Using Logic Control In A Safety And Fire Program Fire Alarm System Engineering Course

The purpose of this paper is to describe the use of programmable logic controllers in a Safety and Fire program Fire Alarm System Engineering course (ENGR-1403) of a four-year university. The students in the course accomplish programmable logic control by using Automation Direct programmable logic controllers. The students achieve knowledge of generic logic control through the use of ladder logic, logic statements, and functional block diagram programming techniques. The students use a variety of software in the course that includes circuit software and LabVIEW. The LabVIEW software is used for both the design and simulation of fire alarm logic systems. In addition, the students use Honeywell commercial fire alarm control processors to perform practical system setup programming for vendor specific applications. The focus of this paper is on the programmable logic control teaching techniques that are used in the ENGR1403 course and the respective student exercise and project work The students in the ENGR-1403 course have various levels of experience and academic backgrounds. Students in the course often have experience in the installation or maintenance of fire alarm systems. Typically the preponderance of the class students does not have a significant amount of experience using programmable logic. While some students may have limited programmable logic experience, their course entry experience most usually is not enough to allow them to program more advanced exercises or projects. Discussed in this paper are the learning strategies and teaching methods that are used to impart knowledge of programmable logic control to the fire alarm systems engineering course students. First the fundamentals of basic logic are given in the course with special applications to fire alarm systems. Next, programmable logic methods are put forth. Ladder logic is then given and the respective mnemonic statements for the ladder logic are presented. Finally, functional block diagram logic programming is given. At all stages of learning relevant applications to fire alarm system are used. Strategies that are used in the course to increase the student knowledge of fire alarm logic are taken from both engineering courses and from industrial training courses. Most of the class students have not taken a digital logic course. Therefore, logic gates, truth tables, Venn diagrams, and logic statements that are typically found in digital logic courses are presented in the fire alarm systems class. In addition, hands-on and industrial training methods are used. It is allowed for students to help each other perform exercises, but more often than not, few students in the fire alarm systems engineering class initially have enough prior knowledge of programmable logic to help the others. As the course progresses, however, students that advance more rapidly help support the others. Finally, it is very important to note that the knowledge of programmable logic control gained in the fire alarm system class is a very valuable asset for students when they become employed in fire and safety or in many other areas of industry. Student exercises and group projects will be given that use programmable logic control. P ge 13346.2 Introduction The goal of the ENGR-1403 course is to have the students gain both theory and application. First, basic theory is completed that includes logic symbols, logic gates, truth-tables, logic statements, logic manipulation, and basic combinational logic examples. The next approach used is to impart knowledge of the application of logic control. This is done in a manner to allow a student to use, understand, and even design a fire alarm system control unit. This is accomplished by having the students learn and use the more general logic software packages first and then learn the programmable logic software. The understanding of logic programming enables the ENGR-1403 students to design systems in addition to performing the application of a preprogrammed and pre-engineered fire alarm signaling control systems. The students learn logic theory through the use of educational software that includes LabVIEW. Because the students that enroll in the ENGR-1403 class are not required to have a previous knowledge of the LabVIEW software, the basics of LabVIEW are taught within the ENRG-1403 course. Fundamentals of LabVIEW and examples are given in both the classroom and lab. The ENGR-1403 students are also not required to have previous knowledge of programmable logic and software. The students learn programmable logic controller software and hardware applications through the use of programmable logic controllers that are in the ENGR-1403 course lab. Note that only smatterings of students in the ENGR-1403 course, mainly those that work in industry, do have some limited experience with programmable logic. A fire alarm system systems laboratory is used in the ENGR-1403 course with the lecture. This fire alarm signaling systems laboratory has programmable logic controllers that allow fire protection systems to be designed from scratch. This is in contrast to the mostly preprogrammed commercial fire alarm signaling systems control panels that are also used in the ENGR-1403 lab. The use of the ENGR-1403 lab programmable logic controllers also acquaints students with programmable logic control which is an important tool that is used in industry. The students first learn to program logic by using functional blocks and logic diagrams in LabVIEW. The students then use the lab logic controllers to program mnemonics and logic diagrams for fire alarm systems.