Last active
August 30, 2023 01:10
-
-
Save JamesNewton/8b994528ff3ce69e60bbb67c40954cd2 to your computer and use it in GitHub Desktop.
Simple Arduino script to set pins high, low, input, pull up, or analog/servo, clock in or out data, with timing/start/stop, and read all or a single pin back via serial IO. NOTE: THIS HAS BEEN REPLACED BY https://github.com/JamesNewton/Arduino_Dynamixel_Stepper_Controller
This file contains bidirectional Unicode text that may be interpreted or compiled differently than what appears below. To review, open the file in an editor that reveals hidden Unicode characters.
Learn more about bidirectional Unicode characters
/* | |
PinReadWrite.ino | |
//20170512 initial version | |
//20170517 uS timing (was mS), vars are longs, i2C start/stop, and clock IN data w/. | |
//20201002 Returns valid JSON. | |
Simple Arduino script to set pins high, low, input, pull up, or analog/servo, | |
clock out data with timing, and read all or a single pin back via serial IO. | |
Written for the tiny-circuits.com TinyDuino in the end effector of the | |
Dexter robot from HDRobotic.com, but generally useful to turn the Arduino | |
into a tool for generating test signals, and reading back results. Not as | |
powerful as the busPirate, but more flexible in some ways and much easier to | |
operate. Not a replacement for Firmata as this is intended to be used by a | |
human directly via serial monitor or terminal, not from a program. | |
Commands: | |
#? //return binary value of digital pin, and value for analog input if exists | |
//if # and default # (set by comma command, see below) are zero or ommitted | |
//? returns all pins and analog values at once. | |
#I //set pin # to an input. e.g. 3I | |
#P //set pin # to an input with internal pullup. 4P | |
#H //set pin # to a high output. 3H4H | |
#L //set pin # to a low output. 5L4L3L | |
#D //delay # microseconds between each command, with a minimum of about 47uS | |
#, //comma. Saves pin # as the default pin for all commands e.g. 3,HLHLHL | |
#A //set pin # to an analog output with value. Only PWM outputs will respond. | |
// use with comma command e.g. 5,120A will put 120 on pin 5 | |
#S //Set Timer1,2 divide mode. Default 4S=244Hz, 5S is 122Hz on 3,11 61Hz on 9,10 | |
//has no effect on Timer0 pins 5 and 6, they stay at 244Hz | |
_- //low high clocked puts out the set of low and high signals shown on # with | |
// a clock on #, e.g. 5,11-__-_--_ clocks out 10010110 on pin 11, with clock | |
// pulses on pin 5. Clock is currently falling edge only. | |
. //reads data back from # while clocking #, | |
// e.g. 5L 11H 5,11-__-_--_. ......... clocks out 10010110, gets the ack, and | |
// then 8 bits of data and a final ack. | |
( //I2C start with # as SDA and #, as SCL | |
) //I2C stop with # as SDA and #, as SCL. Pins left floating pulled up. | |
// e.g. 5,11(-__-_--_. .........) starts, 10010110, gets ack, data, ack, stop | |
Commands can be strung together on one line; spaces, tabs, carrage returns and line feeds | |
are all ignored. If no n is specified, value previously saved by , is used. | |
Examples: | |
? | |
//returns something like: {"?":["10010000001111",739,625,569,525,493,470]} | |
// where 10010000001111 shows the binary value of each pin, from 0 to 14. Pin 0 is first | |
// 739,625,569,525,493,470 are the values read from each analog channel 0 to 5 | |
1? | |
//returns something like: {"1":[1,459]} where 1 is the binary value of pin 1 and | |
//459 is the analog value of channel 1 | |
6? | |
//returns something like {"6":[0]} which is the value of pin 6 (no analog) | |
4L 6H 5,120A | |
//(nothing returned) Drives pin 4 low, pin 6 high and puts a PWM / Analog value of 120 on pin 5 | |
//this also saves pin 5 as the default pin for all commands from now on | |
240A | |
//(nothing returned) assuming prior command was 5,120A put 240 out pin 5 as new analog value | |
5S 3,100A | |
//(nothing returned) The normal PWM output is 244Hz which is a bit to fast for servoes. | |
//The S command sets the divisor for Timer1 and Timer2. 4S is the default, 5S drops the frequency | |
//of pins 3 and 11 to 122Hz and pins 9 and 10 to 61Hz allowing servos to work just fine. | |
//After 5S, 47A is center with a 1.5mS pulse width, 31A 0.5mS or far CCW, 62A is 2mS; far CW. | |
//So this only allows 62-31 or about 30 steps for 90' or 3' resolution. For many jobs, it's enough. | |
? | |
//assuming 5, has been recieved before, returns just the value of pin 5 and analog 5 | |
0, | |
//(nothing returned) clears saved pin, ? now returns all pins. | |
1000D 5,LHLHLHL | |
//(nothing returned) delay is 1 millisecond between commands. So pin 5 pulse 3 times at ~200Hz | |
//Actually about 1.04mS because of the time it takes to recieve and interpret each command. | |
//The delay command is also useful for making sure all the commands on a line arrive before they are | |
//excecuted. e.g.: | |
10000D 3D 5,LHLHL? | |
//will put out 2 pulses at 50uS per pulse or 10KHz without the 10000D, they are 163uS | |
//The time it takes to interpret a command is about 47uS so 3D makes it 50. For 100uS | |
//53D would work. Take the uS delay you want and subtract 47. | |
//With larger delays, the error is consistant but has relativly less effect. | |
// Note that the CYCLE_DELAY is not used as long as new characters are available. | |
*/ | |
#define ANALOG_PINS 6 | |
#define DIGITAL_PINS 14 | |
//#define BAUD_RATE 57600 | |
//might not work at 115200 | |
#define BAUD_RATE 115200 | |
#define CYCLE_DELAY 100 | |
unsigned long n,p,d; | |
char cmd; | |
/* | |
https://playground.arduino.cc/Code/PwmFrequency | |
Pins 9 and 10 run at 31250Hz from Timer1 which is only used for servo. | |
3 and 11 are on Timer2, 5 and 6 on Timer0. These are also used for delay, millis, etc... | |
So limiting our changes to Timer1 and pins 9 and 10 allows us to still have timing. | |
switch(divisor) { | |
case 1: mode = 0x01; break; //31250Hz | |
case 8: mode = 0x02; break; //3906.25Hz | |
case 64: mode = 0x03; break; //488.28125Hz //default? | |
case 256: mode = 0x04; break; //122.0703125Hz | |
case 1024: mode = 0x05; break;//30.517578125Hz | |
} | |
TCCR1B = TCCR1B & 0b11111000 | mode; | |
https://www.arduino.cc/en/Tutorial/SecretsOfArduinoPWM | |
Says only Timer0 is used for delay and millis... | |
We can try changing 3 and 11 on Timer2 | |
Different divisors, so compensate | |
T2 T1 / Freq | |
0x01 1 1 31250 | |
0x02 2 8 3906.25 | |
0x03 2 32 976.5625 | |
0x04 3 64 488.28125 //default? | |
0x05 3 128 244.140625 | |
0x06 4 256 122.0703125 | |
0x07 5 1024 30.517578125 | |
TCCR2B = TCCR2B & 0b11111000 | mode; | |
if (n>2) n--; //1,2,2,3,4,5,6 | |
if (n>3) n--; //1,2,2,3,3,4,5 | |
formula is f = clock / (510 * mode) where clock=16MHz | |
If you mess with TCCR0B, delay can be compensated as follows | |
0x01: delay(64000) or 64000 millis() ~ 1 second | |
0x02: delay(8000) or 8000 millis() ~ 1 second | |
0x03: delay(1000) or 1000 millis() ~ 1 second //default | |
0x04: delay(250) or 250 millis() ~ 1 second | |
0x05: delay(62) or 62 millis() ~ 1 second | |
(Or 63 if you need to round up. The number is actually 62.5) | |
void setPin9_10PWMFreq(freq) { | |
} | |
*/ | |
void delayus(unsigned long us) { | |
if (us>10000) { //can't delayMicroseconds() more than 16838 | |
delay(us/10000); | |
us=us % 10000; | |
} | |
delayMicroseconds(us); | |
} | |
void setup() { | |
Serial.begin(BAUD_RATE); | |
n=0; //number | |
p=0; //pin number | |
d=2; //delay. Default is 2uS or 250KHz | |
} | |
void loop(){ | |
while (Serial.available() > 0) { //if data has arrived | |
int c = Serial.read(); //get the data | |
if ('0' <= c && c <= '9') { //if it's a digit | |
n = (c-'0') + n*10; //add it to n, shift n up 1 digit | |
continue; //and loop | |
} | |
cmd = char(c); //wasn't a number, must be a command | |
if (' '==cmd || '\t'==cmd) { continue;} //whitespace does nothing | |
if (','==cmd) { p=n; n=0; continue;} //save n to p, clear n, loop | |
if (0==n) {n=p; } //if we don't have a value, use the prevous pin number | |
switch (cmd) { | |
case '?': //get information | |
Serial.print("{"); //optional, just to signal start of data | |
if (0==n) { //if we didn't have a number selecting a pin | |
Serial.print("\"?\":[\""); //optional, just to signal start of data | |
for (int p = 0; p < DIGITAL_PINS; p++) { //get all the pins | |
//n = digitalRead(p) + n<<1; //convert to binary number | |
Serial.print(digitalRead(p));//and also print. | |
} | |
Serial.print("\""); | |
//Serial.print(n); //print the binary value of all pins | |
for (int p = 0; p < ANALOG_PINS; p++) { //also check all the analog | |
Serial.print(","); | |
Serial.print(analogRead(p)); | |
} | |
} | |
else { | |
Serial.print("\""); | |
Serial.print(n); | |
Serial.print("\":["); | |
Serial.print(digitalRead(n)); //just that one pin | |
if (ANALOG_PINS > n) { //if there is an analog channel | |
Serial.print(","); | |
Serial.print(analogRead(p)); //also return it | |
} | |
} | |
Serial.println("]}"); | |
break; | |
case '-': | |
case 'H': //set pin n output high | |
pinMode(n,OUTPUT); | |
digitalWrite(n,HIGH); | |
break; | |
case '_': | |
case 'L': //set pin n output low | |
pinMode(n,OUTPUT); | |
digitalWrite(n,LOW); | |
break; | |
case 'I': //set pin n input | |
pinMode(n,INPUT); | |
break; | |
case 'P': //set pin n input with pullup | |
pinMode(n,INPUT_PULLUP); | |
break; | |
case '.': //clock in data from n via p | |
pinMode(n,INPUT_PULLUP); //make n input with pull now | |
break; | |
case '(': //I2C start, data low while clock high | |
pinMode(n,OUTPUT); | |
digitalWrite(n,HIGH); //data high | |
pinMode(p,OUTPUT); //setup clock (if not already) | |
digitalWrite(p,HIGH); //send clock high | |
delayus(d); //wait | |
digitalWrite(n,LOW); //data low | |
delayus(d); //wait | |
digitalWrite(p,LOW); //send clock low | |
continue; //no further processing | |
break; | |
case ')': //I2C stop, data low while clock high | |
pinMode(n,OUTPUT); //data may be floating high (input from slave) | |
digitalWrite(n,LOW); //so we need to drive it low | |
pinMode(p,OUTPUT); //setup clock (if not already) | |
digitalWrite(p,LOW); //send clock high | |
delayus(d); | |
pinMode(p,INPUT_PULLUP); //clock floats high | |
delayus(d); | |
pinMode(n,INPUT_PULLUP); //data floats high | |
continue; //no further processing | |
break; | |
case 'A': //set pin p to analog output value n | |
pinMode(p,OUTPUT); | |
analogWrite(p,n); | |
break; | |
case 'D': //delay n ms per instruction | |
d=n; | |
break; | |
case 'S': //PWM speed 5 allows servos, 4 is default. | |
TCCR2B = TCCR2B & 0b11111000 | n; // Timer2, pins 3 and 11 | |
//Compensate, | |
if (n>2) n--; //1,2,2,3,4,5,6 | |
if (n>3) n--; //1,2,2,3,3,4,5 | |
TCCR1B = TCCR1B & 0b11111000 | n; // Timer1, pins 9 and 10 | |
break; | |
case '\n': | |
case '\r': | |
n=0; cmd=0; //clear command and value at end of line. | |
continue; //loop now, no delay | |
break; //shouldn't get here | |
default: | |
Serial.print("\""); | |
Serial.print(n); | |
Serial.print(cmd); | |
Serial.println("?\""); | |
} | |
if ('0'>cmd || '_'==cmd) {//was it punctuation? | |
digitalWrite(p,HIGH); //raise the clock | |
pinMode(p,OUTPUT); | |
delayus(d/2); //half delay | |
if ('.'==cmd) {Serial.print(digitalRead(n));} | |
digitalWrite(p,LOW); //drop the clock | |
delayus(d/2); //half delay | |
} | |
else { | |
n=0; //zero out value for next command. | |
delayus(d); //wait a bit for the next cycle. | |
} | |
//p is NOT cleared, so you can keep sending new commands only | |
cmd=0; //done with command. | |
} | |
delayus(CYCLE_DELAY); | |
} |
Sign up for free
to join this conversation on GitHub.
Already have an account?
Sign in to comment
For a much more advanced version with support for Dynamixel servos and Stepper motors, see:
https://github.com/JamesNewton/Arduino_Dynamixel_Controller