CASE state OF 0: // Red Red := TRUE; Green := FALSE; Yellow := FALSE; IF Timer_Done THEN state := 1; Timer(5s); 1: // Red+Yellow Red := TRUE; Yellow := TRUE; IF Timer_Done THEN state := 2; Timer(5s); 2: // Green Green := TRUE; IF Timer_Done THEN state := 3; Timer(5s); 3: // Yellow Yellow := TRUE; IF Timer_Done THEN state := 0; Timer(5s); END_CASE; Statement: An analog input (4–20 mA) from a 0–100°C sensor. Scale to real temperature.
---[Auto]---[Start]---[Stop]---(Motor_Internal) Rung2 – Jog mode: ejercicios de plc resueltos
IF Sensor_Rising_Edge AND (Count < 100) THEN Count := Count + 1; END_IF; IF Count >= 100 THEN Conveyor := FALSE; END_IF; CASE state OF 0: // Red Red :=
---[Jog]---[Jog_Button]---(Motor_Internal) Rung3 – Output: These are typical for Siemens S7-1200/1500 (TIA Portal)
Here’s a structured list of (from basic to intermediate) with explanations, logic, and pseudo-code. These are typical for Siemens S7-1200/1500 (TIA Portal) or Allen-Bradley (RSLogix 5000) but the logic applies to any brand. 🔹 Exercise 1 – Start/Stop with Latch (Motor Control) Statement: Control a motor with two pushbuttons: Start (NO) and Stop (NC). Add an overload relay (NC) as protection. Use a latching relay.
---[Start]---[Stop]---(TON_1.IN) TON_1.PT := T#5s ---[TON_1.Q]---(Motor) TON_1 starts timing when Start is pressed. Q turns ON after 5s if Start remains pressed. 🔹 Exercise 4 – Counter (Count Products) Statement: A sensor (photocell) detects products on a conveyor. Count up to 100, then stop the conveyor and reset with a button.
Rung1 – Auto mode: