Загрузил(а) файлы в 'Project/program_files'
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27
Project/program_files/ammeter.py
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27
Project/program_files/ammeter.py
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import serial
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class B7_78():
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def __init__(self, folder):
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self.folder = folder
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self.instr = serial.Serial(
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self.folder, timeout=1, inter_byte_timeout=1)
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self.instr.write(b'SYST:REM\n')
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self.instr.write(b'SYST:REM\n')
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def getCurrentDC(self):
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self.instr.write(b'MEAS:CURR:DC?\n')
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return float(self.instr.read(100).decode().rstrip())
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def getVoltageDC(self):
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self.instr.write(b'MEAS:VOLT:DC?\n')
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return float(self.instr.read(100).decode().rstrip())
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def getCurrentAC(self):
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self.instr.write(b'MEAS:CURR:AC?\n')
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return float(self.instr.read(100).decode().rstrip())
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def getVoltageAC(self):
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self.instr.write(b'MEAS:VOLT:AC?\n')
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return float(self.instr.read(100).decode().rstrip())
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Project/program_files/app.py
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Project/program_files/app.py
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import sys
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import pandas as pd
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import check_connection
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import rw_device_params
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import analize
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import ammeter
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import voltmeter
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import power_unit
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from device import Ui_Device
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from main_window import Ui_MainWindow
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from PyQt6 import QtCore
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from PyQt6.QtWidgets import QApplication, QMainWindow, QWidget, QFileDialog
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import pyqtgraph as pg
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style_sheet_button_enabled = 'QPushButton{font-size:16px;border-width: 1px;border-style: solid;border-radius: 10px;background-color:green;}QPushButton::hover{background-color:red;}'
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style_sheet_button_unabled = 'QPushButton{font-size:16px;border-width: 1px;border-style: solid;border-radius: 10px;background-color:rgb(44,47,52);}QPushButton::hover{background-color:red;}'
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style_sheet_polarity_plus = 'QPushButton{font-size:16px;border-width: 1px;border-style: solid;border-radius: 10px;background-color:rgb(139,0,0);}QPushButton::hover{background-color:red;}'
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style_sheet_polarity_minus = 'QPushButton{font-size:16px;border-width: 1px;border-style: solid;border-radius: 10px;background-color:rgb(2,14,93);}QPushButton::hover{background-color:red;}'
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class ThreadCurrent(QtCore.QThread):
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completed = QtCore.pyqtSignal()
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def __init__(self, parent):
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QtCore.QThread.__init__(self)
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self.running = False
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self.parent = parent
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self.ammeter = ammeter
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def run(self):
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self.running = True
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self.parent.measuredI = self.parent.ammeter.getCurrentDC()
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self.completed.emit()
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class ThreadVoltage(QtCore.QThread):
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completed = QtCore.pyqtSignal()
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def __init__(self, parent):
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QtCore.QThread.__init__(self)
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self.running = False
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self.parent = parent
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def run(self):
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self.running = True
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self.parent.measuredV = self.parent.voltmeter.getVoltageDC()
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self.completed.emit()
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class ThreadMeasureVac(QtCore.QThread):
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def __init__(self, parent, start_voltage, end_voltage, step_voltage, polarity, A2, V2, PU):
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QtCore.QThread.__init__(self)
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self.running = False
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self.parent = parent
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self.step_voltage = step_voltage
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self.current_voltage = start_voltage
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self.end_voltage = end_voltage
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self.ammeter = A2
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self.voltmeter = V2
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self.power_unit = PU
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self.polarity = polarity
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# Threads for voltmeter and ammeter
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self.currThread = ThreadCurrent(self)
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self.voltThread = ThreadVoltage(self)
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# Variables to save measured data
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self.measuredV = 0
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self.measuredI = 0
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def run(self):
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while self.current_voltage < self.end_voltage:
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self.power_unit.setVoltageDC(self.current_voltage)
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self.sleep(1)
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self.current_voltage += self.step_voltage
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self.get_measure()
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if self.polarity == True:
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self.parent.I.append(self.measuredI*1e6)
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self.parent.V.append(self.measuredV)
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else:
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self.parent.I.append(-1*self.measuredI*1e6)
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self.parent.V.append(-1*self.measuredV)
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self.power_unit.setVoltageDC(0)
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def get_measure(self):
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self.currThread.start()
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self.voltThread.start()
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self.sleep(2)
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class ThreadMeasure(QtCore.QThread):
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def __init__(self, parent, A1, V1):
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QtCore.QThread.__init__(self)
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self.running = False
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self.parent = parent
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self.ammeter = A1
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self.voltmeter = V1
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# Threads for voltmeter and ammeter
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self.currThread = ThreadCurrent(self)
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self.voltThread = ThreadVoltage(self)
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# Variables to save measured data
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self.measuredV = 0
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self.measuredI = 0
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def run(self):
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while self.running != False:
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self.get_measure()
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self.parent.I.append(self.measuredI*1000)
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self.parent.V.append(self.measuredV)
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def get_measure(self):
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self.currThread.start()
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self.voltThread.start()
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self.sleep(2)
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class Window_Device(QWidget, Ui_Device):
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def __init__(self, device_name):
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super().__init__()
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self.setupUi(self)
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self.name = device_name
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self.params = rw_device_params.read_device_params(self.name)
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self.id_edit.setText(str(self.params[3]))
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self.device_name.setText(str(self.params[2]))
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self.device_status.setText(str(self.params[1]))
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self.baud_rate_edit.setText(self.params[5])
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self.connectSignalSlots()
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self.setWindowTitle('Параметры {}'.format(self.name))
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self.setFixedSize(506, 374)
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def connectSignalSlots(self):
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self.baud_rate_edit.textChanged.connect(self.baud_rate_changed)
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self.id_edit.textChanged.connect(self.id_changed)
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def baud_rate_changed(self, s):
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rw_device_params.write_device_params(self.name, 'baud_rate', s)
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def id_changed(self, s):
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rw_device_params.write_device_params(self.name, 'id', s)
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class Window(QMainWindow, Ui_MainWindow):
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def __init__(self):
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# Init window
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super().__init__()
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self.setupUi(self)
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# Refresh list of connected deivces
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self.update_devices()
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self.connectSignalsSlots()
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# Timer for updating window
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self.timer_update_1 = QtCore.QTimer()
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self.timer_update_1.setInterval(500)
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self.timer_update_1.timeout.connect(self.update_measure_vac)
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self.timer_update = QtCore.QTimer()
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self.timer_update.setInterval(500)
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self.timer_update.timeout.connect(self.update_measure)
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self.graph_vac_1.setLabel(
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'left', "<span style=\"color:white;font-size:30px\">I, мкА</span>")
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self.graph_vac_1.setLabel(
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'bottom', "<span style=\"color:white;font-size:30px\">U, В</span>")
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self.graph_vac.setLabel(
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'left', "<span style=\"color:white;font-size:30px\">I, мА</span>")
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self.graph_vac.setLabel(
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'bottom', "<span style=\"color:white;font-size:30px\">U, В</span>")
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self.graph_vac_4.setLabel(
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'left', "<span style=\"color:white;font-size:30px\">I, мкА</span>")
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self.graph_vac_4.setLabel(
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'bottom', "<span style=\"color:white;font-size:30px\">U, В</span>")
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self.graph_vac_4.addLegend(
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labelTextColor='white', labelTextSize='16pt')
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# Variables
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self.start_voltage = 0
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self.end_voltage = 0
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self.step_voltage = 0
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self.exp_A = 0
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self.I = []
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self.V = []
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self.polarity = True
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self.time_estimated = 0
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self.save_directory = ''
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self.file_name = ''
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self.thread = QtCore.QThread()
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# Connect all signal slots
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def connectSignalsSlots(self):
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self.properties_V1.triggered.connect(
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lambda: self.device('V1'))
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self.properties_V2.triggered.connect(
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lambda: self.device('V2'))
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self.properties_A1.triggered.connect(
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lambda: self.device('A1'))
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self.properties_A2.triggered.connect(
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lambda: self.device('A2'))
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self.directory.clicked.connect(
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lambda: self.choose_directory())
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self.choose_folder.triggered.connect(
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lambda: self.choose_directory())
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self.begin_measure_1.clicked.connect(
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lambda: self.measure_vac())
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self.end_measure_1.clicked.connect(
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lambda: self.end_of_measure_vac())
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self.change_polarity_1.clicked.connect(
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lambda: self.change_polarity())
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self.confirm_measure_1.clicked.connect(
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lambda: self.confirm_measure())
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self.navigation.currentChanged.connect(
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lambda: self.plot_to_run())
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self.begin_measure.clicked.connect(
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lambda: self.measure())
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self.end_measure.clicked.connect(
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lambda: self.end_of_measure())
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# Updates list of connected devices
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def update_devices(self):
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self.devices = check_connection.check_devices_connection()
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self.device_status()
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# Updates device status on main_window
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def device_status(self):
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self.A1_status.setText(self.devices[2])
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if self.A1_status.text() == 'Online':
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self.A1_status.setStyleSheet('color : rgb(144,238,144);')
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else:
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self.A1_status.setStyleSheet('color : red;')
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self.A2_status.setText(self.devices[3])
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if self.A2_status.text() == 'Online':
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self.A2_status.setStyleSheet('color : rgb(144,238,144);')
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else:
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self.A2_status.setStyleSheet('color : red;')
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self.V1_Status.setText(self.devices[0])
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if self.V1_Status.text() == 'Online':
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self.V1_Status.setStyleSheet('color : rgb(144,238,144);')
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else:
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self.V1_Status.setStyleSheet('color : red;')
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self.V2_status.setText(self.devices[1])
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if self.V2_status.text() == 'Online':
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self.V2_status.setStyleSheet('color : rgb(144,238,144);')
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else:
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self.V2_status.setStyleSheet('color : red;')
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# Open window with device params
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def device(self, device_name):
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self.device_window = Window_Device(device_name)
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self.device_window.show()
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# Open a folder_window to choose folder
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def choose_directory(self):
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dlg = QFileDialog
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folderpath = dlg.getExistingDirectory(self, 'Выбор директории')
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self.save_directory = folderpath
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self.chosen_directory.setText(self.save_directory)
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# Start measurement
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def measure(self):
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if self.save_directory != '':
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# Create voltmeter and ammeter
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try:
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self.A1 = ammeter.B7_78('/dev/ttyUSB0')
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self.V1 = voltmeter.AKIP('/dev/usbtmc0')
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except:
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self.error.setText(QtCore.QTime.currentTime().toString(
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)+' - [Errno2]')
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# Start thread for measurments
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self.thread = ThreadMeasure(
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self, self.A1, self.V1)
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self.thread.start()
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self.thread.running = True
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# Start timer
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self.timer_update.start()
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# Set graph params
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self.graph_vac.setXRange(29, 36, padding=0)
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self.graph_vac.setYRange(0, 6, padding=0)
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self.graph_vac.showGrid(x=True, y=True, alpha=1)
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# Set buttons properties
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self.begin_measure.setEnabled(False)
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self.end_measure.setEnabled(True)
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self.end_measure.setStyleSheet(style_sheet_button_enabled)
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self.begin_measure.setStyleSheet(style_sheet_button_unabled)
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# Set experiment status
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self.exp_status.setText('В процессе')
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else:
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self.error.setText(QtCore.QTime.currentTime().toString(
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)+' - [Errno0]')
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# Start measurment for vac
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def measure_vac(self):
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# Create voltmeter, ammeter and power_unit
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try:
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self.A2 = ammeter.B7_78('/dev/ttyUSB0')
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self.PU = power_unit.Agilent('/dev/ttyUSB1')
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self.V2 = voltmeter.AKIP('/dev/usbtmc0')
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# Start thread for measurments
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self.thread = ThreadMeasureVac(
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self, self.start_voltage, self.end_voltage, self.step_voltage, self.polarity, self.A2, self.V2, self.PU)
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self.thread.start()
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# Start timer
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self.timer_update_1.start()
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# Set graph params
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self.graph_vac_1.setXRange(-26, 26, padding=0)
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self.graph_vac_1.setYRange(-130, 130, padding=0)
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self.graph_vac_1.showGrid(x=True, y=True, alpha=1)
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# Set buttons properties
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self.begin_measure_1.setEnabled(False)
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self.end_measure_1.setEnabled(True)
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self.change_polarity_1.setEnabled(True)
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self.change_polarity_1.setStyleSheet(style_sheet_button_enabled)
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self.end_measure_1.setStyleSheet(style_sheet_button_enabled)
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self.begin_measure_1.setStyleSheet(style_sheet_button_unabled)
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# Set experiment status
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self.exp_status_1.setText('В процессе')
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except:
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self.error.setText(QtCore.QTime.currentTime().toString(
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)+' - [Errno2]')
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# End measurement for vac
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def end_of_measure_vac(self):
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# Stop measurement thread
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self.thread.quit()
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self.timer_update_1.stop()
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# Set experiment status
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self.exp_status_1.setText('Окончен')
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# Update button properties
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self.change_polarity_1.setStyleSheet(style_sheet_button_unabled)
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self.change_polarity_1.setEnabled(False)
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self.confirm_measure_1.setEnabled(True)
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self.begin_measure_1.setEnabled(False)
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self.confirm_measure_1.setStyleSheet(style_sheet_button_enabled)
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self.begin_measure_1.setStyleSheet(style_sheet_button_unabled)
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self.exp_A_1.setEnabled(True)
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self.start_voltage_1.setEnabled(True)
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self.end_voltage_1.setEnabled(True)
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self.step_voltage_1.setEnabled(True)
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# Save collected data
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df = pd.DataFrame(list(zip(self.V, self.I)), columns=['U', 'I'])
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df.to_csv(self.save_directory+'/'+self.file_name+'mA.csv')
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# Build fitted curve
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self.I = df['I']
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self.U = df['U']
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df, params, pcov = analize.getApproxValues(pd.DataFrame(
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list(zip(self.U, self.I)), columns=['U', 'I']),)
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self.graph_vac_1.plot(
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df['U'], df['I'], pen=pg.mkPen('yellow', width=1))
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# Plot fitted curve
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self.graph_vac_1.plot(self.U, self.I, symbol='o',
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pen=None, symbolSize=10, symbolPen='yellow')
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tmp = analize.discrepancy([self.I, self.U], params)
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error = pg.ErrorBarItem(
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x=self.U, y=self.I, top=tmp, bottom=tmp, beam=0.5)
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self.graph_vac_1.addItem(error)
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# Update value labels
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self.I_n_1.setText(str(int(params[0])))
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self.T_e_1.setText(str(int(params[1])))
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self.I_n_6.setText(str(int(params[0])))
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self.T_e_6.setText(str(int(params[1])))
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# Zero variables
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self.U = []
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self.I = []
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self.time_estimated = 0
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# End measurement
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def end_of_measure(self):
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# Stop measurement thread
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self.thread.running = False
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self.timer_update.stop()
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# Set experiment status
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self.exp_status.setText('Окончен')
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||||
|
||||
# Update button properties
|
||||
self.begin_measure.setEnabled(False)
|
||||
self.begin_measure.setStyleSheet(style_sheet_button_unabled)
|
||||
# Save collected data
|
||||
df = pd.DataFrame(list(zip(self.V, self.I)), columns=['U', 'I'])
|
||||
df.to_csv(self.save_directory+'/'+'discharge_VAC.csv')
|
||||
|
||||
# Build fitted curve
|
||||
|
||||
# Update value labels
|
||||
|
||||
# Zero variables
|
||||
self.U = []
|
||||
self.I = []
|
||||
self.time_estimated = 0
|
||||
|
||||
# Update labels and graph during vac experiment
|
||||
def update_measure_vac(self):
|
||||
# Update time
|
||||
self.time_estimated += 0.5
|
||||
|
||||
# Update value labels
|
||||
self.amount_of_dots_1.setText(str(len(self.I)))
|
||||
self.time_from_begin_1.setText(str(self.time_estimated))
|
||||
|
||||
try:
|
||||
self.last_A_1.setText(str(self.I[-1]))
|
||||
self.last_V_1.setText(str(self.V[-1]))
|
||||
except (IndexError, ValueError, KeyError):
|
||||
pass
|
||||
|
||||
# Plot current V and I
|
||||
self.graph_vac_1.plot(self.V, self.I, symbol='o',
|
||||
pen=None, symbolSize=10, symbolPen='yellow')
|
||||
|
||||
# Update labels and graph during discharge experiment
|
||||
def update_measure(self):
|
||||
|
||||
# Update time
|
||||
self.time_estimated += 0.5
|
||||
|
||||
# Update value labels
|
||||
self.amount_of_dots.setText(str(len(self.I)))
|
||||
self.time_from_begin.setText(str(self.time_estimated))
|
||||
|
||||
try:
|
||||
self.last_A.setText(str(self.I[-1]))
|
||||
self.last_V.setText(str(self.V[-1]))
|
||||
except (IndexError, ValueError):
|
||||
pass
|
||||
|
||||
# Plot current V and I
|
||||
self.graph_vac.plot(self.V, self.I, symbol='o',
|
||||
pen=None, symbolSize=10, symbolPen='yellow')
|
||||
|
||||
# Start a thread with changed polarity
|
||||
def change_polarity(self):
|
||||
|
||||
# Stop existing thread
|
||||
self.thread.quit()
|
||||
|
||||
# Update polarity value
|
||||
self.polarity = not self.polarity
|
||||
|
||||
# Creat new thread for measurement with changed polarity
|
||||
self.thread = ThreadMeasureVac(
|
||||
self, self.start_voltage, self.end_voltage, self.step_voltage, self.polarity, self.A2, self.V2, self.PU)
|
||||
self.thread.start()
|
||||
|
||||
# Update button properties
|
||||
if self.polarity == True:
|
||||
self.change_polarity_1.setStyleSheet(style_sheet_polarity_plus)
|
||||
else:
|
||||
self.change_polarity_1.setStyleSheet(style_sheet_polarity_minus)
|
||||
|
||||
# Set experment params for vac
|
||||
def confirm_measure(self):
|
||||
if self.save_directory != '':
|
||||
try:
|
||||
|
||||
# Save measure params from line_edits
|
||||
self.exp_A = str(self.exp_A_1.text())
|
||||
self.start_voltage = float(self.start_voltage_1.text())
|
||||
self.end_voltage = float(self.end_voltage_1.text())
|
||||
self.step_voltage = float(self.step_voltage_1.text())
|
||||
self.file_name = str(self.exp_A_1.text())
|
||||
# Set button properties
|
||||
self.confirm_measure_1.setEnabled(False)
|
||||
self.begin_measure_1.setEnabled(True)
|
||||
|
||||
self.confirm_measure_1.setStyleSheet(
|
||||
style_sheet_button_unabled)
|
||||
self.begin_measure_1.setStyleSheet(style_sheet_button_enabled)
|
||||
|
||||
self.exp_A_1.setEnabled(False)
|
||||
self.start_voltage_1.setEnabled(False)
|
||||
self.end_voltage_1.setEnabled(False)
|
||||
self.step_voltage_1.setEnabled(False)
|
||||
self.graph_vac_1.clear()
|
||||
self.I_n_1.setText('Не определено')
|
||||
self.T_e_1.setText('Не определено')
|
||||
self.time_from_begin_1.setText('None')
|
||||
self.amount_of_dots_1.setText('None')
|
||||
self.last_V_1.setText('None')
|
||||
self.last_A_1.setText('None')
|
||||
self.exp_status_1.setText('Не начат')
|
||||
self.graph_vac_1.plotItem.clear()
|
||||
except ValueError:
|
||||
self.error.setText(QtCore.QTime.currentTime().toString(
|
||||
)+' - [Errno1]')
|
||||
else:
|
||||
self.error.setText(QtCore.QTime.currentTime().toString(
|
||||
)+' - [Errno0]')
|
||||
|
||||
# Check which tab has been opened
|
||||
def plot_to_run(self):
|
||||
if self.navigation.currentIndex() == 3:
|
||||
self.plot_all()
|
||||
else:
|
||||
self.graph_vac_4.clear()
|
||||
|
||||
# Plot all data on 3rd tab
|
||||
def plot_all(self):
|
||||
if self.save_directory != '':
|
||||
T = [self.T_e_4, self.T_e_5, self.T_e_6]
|
||||
I = [self.I_n_4, self.I_n_5, self.I_n_6]
|
||||
B = [self.B_koef_4, self.B_koef_5, self.B_koef_6]
|
||||
for file, color, T_e, I_n, B_koef in zip(['1.5mA.csv', '3.0mA.csv', '5.0mA.csv'], ['green', 'yellow', 'orange'], T, I, B):
|
||||
try:
|
||||
|
||||
df = pd.read_csv(self.save_directory+'/'+file)
|
||||
self.I = df['I']
|
||||
self.U = df['U']
|
||||
|
||||
df, params, error = analize.getApproxValues(pd.DataFrame(
|
||||
list(zip(self.U, self.I)), columns=['U', 'I']))
|
||||
T_e.setText(str(int(params[1])) +
|
||||
u"\u00B1" + str(int(error[1])))
|
||||
I_n.setText(str(int(params[0])) +
|
||||
u"\u00B1" + str(int(error[0])))
|
||||
B_koef.setText(str('%.2f' % params[3]) +
|
||||
u"\u00B1" + str('%.2f' % error[3]))
|
||||
self.graph_vac_4.plot(
|
||||
df['U'], df['I'], pen=pg.mkPen(color, width=1), name=file.rstrip('.csv'))
|
||||
|
||||
# Plot fitted curve
|
||||
self.graph_vac_4.plot(self.U, self.I, symbol='o',
|
||||
pen=None, symbolSize=7, symbolPen=color)
|
||||
self.graph_vac_4.showGrid(x=True, y=True, alpha=1)
|
||||
|
||||
except FileNotFoundError:
|
||||
self.error.setText(QtCore.QTime.currentTime().toString(
|
||||
)+' - [Errno3]')
|
||||
pass
|
||||
else:
|
||||
self.error.setText(QtCore.QTime.currentTime().toString(
|
||||
)+' - [Errno0]')
|
||||
|
||||
|
||||
if __name__ == "__main__":
|
||||
|
||||
app = QApplication(sys.argv)
|
||||
|
||||
win = Window()
|
||||
|
||||
win.show()
|
||||
|
||||
sys.exit(app.exec())
|
53
Project/program_files/check_connection.py
Normal file
53
Project/program_files/check_connection.py
Normal file
@ -0,0 +1,53 @@
|
||||
import re
|
||||
import subprocess
|
||||
import os
|
||||
import rw_device_params
|
||||
|
||||
# Check single device connection by device ID and return status of connection
|
||||
# Input example: '0000:0000'
|
||||
# Output example: 'Online'
|
||||
|
||||
|
||||
def check_connection(device_ID):
|
||||
df = str(subprocess.check_output("lsusb"))
|
||||
if re.search(device_ID, df):
|
||||
return True
|
||||
else:
|
||||
return False
|
||||
|
||||
# Check all device connection by their ID's and returns list of connection status
|
||||
# Output example: ['Online', 'Offline', 'Online', 'Offline]
|
||||
|
||||
|
||||
def check_devices_connection():
|
||||
status = []
|
||||
for root, dirs, files in os.walk('data'):
|
||||
for filename in files:
|
||||
filename = filename.rstrip('.dat')
|
||||
params = rw_device_params.read_device_params(filename)
|
||||
id = params[3]
|
||||
if check_connection(id):
|
||||
status.append('Online')
|
||||
rw_device_params.write_device_params(
|
||||
filename, 'status', 'Online')
|
||||
else:
|
||||
status.append('Offline')
|
||||
rw_device_params.write_device_params(
|
||||
filename, 'status', 'Offline')
|
||||
return status
|
||||
|
||||
# Finf ttyUSB_ file for device by it's ID
|
||||
# Input example: '0000:0000'
|
||||
# Output example: 'ttyUSB0'
|
||||
|
||||
|
||||
def get_device_folder_tty(id):
|
||||
folder = subprocess.check_output(
|
||||
['python3', '-m', 'serial.tools.list_ports', '-q', id]).decode().rstrip('\n').strip()
|
||||
return folder
|
||||
|
||||
|
||||
def get_device_folder_tmc(id):
|
||||
folder = subprocess.check_output(
|
||||
['python3', '-m', 'serial.tools.list_ports', '-q', id]).decode().rstrip('\n').strip()
|
||||
return folder
|
19
Project/program_files/power_unit.py
Normal file
19
Project/program_files/power_unit.py
Normal file
@ -0,0 +1,19 @@
|
||||
import check_connection
|
||||
import serial
|
||||
|
||||
|
||||
class Agilent():
|
||||
|
||||
def __init__(self, folder):
|
||||
self.folder = folder
|
||||
self.instr = serial.Serial(
|
||||
self.folder, timeout=1, inter_byte_timeout=1)
|
||||
msg = 'OUTput on\n'
|
||||
self.instr.write(msg.encode('ascii'))
|
||||
|
||||
def setVoltageDC(self, volt):
|
||||
self.instr.write(('VOLTage '+str(volt)+'\n').encode('ascii'))
|
||||
|
||||
def getID(self):
|
||||
self.instr.write(('*IDN?\n').encode('ascii'))
|
||||
print(self.instr.read(100).decode().rstrip())
|
33
Project/program_files/rw_device_params.py
Normal file
33
Project/program_files/rw_device_params.py
Normal file
@ -0,0 +1,33 @@
|
||||
# Dict for all devices params
|
||||
|
||||
all_params = {'func': 0, 'status': 1, 'name': 2,
|
||||
'id': 3, 'type_of_connection': 4, 'baud_rate': 5}
|
||||
|
||||
# Read device params from .dat device file
|
||||
|
||||
|
||||
def read_device_params(name):
|
||||
file = open('data/{}.dat'.format(name), 'r')
|
||||
params = file.readline().split()
|
||||
file.close()
|
||||
return params
|
||||
|
||||
# Change device params in .dat device file
|
||||
|
||||
|
||||
def write_device_params(name, param, value):
|
||||
|
||||
try:
|
||||
file = open('data/{}.dat'.format(name), 'r+')
|
||||
params = file.readline().split()
|
||||
if value != '':
|
||||
params[all_params[param]] = str(value)
|
||||
else:
|
||||
params[all_params[param]] = 'none'
|
||||
file.seek(0)
|
||||
file.truncate()
|
||||
file.write(' '.join(params))
|
||||
file.close()
|
||||
|
||||
except IndexError:
|
||||
print('ErrorType = FileError: File.dat for this device does not exist')
|
Loading…
Reference in New Issue
Block a user