Computer Electronics
Made Simple Computerbooks
- 1st Edition - January 1, 1985
- Imprint: Made Simple
- Author: J. F. B. Bourdillon
- Language: English
- Paperback ISBN:9 7 8 - 0 - 4 3 4 - 9 8 4 0 5 - 3
- eBook ISBN:9 7 8 - 1 - 4 8 3 1 - 3 5 4 1 - 0
Computer Electronics: Made Simple Computerbooks presents the basics of computer electronics and explains how a microprocessor works. Various types of PROMs, static RAMs, dynamic… Read more
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Request a sales quoteComputer Electronics: Made Simple Computerbooks presents the basics of computer electronics and explains how a microprocessor works. Various types of PROMs, static RAMs, dynamic RAMs, floppy disks, and hard disks are considered, along with microprocessor support devices made by Intel, Motorola and Zilog. Bit slice logic and some AMD bit slice products are also described. Comprised of 14 chapters, this book begins with an introduction to the fundamentals of hardware design, followed by a discussion on the basic building blocks of hardware (NAND, NOR, AND, OR, NOT, XOR); tools and equipment that are required by a hardware engineer; and sequential logic. Subsequent chapters focus on analog components such as transistors, resistors, capacitors, diodes, crystals, and power supplies; data sheets and data books; timing diagrams; arithmetic using integrated circuits, with emphasis on full adders, arithmetic logic units, and arithmetic processing units. The final chapter describes how a project operates, how the computer-aided design process works, and how printed circuit boards are manufactured. This monograph will be of interest to students, engineers, and other practitioners in computer electronics.
PrefaceAcknowledgements1 Fundamentals of Hardware Design 1.1 What is Hardware Design? 1.2 Numbering Systems 1.3 Boolean Algebra 1.4 Truth Tables 1.5 Conclusion 1.6 Summary2 Basic Building Blocks 2.1 Introduction 2.2 AND, OR and NOT Gates 2.3 Combining Simple Gates 2.4 Multiple Input Gates 2.5 Practical Example 2.6 DeMorgan's Theorems 2.7 Explanation of New Logic Symbols 2.8 Conclusion 2.9 Summary3 Making Your Own Circuits 3.1 General Equipment 3.2 Basic TTL 3.3 Using Basic TTL 3.4 Conclusion 3.5 Summary4 More Complex Devices 4.1 Clocks 4.2 J-K Flip Flop 4.3 D type Flip Flop 4.4 Shift Registers 4.5 Asynchronous Counters 4.6 Synchronous Counters 4.7 Conclusion 4.8 Summary5 Analog Components 5.1 Resistors 5.2 Capacitors 5.3 Diodes 5.4 Crystals 5.5 Relays 5.6 Transistors 5.7 Audible Alarms 5.8 Power Supplies 5.9 Conclusion 5.10 Summary6 Data Books and How to Use Them 6.1 What are Data Books? 6.2 Some Useful Terms 6.3 TTL Compatible Circuits 6.4 Main Categories in a Data Sheet 6.5 Mechanical Data 6.6 Essential Data Books for Design Engineers 6.7 Some Useful ICs 6.8 Conclusion7 Timing Diagrams 7.1 Introduction 7.2 What is a Timing Diagram? 7.3 Propagation Delays 7.4 Synchronism 7.5 Timing Diagram Conventions 7.6 Conclusion8 Arithmetic Using Integrated Circuits 8.1 Introduction 8.2 Binary Arithmetic 8.3 Full Adders 8.4 Arithmetic Logic Units (ALU) 8.5 Arithmetic Processing Units (APU) 8.6 Conclusion9 Microprocessors 9.1 What is a Microprocessor? 9.2 Microprocessor Block Diagram 9.3 Instruction Timing 9.4 Instruction Set 9.5 8 Bit Microprocessors 9.6 Z80 CPU 9.7 16 Bit Microprocessors 9.8 High Level Languages (HLL) 9.9 Conclusion10 Memories 10.1 RAM 10.2 ROM 10.3 Floppy Disks 10.4 Conclusion11 Microprocessor Support Devices 11.1 Introduction 11.2 Intel Support Devices 11.3 Motorola Support Devices 11.4 Zilog Support Devices 11.5 Conclusion12 Some Useful MSI ICs 12.1 Introduction 12.2 '05 Hex Inverter with O/C Outputs 12.3 '85 4 bit Comparator 12.4 '138 3-8 Decoder 12.5 '157 Quad 2-1 Multiplexer 12.6 '174 Hex D Type Flip Flop 12.7 '245 Octal Bus Transceiver 12.8 '367 Non Inverting Tristate Hex Buffer 12.9 '373 Octal Transparent Latch 12.10 '670 4 4 Register File 12.11 Example of Dual Port RAM 12.12 Conclusion13 Advanced LSI Components 13.1 Introduction 13.2 Bit Slice Logic 13.3 Custom ICs 13.4 Conclusion14 The Project Life Cycle 14.1 Introduction 14.2 Specification 14.3 Planning 14.4 Design of the Circuit 14.5 Production of First Prototype 14.6 Production of PCBs 14.7 Post Design Services 14.8 ConclusionAppendicesA—Decimal, Binary and Hexadecimal Conversion TablesB—Rules of Boolean AlgebraC—How to Make a D Type Flip Flop From Basic GatesD—Rationale Behind the New SymbolsE—Standard Resistor and Capacitor ValuesF—Clock Generator CircuitG—Functional Index/Selection GuideIndex
- Edition: 1
- Published: January 1, 1985
- Imprint: Made Simple
- No. of pages: 204
- Language: English
- Paperback ISBN: 9780434984053
- eBook ISBN: 9781483135410
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