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merge into: ise-senior-iot:main
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ise-senior-iot:main
ise-senior-iot:all-toggle-fix
ise-senior-iot:lastest-confrimed-working
ise-senior-iot:test-analog
ise-senior-iot:add-york
ise-senior-iot:CT
ise-senior-iot:working
ise-senior-iot:add-climate-card-y
ise-senior-iot:add-climate-card
ise-senior-iot:light-not-work
ise-senior-iot:only-fanspeed-not-working
ise-senior-iot:remote-var
ise-senior-iot:slider
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pull from: ise-senior-iot:test-analog
Branches Tags
ise-senior-iot:main
ise-senior-iot:all-toggle-fix
ise-senior-iot:lastest-confrimed-working
ise-senior-iot:test-analog
ise-senior-iot:add-york
ise-senior-iot:CT
ise-senior-iot:working
ise-senior-iot:add-climate-card-y
ise-senior-iot:add-climate-card
ise-senior-iot:light-not-work
ise-senior-iot:only-fanspeed-not-working
ise-senior-iot:remote-var
ise-senior-iot:slider
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3 commits
main ... test-analo

Author SHA1 Message Date
Siwat Sirichai
2a244c2a1b Update main.cpp 2024-04-02 10:53:54 +07:00
Siwat Sirichai
a3b59507e0 CT revamp 2024-04-02 10:24:42 +07:00
reaw55
978cf36e1e debug 2024-04-01 22:20:26 +07:00
3 changed files with 54 additions and 44 deletions
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2
platformio.ini
View file

@ -12,6 +12,6 @@
platform = espressif32
board = wt32-eth01
framework = arduino
lib_deps = siwats/ESPMegaPROR3@^2.5.3
lib_deps = siwats/ESPMegaPROR3@^2.5.9
monitor_speed = 115200
build_flags = -DCORE_DEBUG_LEVEL=0

90
src/main.cpp
View file

@ -1,20 +1,28 @@
#include <main.hpp>
/***********************************************
* Begin Configuration *
***********************************************/
// Analog Card & Current Transformer Configuration
#ifdef ANALOG_ENABLE
bool analogCardAvailable = false;
AnalogCard analogCard = AnalogCard();
float voltage = CT_RMS_VOLTAGE;
CurrentTransformerCard ct1 = CurrentTransformerCard(&analogCard, 0, &voltage, &adc2current, 5000);
CurrentTransformerCard ct2 = CurrentTransformerCard(&analogCard, 1, &voltage, &adc2current, 5000);
CurrentTransformerCard ct3 = CurrentTransformerCard(&analogCard, 2, &voltage, &adc2current, 5000);
CurrentTransformerCard ct4 = CurrentTransformerCard(&analogCard, 3, &voltage, &adc2current, 5000);
CurrentTransformerCard ct5 = CurrentTransformerCard(&analogCard, 4, &voltage, &adc2current, 5000);
CurrentTransformerCard ct6 = CurrentTransformerCard(&analogCard, 5, &voltage, &adc2current, 5000);
#define CT_INTERVAL 5000
CurrentTransformerCard ct1 = CurrentTransformerCard(&analogCard, 0, &voltage, &adc2current, CT_INTERVAL);
CurrentTransformerCard ct2 = CurrentTransformerCard(&analogCard, 1, &voltage, &adc2current, CT_INTERVAL);
CurrentTransformerCard ct3 = CurrentTransformerCard(&analogCard, 2, &voltage, &adc2current, CT_INTERVAL);
CurrentTransformerCard ct4 = CurrentTransformerCard(&analogCard, 3, &voltage, &adc2current, CT_INTERVAL);
CurrentTransformerCard ct5 = CurrentTransformerCard(&analogCard, 4, &voltage, &adc2current, CT_INTERVAL);
CurrentTransformerCard ct6 = CurrentTransformerCard(&analogCard, 5, &voltage, &adc2current, CT_INTERVAL);
float adc2current(uint16_t adc_val)
{
float voltage = adc_val * 0.0007-0.1994;
return voltage;
}
#endif
// Remote Variables
RemoteVariable pm25_in = RemoteVariable();
@ -24,12 +32,6 @@ RemoteVariable weather = RemoteVariable();
RemoteVariable pm_switch = RemoteVariable();
RemoteVariable pm_fan_speed = RemoteVariable();
float adc2current(uint16_t adc_val) {
return adc_val * 1.0;
}
#define CT_INTERVAL 5000
// Light Configuration
uint8_t row = 4;
uint8_t column = 2;
@ -93,7 +95,6 @@ void setup()
bool clear_fram = !gpio_get_level(GPIO_NUM_2);
// ------------ End GPIO 2 Factory Reset Check ------------
// ------------ Display Pre Initialization Routine ------------
Serial.begin(115200);
iseDisplayAdapter.begin(ISE_DISPLAY_BAUD_RATE, SERIAL_8N1, ISE_DISPLAY_RX_PIN, ISE_DISPLAY_TX_PIN);
@ -107,21 +108,19 @@ void setup()
sendStopBytes();
// ------------ End Display Pre Initialization Routine ------------
// Give flow of control to OS and scheduler
espmega.begin();
// // ------------ Factory Reset Routine ------------
// Disable factory reset for now
espmega.inputs.loop();
//set debounce time to 200 for pin 0-7
for (uint16_t i = 0; i < 8; i++){
espmega.inputs.setDebounceTime(i,200);
// set debounce time to 200 for pin 0-7
for (uint16_t i = 0; i < 8; i++)
{
espmega.inputs.setDebounceTime(i, 200);
}
// if (clear_fram)
// {
// Serial.print("boot_state.txt=\"Factory Resetting . . .\"");
@ -134,7 +133,6 @@ void setup()
// }
// // ------------ End Factory Reset Routine ------------
// ------------ IoT Module Initialization Routine ------------
Serial.print("boot_state.txt=\"IoT Initializing . . .\"");
sendStopBytes();
@ -167,24 +165,22 @@ void setup()
}
// ------------ End Inputs and Outputs Initialization Routine ------------
espmega.outputs.setState(12, true);
espmega.outputs.setValue(12,4095);
espmega.outputs.setValue(12, 4095);
espmega.installCard(2, &climateCard_daikin);
climateCard_daikin.bindFRAM(&espmega.fram, 5000);
climateCard_daikin.loadStateFromFRAM();
climateCard_daikin.setFRAMAutoSave(true);
espmega.display->bindClimateCard(&climateCard_daikin);
// Current Transformers
// Current Transformers
#ifdef ANALOG_ENABLE
espmega.installCard(4, &analogCard);
espmega.installCard(5, &ct1);
ct1.bindFRAM(&espmega.fram, 6000);
espmega.iot->registerCard(5);
espmega.installCard(6, &ct2);
ct2.bindFRAM(&espmega.fram, 6100);
espmega.iot->registerCard(6);
espmega.installCard(7, &ct3);
ct3.bindFRAM(&espmega.fram, 6200);
espmega.iot->registerCard(7);
@ -197,14 +193,7 @@ void setup()
espmega.installCard(10, &ct6);
ct6.bindFRAM(&espmega.fram, 6500);
espmega.iot->registerCard(10);
// auto binded_display_update_on_pm25_out = std::bind(&display_update,0,std::placeholders::_1);
// auto binded_display_update_on_pm25_in = std::bind(&display_update,1,std::placeholders::_1);
// auto binded_display_update_on_temp_out = std::bind(&display_update,2,std::placeholders::_1);
// auto binded_display_update_on_weather = std::bind(&display_update,3,std::placeholders::_1);
// auto binded_display_update_on_pm_switch = std::bind(&display_update,4,std::placeholders::_1);
// auto binded_display_update_on_pm_fan_speed = std::bind(&display_update,5,std::placeholders::_1);
#endif
// ------------ Climate Cards Initialization Routine ------------
ESP_LOGD("ISE OS", "Setting up climate cards");
@ -220,13 +209,14 @@ void setup()
// York Climate Card
ESP_LOGD("ISE OS", "Installing york climate card");
espmega.installCard(10, &climateCard_york);
espmega.installCard(3, &climateCard_york);
climateCard_york.bindFRAM(&espmega.fram, 5005);
climateCard_york.loadStateFromFRAM();
climateCard_york.setFRAMAutoSave(true);
// ------------ End Climate Cards Initialization Routine ------------
// ------------ Current Transformer Cards Initialization Routine ------------
#ifdef ANALOG_ENABLE
ESP_LOGD("ISE OS", "Installing current transformer cards");
// First try to install the analog card
analogCardAvailable = espmega.installCard(4, &analogCard);
@ -260,10 +250,9 @@ void setup()
{
ESP_LOGE("ISE OS", "Analog card not available, current transformer cards cannot and will not be installed.");
}
ESP_LOGD("ISE OS", "Registering Current Transformer Cards with IoT Module");
#endif
// ------------ End Current Transformer Cards Initialization Routine ------------
// ------------ Remote Variables Initialization Routine ------------
pm25_out.registerCallback(&pm25outupdatedisplay);
pm25_in.registerCallback(&pm25inupdatedisplay);
@ -288,15 +277,13 @@ void setup()
pm_fan_speed.enableSetValue("/pm/set_fan_speed");
// ------------ End Remote Variables Initialization Routine ------------
// ------------ IoT Card Registration Routine ------------
espmega.iot->registerCard(0); // Register the Input Card
espmega.iot->registerCard(1); // Register the Output Card
espmega.iot->registerCard(2); // Register the Climate Card Daikin
espmega.iot->registerCard(10); // Register the Climate Card York
espmega.iot->registerCard(3); // Register the Climate Card York
// ------------ End IoT Card Registration Routine ------------
// ------------ External Display Initialization Routine ------------
auto bindedGetTime = std::bind(&ESPMegaPRO::getTime, &espmega);
iseDisplay.begin(&espmega.inputs, &espmega.outputs, &climateCard_daikin, &climateCard_york, &pm_switch, &pm_fan_speed);
@ -346,6 +333,29 @@ void loop()
iseDisplay.updateDateTimeText(time);
last_time_updated = millis();
}
#ifdef ANALOG_ENABLE
// Send out analog Data every 6 seconds
static uint32_t last_analog_sent = 0;
if (millis() - last_analog_sent > 6000)
{
espmega.iot->publish("/debug/up", "1");
if (analogCardAvailable || CT_FORCE_ENABLE)
{
espmega.iot->publish("/debug/log", "Sending Analog Card Data");
char topic_buffer[50];
char payload_buffer[50];
// Publish ADC Pin 0-7
for (uint8_t i = 0; i < 8; i++)
{
sprintf(topic_buffer, "/debug/analog/%d", i);
sprintf(payload_buffer, "%d", analogCard.analogRead(i));
espmega.iot->publish(topic_buffer, payload_buffer);
}
}
last_analog_sent = millis();
}
#endif
}
void on_pin_change(uint8_t pin, uint8_t value)

4
src/main.hpp
View file

@ -25,9 +25,9 @@ SET_LOOP_TASK_STACK_SIZE(32*1024);
#define AIR_CONDITIONER_YORK_IR_PIN 15
#define AIR_CONDITIONER_RMT_CHANNEL0 RMT_CHANNEL_0
#define AIR_CONDITIONER_RMT_CHANNEL1 RMT_CHANNEL_1
// CT Configuration
#define CT_FORCE_ENABLE false
#define ANALOG_ENABLE
#define CT_FORCE_ENABLE true
#define CT_RMS_VOLTAGE 1.0
#define CT_PIN_LIGHT_PHASE1 0
#define CT_PIN_LIGHT_PHASE2 1