X-Git-Url: http://git.piffa.net/web?a=blobdiff_plain;f=advanced_projects%2Fled_PWM_logical_analyzer_demo%2Fled_PWM_logical_analyzer_demo.ino;h=723a7bf5e98defe7d826b396be0d64d2633f9b75;hb=f7cdba7df419dcde095f911daa92deb9dcd283ec;hp=e8c4cc8c2926f783194a81dea79ca07430bddf95;hpb=f6b06dbfcd44c2cddf6053fe1d824dbdc8493fa1;p=sketchbook_andrea

diff --git a/advanced_projects/led_PWM_logical_analyzer_demo/led_PWM_logical_analyzer_demo.ino b/advanced_projects/led_PWM_logical_analyzer_demo/led_PWM_logical_analyzer_demo.ino
index e8c4cc8..723a7bf 100644
--- a/advanced_projects/led_PWM_logical_analyzer_demo/led_PWM_logical_analyzer_demo.ino
+++ b/advanced_projects/led_PWM_logical_analyzer_demo/led_PWM_logical_analyzer_demo.ino
@@ -4,17 +4,18 @@
  Connect pin ~11 to a logic analyzer and a multimeter
  and witness the power of the built-in PWM generator.
  
+ Usage: change pausa from 3000 (demostration) to 20 for sampling.
  BTW: Logic comes from: http://downloads.saleae.com/betas/1.1.34/Logic+1.1.34+(64-bit).zip
  */
 
-int led = 11;
-int pausa = 3000; // or 20 when sampling
+int led = 9;
+int pausa = 3000; // 3000 for demo or 20 when sampling
 
 
 void setup()
 {
   pinMode(led, OUTPUT);
-  delay(4000);
+  delay(3000);
 }
 
 void loop()
@@ -36,7 +37,7 @@ void loop()
     analogWrite(led, c) ;
     delay(2 );
   }
-  exit(0);
+  //exit(0);
 
 }