Please do EXERCISE 2 USING OTL AND OTU ( not OTE)

Use RSLogic

4.4.2 Exercise 2 - Garage Door Opener using OTL and OTU Repeat steps (a) through (f) in Exercise 1, but this time design and enter a ladder logic program using only latching output coils. Use only XIC, XIO, OTL, and OTU instructions to solve this problem. Demonstrate the completed and TESTED program to your instructor Local: 1:1. Data Local:1:0.Data TOP 0 1 NO UP_SOL DOWN_SOL BOTTOM CRUNCH 1 2 GO_UP GO_DOWN To lo olol 000 8 9 STOP o lo 12 15 15 4.4 Procedure 4.4.1 Exercise 1 - Garage Door Opener using OTE Design and enter into the PLC a ladder logic program to implement the specification below. Use only XIC, XIO, and OTE instructions to solve this problem. Obtain a printout of the correctly working circuit. Specification: The motor is built with two separate coils. a) When the UP coil is energized the door will open. b) When the DOWN coil is energized the door will close. c) When the GO UP button is depressed, the UP coil will be energized and stay energized until either the STOP is depressed or the TOP limit switch (N.O. maintained) is reached. d) When the GO DOWN button is depressed, the DOWN coil will be energized and stay energized until either the STOP is depressed or the BOTTOM limit switch (N.O. maintained) is reached c) There is another limit switch located on the door itself. When the CRUNCH switch (N.O. maintained) is triggered the door will change direction and open. f) Interlock both coils so that when one is energized the other has to be de-energized. Both cannot be on at the same time. g) Demonstrate the completed and TESTED program to your instructor Local: 1:1. Data Local: 1:0.Data TOP O UP SOL DOWN_SOL BOTTOM CRUNCH NHO 2 00 GO_UP GO_DOWN 8 9 STOP alo 12 15 15