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setupwizardmotor.cpp
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setupwizardmotor.cpp
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/*
Copyright 2016 - 2017 Benjamin Vedder benjamin@vedder.se
This file is part of VESC Tool.
VESC Tool is free software: you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation, either version 3 of the License, or
(at your option) any later version.
VESC Tool is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
#include "setupwizardmotor.h"
#include <QVBoxLayout>
#include <QMessageBox>
#include "utility.h"
SetupWizardMotor::SetupWizardMotor(VescInterface *vesc, QWidget *parent)
: QWizard(parent)
{
setPage(Page_Intro, new IntroPage(vesc));
setPage(Page_Connection, new ConnectionPage(vesc));
setPage(Page_Firmware, new FirmwarePage(vesc));
setPage(Page_MotorType, new MotorTypePage(vesc));
setPage(Page_Currents, new CurrentsPage(vesc));
setPage(Page_Voltages, new VoltagesPage(vesc));
setPage(Page_Sensors, new SensorsPage(vesc));
setPage(Page_Bldc, new BldcPage(vesc));
setPage(Page_Foc, new FocPage(vesc));
setPage(Page_FocEncoder, new FocEncoderPage(vesc));
setPage(Page_FocHall, new FocHallPage(vesc));
setPage(Page_Conclusion, new ConclusionPage(vesc));
setStartId(Page_Intro);
setWizardStyle(ModernStyle);
QPixmap icon_logo = QIcon(":/res/icon.svg").pixmap(QSize(this->devicePixelRatioF() * 48, this->devicePixelRatioF() * 48));
icon_logo.setDevicePixelRatio(this->devicePixelRatioF());
setPixmap(QWizard::LogoPixmap, icon_logo);
resize(800, 450);
setWindowTitle(tr("Motor Setup Wizard"));
mSideLabel = new AspectImgLabel(Qt::Vertical);
mSideLabel->setPixmap(QPixmap("://res/logo_vertical.png"));
mSideLabel->setScaledContents(true);
setSideWidget(mSideLabel);
connect(this, SIGNAL(currentIdChanged(int)),
this, SLOT(idChanged(int)));
}
void SetupWizardMotor::idChanged(int id)
{
if (id == Page_Intro || id == Page_Conclusion) {
setSideWidget(mSideLabel);
mSideLabel->setVisible(true);
} else {
setSideWidget(0);
}
}
IntroPage::IntroPage(VescInterface *vesc, QWidget *parent)
: QWizardPage(parent)
{
mVesc = vesc;
setTitle(tr("VESC® Motor Setup Wizard"));
mLabel = new QLabel(tr("This wizard will guide you through the motor setup of the VESC® "
"step by step. Notice that only the required options for "
"getting the motor running are shown. For tweaking the advanced "
"settings, the configuration pages have to be entered after "
"finishing this wizard.<br><br>"
""
"To get more information about the parameters and tools in the "
"wizard, click on the questionmark next to them.<br><br>"
""
"After finishing the motor setup, you can use the input setup wizard "
"to configure the apps for input to the VESC."));
mLabel->setWordWrap(true);
QVBoxLayout *layout = new QVBoxLayout;
layout->addWidget(mLabel);
setLayout(layout);
}
int IntroPage::nextId() const
{
if (mVesc->isPortConnected()) {
if (mVesc->commands()->isLimitedMode()) {
return SetupWizardMotor::Page_Firmware;
} else {
return SetupWizardMotor::Page_MotorType;
}
} else {
return SetupWizardMotor::Page_Connection;
}
}
bool IntroPage::validatePage()
{
bool res = false;
if (!mVesc->isPortConnected()) {
QMessageBox::StandardButton reply;
reply = QMessageBox::information(this,
tr("Connection"),
tr("You are not connected to the VESC. Would you like to try to automatically connect?<br><br>"
""
"<i>Notice that the USB cable must be plugged in and that the VESC "
"must be powered for the connection to work.</i>"),
QMessageBox::Yes | QMessageBox::No, QMessageBox::Yes);
if (reply == QMessageBox::Yes) {
Utility::autoconnectBlockingWithProgress(mVesc, this);
res = true;
}
}
return !res;
}
ConnectionPage::ConnectionPage(VescInterface *vesc, QWidget *parent)
: QWizardPage(parent)
{
mVesc = vesc;
setTitle(tr("Connect VESC"));
setSubTitle(tr("The VESC has to be connected in order to use this "
"wizard. Please connect using one of the available "
"interfaces."));
mPageConnection = new PageConnection;
mPageConnection->setVesc(mVesc);
connect(mVesc, SIGNAL(fwRxChanged(bool,bool)),
this, SIGNAL(completeChanged()));
QVBoxLayout *layout = new QVBoxLayout;
layout->addWidget(mPageConnection);
setLayout(layout);
}
int ConnectionPage::nextId() const
{
if (mVesc->commands()->isLimitedMode()) {
return SetupWizardMotor::Page_Firmware;
} else {
return SetupWizardMotor::Page_MotorType;
}
}
bool ConnectionPage::isComplete() const
{
return mVesc->fwRx();
}
FirmwarePage::FirmwarePage(VescInterface *vesc, QWidget *parent)
: QWizardPage(parent)
{
mVesc = vesc;
setTitle(tr("Update Firmware"));
setSubTitle(tr("You need to update the firmware on the VESC in order "
"to use it with this version of VESC Tool."));
mPageFirmware = new PageFirmware;
mPageFirmware->setVesc(mVesc);
connect(mVesc, SIGNAL(portConnectedChanged()),
this, SIGNAL(completeChanged()));
QVBoxLayout *layout = new QVBoxLayout;
layout->addWidget(mPageFirmware);
setLayout(layout);
}
int FirmwarePage::nextId() const
{
// Going to a previous page here does not seem to work,
// so this is done in the validatePage function.
return SetupWizardMotor::Page_MotorType;
}
bool FirmwarePage::isComplete() const
{
return !mVesc->isPortConnected();
}
bool FirmwarePage::validatePage()
{
wizard()->back();
return false;
}
void FirmwarePage::initializePage()
{
mVesc->commands()->getFwVersion();
}
MotorTypePage::MotorTypePage(VescInterface *vesc, QWidget *parent)
: QWizardPage(parent)
{
mVesc = vesc;
mLoadDefaultAsked = false;
setTitle(tr("Choose Motor Type"));
setSubTitle(tr("This choise will help the wizard show the relevant "
"configuration pages."));
mParamTab = new ParamTable;
mParamTab->addParamRow(mVesc->mcConfig(), "motor_type");
QVBoxLayout *layout = new QVBoxLayout;
layout->addWidget(mParamTab);
setLayout(layout);
}
int MotorTypePage::nextId() const
{
return SetupWizardMotor::Page_Currents;
}
bool MotorTypePage::validatePage()
{
mVesc->commands()->setMcconf();
return true;
}
void MotorTypePage::showEvent(QShowEvent *event)
{
if (!mLoadDefaultAsked) {
mLoadDefaultAsked = true;
QMessageBox::StandardButton reply;
reply = QMessageBox::information(this,
tr("Load Default Configuration"),
tr("Would you like to load the default configuration from "
"the connected VESC before proceeding with the setup?"),
QMessageBox::Yes | QMessageBox::No, QMessageBox::Yes);
if (reply == QMessageBox::Yes) {
mVesc->commands()->getMcconfDefault();
}
}
QWidget::showEvent(event);
}
CurrentsPage::CurrentsPage(VescInterface *vesc, QWidget *parent)
: QWizardPage(parent)
{
mVesc = vesc;
mWarningShown = false;
setTitle(tr("Set Current Limits"));
setSubTitle(tr("It is important to set correct current limits, both for correct "
"parameter detection and for safe operation."));
mParamTab = new ParamTable;
mParamTab->addRowSeparator(tr("Motor"));
mParamTab->addParamRow(mVesc->mcConfig(), "l_current_max");
mParamTab->addParamRow(mVesc->mcConfig(), "l_current_min");
mParamTab->addRowSeparator(tr("Battery"));
mParamTab->addParamRow(mVesc->mcConfig(), "l_in_current_max");
mParamTab->addParamRow(mVesc->mcConfig(), "l_in_current_min");
mConfigureBatteryCutoff = true;
mLabel = new QLabel(tr("<font color=\"red\">WARNING: </font>"
"Using too high current settings can damage the motor, the VESC "
"and/or the battery. Make sure to read the specifications of your "
"system if you are not sure about how to configure the current limits."));
mLabel->setWordWrap(true);
QVBoxLayout *layout = new QVBoxLayout;
layout->addWidget(mParamTab);
layout->addWidget(mLabel);
setLayout(layout);
}
int CurrentsPage::nextId() const
{
if (mConfigureBatteryCutoff) {
return SetupWizardMotor::Page_Voltages;
} else {
return SetupWizardMotor::Page_Sensors;
}
}
bool CurrentsPage::validatePage()
{
mVesc->commands()->setMcconf();
mConfigureBatteryCutoff = QMessageBox::information(this,
tr("Configure Battery Cutoff"),
tr("Would you like to configure a soft battery cutoff voltage "
"to prevent the battery from over-discharging?"
"<br><br>"
"If you are using a power supply instead of a battery you can "
"skip this step."),
QMessageBox::Yes | QMessageBox::No, QMessageBox::Yes)
== QMessageBox::Yes;
return true;
}
void CurrentsPage::showEvent(QShowEvent *event)
{
if (!mWarningShown) {
mWarningShown = true;
QMessageBox::warning(this,
tr("Important Notice"),
tr("You are about to configure the current limits. Keep in mind that "
"using too high current settings can damage the motor, the VESC "
"and/or the battery. Make sure to read the specifications of your "
"system if you are not sure about how to configure the current limits."));
}
QWidget::showEvent(event);
}
VoltagesPage::VoltagesPage(VescInterface *vesc, QWidget *parent)
: QWizardPage(parent)
{
mVesc = vesc;
setTitle(tr("Set Voltage Limits"));
setSubTitle(tr("Set soft voltage limits to prevent overdischarging your battery."));
mParamTab = new ParamTable;
mParamTab->addParamRow(mVesc->mcConfig(), "l_battery_cut_start");
mParamTab->addParamRow(mVesc->mcConfig(), "l_battery_cut_end");
mCalc = new BatteryCalculator(this);
mCalc->setVesc(vesc);
QVBoxLayout *layout = new QVBoxLayout;
layout->addWidget(mParamTab);
layout->addWidget(mCalc);
setLayout(layout);
}
int VoltagesPage::nextId() const
{
return SetupWizardMotor::Page_Sensors;
}
bool VoltagesPage::validatePage()
{
mVesc->commands()->setMcconf();
return true;
}
SensorsPage::SensorsPage(VescInterface *vesc, QWidget *parent)
: QWizardPage(parent)
{
mVesc = vesc;
setTitle(tr("Choose sensor mode"));
setSubTitle(tr("Select what type of sensor (if any) your motor has."));
mSensorMode = new QComboBox;
mSensorMode->addItem("No Sensor (Sensorless)", SetupWizardMotor::Sensor_Sensorless);
mParamTab = new ParamTable;
mTypeBefore = -1;
mParamTab->addParamRow(mVesc->mcConfig(), "m_encoder_counts");
registerField("SensorMode", mSensorMode, "currentData");
QVBoxLayout *layout = new QVBoxLayout;
layout->addWidget(mSensorMode);
layout->addWidget(mParamTab);
setLayout(layout);
connect(mSensorMode, SIGNAL(currentIndexChanged(int)),
this, SLOT(indexChanged(int)));
indexChanged(0);
}
int SensorsPage::nextId() const
{
int retval = SetupWizardMotor::Page_Conclusion;
switch (mVesc->mcConfig()->getParamEnum("motor_type")) {
case 0: // BLDC
retval = SetupWizardMotor::Page_Bldc;
break;
case 1: // DC
retval = SetupWizardMotor::Page_Conclusion;
break;
case 2: // FOC
retval = SetupWizardMotor::Page_Foc;
break;
default:
break;
}
return retval;
}
bool SensorsPage::validatePage()
{
switch (mSensorMode->currentData().toInt()) {
case SetupWizardMotor::Sensor_Sensorless:
mVesc->mcConfig()->updateParamEnum("m_sensor_port_mode", 0);
mVesc->mcConfig()->updateParamEnum("sensor_mode", 0);
mVesc->mcConfig()->updateParamEnum("foc_sensor_mode", 0);
break;
case SetupWizardMotor::Sensor_Hall:
mVesc->mcConfig()->updateParamEnum("m_sensor_port_mode", 0);
mVesc->mcConfig()->updateParamEnum("sensor_mode", 2);
mVesc->mcConfig()->updateParamEnum("foc_sensor_mode", 2);
break;
case SetupWizardMotor::Sensor_EncoderAbi:
mVesc->mcConfig()->updateParamEnum("m_sensor_port_mode", 1);
mVesc->mcConfig()->updateParamEnum("sensor_mode", 0);
mVesc->mcConfig()->updateParamEnum("foc_sensor_mode", 1);
break;
case SetupWizardMotor::Sensor_EncoderAs:
mVesc->mcConfig()->updateParamEnum("m_sensor_port_mode", 2);
mVesc->mcConfig()->updateParamEnum("sensor_mode", 0);
mVesc->mcConfig()->updateParamEnum("foc_sensor_mode", 1);
break;
case SetupWizardMotor::Sensor_Resolver_AD2S1205:
mVesc->mcConfig()->updateParamEnum("m_sensor_port_mode", 3);
mVesc->mcConfig()->updateParamEnum("sensor_mode", 0);
mVesc->mcConfig()->updateParamEnum("foc_sensor_mode", 1);
break;
case SetupWizardMotor::Sensor_Encoder_SinCos:
mVesc->mcConfig()->updateParamEnum("m_sensor_port_mode", 4);
mVesc->mcConfig()->updateParamEnum("sensor_mode", 0);
mVesc->mcConfig()->updateParamEnum("foc_sensor_mode", 1);
break;
case SetupWizardMotor::Sensor_EncoderAs5x47u:
mVesc->mcConfig()->updateParamEnum("m_sensor_port_mode", 8);
mVesc->mcConfig()->updateParamEnum("sensor_mode", 0);
mVesc->mcConfig()->updateParamEnum("foc_sensor_mode", 1);
break;
default:
break;
}
mVesc->commands()->setMcconf();
return true;
}
void SensorsPage::initializePage()
{
int typeNow = mVesc->mcConfig()->getParamEnum("motor_type");
if (mTypeBefore != typeNow) {
while (mSensorMode->count() > 1) {
mSensorMode->removeItem(1);
}
switch (typeNow) {
case 0: // BLDC
mSensorMode->addItem("Hall Sensors", SetupWizardMotor::Sensor_Hall);
break;
case 1: // DC
mSensorMode->addItem("ABI Encoder", SetupWizardMotor::Sensor_EncoderAbi);
mSensorMode->addItem("AS5047 Encoder", SetupWizardMotor::Sensor_EncoderAs);
mSensorMode->addItem("AS5X47U Encoder", SetupWizardMotor::Sensor_EncoderAs5x47u);
break;
case 2: // FOC
mSensorMode->addItem("Hall Sensors", SetupWizardMotor::Sensor_Hall);
mSensorMode->addItem("ABI Encoder", SetupWizardMotor::Sensor_EncoderAbi);
mSensorMode->addItem("AS5047 Encoder", SetupWizardMotor::Sensor_EncoderAs);
mSensorMode->addItem("AS5X47U Encoder", SetupWizardMotor::Sensor_EncoderAs5x47u);
mSensorMode->addItem("Resolver", SetupWizardMotor::Sensor_Resolver_AD2S1205);
mSensorMode->addItem("Sin/Cos Encoder", SetupWizardMotor::Sensor_Encoder_SinCos);
mSensorMode->addItem("BiSS Encoder", SetupWizardMotor::Sensor_EncoderBiSS);
break;
default:
break;
}
}
mTypeBefore = typeNow;
}
void SensorsPage::cleanupPage()
{
// Do nothing here, but override so that fields are not reset.
}
void SensorsPage::indexChanged(int ind)
{
(void)ind;
if (mSensorMode->currentData() == SetupWizardMotor::Sensor_EncoderAbi) {
mParamTab->setVisible(true);
} else {
mParamTab->setVisible(false);
}
}
BldcPage::BldcPage(VescInterface *vesc, QWidget *parent)
: QWizardPage(parent)
{
mVesc = vesc;
setTitle(tr("BLDC Settings"));
setSubTitle(tr("Run detection and get the required parameters for BLDC commutation."));
mParamTab = new ParamTable;
mDetect = new DetectBldc(this);
mDetect->setVesc(vesc);
QVBoxLayout *layout = new QVBoxLayout;
layout->addWidget(mParamTab);
layout->addWidget(mDetect);
layout->setStretch(0, 1);
setLayout(layout);
}
int BldcPage::nextId() const
{
return SetupWizardMotor::Page_Conclusion;
}
bool BldcPage::validatePage()
{
mVesc->commands()->setMcconf();
return true;
}
void BldcPage::initializePage()
{
mParamTab->setRowCount(0);
mParamTab->addParamRow(mVesc->mcConfig(), "sl_cycle_int_limit");
mParamTab->addParamRow(mVesc->mcConfig(), "sl_bemf_coupling_k");
mParamTab->addRowSeparator(tr("Hall Sensor Settings"));
if (field("SensorMode").toInt() == SetupWizardMotor::Sensor_Hall) {
mParamTab->addParamRow(mVesc->mcConfig(), "hall_sl_erpm");
for (int i = 0;i < 8;i++) {
mParamTab->addParamRow(mVesc->mcConfig(), QString("hall_table_%1").arg(i));
}
}
}
FocPage::FocPage(VescInterface *vesc, QWidget *parent)
: QWizardPage(parent)
{
mVesc = vesc;
setTitle(tr("FOC Settings"));
setSubTitle(tr("Run detection and get the required parameters for FOC."));
mParamTab = new ParamTable;
mDetect = new DetectFoc(this);
mDetect->setVesc(vesc);
mParamTab->addParamRow(mVesc->mcConfig(), "foc_motor_r");
mParamTab->addParamRow(mVesc->mcConfig(), "foc_motor_l");
mParamTab->addParamRow(mVesc->mcConfig(), "foc_motor_flux_linkage");
mParamTab->addParamRow(mVesc->mcConfig(), "foc_current_kp");
mParamTab->addParamRow(mVesc->mcConfig(), "foc_current_ki");
mParamTab->addParamRow(mVesc->mcConfig(), "foc_observer_gain");
QVBoxLayout *layout = new QVBoxLayout;
layout->addWidget(mParamTab);
layout->addWidget(mDetect);
setLayout(layout);
}
int FocPage::nextId() const
{
int retval = SetupWizardMotor::Page_Conclusion;
switch (field("SensorMode").toInt()) {
case SetupWizardMotor::Sensor_Sensorless:
retval = SetupWizardMotor::Page_Conclusion;
break;
case SetupWizardMotor::Sensor_Hall:
retval = SetupWizardMotor::Page_FocHall;
break;
case SetupWizardMotor::Sensor_EncoderAbi:
case SetupWizardMotor::Sensor_EncoderBiSS:
case SetupWizardMotor::Sensor_Resolver_AD2S1205:
case SetupWizardMotor::Sensor_Encoder_SinCos:
case SetupWizardMotor::Sensor_EncoderAs:
case SetupWizardMotor::Sensor_EncoderAs5x47u:
retval = SetupWizardMotor::Page_FocEncoder;
break;
default:
break;
}
return retval;
}
bool FocPage::validatePage()
{
bool res = false;
if (mDetect->lastOkValuesApplied()) {
res = true;
} else {
QString msg;
if (mDetect->allValuesOk()) {
msg = tr("You have not applied the detection result. Would you like to "
"continue with the wizard without using the detected values?"
"<br><br>"
"<font color=\"red\">WARNING: </font>"
"Using the wrong motor parameters will most likely damage your "
"VESC and/or motor. Answering <b>No</b> and applying the dection result "
"is recommended.");
} else {
msg = tr("You have not finished the detection. Would you like to continue "
"with the wizard anyway?"
"<br><br>"
"<font color=\"red\">WARNING: </font>"
"Using the wrong motor parameters will most likely damage your "
"VESC and/or motor. Answering <b>No</b> and finishing the detection "
"is recommended.");
}
QMessageBox::StandardButton reply;
reply = QMessageBox::warning(this,
tr("Continue Without Detection Result?"),
msg,
QMessageBox::Yes | QMessageBox::No, QMessageBox::No);
res = reply == QMessageBox::Yes;
}
if (res) {
mVesc->commands()->setMcconf();
}
return res;
}
FocEncoderPage::FocEncoderPage(VescInterface *vesc, QWidget *parent)
: QWizardPage(parent)
{
mVesc = vesc;
setTitle(tr("FOC Encoder Settings"));
setSubTitle(tr("Detect and set the required settings for running FOC with an encoder."));
mParamTab = new ParamTable;
mDetect = new DetectFocEncoder(this);
mDetect->setVesc(vesc);
mParamTab->addParamRow(mVesc->mcConfig(), "foc_sl_erpm");
mParamTab->addParamRow(mVesc->mcConfig(), "foc_encoder_offset");
mParamTab->addParamRow(mVesc->mcConfig(), "foc_encoder_ratio");
mParamTab->addParamRow(mVesc->mcConfig(), "foc_encoder_inverted");
QVBoxLayout *layout = new QVBoxLayout;
layout->addWidget(mParamTab);
layout->addWidget(mDetect);
setLayout(layout);
}
int FocEncoderPage::nextId() const
{
return SetupWizardMotor::Page_Conclusion;
}
bool FocEncoderPage::validatePage()
{
mVesc->commands()->setMcconf();
return true;
}
FocHallPage::FocHallPage(VescInterface *vesc, QWidget *parent)
: QWizardPage(parent)
{
mVesc = vesc;
setTitle(tr("FOC Hall Sensor Settings"));
setSubTitle(tr("Detect and set the required settings for running FOC with hall sensors."));
mParamTab = new ParamTable;
mDetect = new DetectFocHall(this);
mDetect->setVesc(vesc);
mParamTab->addParamRow(mVesc->mcConfig(), "foc_sl_erpm");
mParamTab->addParamRow(mVesc->mcConfig(), "foc_hall_table__0");
mParamTab->addParamRow(mVesc->mcConfig(), "foc_hall_table__1");
mParamTab->addParamRow(mVesc->mcConfig(), "foc_hall_table__2");
mParamTab->addParamRow(mVesc->mcConfig(), "foc_hall_table__3");
mParamTab->addParamRow(mVesc->mcConfig(), "foc_hall_table__4");
mParamTab->addParamRow(mVesc->mcConfig(), "foc_hall_table__5");
mParamTab->addParamRow(mVesc->mcConfig(), "foc_hall_table__6");
mParamTab->addParamRow(mVesc->mcConfig(), "foc_hall_table__7");
QVBoxLayout *layout = new QVBoxLayout;
layout->addWidget(mParamTab);
layout->addWidget(mDetect);
setLayout(layout);
}
int FocHallPage::nextId() const
{
return SetupWizardMotor::Page_Conclusion;
}
bool FocHallPage::validatePage()
{
mVesc->commands()->setMcconf();
return true;
}
ConclusionPage::ConclusionPage(VescInterface *vesc, QWidget *parent)
: QWizardPage(parent)
{
mVesc = vesc;
setTitle(tr("Conclusion"));
mLabel = new QLabel(tr("You have finished the motor setup for the VESC®. The next step "
"is to run the app setup to configure what type of interface "
"to use with your VESC."));
mLabel->setWordWrap(true);
QVBoxLayout *layout = new QVBoxLayout;
layout->addWidget(mLabel);
setLayout(layout);
}
int ConclusionPage::nextId() const
{
return -1;
}