Chapter 14 Understanding Relay Instructions and the Programmable Controller Input Modules
Objectives (1 of 2) Explain proper programming of normal closed and normally open PLC input signals. Describe hardware relay operation and its correlation to proper PLC interface and programming. Convert a conventional start-stop schematic to a PLC ladder rung diagram.
Objectives (2 of 2) Explain why PLC ladder logic for motor starter interface has an additional contact in comparison to a conventional schematic. Hook up a start-stop station to a PLC input module. Hook up and develop a PLC program to correctly control a motor starter.
Typical Hard-Wired Start-Stop Latching Circuit
Incorrect Conversion of Conventional Start-Stop Schematic to PLC Control
Normally Open Pushbutton and Non-energized Relay
Normally Open Pushbutton Energizing Relay Coil and Pilot Light B
Normally Closed Pushbutton Energizing Relay Coil and Pilot Light B
Normally Closed Stop Pushbutton Depressed
Relay Status in Conjunction with Input Pushbuttons
Input and Output Separation
Separated Inputs Connected to PLC Input Screw Terminals
Start Push-Button Status Reflected in the Input Status Table
Start-Stop Input Bit Status from Input Hardware in a Non-energized State
Normally Open Pushbutton Not Activated
Normally Open Pushbutton Input Pressed
Normally Closed Input Pushbutton
Normally Closed Pushbutton Input to PLC
Pushbutton Released Output Latched through CR 1-1
Conventional Schematic Start-Stop Logic
Conventional Motor Starter Schematic Diagram
Conventional Motor Starter Circuit Converted for PLC System Management