09-06-2012, 12:50 PM
Automating Manufacturing Systems with PLCs
Systems with PLCs.pdf (Size: 5.09 MB / Downloads: 0)
PROGRAMMABLE LOGIC CONTROLLERS
INTRODUCTION
Control engineering has evolved over time. In the past humans were the main
method for controlling a system. More recently electricity has been used for control and
early electrical control was based on relays. These relays allow power to be switched on
and off without a mechanical switch. It is common to use relays to make simple logical
control decisions. The development of low cost computer has brought the most recent revolution,
the Programmable Logic Controller (PLC). The advent of the PLC began in the
1970s, and has become the most common choice for manufacturing controls.
Ladder Logic
Ladder logic is the main programming method used for PLCs. As mentioned
before, ladder logic has been developed to mimic relay logic. The decision to use the relay
Topics:
Objectives:
• Know general PLC issues
• To be able to write simple ladder logic programs
• Understand the operation of a PLC
• PLC History
• Ladder Logic and Relays
• PLC Programming
• PLC Operation
• An Example
logic diagrams was a strategic one. By selecting ladder logic as the main programming
method, the amount of retraining needed for engineers and tradespeople was greatly
reduced.
Modern control systems still include relays, but these are rarely used for logic. A
relay is a simple device that uses a magnetic field to control a switch, as pictured in Figure
2.1. When a voltage is applied to the input coil, the resulting current creates a magnetic
field. The magnetic field pulls a metal switch (or reed) towards it and the contacts touch,
closing the switch. The contact that closes when the coil is energized is called normally
open. The normally closed contacts touch when the input coil is not energized. Relays are
normally drawn in schematic form using a circle to represent the input coil. The output
contacts are shown with two parallel lines. Normally open contacts are shown as two
lines, and will be open (non-conducting) when the input is not energized. Normally closed
contacts are shown with two lines with a diagonal line through them. When the input coil
is not energized the normally closed contacts will be closed (conducting).