Designing Scada Application Software: a Practical Approach : A Practical Approach
Automation systems, often referred to as SCADA systems, involve programming at several levels; these systems include computer type field controllers that monitor and control plant equipment such as conveyor systems, pumps, and user workstations that allow the user to monitor and control the equipment through color graphic displays. All of the components of these systems are integrated through a network, such as Ethernet for fast communications. This book provides a practical guide to developing the application software for all aspects of the automation system, from the field controllers to the user interface workstations. The focus of the book is to not only provide practical methods for designing and developing the software, but also to develop a complete set of software documentation. Providing tested examples and proceducres, this book will be indespensible to all engineers managing automation systems.
- Hardback | 246 pages
- 149.86 x 231.14 x 20.32mm | 430.91g
- 15 Aug 2013
- Elsevier Science Publishing Co Inc
- United States
- black & white illustrations
Table of contents
1. Introduction 2. The Elements of SCADA Software 3. Practical Procedures for SCADA Software Development 4. Documentation for SCADA Systems 5. Tagnames and Signal Naming Conventions 6. Developing the Application Program Databases 7. Process Control Logic Descriptions 8. User Operations Reference Manual 9. Guidelines for Controller Application Programming 10. Guidelines for Workstation Application Programming 11. System Integration, Commissioning, and Checkout 12. Sample Project - Applying the Principles Appendix A Glossary Appendix B TSNC Dictionaries Appendix C Sample Process Control Logic Description Appendix D Complete Listings for Sample Program
About Stuart G McCrady
Stuart McCrady is a Certified Engineering Technologist in the field of Electronics and Physics Engineering, as well as a Certified Professional Educator in the field of technical training for adults. He spent the first two years of his career in electronics, installing and servicing both large mainframe computer systems and small minicomputers. He then shifted to software programming in automation systems. This field of minicomputer programming required developing application software in machine or assembly language, executing at the hardware level. Field devices such as limit switches, pushbuttons, and solenoid valves, were connected to custom designed hardware interface boards installed inside the minicomputers. From the minicomputers of the 1970s to the PLCs and HMIs of today, Stuart has worked with a broad range of technologies using a variety of hardware and software platforms. He was involved in the design and implementation of more than 50 SCADA type projects. As his career progressed, Stuart acquired both more experience and more responsibility in the field of system integration and SCADA systems consulting. Stuart has served as programmer, project leader, project administrator, consultant, department manager, and SCADA system designer. Throughout his career, Stuart strove to establish programming standards and design methodologies that could be applied to any SCADA application. In the mid-1970s, he developed a program design and documentation system which he called FLOCODE, which resembled high level languages such as C, but was written in plain English. The purpose of the system was to allow the programmer to design software using English-like statements using structured programming constructs such as: If-Then-Else and Do-While/Do_Until. He applied this method to his own programming at both the high level language and the machine level language; this design documentation then became the comments and program description once the program was completed.