Microcontroller-based temperature monitoring and control / Dogan Ibrahim.

Format:

Book

Author/Creator:

Ibrahim, Dogan.

Language:

English

Subjects (All):

Temperature control.

Electronic controllers.

Physical Description:

1 online resource (249 p.)

Edition:

1st edition

Place of Publication:

Oxford ; Boston : Newnes, 2002.

Language Note:

English

System Details:

text file

Summary:

Microcontroller-Based Temperature Monitoring and Control is an essential and practical guide for all engineers involved in the use of microcontrollers in measurement and control systems. The book provides design principles and application case studies backed up with sufficient control theory and electronics to develop your own systems. It will also prove invaluable for students and experimenters seeking real-world project work involving the use of a microcontroller. Techniques for the application of microcontroller-based control systems are backed up with the basic theory and mathemati

Contents:

Front Cover; Microcontroller-Based Temperature Monitoring and Control; Copyright Page; Contents; Preface; Chapter 1. Microcomputer Systems; 1.1 Introduction; 1.2 Microcontroller systems; 1.3 Microcontroller features; 1.4 Microcontroller architectures; 1.5 The PIC microcontroller family; 1.6 Minimum PIC configuration; 1.7 PIC16F84 microcontroller; 1.8 PIC16F877 microcontroller; 1.9 Using C language to program PIC microcontrollers; 1.10 PIC C project development tools; 1.11 Structure of a microcontroller based C program; 1.12 Program Description Language; 1.13 Example LCD project

1.14 Exercises1.15 Further reading; Chapter 2. Temperature and its Measurement; 2.1 Temperature scales; 2.2 Types of temperature sensors; 2.3 Measurement errors; 2.4 Selecting a temperature sensor; Chapter 3. Thermocouple Temperature Sensors; 3.1 Thermocouple types; 3.2 Thermocouple junction mounting; 3.3 Thermocouple insulation; 3.4 Extension cables; 3.5 Thermocouple response times; 3.6 Thermocouple styles; 3.7 Thermocouple temperature voltage relationships; 3.8 The theory of the cold junction compensation; 3.9 Microcontroller based practical thermocouple circuits

3.10 PROJECT- Measuring temperature using a thermocouple and a microcontroller3.11 Exercises; Chapter 4. RTD Temperature Sensors; 4.1 RTD principles; 4.2 RTD types; 4.3 RTD temperature resistance relationship; 4.4 RTD standards; 4.5 Practical RTD circuits; 4.6 Microcontroller based RTD temperature measurement; 4.7 PROJECT - Designing a microcontroller based temperature measurement system using an RTD; 4.8 Exercises; Chapter 5. Thermistor Temperature Sensors; 5.1 Thermistor principles; 5.2 Thermistor types; 5.3 Self-heating; 5.4 Thermal time constant

5.5 Thermistor temperature-resistance relationship5.6 Practical thermistor circuits; 5.7 Microcontroller based temperature measurement; 5.8 PROJECT - Designing a microcontroller based temperature measurement system using a thermistor; 5.9 Exercises; Chapter 6. Integrated Circuit Temperature Sensors; 6.1 Voltage output temperature sensors; 6.2 Current output temperature sensors; 6.3 Digital output temperature sensors; 6.4 PROJECT - Using a digital output sensor to measure the temperature; 6.5 Exercises; Chapter 7. Digital Control Systems and the z- transform; 7.1 The sampling process

7.2 The z-transform7.3 Inverse z-transform; 7.4 The pulse transfer function; 7.5 Exercises; Chapter 8. Stability; 8.1 Jury's stability test for small systems; 8.2 The root- locus technique; 8.3 Digital control algorithms; 8.4 Temperature control using digital computers; 8.5 Digital realizations; 8.6 Realization of the discrete PID controller; 8.7 Problems with the standard PID controller; 8.8 Choosing a sampling interval; 8.9 Exercises; Chapter 9. Case Study: Temperature Control Project; 9.1 Overview; 9.2 The mathematical model; 9.3 The circuit diagram; 9.4 Identification of the system

9.5 Pulse width output of the microcontroller

Notes:

Description based upon print version of record.

Includes bibliographical references and index.

ISBN:

9786611051570

9781281051578

1281051578

9780080479422

0080479421

OCLC:

55499828