Logixpro Dual Compressor Exercise 2 Instant

That Tuesday, the thermometer on the mezzanine read 104°F. Titan’s cooling fan seized at 2:17 PM. By 2:22, its discharge temperature alarm screamed red on the control panel. The compressor didn't stop—it just kept churning, heating the air to 190°F, expanding it like a furious ghost. The pressure at the receiver tank began to drop.

She hit start again.

“You just passed Exercise 2 with a gold star,” said the plant manager, handing her a bottle of water. logixpro dual compressor exercise 2

She sprinted to the MCC (Motor Control Center) and yanked the disconnect for Titan. The massive screw element ground to a halt with a mournful groan. The plant pressure gauge needle wobbled at 92 PSI and began to fall. That Tuesday, the thermometer on the mezzanine read 104°F

In the LogixPro simulation, you had ladder logic timers: T4:0 for the “minimum run time” and T4:1 for the “anti-cycle delay.” Maria had no time to program. She had to become the PLC. The compressor didn't stop—it just kept churning, heating

In LogixPro’s “Dual Compressor Exercise 2,” the goal was simple: maintain 90–100 PSI with two compressors, handle duty cycling, and prevent both from running simultaneously for too long to avoid overload. The twist? A random “fault” could disable one compressor, forcing the other to handle the load within strict time limits.

Atlas roared to life. Pressure stabilized at 96 PSI. For thirty seconds, Maria breathed. Then the production line kicked into high gear—three cappers firing at once, a purge cycle on the filler, and a labeler changeover. The pressure cratered to 85 PSI.