ESPMegaPRO-v3-SDK/ESPMegaPRO-OS-SDK/lib/ESPMegaPRO/CurrentTransformerCard.cpp

#include <CurrentTransformerCard.hpp>

CurrentTransformerCard::CurrentTransformerCard(AnalogCard* analogCard, uint8_t pin, float *voltage, std::function<float(uint16_t)> adcToCurrent, uint32_t conversionInterval)
{
    this->analogCard = analogCard;
    this->pin = pin;
    this->voltage = voltage;
    this->adcToCurrent = adcToCurrent;
}

void CurrentTransformerCard::bindFRAM(FRAM *fram, uint32_t framAddress)
{
    this->fram = fram;
    this->framAddress = framAddress;
}

bool CurrentTransformerCard::begin()
{
    // Is analogCard a nullptr?
    if (this->analogCard == nullptr) {
        return false;
    }
    this->beginConversion();
    return true;
}

void CurrentTransformerCard::loop()
{
    if (this->lastConversionTime == 0) {
        this->lastConversionTime = millis();
    }
    static uint32_t lastConversionLoopTime = 0;
    if (millis() - lastConversionLoopTime > this->conversionInterval) {
        this->beginConversion();
        lastConversionLoopTime = millis();
    }
}

void CurrentTransformerCard::beginConversion()
{
    uint16_t adcValue = this->analogCard->analogRead(this->pin);
    this->current = this->adcToCurrent(adcValue);
    this->setEnergy(this->energy + this->current * *this->voltage * (millis() - this->lastConversionTime) / 3600000); // in Wh
    this->lastConversionTime = millis();
}

void CurrentTransformerCard::setEnergy(float energy)
{
    this->energy = energy;
    if (this->autoSave) {
        this->saveEnergy();
    }
    for (auto const& callback : this->callbacks) {
        callback.second(this->current, this->energy);
    }
}

void CurrentTransformerCard::resetEnergy()
{
    this->setEnergy(0);
}

float CurrentTransformerCard::getCurrent()
{
    return this->current;
}

double CurrentTransformerCard::getEnergy()
{
    return this->energy;
}

uint8_t CurrentTransformerCard::registerCallback(std::function<void(float, double)> callback) {
    this->callbacks[this->handler_count] = callback;
    return this->handler_count++;
}
void CurrentTransformerCard::unregisterCallback(uint8_t handler) {
    this->callbacks.erase(handler);
}

void CurrentTransformerCard::saveEnergy(){
    this->fram->write(this->framAddress, (uint8_t*)&this->energy, sizeof(this->energy));
}
void CurrentTransformerCard::loadEnergy(){
    this->fram->read(this->framAddress, (uint8_t*)&this->energy, sizeof(this->energy));
}

void CurrentTransformerCard::setEnergyAutoSave(bool autoSave){
    this->autoSave = autoSave;
}

float CurrentTransformerCard::getVoltage(){
    return *this->voltage;
}

float CurrentTransformerCard::getPower(){
    return this->current * *this->voltage;
}

uint8_t CurrentTransformerCard::getType() {
    return CARD_TYPE_CT;
}
CT IoT 2024-02-12 09:15:31 +00:00			`#include <CurrentTransformerCard.hpp>`
beta current transformer card 2024-02-10 09:20:36 +00:00
CT IoT 2024-02-12 09:15:31 +00:00			`CurrentTransformerCard::CurrentTransformerCard(AnalogCard* analogCard, uint8_t pin, float *voltage, std::function<float(uint16_t)> adcToCurrent, uint32_t conversionInterval)`
beta current transformer card 2024-02-10 09:20:36 +00:00			`{`
			`this->analogCard = analogCard;`
			`this->pin = pin;`
			`this->voltage = voltage;`
			`this->adcToCurrent = adcToCurrent;`
			`}`

CT IoT 2024-02-12 09:15:31 +00:00			`void CurrentTransformerCard::bindFRAM(FRAM *fram, uint32_t framAddress)`
beta current transformer card 2024-02-10 09:20:36 +00:00			`{`
			`this->fram = fram;`
			`this->framAddress = framAddress;`
			`}`

CT Card now inherit expansion card 2024-02-27 07:38:15 +00:00			`bool CurrentTransformerCard::begin()`
beta current transformer card 2024-02-10 09:20:36 +00:00			`{`
CT Card now inherit expansion card 2024-02-27 07:38:15 +00:00			`// Is analogCard a nullptr?`
			`if (this->analogCard == nullptr) {`
			`return false;`
			`}`
beta current transformer card 2024-02-10 09:20:36 +00:00			`this->beginConversion();`
CT Card now inherit expansion card 2024-02-27 07:38:15 +00:00			`return true;`
beta current transformer card 2024-02-10 09:20:36 +00:00			`}`

CT IoT 2024-02-12 09:15:31 +00:00			`void CurrentTransformerCard::loop()`
beta current transformer card 2024-02-10 09:20:36 +00:00			`{`
			`if (this->lastConversionTime == 0) {`
			`this->lastConversionTime = millis();`
			`}`
			`static uint32_t lastConversionLoopTime = 0;`
			`if (millis() - lastConversionLoopTime > this->conversionInterval) {`
			`this->beginConversion();`
			`lastConversionLoopTime = millis();`
			`}`
			`}`

CT IoT 2024-02-12 09:15:31 +00:00			`void CurrentTransformerCard::beginConversion()`
beta current transformer card 2024-02-10 09:20:36 +00:00			`{`
			`uint16_t adcValue = this->analogCard->analogRead(this->pin);`
			`this->current = this->adcToCurrent(adcValue);`
			`this->setEnergy(this->energy + this->current * this->voltage (millis() - this->lastConversionTime) / 3600000); // in Wh`
			`this->lastConversionTime = millis();`
			`}`

CT IoT 2024-02-12 09:15:31 +00:00			`void CurrentTransformerCard::setEnergy(float energy)`
beta current transformer card 2024-02-10 09:20:36 +00:00			`{`
			`this->energy = energy;`
			`if (this->autoSave) {`
			`this->saveEnergy();`
			`}`
CT IoT 2024-02-12 09:15:31 +00:00			`for (auto const& callback : this->callbacks) {`
			`callback.second(this->current, this->energy);`
			`}`
beta current transformer card 2024-02-10 09:20:36 +00:00			`}`

CT IoT 2024-02-12 09:15:31 +00:00			`void CurrentTransformerCard::resetEnergy()`
beta current transformer card 2024-02-10 09:20:36 +00:00			`{`
			`this->setEnergy(0);`
			`}`

CT IoT 2024-02-12 09:15:31 +00:00			`float CurrentTransformerCard::getCurrent()`
beta current transformer card 2024-02-10 09:20:36 +00:00			`{`
			`return this->current;`
			`}`

CT IoT 2024-02-12 09:15:31 +00:00			`double CurrentTransformerCard::getEnergy()`
beta current transformer card 2024-02-10 09:20:36 +00:00			`{`
			`return this->energy;`
			`}`

CT IoT 2024-02-12 09:15:31 +00:00			`uint8_t CurrentTransformerCard::registerCallback(std::function<void(float, double)> callback) {`
beta current transformer card 2024-02-10 09:20:36 +00:00			`this->callbacks[this->handler_count] = callback;`
			`return this->handler_count++;`
			`}`
CT IoT 2024-02-12 09:15:31 +00:00			`void CurrentTransformerCard::unregisterCallback(uint8_t handler) {`
beta current transformer card 2024-02-10 09:20:36 +00:00			`this->callbacks.erase(handler);`
			`}`

CT IoT 2024-02-12 09:15:31 +00:00			`void CurrentTransformerCard::saveEnergy(){`
change energy length 2024-02-10 09:36:59 +00:00			`this->fram->write(this->framAddress, (uint8_t*)&this->energy, sizeof(this->energy));`
beta current transformer card 2024-02-10 09:20:36 +00:00			`}`
CT IoT 2024-02-12 09:15:31 +00:00			`void CurrentTransformerCard::loadEnergy(){`
change energy length 2024-02-10 09:36:59 +00:00			`this->fram->read(this->framAddress, (uint8_t*)&this->energy, sizeof(this->energy));`
beta current transformer card 2024-02-10 09:20:36 +00:00			`}`

CT IoT 2024-02-12 09:15:31 +00:00			`void CurrentTransformerCard::setEnergyAutoSave(bool autoSave){`
beta current transformer card 2024-02-10 09:20:36 +00:00			`this->autoSave = autoSave;`
			`}`

CT IoT 2024-02-12 09:15:31 +00:00			`float CurrentTransformerCard::getVoltage(){`
beta current transformer card 2024-02-10 09:20:36 +00:00			`return *this->voltage;`
			`}`

CT IoT 2024-02-12 09:15:31 +00:00			`float CurrentTransformerCard::getPower(){`
beta current transformer card 2024-02-10 09:20:36 +00:00			`return this->current * *this->voltage;`
integrate CT with ESPMegaIoT 2024-02-12 09:20:16 +00:00			`}`

			`uint8_t CurrentTransformerCard::getType() {`
			`return CARD_TYPE_CT;`
beta current transformer card 2024-02-10 09:20:36 +00:00			`}`