From 329df3a3ee627dba89915b065a51767c51586f30 Mon Sep 17 00:00:00 2001 From: Asbelos Date: Thu, 12 Aug 2021 20:35:56 +0100 Subject: [PATCH] correct example sensors --- myAutomation.example.h | 26 +++++++++++++------------- 1 file changed, 13 insertions(+), 13 deletions(-) diff --git a/myAutomation.example.h b/myAutomation.example.h index 7ade902..7353821 100644 --- a/myAutomation.example.h +++ b/myAutomation.example.h @@ -33,8 +33,8 @@ EXRAIL // myAutomation must start with the EXRAIL instruction DONE // This just ends the startup thread, leaving 2 others running. /* SEQUENCE(1) is a simple shuttle between 2 sensors - * S10 and S11 are sensors pre-defined with the command - * S10 S11 + * S20 and S21 are sensors on arduino pins 20 and 21 + * S20 S21 * === START->================ */ SEQUENCE(1) @@ -43,41 +43,41 @@ EXRAIL // myAutomation must start with the EXRAIL instruction DELAY(1000) // wait 1 second FOFF(3) // Horn off FWD(80) // Move forward at speed 80 - AT(11) // until we hit sensor id 11 + AT(21) // until we hit sensor id 21 STOP // then stop DELAY(5000) // Wait 5 seconds FON(2) // ring bell REV(60) // reverse at speed 60 - AT(10) // until we get to S10 + AT(20) // until we get to S20 STOP // then stop FOFF(2) // Bell off FOLLOW(1) // and follow sequence 1 again /* SEQUENCE(2) is an automation example for a single loco Y shaped journey - * S1,S2,S3 are sensors, T4 is a turnout + * S31,S32,S33 are sensors, T4 is a turnout * - * S3 T4 S1 + * S33 T4 S31 * ===-START->============================================= * // - * S2 // + * S32 // * ======================// * - * Train runs from START to S1, back to S2, again to S1, Back to start. + * Train runs from START to S31, back to S32, again to S31, Back to start. */ SEQUENCE(2) FWD(60) // go forward at DCC speed 60 - AT(1) STOP // when we get to sensor 1 + AT(31) STOP // when we get to sensor 31 DELAY(10000) // wait 10 seconds - THROW(4) // throw turnout for route to S2 + THROW(4) // throw turnout for route to S32 REV(45) // go backwards at speed 45 - AT(2) STOP // until we arrive at sensor 2 + AT(32) STOP // until we arrive at sensor 32 DELAY(5000) // wait 5 seconds FWD(50) // go forwards at speed 50 - AT(1) STOP // and stop at sensor 1 + AT(31) STOP // and stop at sensor 31 DELAY(5000) // wait 5 seconds CLOSE(4) // set turnout closed REV(50) // reverse back to S3 - AT(3) STOP + AT(33) STOP DELAY(20000) // wait 20 seconds FOLLOW(2) // follow sequence 2... ie repeat the process