Newnes interfacing companion
Tony Fischer-Cripps is a Project Leader in the Division of Telecommunications and Industrial Physics of the CSIRO (Commonwealth Scientific & Industrial Research Organisation), Australia. He was previously lecturer, University of Technology, Sydney (UTS), Australia, and has also worked for the Na...
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| Format: | eBook |
| Language: | Inglés |
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Oxford ; Boston :
Newnes
2002.
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| Edition: | 1st edition |
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| See on Biblioteca Universitat Ramon Llull: | https://discovery.url.edu/permalink/34CSUC_URL/1im36ta/alma991009627414606719 |
Table of Contents:
- Front Cover; Newnes Interfacing Companion; Copyright Page; Contents; Preface; Part 1: Transducers; Chapter 1.1. Measurement systems; 1.1.1 Transducers; 1.1.2 Methods of measurement; 1.1.3 Sensitivity; 1.1.4 Zero, linearity and span; 1.1.5 Resolution, hysteresis and error; 1.1.6 Fourier analysis; 1.1.7 Dynamic response; 1.1.8 PID control; 1.1.9 Accuracy and repeatability; 1.1.10 Mechanical models; 1.1.11 Review questions; Chapter 1.2. Temperature; 1.2.1 Temperature; 1.2.2 Standard thermometers; 1.2.3 Industrial thermometers; 1.2.4 Platinum resistance thermometer
- 1.2.5 Liquid-in-glass thermometer1.2.6 Radiation pyrometer; 1.2.7 Thermocouple; 1.2.8 Thermistors; 1.2.9 Relative humidity; 1.2.10 Review questions; 1.2.11 Activities; Chapter 1.3. Light; 1.3.1 Light; 1.3.2 Measuring light; 1.3.3 Standards of measurement; 1.3.4 Thermal detectors; 1.3.5 Light dependent resistor; 1.3.6 Photodiode; 1.3.7 Other semiconductor photodetectors; 1.3.8 Optical detectors; 1.3.9 Photomultiplier; 1.3.10 Review questions; Chapter 1.4. Position and motion; 1.4.1 Mechanical switch; 1.4.2 Potentiometric sensor; 1.4.3 Capacitive transducer; 1.4.4 LVDT
- 1.4.5 Angular velocity transducer1.4.6 Position sensitive diode array; 1.4.7 Motion control; 1.4.9 Review questions; Chapter 1.5. Force, pressure and flow; 1.5.1 Strain gauge; 1.5.2 Force; 1.5.3 Piezoelectric sensor instrumentation; 1.5.4 Acceleration and vibration; 1.5.5 Mass; 1.5.6 Atmospheric pressure; 1.5.7 Pressure; 1.5.8 Industrial pressure measurement; 1.5.9 Sound; 1.5.10 Flow; 1.5.11 Level; 1.5.12 Review questions; Part 2: Interfacing; Chapter 2.1. Number systems; 2.1.1 Binary number system; 2.1.2 Decimal to binary conversion; 2.1.3 Hexadecimal; 2.1.4 Decimal to hex conversion
- 2.1.5 2's complement2.1.6 Signed numbers; 2.1.7 Subtraction and multiplication; 2.1.8 Binary coded decimal; 2.1.9 Gray code; 2.1.10 ASCII code; 2.1.11 Boolean algebra; 2.1.12 Digital logic circuits; 2.1.13 Review questions; 2.1.14 Activities; Chapter 2.2. Computer architecture; 2.2.1 Computer architecture; 2.2.2 Memory; 2.2.3 Segmented memory; 2.2.4 Memory data; 2.2.5 Buffers; 2.2.6 Latches; 2.2.7 Flip-flop; 2.2.8 Input/Output (I/O); 2.2.9 Microprocessor unit (MPU/CPU); 2.2.10 Registers; 2.2.11 ROM; 2.2.12 Interrupts; 2.2.13 Memory map; 2.2.14 Real and protected mode CPU operation
- 2.2.15 Review questions2.2.16 Activities; Chapter 2.3. Assembly language; 2.3.1 Instruction set; 2.3.2 Assembly language; 2.3.3 Program execution; 2.3.4 Assembly language program structure; 2.3.5 Assembler directives; 2.3.6 Code segment; 2.3.7 Assembly language shell program; 2.3.8 Branching; 2.3.9 Register and immediate addressing; 2.3.10 Memory addressing; 2.3.11 Indirect memory addressing; 2.3.12 Indexed memory addressing; 2.3.14 Interrupts; 2.3.15 Review questions; 2.3.16 Activities; Chapter 2.4. Interfacing; 2.4.1 Interfacing; 2.4.2 Input/Output ports; 2.4.3 Polling; 2.4.4 Interrupts
- 2.4.5 Direct memory access (DMA)
