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tooling default
"Arduino Esplora"
"Arduino Robot"
Danger Shield - Sparkfun
CodeShield
LED
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Actions
wait for a time
switch off / switch on
modulate the voltage
drive servo motor
play a note
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reads the duration of an impulse
transform a variable
if that happens do this
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electricity
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contacts
tooling
row:0
pin0
pin1
pin2
pin3˜
pin4
pin5˜
pin6˜
pin7
pin8
pin9˜
pin10˜
pin11˜
pin12
pin13
pinA0
pinA1
pinA2
pinA3
pinA4
pinA5
row:1
pin0
pin1
pin2
pin3˜
pin4
pin5˜
pin6˜
pin7
pin8
pin9˜
pin10˜
pin11˜
pin12
pin13
pinA0
pinA1
pinA2
pinA3
pinA4
pinA5
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pin0
pin1
pin2
pin3˜
pin4
pin5˜
pin6˜
pin7
pin8
pin9˜
pin10˜
pin11˜
pin12
pin13
pinA0
pinA1
pinA2
pinA3
pinA4
pinA5
row:3
pin0
pin1
pin2
pin3˜
pin4
pin5˜
pin6˜
pin7
pin8
pin9˜
pin10˜
pin11˜
pin12
pin13
pinA0
pinA1
pinA2
pinA3
pinA4
pinA5
row:4
pin0
pin1
pin2
pin3˜
pin4
pin5˜
pin6˜
pin7
pin8
pin9˜
pin10˜
pin11˜
pin12
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pinA1
pinA2
pinA3
pinA4
pinA5
row:5
pin0
pin1
pin2
pin3˜
pin4
pin5˜
pin6˜
pin7
pin8
pin9˜
pin10˜
pin11˜
pin12
pin13
pinA0
pinA1
pinA2
pinA3
pinA4
pinA5
row:6
pin0
pin1
pin2
pin3˜
pin4
pin5˜
pin6˜
pin7
pin8
pin9˜
pin10˜
pin11˜
pin12
pin13
pinA0
pinA1
pinA2
pinA3
pinA4
pinA5
engaged pins: 7
declare variables
riga:8
=
integer
floating-point
text
array
main
row:9
store in the variable
...
X
a casual number between
and
row:10
IF HAPPENS THAT
...
X
is greater than
is less than
is equal to
is not equal to
an even if/or if...
row:11
SWITCH ON (5 Volt)
the
_led7
_led6
_led5
_led4
_led3
_led2
_led1
row:12
(close the cycle)
row:13
IF HAPPENS THAT
...
X
is greater than
is less than
is equal to
is not equal to
an even if/or if...
row:14
SWITCH ON (5 Volt)
the
_led7
_led6
_led5
_led4
_led3
_led2
_led1
row:15
SWITCH ON (5 Volt)
the
_led7
_led6
_led5
_led4
_led3
_led2
_led1
row:16
(close the cycle)
row:17
IF HAPPENS THAT
...
X
is greater than
is less than
is equal to
is not equal to
an even if/or if...
row:18
SWITCH ON (5 Volt)
the
_led7
_led6
_led5
_led4
_led3
_led2
_led1
row:19
SWITCH ON (5 Volt)
the
_led7
_led6
_led5
_led4
_led3
_led2
_led1
row:20
SWITCH ON (5 Volt)
the
_led7
_led6
_led5
_led4
_led3
_led2
_led1
row:21
(close the cycle)
row:22
IF HAPPENS THAT
...
X
is greater than
is less than
is equal to
is not equal to
an even if/or if...
row:23
SWITCH ON (5 Volt)
the
_led7
_led6
_led5
_led4
_led3
_led2
_led1
row:24
SWITCH ON (5 Volt)
the
_led7
_led6
_led5
_led4
_led3
_led2
_led1
row:25
SWITCH ON (5 Volt)
the
_led7
_led6
_led5
_led4
_led3
_led2
_led1
row:26
SWITCH ON (5 Volt)
the
_led7
_led6
_led5
_led4
_led3
_led2
_led1
row:27
(close the cycle)
row:28
IF HAPPENS THAT
...
X
is greater than
is less than
is equal to
is not equal to
an even if/or if...
row:29
SWITCH ON (5 Volt)
the
_led7
_led6
_led5
_led4
_led3
_led2
_led1
row:30
SWITCH ON (5 Volt)
the
_led7
_led6
_led5
_led4
_led3
_led2
_led1
row:31
SWITCH ON (5 Volt)
the
_led7
_led6
_led5
_led4
_led3
_led2
_led1
row:32
SWITCH ON (5 Volt)
the
_led7
_led6
_led5
_led4
_led3
_led2
_led1
row:33
SWITCH ON (5 Volt)
the
_led7
_led6
_led5
_led4
_led3
_led2
_led1
row:34
(close the cycle)
row:35
IF HAPPENS THAT
...
X
is greater than
is less than
is equal to
is not equal to
an even if/or if...
row:36
SWITCH ON (5 Volt)
the
_led7
_led6
_led5
_led4
_led3
_led2
_led1
row:37
SWITCH ON (5 Volt)
the
_led7
_led6
_led5
_led4
_led3
_led2
_led1
row:38
SWITCH ON (5 Volt)
the
_led7
_led6
_led5
_led4
_led3
_led2
_led1
row:39
SWITCH ON (5 Volt)
the
_led7
_led6
_led5
_led4
_led3
_led2
_led1
row:40
SWITCH ON (5 Volt)
the
_led7
_led6
_led5
_led4
_led3
_led2
_led1
row:41
SWITCH ON (5 Volt)
the
_led7
_led6
_led5
_led4
_led3
_led2
_led1
row:42
(close the cycle)
row:43
WAIT
milliseconds
row:44
row:45
SWITCH OFF (0 Volt)
the
_led7
_led6
_led5
_led4
_led3
_led2
_led1
row:46
SWITCH OFF (0 Volt)
the
_led7
_led6
_led5
_led4
_led3
_led2
_led1
row:47
SWITCH OFF (0 Volt)
the
_led7
_led6
_led5
_led4
_led3
_led2
_led1
row:48
SWITCH OFF (0 Volt)
the
_led7
_led6
_led5
_led4
_led3
_led2
_led1
row:49
SWITCH OFF (0 Volt)
the
_led7
_led6
_led5
_led4
_led3
_led2
_led1
row:50
SWITCH OFF (0 Volt)
the
_led7
_led6
_led5
_led4
_led3
_led2
_led1
row:51
SWITCH OFF (0 Volt)
the
_led7
_led6
_led5
_led4
_led3
_led2
_led1
row:52
WAIT
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new function
call a function
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components
actions
wait
switch off / switch on
modulate the voltage
drive servo motor
play a note
read from a sensor
detects the status of a button
reads the duration of an impulse
transform a variable
if that happens do this
repeat n times
new function
call a function
Add a note
Add a marker
generate a random number
milliseconds
reads from the serial port
write on the serial port
write on a display LCD
//programma: dice //******* pin ******** //******* declare ******** const int pin_led7=7;//pin of _led7 const int pin_led6=6;//pin of _led6 const int pin_led5=5;//pin of _led5 const int pin_led4=4;//pin of _led4 const int pin_led3=3;//pin of _led3 const int pin_led2=2;//pin of _led2 const int pin_led1=1;//pin of _led1 int X=0;//declares the variable //********** setup ********** void setup(){ pinMode(pin_led7,OUTPUT); pinMode(pin_led6,OUTPUT); pinMode(pin_led5,OUTPUT); pinMode(pin_led4,OUTPUT); pinMode(pin_led3,OUTPUT); pinMode(pin_led2,OUTPUT); pinMode(pin_led1,OUTPUT); } //********** loop ********** void loop() { X=random(1,6); if(X==1){ digitalWrite(pin_led7,HIGH); // HIGH/LOW is the voltage 5V/0V) } if(X==2){ digitalWrite(pin_led1,HIGH); // HIGH/LOW is the voltage 5V/0V) digitalWrite(pin_led6,HIGH); // HIGH/LOW is the voltage 5V/0V) } if(X==3){ digitalWrite(pin_led1,HIGH); // HIGH/LOW is the voltage 5V/0V) digitalWrite(pin_led7,HIGH); // HIGH/LOW is the voltage 5V/0V) digitalWrite(pin_led6,HIGH); // HIGH/LOW is the voltage 5V/0V) } if(X==4){ digitalWrite(pin_led1,HIGH); // HIGH/LOW is the voltage 5V/0V) digitalWrite(pin_led4,HIGH); // HIGH/LOW is the voltage 5V/0V) digitalWrite(pin_led3,HIGH); // HIGH/LOW is the voltage 5V/0V) digitalWrite(pin_led6,HIGH); // HIGH/LOW is the voltage 5V/0V) } if(X==5){ digitalWrite(pin_led1,HIGH); // HIGH/LOW is the voltage 5V/0V) digitalWrite(pin_led4,HIGH); // HIGH/LOW is the voltage 5V/0V) digitalWrite(pin_led3,HIGH); // HIGH/LOW is the voltage 5V/0V) digitalWrite(pin_led6,HIGH); // HIGH/LOW is the voltage 5V/0V) digitalWrite(pin_led7,HIGH); // HIGH/LOW is the voltage 5V/0V) } if(X==6){ digitalWrite(pin_led1,HIGH); // HIGH/LOW is the voltage 5V/0V) digitalWrite(pin_led2,HIGH); // HIGH/LOW is the voltage 5V/0V) digitalWrite(pin_led3,HIGH); // HIGH/LOW is the voltage 5V/0V) digitalWrite(pin_led4,HIGH); // HIGH/LOW is the voltage 5V/0V) digitalWrite(pin_led5,HIGH); // HIGH/LOW is the voltage 5V/0V) digitalWrite(pin_led6,HIGH); // HIGH/LOW is the voltage 5V/0V) } delay(5000);//attendi //******************************** digitalWrite(pin_led1,LOW); // HIGH/LOW is the voltage 5V/0V) digitalWrite(pin_led2,LOW); // HIGH/LOW is the voltage 5V/0V) digitalWrite(pin_led3,LOW); // HIGH/LOW is the voltage 5V/0V) digitalWrite(pin_led4,LOW); // HIGH/LOW is the voltage 5V/0V) digitalWrite(pin_led5,LOW); // HIGH/LOW is the voltage 5V/0V) digitalWrite(pin_led6,LOW); // HIGH/LOW is the voltage 5V/0V) digitalWrite(pin_led7,LOW); // HIGH/LOW is the voltage 5V/0V) delay(3000);//attendi };//end loop //powered by "Arduinomio" (C) //www.mastrohora.it
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