energy
1302.15.1 Read-only Memory
481.15.2 Documents for the Electrical Energy
1312.15.2 Read Write Memory
491.15.3 Most Effective Method to Use less Electricity
1322.16 Computer Architecture
501.15.4 Protective Measures
1332.16.1 Von Neumann Architecture
511.15.5 Dimensioning of Cables and Fuses
1342.16.2 Harvard Architecture
521.15.6 Checking Protective Measures
1352.16.3 Microcontroller Architecture
531.15.7 Project: Installation of a Power Supply for 24PCs
1363 Workstations
542 Digital Technology
1373.1 Introduction
552.1 Introduction
1383.2 General
562.2 Combinatorial Elements
1393.2.1 Networking Possibilities
572.2.1 Essential Combinatorics Rules
1403.2.2 Structure of a Workstation
582.2.2 AND Element
1413.3 PC Case Forms
592.2.3 OR Element
1423.3.1 Stationary Devices
602.2.4 NOT Element
1433.3.2 Mobile Devices
612.2.5 NAND Element (NOT-AND)
1443.4 Structure of a Workstation
622.2.6 NOR Element (NOT-OR)
1453.4.1 Microprocessor (CPU)
632.3 Switching Algebra
1463.4.2 Motherboard (Motherboard, Motherboard)
642.3.1 AND Operation
1473.4.3 Characteristics
652.3.2 OR Operation
1483.4.4 Chipset
662.3.3 NOT Operation
1493.4.5 Memory
672.3.4 Some Basic Laws for Boolean Algebra
1503.4.6 Internal Bus Systems
682.3.5 Calculation Rules
1513.5 Input and Output
692.3.6 Law of De Morgan
1523.5.1 Keyboard
702.3.7 Application Examples
1533.5.2 Mouse
712.4 Number Systems
1543.5.3 Touchpad
722.4.1 Decimal system
1553.5.4 TrackPoint
732.4.2 Dual system
1563.5.5 Peripheral Interfaces
742.4.3 Spot Worth Guidelines in Binary Number System
1573.5.6 Graphics Cards
752.4.4 Octal and Hexadecimal System
1583.5.7 Monitors
762.4.5 Conversion: Decimal Numbers in Binary Numbers
1593.5.8 Possibilities of Input-output Communication
772.4.6 Computing with Binary Numbers
1603.6 Mass Storage
782.5 Binary Codes
1613.6.1 Hard Disks
792.5.1 BCD Code (BCD: Binary Coded Decimal Digit)
1623.6.2 Partitioning and Formatting
802.5.2 Weighted Codes
1633.6.3 Hard Disk Connections
812.5.3 Unweighted Codes
1643.6.4 RAID Systems
822.5.4 Error-detecting Codes
1653.6.5 Optical Recording Systems
832.6 Basic Switching Networks
166Index
