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first success controlling the driver board with esp32

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interfisch 2023-01-22 22:47:03 +01:00
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.pio

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# Continuous Integration (CI) is the practice, in software
# engineering, of merging all developer working copies with a shared mainline
# several times a day < https://docs.platformio.org/page/ci/index.html >
#
# Documentation:
#
# * Travis CI Embedded Builds with PlatformIO
# < https://docs.travis-ci.com/user/integration/platformio/ >
#
# * PlatformIO integration with Travis CI
# < https://docs.platformio.org/page/ci/travis.html >
#
# * User Guide for `platformio ci` command
# < https://docs.platformio.org/page/userguide/cmd_ci.html >
#
#
# Please choose one of the following templates (proposed below) and uncomment
# it (remove "# " before each line) or use own configuration according to the
# Travis CI documentation (see above).
#
#
# Template #1: General project. Test it using existing `platformio.ini`.
#
# language: python
# python:
# - "2.7"
#
# sudo: false
# cache:
# directories:
# - "~/.platformio"
#
# install:
# - pip install -U platformio
# - platformio update
#
# script:
# - platformio run
#
# Template #2: The project is intended to be used as a library with examples.
#
# language: python
# python:
# - "2.7"
#
# sudo: false
# cache:
# directories:
# - "~/.platformio"
#
# env:
# - PLATFORMIO_CI_SRC=path/to/test/file.c
# - PLATFORMIO_CI_SRC=examples/file.ino
# - PLATFORMIO_CI_SRC=path/to/test/directory
#
# install:
# - pip install -U platformio
# - platformio update
#
# script:
# - platformio ci --lib="." --board=ID_1 --board=ID_2 --board=ID_N

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This directory is intended for project header files.
A header file is a file containing C declarations and macro definitions
to be shared between several project source files. You request the use of a
header file in your project source file (C, C++, etc) located in `src` folder
by including it, with the C preprocessing directive `#include'.
```src/main.c
#include "header.h"
int main (void)
{
...
}
```
Including a header file produces the same results as copying the header file
into each source file that needs it. Such copying would be time-consuming
and error-prone. With a header file, the related declarations appear
in only one place. If they need to be changed, they can be changed in one
place, and programs that include the header file will automatically use the
new version when next recompiled. The header file eliminates the labor of
finding and changing all the copies as well as the risk that a failure to
find one copy will result in inconsistencies within a program.
In C, the usual convention is to give header files names that end with `.h'.
It is most portable to use only letters, digits, dashes, and underscores in
header file names, and at most one dot.
Read more about using header files in official GCC documentation:
* Include Syntax
* Include Operation
* Once-Only Headers
* Computed Includes
https://gcc.gnu.org/onlinedocs/cpp/Header-Files.html

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This directory is intended for project specific (private) libraries.
PlatformIO will compile them to static libraries and link into executable file.
The source code of each library should be placed in a an own separate directory
("lib/your_library_name/[here are source files]").
For example, see a structure of the following two libraries `Foo` and `Bar`:
|--lib
| |
| |--Bar
| | |--docs
| | |--examples
| | |--src
| | |- Bar.c
| | |- Bar.h
| | |- library.json (optional, custom build options, etc) https://docs.platformio.org/page/librarymanager/config.html
| |
| |--Foo
| | |- Foo.c
| | |- Foo.h
| |
| |- README --> THIS FILE
|
|- platformio.ini
|--src
|- main.c
and a contents of `src/main.c`:
```
#include <Foo.h>
#include <Bar.h>
int main (void)
{
...
}
```
PlatformIO Library Dependency Finder will find automatically dependent
libraries scanning project source files.
More information about PlatformIO Library Dependency Finder
- https://docs.platformio.org/page/librarymanager/ldf.html

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; PlatformIO Project Configuration File
;
; Build options: build flags, source filter
; Upload options: custom upload port, speed and extra flags
; Library options: dependencies, extra library storages
; Advanced options: extra scripting
;
; Please visit documentation for the other options and examples
; https://docs.platformio.org/page/projectconf.html
[env:esp32doit-devkit-v1]
platform = espressif32
board = esp32doit-devkit-v1
framework = arduino
monitor_speed = 115200

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#include <Arduino.h>
/*
D7 - Ser (data)
D5 - clock
D1 - _OE
D2 - latch
D3 - _clear
*/
//Pins connected to Shift registers on own controller board
#define PIN_DATA 13
#define PIN_CLK 14
#define PIN_OE 27 //active low
#define PIN_LATCH 26
//Pins connected to stuff on annax driver board
#define PIN_DATA_DRVBRD 33
#define PIN_CLK_DRVBRD 32
//#define PIN_CLEAR 25 //active low
#define PIN_DRIVE 33 //enables 12v to panels
#define NUMPANELS 1
//void sr_clear();
void shiftOutSlow(uint8_t dataPin, uint8_t clockPin, uint8_t bitOrder, uint8_t val);
unsigned long loopmillis=0;
unsigned long last_update=0;
#define UPDATE_INTERVAL 5000
void setup() {
pinMode(PIN_DATA, OUTPUT);
pinMode(PIN_CLK, OUTPUT);
pinMode(PIN_OE, OUTPUT);
pinMode(PIN_LATCH, OUTPUT);
//pinMode(PIN_CLEAR, OUTPUT);
pinMode(PIN_DRIVE, OUTPUT);
pinMode(PIN_DATA_DRVBRD, OUTPUT);
pinMode(PIN_CLK_DRVBRD, OUTPUT);
digitalWrite(PIN_OE, HIGH); //Active Low
digitalWrite(PIN_LATCH, LOW);
//sr_clear();
digitalWrite(PIN_DRIVE, LOW);
Serial.begin(115200);
}
int countz=0;
uint8_t rowA=0; //first shift register of own controller
uint8_t rowB=0; //second shift register of own controller
uint8_t colA=0;
uint8_t colB=0;
uint8_t colC=0;
uint8_t colD=0;
uint8_t colE=0;
uint8_t colF=0;
uint8_t colG=0;
void loop() {
loopmillis = millis();
digitalWrite(PIN_OE, LOW); //Active Low
if (loopmillis > last_update + UPDATE_INTERVAL)
{
Serial.print("count=");
Serial.print(countz);
/*
Serial.println("High");
digitalWrite(PIN_DATA, HIGH);
delay(1000);
Serial.println("Low");
digitalWrite(PIN_DATA, LOW);
delay(1000);
*/
/*
rowA=pow(2, (countz/2)%8);
if (countz%2==0) {
colA=0;
}else{
colA=64; //64=IL0
}
*/
if (countz%2==0) {
colC=2+8+32+128;
colB=0;
}else{
//colA=64; //64=IL0
colC=0; //IH
colB=32+128;
}
//setting colX to 128, 32, 8,2 (or a combination of), then appling 12V to driver and GND to Clear, clears these colums
// this applies +12v to selected columns
//setting colX to 64,16,4,1 (or a combination of), then setting row shift registers to some setting sets the selected dots
// this applies GND to selected columns
//reset pin on annax board input should be used (not pulled to gnd for a short time) after dots have been flipped (to disable potentially activated transistors)
Serial.print(", rowA=");
Serial.print(rowA);
Serial.print(", colA=");
Serial.print(colA);
Serial.println();
//reset pin on ribbon cable high (12Vpullup/open), then low (via Transistor)
//Select Columns via Shift registers
shiftOutSlow(PIN_DATA_DRVBRD, PIN_CLK_DRVBRD, LSBFIRST, colG);
shiftOutSlow(PIN_DATA_DRVBRD, PIN_CLK_DRVBRD, LSBFIRST, colF);
shiftOutSlow(PIN_DATA_DRVBRD, PIN_CLK_DRVBRD, LSBFIRST, colE);
shiftOutSlow(PIN_DATA_DRVBRD, PIN_CLK_DRVBRD, LSBFIRST, colD);
shiftOutSlow(PIN_DATA_DRVBRD, PIN_CLK_DRVBRD, LSBFIRST, colC);
shiftOutSlow(PIN_DATA_DRVBRD, PIN_CLK_DRVBRD, LSBFIRST, colB);
shiftOutSlow(PIN_DATA_DRVBRD, PIN_CLK_DRVBRD, LSBFIRST, colA); //colA=128(bit 8) sets first output of shift registers high (lsbfirst)
//select Rows via shift registers on own controller board
shiftOutSlow(PIN_DATA, PIN_CLK, LSBFIRST, rowB);
shiftOutSlow(PIN_DATA, PIN_CLK, LSBFIRST, rowA); //LSBFIRST= LSB is QH, bit 8 is QA.
digitalWrite(PIN_LATCH, HIGH);
delayMicroseconds(100);
digitalWrite(PIN_LATCH, LOW);
last_update=loopmillis;
countz++;
}
}
/*
void sr_clear() {
digitalWrite(PIN_CLEAR, LOW);
delayMicroseconds(1000);
digitalWrite(PIN_CLEAR, HIGH);
delayMicroseconds(1000);
}*/
void shiftOutSlow(uint8_t dataPin, uint8_t clockPin, uint8_t bitOrder, uint8_t val)
{
uint8_t i;
for (i = 0; i < 8; i++) {
if (bitOrder == LSBFIRST)
digitalWrite(dataPin, !!(val & (1 << i)));
else
digitalWrite(dataPin, !!(val & (1 << (7 - i))));
delayMicroseconds(100);
digitalWrite(clockPin, HIGH);
delayMicroseconds(100);
digitalWrite(clockPin, LOW);
delayMicroseconds(100);
}
}

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This directory is intended for PIO Unit Testing and project tests.
Unit Testing is a software testing method by which individual units of
source code, sets of one or more MCU program modules together with associated
control data, usage procedures, and operating procedures, are tested to
determine whether they are fit for use. Unit testing finds problems early
in the development cycle.
More information about PIO Unit Testing:
- https://docs.platformio.org/page/plus/unit-testing.html