ardupilot/Tools/ArdupilotMegaPlanner/GCSViews/ConfigurationView/ConfigBatteryMonitoring.cs

363 lines
12 KiB
C#

using System;
using System.Collections.Generic;
using System.ComponentModel;
using System.Drawing;
using System.Data;
using System.Linq;
using System.Text;
using System.Windows.Forms;
using ArdupilotMega.Controls.BackstageView;
namespace ArdupilotMega.GCSViews.ConfigurationView
{
public partial class ConfigBatteryMonitoring : BackStageViewContentPanel
{
bool startup = false;
public ConfigBatteryMonitoring()
{
InitializeComponent();
}
private void CHK_enablebattmon_CheckedChanged(object sender, EventArgs e)
{
if (startup)
return;
try
{
if (((CheckBox)sender).Checked == false)
{
CMB_batmontype.SelectedIndex = 0;
}
else
{
if (CMB_batmontype.SelectedIndex <= 0)
CMB_batmontype.SelectedIndex = 1;
}
}
catch { CustomMessageBox.Show("Set BATT_MONITOR Failed"); }
}
private void TXT_battcapacity_Validating(object sender, CancelEventArgs e)
{
float ans = 0;
e.Cancel = !float.TryParse(TXT_battcapacity.Text, out ans);
}
private void TXT_battcapacity_Validated(object sender, EventArgs e)
{
if (startup || ((TextBox)sender).Enabled == false)
return;
try
{
if (MainV2.comPort.param["BATT_CAPACITY"] == null)
{
CustomMessageBox.Show("Not Available");
}
else
{
MainV2.comPort.setParam("BATT_CAPACITY", float.Parse(TXT_battcapacity.Text));
}
}
catch { CustomMessageBox.Show("Set BATT_CAPACITY Failed"); }
}
private void CMB_batmontype_SelectedIndexChanged(object sender, EventArgs e)
{
if (startup)
return;
try
{
if (MainV2.comPort.param["BATT_MONITOR"] == null)
{
CustomMessageBox.Show("Not Available");
}
else
{
int selection = int.Parse(CMB_batmontype.Text.Substring(0, 1));
CMB_batmonsensortype.Enabled = true;
TXT_voltage.Enabled = false;
if (selection == 0)
{
CMB_batmonsensortype.Enabled = false;
groupBox4.Enabled = false;
}
else if (selection == 4)
{
CMB_batmonsensortype.Enabled = true;
groupBox4.Enabled = true;
TXT_ampspervolt.Enabled = true;
}
else if (selection == 3)
{
groupBox4.Enabled = true;
CMB_batmonsensortype.Enabled = false;
TXT_ampspervolt.Enabled = false;
TXT_inputvoltage.Enabled = true;
TXT_measuredvoltage.Enabled = true;
TXT_divider.Enabled = true;
}
MainV2.comPort.setParam("BATT_MONITOR", selection);
}
}
catch { CustomMessageBox.Show("Set BATT_MONITOR Failed"); }
}
private void TXT_inputvoltage_Validating(object sender, CancelEventArgs e)
{
float ans = 0;
e.Cancel = !float.TryParse(TXT_inputvoltage.Text, out ans);
}
private void TXT_inputvoltage_Validated(object sender, EventArgs e)
{
if (startup || ((TextBox)sender).Enabled == false)
return;
try
{
if (MainV2.comPort.param["INPUT_VOLTS"] == null)
{
CustomMessageBox.Show("Not Available");
}
else
{
MainV2.comPort.setParam("INPUT_VOLTS", float.Parse(TXT_inputvoltage.Text));
}
}
catch { CustomMessageBox.Show("Set INPUT_VOLTS Failed"); }
}
private void TXT_measuredvoltage_Validating(object sender, CancelEventArgs e)
{
float ans = 0;
e.Cancel = !float.TryParse(TXT_measuredvoltage.Text, out ans);
}
private void TXT_measuredvoltage_Validated(object sender, EventArgs e)
{
if (startup || ((TextBox)sender).Enabled == false)
return;
try
{
float measuredvoltage = float.Parse(TXT_measuredvoltage.Text);
float voltage = float.Parse(TXT_voltage.Text);
float divider = float.Parse(TXT_divider.Text);
if (voltage == 0)
return;
float new_divider = (measuredvoltage * divider) / voltage;
TXT_divider.Text = new_divider.ToString();
}
catch { CustomMessageBox.Show("Invalid number entered"); return; }
try
{
if (MainV2.comPort.param["VOLT_DIVIDER"] == null)
{
CustomMessageBox.Show("Not Available");
}
else
{
MainV2.comPort.setParam("VOLT_DIVIDER", float.Parse(TXT_divider.Text));
}
}
catch { CustomMessageBox.Show("Set VOLT_DIVIDER Failed"); }
}
private void TXT_divider_Validating(object sender, CancelEventArgs e)
{
float ans = 0;
e.Cancel = !float.TryParse(TXT_divider.Text, out ans);
}
private void TXT_divider_Validated(object sender, EventArgs e)
{
if (startup || ((TextBox)sender).Enabled == false)
return;
try
{
if (MainV2.comPort.param["VOLT_DIVIDER"] == null)
{
CustomMessageBox.Show("Not Available");
}
else
{
MainV2.comPort.setParam("VOLT_DIVIDER", float.Parse(TXT_divider.Text));
}
}
catch { CustomMessageBox.Show("Set VOLT_DIVIDER Failed"); }
}
private void TXT_ampspervolt_Validating(object sender, CancelEventArgs e)
{
float ans = 0;
e.Cancel = !float.TryParse(TXT_ampspervolt.Text, out ans);
}
private void TXT_ampspervolt_Validated(object sender, EventArgs e)
{
if (startup || ((TextBox)sender).Enabled == false)
return;
try
{
if (MainV2.comPort.param["AMP_PER_VOLT"] == null)
{
CustomMessageBox.Show("Not Available");
}
else
{
MainV2.comPort.setParam("AMP_PER_VOLT", float.Parse(TXT_ampspervolt.Text));
}
}
catch { CustomMessageBox.Show("Set AMP_PER_VOLT Failed"); }
}
private void CMB_batmonsensortype_SelectedIndexChanged(object sender, EventArgs e)
{
int selection = int.Parse(CMB_batmonsensortype.Text.Substring(0, 1));
if (selection == 1) // atto 45
{
float maxvolt = 13.6f;
float maxamps = 44.7f;
float mvpervolt = 242.3f;
float mvperamp = 73.20f;
// ~ 3.295v
float topvolt = (maxvolt * mvpervolt) / 1000;
// ~ 3.294v
float topamps = (maxamps * mvperamp) / 1000;
TXT_divider.Text = (maxvolt / topvolt).ToString();
TXT_ampspervolt.Text = (maxamps / topamps).ToString();
}
else if (selection == 2) // atto 90
{
float maxvolt = 50f;
float maxamps = 89.4f;
float mvpervolt = 63.69f;
float mvperamp = 36.60f;
float topvolt = (maxvolt * mvpervolt) / 1000;
float topamps = (maxamps * mvperamp) / 1000;
TXT_divider.Text = (maxvolt / topvolt).ToString();
TXT_ampspervolt.Text = (maxamps / topamps).ToString();
}
else if (selection == 3) // atto 180
{
float maxvolt = 50f;
float maxamps = 178.8f;
float mvpervolt = 63.69f;
float mvperamp = 18.30f;
float topvolt = (maxvolt * mvpervolt) / 1000;
float topamps = (maxamps * mvperamp) / 1000;
TXT_divider.Text = (maxvolt / topvolt).ToString();
TXT_ampspervolt.Text = (maxamps / topamps).ToString();
}
// enable to update
TXT_divider.Enabled = true;
TXT_ampspervolt.Enabled = true;
TXT_measuredvoltage.Enabled = true;
TXT_inputvoltage.Enabled = true;
// update
TXT_ampspervolt_Validated(TXT_ampspervolt, null);
TXT_divider_Validated(TXT_divider, null);
// disable
TXT_divider.Enabled = false;
TXT_ampspervolt.Enabled = false;
TXT_measuredvoltage.Enabled = false;
//reenable if needed
if (selection == 0)
{
TXT_divider.Enabled = true;
TXT_ampspervolt.Enabled = true;
TXT_measuredvoltage.Enabled = true;
TXT_inputvoltage.Enabled = true;
}
}
private void ConfigBatteryMonitoring_Load(object sender, EventArgs e)
{
if (!MainV2.comPort.BaseStream.IsOpen)
{
this.Enabled = false;
return;
}
else
{
this.Enabled = true;
}
startup = true;
bool not_supported = false;
if (MainV2.comPort.param["BATT_MONITOR"] != null)
{
if (MainV2.comPort.param["BATT_MONITOR"].ToString() != "0.0")
{
CMB_batmontype.SelectedIndex = getIndex(CMB_batmontype, (int)float.Parse(MainV2.comPort.param["BATT_MONITOR"].ToString()));
}
// ignore language re . vs ,
if (TXT_ampspervolt.Text == (13.6612).ToString())
{
CMB_batmonsensortype.SelectedIndex = 1;
}
else if (TXT_ampspervolt.Text == (27.3224).ToString())
{
CMB_batmonsensortype.SelectedIndex = 2;
}
else if (TXT_ampspervolt.Text == (54.64481).ToString())
{
CMB_batmonsensortype.SelectedIndex = 3;
}
else
{
CMB_batmonsensortype.SelectedIndex = 0;
}
}
if (MainV2.comPort.param["BATT_CAPACITY"] != null)
TXT_battcapacity.Text = MainV2.comPort.param["BATT_CAPACITY"].ToString();
if (MainV2.comPort.param["INPUT_VOLTS"] != null)
TXT_inputvoltage.Text = MainV2.comPort.param["INPUT_VOLTS"].ToString();
else
not_supported = true;
TXT_voltage.Text = MainV2.cs.battery_voltage.ToString();
TXT_measuredvoltage.Text = TXT_voltage.Text;
if (MainV2.comPort.param["VOLT_DIVIDER"] != null)
TXT_divider.Text = MainV2.comPort.param["VOLT_DIVIDER"].ToString();
else
not_supported = true;
if (MainV2.comPort.param["AMP_PER_VOLT"] != null)
TXT_ampspervolt.Text = MainV2.comPort.param["AMP_PER_VOLT"].ToString();
else
not_supported = true;
if (not_supported)
{
TXT_inputvoltage.Enabled = false;
TXT_measuredvoltage.Enabled = false;
TXT_divider.Enabled = false;
TXT_ampspervolt.Enabled = false;
}
startup = false;
}
int getIndex(ComboBox ctl, int no)
{
foreach (var item in ctl.Items)
{
int ans = int.Parse(item.ToString().Substring(0, 1));
if (ans == no)
return ctl.Items.IndexOf(item);
}
return -1;
}
}
}