kopia lustrzana https://github.com/NanoVNA-Saver/nanovna-saver
957 wiersze
39 KiB
Python
957 wiersze
39 KiB
Python
# NanoVNASaver
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#
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# A python program to view and export Touchstone data from a NanoVNA
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# Copyright (C) 2019, 2020 Rune B. Broberg
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# Copyright (C) 2020,2021 NanoVNA-Saver Authors
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#
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# This program is free software: you can redistribute it and/or modify
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# it under the terms of the GNU General Public License as published by
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# the Free Software Foundation, either version 3 of the License, or
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# (at your option) any later version.
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#
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# This program is distributed in the hope that it will be useful,
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# but WITHOUT ANY WARRANTY; without even the implied warranty of
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# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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# GNU General Public License for more details.
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#
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# You should have received a copy of the GNU General Public License
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# along with this program. If not, see <https://www.gnu.org/licenses/>.
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import logging
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from functools import partial
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from PyQt6 import QtWidgets, QtCore, QtGui
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from NanoVNASaver.Calibration import Calibration
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from NanoVNASaver.Settings.Sweep import SweepMode
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from NanoVNASaver.Windows.Defaults import make_scrollable
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logger = logging.getLogger(__name__)
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def _format_cal_label(size: int, prefix: str = "Set") -> str:
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return f"{prefix} ({size} points)"
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def getFloatValue(text: str) -> float:
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try:
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return float(text)
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except (TypeError, ValueError):
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return 0.0
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class CalibrationWindow(QtWidgets.QWidget):
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nextStep = -1
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def __init__(self, app: QtWidgets.QWidget):
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super().__init__()
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self.app = app
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self.setMinimumWidth(450)
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self.setWindowTitle("Calibration")
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self.setWindowIcon(self.app.icon)
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self.setSizePolicy(
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QtWidgets.QSizePolicy.Policy.MinimumExpanding,
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QtWidgets.QSizePolicy.Policy.MinimumExpanding,
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)
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QtGui.QShortcut(QtCore.Qt.Key.Key_Escape, self, self.hide)
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top_layout = QtWidgets.QHBoxLayout()
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left_layout = QtWidgets.QVBoxLayout()
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right_layout = QtWidgets.QVBoxLayout()
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top_layout.addLayout(left_layout)
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top_layout.addLayout(right_layout)
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make_scrollable(self, top_layout)
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calibration_status_group = QtWidgets.QGroupBox("Active calibration")
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calibration_status_layout = QtWidgets.QFormLayout()
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self.calibration_status_label = QtWidgets.QLabel("Device calibration")
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self.calibration_source_label = QtWidgets.QLabel("NanoVNA")
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calibration_status_layout.addRow(
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"Calibration:", self.calibration_status_label
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)
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calibration_status_layout.addRow(
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"Source:", self.calibration_source_label
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)
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calibration_status_group.setLayout(calibration_status_layout)
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left_layout.addWidget(calibration_status_group)
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calibration_control_group = QtWidgets.QGroupBox("Calibrate")
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calibration_control_layout = QtWidgets.QFormLayout(
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calibration_control_group
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)
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cal_btn = {}
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self.cal_label = {}
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for label_name in (
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"short",
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"open",
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"load",
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"through",
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"thrurefl",
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"isolation",
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):
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self.cal_label[label_name] = QtWidgets.QLabel("Uncalibrated")
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cal_btn[label_name] = QtWidgets.QPushButton(label_name.capitalize())
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cal_btn[label_name].setMinimumHeight(20)
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cal_btn[label_name].clicked.connect(
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partial(self.manual_save, label_name)
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)
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calibration_control_layout.addRow(
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cal_btn[label_name], self.cal_label[label_name]
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)
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self.input_offset_delay = QtWidgets.QDoubleSpinBox()
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self.input_offset_delay.setMinimumHeight(20)
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self.input_offset_delay.setValue(0)
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self.input_offset_delay.setSuffix(" ps")
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self.input_offset_delay.setAlignment(QtCore.Qt.AlignmentFlag.AlignRight)
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self.input_offset_delay.valueChanged.connect(self.setOffsetDelay)
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self.input_offset_delay.setRange(-10e6, 10e6)
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calibration_control_layout.addRow(QtWidgets.QLabel(""))
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calibration_control_layout.addRow(
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"Offset delay", self.input_offset_delay
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)
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self.btn_automatic = QtWidgets.QPushButton("Calibration assistant")
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self.btn_automatic.setMinimumHeight(20)
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calibration_control_layout.addRow(self.btn_automatic)
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self.btn_automatic.clicked.connect(self.automaticCalibration)
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apply_reset_layout = QtWidgets.QHBoxLayout()
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btn_apply = QtWidgets.QPushButton("Apply")
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btn_apply.setMinimumHeight(20)
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btn_apply.clicked.connect(self.calculate)
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btn_reset = QtWidgets.QPushButton("Reset")
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btn_reset.setMinimumHeight(20)
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btn_reset.clicked.connect(self.reset)
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apply_reset_layout.addWidget(btn_apply)
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apply_reset_layout.addWidget(btn_reset)
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calibration_control_layout.addRow(apply_reset_layout)
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left_layout.addWidget(calibration_control_group)
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calibration_notes_group = QtWidgets.QGroupBox("Notes")
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calibration_notes_layout = QtWidgets.QVBoxLayout(
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calibration_notes_group
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)
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self.notes_textedit = QtWidgets.QPlainTextEdit()
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calibration_notes_layout.addWidget(self.notes_textedit)
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left_layout.addWidget(calibration_notes_group)
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file_box = QtWidgets.QGroupBox("Files")
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file_layout = QtWidgets.QFormLayout(file_box)
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btn_save_file = QtWidgets.QPushButton("Save calibration")
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btn_save_file.setMinimumHeight(20)
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btn_save_file.clicked.connect(lambda: self.saveCalibration())
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btn_load_file = QtWidgets.QPushButton("Load calibration")
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btn_load_file.setMinimumHeight(20)
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btn_load_file.clicked.connect(lambda: self.loadCalibration())
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save_load_layout = QtWidgets.QHBoxLayout()
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save_load_layout.addWidget(btn_save_file)
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save_load_layout.addWidget(btn_load_file)
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file_layout.addRow(save_load_layout)
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left_layout.addWidget(file_box)
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cal_standard_box = QtWidgets.QGroupBox("Calibration standards")
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cal_standard_layout = QtWidgets.QFormLayout(cal_standard_box)
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self.use_ideal_values = QtWidgets.QCheckBox("Use ideal values")
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self.use_ideal_values.setChecked(True)
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self.use_ideal_values.stateChanged.connect(self.idealCheckboxChanged)
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cal_standard_layout.addRow(self.use_ideal_values)
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self.cal_short_box = QtWidgets.QGroupBox("Short")
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cal_short_form = QtWidgets.QFormLayout(self.cal_short_box)
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self.cal_short_box.setDisabled(True)
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self.short_l0_input = QtWidgets.QLineEdit("0")
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self.short_l0_input.setMinimumHeight(20)
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self.short_l1_input = QtWidgets.QLineEdit("0")
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self.short_l1_input.setMinimumHeight(20)
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self.short_l2_input = QtWidgets.QLineEdit("0")
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self.short_l2_input.setMinimumHeight(20)
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self.short_l3_input = QtWidgets.QLineEdit("0")
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self.short_l3_input.setMinimumHeight(20)
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self.short_length = QtWidgets.QLineEdit("0")
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self.short_length.setMinimumHeight(20)
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cal_short_form.addRow("L0 (H(e-12))", self.short_l0_input)
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cal_short_form.addRow("L1 (H(e-24))", self.short_l1_input)
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cal_short_form.addRow("L2 (H(e-33))", self.short_l2_input)
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cal_short_form.addRow("L3 (H(e-42))", self.short_l3_input)
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cal_short_form.addRow("Offset Delay (ps)", self.short_length)
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self.cal_open_box = QtWidgets.QGroupBox("Open")
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cal_open_form = QtWidgets.QFormLayout(self.cal_open_box)
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self.cal_open_box.setDisabled(True)
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self.open_c0_input = QtWidgets.QLineEdit("50")
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self.open_c0_input.setMinimumHeight(20)
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self.open_c1_input = QtWidgets.QLineEdit("0")
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self.open_c1_input.setMinimumHeight(20)
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self.open_c2_input = QtWidgets.QLineEdit("0")
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self.open_c2_input.setMinimumHeight(20)
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self.open_c3_input = QtWidgets.QLineEdit("0")
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self.open_c3_input.setMinimumHeight(20)
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self.open_length = QtWidgets.QLineEdit("0")
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self.open_length.setMinimumHeight(20)
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cal_open_form.addRow("C0 (F(e-15))", self.open_c0_input)
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cal_open_form.addRow("C1 (F(e-27))", self.open_c1_input)
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cal_open_form.addRow("C2 (F(e-36))", self.open_c2_input)
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cal_open_form.addRow("C3 (F(e-45))", self.open_c3_input)
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cal_open_form.addRow("Offset Delay (ps)", self.open_length)
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self.cal_load_box = QtWidgets.QGroupBox("Load")
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cal_load_form = QtWidgets.QFormLayout(self.cal_load_box)
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self.cal_load_box.setDisabled(True)
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self.load_resistance = QtWidgets.QLineEdit("50")
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self.load_resistance.setMinimumHeight(20)
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self.load_inductance = QtWidgets.QLineEdit("0")
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self.load_inductance.setMinimumHeight(20)
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self.load_capacitance = QtWidgets.QLineEdit("0")
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self.load_capacitance.setMinimumHeight(20)
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# self.load_capacitance.setDisabled(True) # Not yet implemented
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self.load_length = QtWidgets.QLineEdit("0")
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self.load_length.setMinimumHeight(20)
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cal_load_form.addRow("Resistance (\N{OHM SIGN})", self.load_resistance)
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cal_load_form.addRow("Inductance (H(e-12))", self.load_inductance)
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cal_load_form.addRow("Capacitance (F(e-15))", self.load_capacitance)
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cal_load_form.addRow("Offset Delay (ps)", self.load_length)
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self.cal_through_box = QtWidgets.QGroupBox("Through")
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cal_through_form = QtWidgets.QFormLayout(self.cal_through_box)
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self.cal_through_box.setDisabled(True)
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self.through_length = QtWidgets.QLineEdit("0")
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self.through_length.setMinimumHeight(20)
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cal_through_form.addRow("Offset Delay (ps)", self.through_length)
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cal_standard_layout.addWidget(self.cal_short_box)
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cal_standard_layout.addWidget(self.cal_open_box)
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cal_standard_layout.addWidget(self.cal_load_box)
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cal_standard_layout.addWidget(self.cal_through_box)
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self.cal_standard_save_box = QtWidgets.QGroupBox("Saved settings")
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cal_standard_save_layout = QtWidgets.QVBoxLayout(
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self.cal_standard_save_box
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)
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self.cal_standard_save_box.setDisabled(True)
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self.cal_standard_save_selector = QtWidgets.QComboBox()
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self.cal_standard_save_selector.setMinimumHeight(20)
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self.listCalibrationStandards()
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cal_standard_save_layout.addWidget(self.cal_standard_save_selector)
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cal_standard_save_button_layout = QtWidgets.QHBoxLayout()
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btn_save_standard = QtWidgets.QPushButton("Save")
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btn_save_standard.setMinimumHeight(20)
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btn_save_standard.clicked.connect(self.saveCalibrationStandard)
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btn_load_standard = QtWidgets.QPushButton("Load")
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btn_load_standard.setMinimumHeight(20)
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btn_load_standard.clicked.connect(self.loadCalibrationStandard)
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btn_delete_standard = QtWidgets.QPushButton("Delete")
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btn_delete_standard.setMinimumHeight(20)
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btn_delete_standard.clicked.connect(self.deleteCalibrationStandard)
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cal_standard_save_button_layout.addWidget(btn_load_standard)
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cal_standard_save_button_layout.addWidget(btn_save_standard)
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cal_standard_save_button_layout.addWidget(btn_delete_standard)
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cal_standard_save_layout.addLayout(cal_standard_save_button_layout)
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cal_standard_layout.addWidget(self.cal_standard_save_box)
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right_layout.addWidget(cal_standard_box)
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def checkExpertUser(self):
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if not self.app.settings.value("ExpertCalibrationUser", False, bool):
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response = QtWidgets.QMessageBox.question(
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self,
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"Are you sure?",
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(
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"Use of the manual calibration buttons is non-intuitive,"
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" and primarily suited for users with very specialized"
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" needs. The buttons do not sweep for you, nor do"
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" they interact with the NanoVNA calibration.\n\n"
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"If you are trying to do a calibration of the NanoVNA, do"
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"so on the device itself instead. If you are trying to do"
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"a calibration with NanoVNA-Saver, use the Calibration"
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"Assistant if possible.\n\n"
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"If you are certain you know what you are doing, click"
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" Yes."
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),
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QtWidgets.QMessageBox.StandardButton.Yes | QtWidgets.QMessageBox.StandardButton.Cancel,
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QtWidgets.QMessageBox.StandardButton.Cancel,
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)
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if response == QtWidgets.QMessageBox.StandardButton.Yes:
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self.app.settings.setValue("ExpertCalibrationUser", True)
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return True
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return False
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return True
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def cal_save(self, name: str):
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if name in {"through", "isolation"}:
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self.app.calibration.insert(name, self.app.data.s21)
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else:
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self.app.calibration.insert(name, self.app.data.s11)
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self.cal_label[name].setText(_format_cal_label(len(self.app.data.s11)))
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def manual_save(self, name: str):
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if self.checkExpertUser():
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self.cal_save(name)
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def listCalibrationStandards(self):
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self.cal_standard_save_selector.clear()
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num_standards = self.app.settings.beginReadArray("CalibrationStandards")
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for i in range(num_standards):
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self.app.settings.setArrayIndex(i)
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name = self.app.settings.value("Name", defaultValue="INVALID NAME")
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self.cal_standard_save_selector.addItem(name, userData=i)
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self.app.settings.endArray()
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self.cal_standard_save_selector.addItem("New", userData=-1)
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self.cal_standard_save_selector.setCurrentText("New")
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def saveCalibrationStandard(self):
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num_standards = self.app.settings.beginReadArray("CalibrationStandards")
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self.app.settings.endArray()
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if self.cal_standard_save_selector.currentData() == -1:
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# New cal standard
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# Get a name
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name, selected = QtWidgets.QInputDialog.getText(
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self, "Calibration standard name", "Enter name to save as"
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)
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if not selected or not name:
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return
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write_num = num_standards
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num_standards += 1
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else:
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write_num = self.cal_standard_save_selector.currentData()
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name = self.cal_standard_save_selector.currentText()
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self.app.settings.beginWriteArray("CalibrationStandards", num_standards)
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self.app.settings.setArrayIndex(write_num)
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self.app.settings.setValue("Name", name)
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self.app.settings.setValue("ShortL0", self.short_l0_input.text())
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self.app.settings.setValue("ShortL1", self.short_l1_input.text())
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self.app.settings.setValue("ShortL2", self.short_l2_input.text())
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self.app.settings.setValue("ShortL3", self.short_l3_input.text())
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self.app.settings.setValue("ShortDelay", self.short_length.text())
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self.app.settings.setValue("OpenC0", self.open_c0_input.text())
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self.app.settings.setValue("OpenC1", self.open_c1_input.text())
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self.app.settings.setValue("OpenC2", self.open_c2_input.text())
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self.app.settings.setValue("OpenC3", self.open_c3_input.text())
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self.app.settings.setValue("OpenDelay", self.open_length.text())
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self.app.settings.setValue("LoadR", self.load_resistance.text())
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self.app.settings.setValue("LoadL", self.load_inductance.text())
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self.app.settings.setValue("LoadC", self.load_capacitance.text())
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self.app.settings.setValue("LoadDelay", self.load_length.text())
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self.app.settings.setValue("ThroughDelay", self.through_length.text())
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self.app.settings.endArray()
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self.app.settings.sync()
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self.listCalibrationStandards()
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self.cal_standard_save_selector.setCurrentText(name)
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def loadCalibrationStandard(self):
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if self.cal_standard_save_selector.currentData() == -1:
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return
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read_num = self.cal_standard_save_selector.currentData()
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logger.debug("Loading calibration no %d", read_num)
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self.app.settings.beginReadArray("CalibrationStandards")
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self.app.settings.setArrayIndex(read_num)
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name = self.app.settings.value("Name")
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logger.info("Loading: %s", name)
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self.short_l0_input.setText(str(self.app.settings.value("ShortL0", 0)))
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self.short_l1_input.setText(str(self.app.settings.value("ShortL1", 0)))
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self.short_l2_input.setText(str(self.app.settings.value("ShortL2", 0)))
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self.short_l3_input.setText(str(self.app.settings.value("ShortL3", 0)))
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self.short_length.setText(str(self.app.settings.value("ShortDelay", 0)))
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self.open_c0_input.setText(str(self.app.settings.value("OpenC0", 50)))
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self.open_c1_input.setText(str(self.app.settings.value("OpenC1", 0)))
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self.open_c2_input.setText(str(self.app.settings.value("OpenC2", 0)))
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self.open_c3_input.setText(str(self.app.settings.value("OpenC3", 0)))
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self.open_length.setText(str(self.app.settings.value("OpenDelay", 0)))
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self.load_resistance.setText(str(self.app.settings.value("LoadR", 50)))
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self.load_inductance.setText(str(self.app.settings.value("LoadL", 0)))
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self.load_capacitance.setText(str(self.app.settings.value("LoadC", 0)))
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self.load_length.setText(str(self.app.settings.value("LoadDelay", 0)))
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self.through_length.setText(
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str(self.app.settings.value("ThroughDelay", 0))
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)
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self.app.settings.endArray()
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def deleteCalibrationStandard(self):
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if self.cal_standard_save_selector.currentData() == -1:
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return
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delete_num = self.cal_standard_save_selector.currentData()
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logger.debug("Deleting calibration no %d", delete_num)
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num_standards = self.app.settings.beginReadArray("CalibrationStandards")
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self.app.settings.endArray()
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logger.debug("Number of standards known: %d", num_standards)
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if num_standards == 1:
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logger.debug("Only one standard known")
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self.app.settings.beginWriteArray("CalibrationStandards", 0)
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self.app.settings.endArray()
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else:
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names = []
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shortL0 = []
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|
shortL1 = []
|
|
shortL2 = []
|
|
shortL3 = []
|
|
shortDelay = []
|
|
|
|
openC0 = []
|
|
openC1 = []
|
|
openC2 = []
|
|
openC3 = []
|
|
openDelay = []
|
|
|
|
loadR = []
|
|
loadL = []
|
|
loadC = []
|
|
loadDelay = []
|
|
|
|
throughDelay = []
|
|
|
|
self.app.settings.beginReadArray("CalibrationStandards")
|
|
for i in range(num_standards):
|
|
if i == delete_num:
|
|
continue
|
|
self.app.settings.setArrayIndex(i)
|
|
names.append(self.app.settings.value("Name"))
|
|
|
|
shortL0.append(self.app.settings.value("ShortL0"))
|
|
shortL1.append(self.app.settings.value("ShortL1"))
|
|
shortL2.append(self.app.settings.value("ShortL2"))
|
|
shortL3.append(self.app.settings.value("ShortL3"))
|
|
shortDelay.append(self.app.settings.value("ShortDelay"))
|
|
|
|
openC0.append(self.app.settings.value("OpenC0"))
|
|
openC1.append(self.app.settings.value("OpenC1"))
|
|
openC2.append(self.app.settings.value("OpenC2"))
|
|
openC3.append(self.app.settings.value("OpenC3"))
|
|
openDelay.append(self.app.settings.value("OpenDelay"))
|
|
|
|
loadR.append(self.app.settings.value("LoadR"))
|
|
loadL.append(self.app.settings.value("LoadL"))
|
|
loadC.append(self.app.settings.value("LoadC"))
|
|
loadDelay.append(self.app.settings.value("LoadDelay"))
|
|
|
|
throughDelay.append(self.app.settings.value("ThroughDelay"))
|
|
self.app.settings.endArray()
|
|
|
|
self.app.settings.beginWriteArray("CalibrationStandards")
|
|
self.app.settings.remove("")
|
|
self.app.settings.endArray()
|
|
|
|
self.app.settings.beginWriteArray(
|
|
"CalibrationStandards", len(names)
|
|
)
|
|
for i, name in enumerate(names):
|
|
self.app.settings.setArrayIndex(i)
|
|
self.app.settings.setValue("Name", name)
|
|
|
|
self.app.settings.setValue("ShortL0", shortL0[i])
|
|
self.app.settings.setValue("ShortL1", shortL1[i])
|
|
self.app.settings.setValue("ShortL2", shortL2[i])
|
|
self.app.settings.setValue("ShortL3", shortL3[i])
|
|
self.app.settings.setValue("ShortDelay", shortDelay[i])
|
|
|
|
self.app.settings.setValue("OpenC0", openC0[i])
|
|
self.app.settings.setValue("OpenC1", openC1[i])
|
|
self.app.settings.setValue("OpenC2", openC2[i])
|
|
self.app.settings.setValue("OpenC3", openC3[i])
|
|
self.app.settings.setValue("OpenDelay", openDelay[i])
|
|
|
|
self.app.settings.setValue("LoadR", loadR[i])
|
|
self.app.settings.setValue("LoadL", loadL[i])
|
|
self.app.settings.setValue("LoadC", loadC[i])
|
|
self.app.settings.setValue("LoadDelay", loadDelay[i])
|
|
|
|
self.app.settings.setValue("ThroughDelay", throughDelay[i])
|
|
self.app.settings.endArray()
|
|
|
|
self.app.settings.sync()
|
|
self.listCalibrationStandards()
|
|
|
|
def reset(self):
|
|
self.app.calibration = Calibration()
|
|
for label in self.cal_label.values():
|
|
label.setText("Uncalibrated")
|
|
self.calibration_status_label.setText("Device calibration")
|
|
self.calibration_source_label.setText("Device")
|
|
self.notes_textedit.clear()
|
|
|
|
if len(self.app.worker.rawData11) > 0:
|
|
# There's raw data, so we can get corrected data
|
|
logger.debug("Saving and displaying raw data.")
|
|
self.app.saveData(
|
|
self.app.worker.rawData11,
|
|
self.app.worker.rawData21,
|
|
self.app.sweepSource,
|
|
)
|
|
self.app.worker.signals.updated.emit()
|
|
|
|
def setOffsetDelay(self, value: float):
|
|
logger.debug("New offset delay value: %f ps", value)
|
|
self.app.worker.offsetDelay = value / 1e12
|
|
if len(self.app.worker.rawData11) > 0:
|
|
# There's raw data, so we can get corrected data
|
|
logger.debug("Applying new offset to existing sweep data.")
|
|
(
|
|
self.app.worker.data11,
|
|
self.app.worker.data21,
|
|
) = self.app.worker.applyCalibration(
|
|
self.app.worker.rawData11, self.app.worker.rawData21
|
|
)
|
|
logger.debug("Saving and displaying corrected data.")
|
|
self.app.saveData(
|
|
self.app.worker.data11,
|
|
self.app.worker.data21,
|
|
self.app.sweepSource,
|
|
)
|
|
self.app.worker.signals.updated.emit()
|
|
|
|
def calculate(self):
|
|
cal_element = self.app.calibration.cal_element
|
|
if self.app.sweep_control.btn_stop.isEnabled():
|
|
self.app.showError(
|
|
"Unable to apply calibration while a sweep is running."
|
|
" Please stop the sweep and try again."
|
|
)
|
|
return
|
|
|
|
cal_element.short_is_ideal = True
|
|
cal_element.open_is_ideal = True
|
|
cal_element.load_is_ideal = True
|
|
cal_element.throuh_is_ideal = True
|
|
|
|
# TODO: all ideal or not?
|
|
if not self.use_ideal_values.isChecked():
|
|
cal_element.short_is_ideal = False
|
|
cal_element.open_is_ideal = False
|
|
cal_element.load_is_ideal = False
|
|
cal_element.throuh_is_ideal = False
|
|
|
|
# We are using custom calibration standards
|
|
|
|
cal_element.short_l0 = (
|
|
getFloatValue(self.short_l0_input.text()) / 1.0e12
|
|
)
|
|
cal_element.short_l1 = (
|
|
getFloatValue(self.short_l1_input.text()) / 1.0e24
|
|
)
|
|
cal_element.short_l2 = (
|
|
getFloatValue(self.short_l2_input.text()) / 1.0e33
|
|
)
|
|
cal_element.short_l3 = (
|
|
getFloatValue(self.short_l3_input.text()) / 1.0e42
|
|
)
|
|
cal_element.short_length = (
|
|
getFloatValue(self.short_length.text()) / 1.0e12
|
|
)
|
|
|
|
cal_element.open_c0 = (
|
|
getFloatValue(self.open_c0_input.text()) / 1.0e15
|
|
)
|
|
cal_element.open_c1 = (
|
|
getFloatValue(self.open_c1_input.text()) / 1.0e27
|
|
)
|
|
cal_element.open_c2 = (
|
|
getFloatValue(self.open_c2_input.text()) / 1.0e36
|
|
)
|
|
cal_element.open_c3 = (
|
|
getFloatValue(self.open_c3_input.text()) / 1.0e45
|
|
)
|
|
cal_element.openLength = (
|
|
getFloatValue(self.open_length.text()) / 1.0e12
|
|
)
|
|
|
|
cal_element.load_r = getFloatValue(self.load_resistance.text())
|
|
cal_element.load_l = (
|
|
getFloatValue(self.load_inductance.text()) / 1.0e12
|
|
)
|
|
cal_element.load_c = (
|
|
getFloatValue(self.load_capacitance.text()) / 1.0e15
|
|
)
|
|
cal_element.load_length = (
|
|
getFloatValue(self.load_length.text()) / 1.0e12
|
|
)
|
|
|
|
cal_element.through_length = (
|
|
getFloatValue(self.through_length.text()) / 1.0e12
|
|
)
|
|
|
|
logger.debug("Attempting calibration calculation.")
|
|
try:
|
|
self.app.calibration.calc_corrections()
|
|
self.calibration_status_label.setText(
|
|
_format_cal_label(
|
|
self.app.calibration.size(), "Application calibration"
|
|
)
|
|
)
|
|
if self.use_ideal_values.isChecked():
|
|
self.calibration_source_label.setText(
|
|
self.app.calibration.source
|
|
)
|
|
else:
|
|
self.calibration_source_label.setText(
|
|
f"{self.app.calibration.source} (Standards: Custom)"
|
|
)
|
|
|
|
if self.app.worker.rawData11:
|
|
# There's raw data, so we can get corrected data
|
|
logger.debug("Applying calibration to existing sweep data.")
|
|
(
|
|
self.app.worker.data11,
|
|
self.app.worker.data21,
|
|
) = self.app.worker.applyCalibration(
|
|
self.app.worker.rawData11, self.app.worker.rawData21
|
|
)
|
|
logger.debug("Saving and displaying corrected data.")
|
|
self.app.saveData(
|
|
self.app.worker.data11,
|
|
self.app.worker.data21,
|
|
self.app.sweepSource,
|
|
)
|
|
self.app.worker.signals.updated.emit()
|
|
except ValueError as e:
|
|
if logger.isEnabledFor(logging.DEBUG):
|
|
raise
|
|
# showError here hides the calibration window,
|
|
# so we need to pop up our own
|
|
QtWidgets.QMessageBox.warning(
|
|
self, "Error applying calibration", str(e)
|
|
)
|
|
self.calibration_status_label.setText(
|
|
"Applying calibration failed."
|
|
)
|
|
self.calibration_source_label.setText(self.app.calibration.source)
|
|
|
|
def loadCalibration(self):
|
|
filename, _ = QtWidgets.QFileDialog.getOpenFileName(
|
|
filter="Calibration Files (*.cal);;All files (*.*)"
|
|
)
|
|
if filename:
|
|
self.app.calibration.load(filename)
|
|
if not self.app.calibration.isValid1Port():
|
|
return
|
|
for i, name in enumerate(
|
|
("short", "open", "load", "through", "isolation", "thrurefl")
|
|
):
|
|
self.cal_label[name].setText(
|
|
_format_cal_label(
|
|
self.app.calibration.data_size(name), "Loaded"
|
|
)
|
|
)
|
|
if i == 2 and not self.app.calibration.isValid2Port():
|
|
break
|
|
self.calculate()
|
|
self.notes_textedit.clear()
|
|
for note in self.app.calibration.notes:
|
|
self.notes_textedit.appendPlainText(note)
|
|
self.app.settings.setValue("CalibrationFile", filename)
|
|
|
|
def saveCalibration(self):
|
|
if not self.app.calibration.isCalculated:
|
|
logger.debug("Attempted to save an uncalculated calibration.")
|
|
self.app.showError("Cannot save an unapplied calibration state.")
|
|
return
|
|
filedialog = QtWidgets.QFileDialog(self)
|
|
filedialog.setDefaultSuffix("cal")
|
|
filedialog.setNameFilter("Calibration Files (*.cal);;All files (*.*)")
|
|
filedialog.setAcceptMode(QtWidgets.QFileDialog.AcceptMode.AcceptSave)
|
|
if filedialog.exec():
|
|
filename = filedialog.selectedFiles()[0]
|
|
else:
|
|
return
|
|
if not filename:
|
|
logger.debug("No file name selected.")
|
|
return
|
|
self.app.calibration.notes = (
|
|
self.notes_textedit.toPlainText().splitlines()
|
|
)
|
|
try:
|
|
self.app.calibration.save(filename)
|
|
self.app.settings.setValue("CalibrationFile", filename)
|
|
except IOError:
|
|
logger.error("Calibration save failed!")
|
|
self.app.showError("Calibration save failed.")
|
|
|
|
def idealCheckboxChanged(self):
|
|
self.cal_short_box.setDisabled(self.use_ideal_values.isChecked())
|
|
self.cal_open_box.setDisabled(self.use_ideal_values.isChecked())
|
|
self.cal_load_box.setDisabled(self.use_ideal_values.isChecked())
|
|
self.cal_through_box.setDisabled(self.use_ideal_values.isChecked())
|
|
self.cal_standard_save_box.setDisabled(
|
|
self.use_ideal_values.isChecked()
|
|
)
|
|
|
|
def automaticCalibration(self):
|
|
self.btn_automatic.setDisabled(True)
|
|
introduction = QtWidgets.QMessageBox(
|
|
QtWidgets.QMessageBox.Icon.Information,
|
|
"Calibration assistant",
|
|
(
|
|
"This calibration assistant will help you create a calibration"
|
|
" in the NanoVNASaver application. It will sweep the"
|
|
"standards for you, and guide you through the process.<br><br>"
|
|
"Before starting, ensure you have Open, Short and Load"
|
|
" standards available, and the cables you wish to have"
|
|
" calibrated with the device connected.<br><br>"
|
|
'If you want a 2-port calibration, also have a "through"'
|
|
" connector to hand.<br><br>"
|
|
"<b>The best results are achieved by having the NanoVNA"
|
|
" calibrated on-device for the full span of interest and saved"
|
|
" to save slot 0 before starting.</b><br><br>"
|
|
"Once you are ready to proceed, press Ok."
|
|
),
|
|
QtWidgets.QMessageBox.StandardButton.Ok | QtWidgets.QMessageBox.StandardButton.Cancel,
|
|
)
|
|
response = introduction.exec()
|
|
if response != QtWidgets.QMessageBox.StandardButton.Ok:
|
|
self.btn_automatic.setDisabled(False)
|
|
return
|
|
logger.info("Starting automatic calibration assistant.")
|
|
if not self.app.vna.connected():
|
|
QtWidgets.QMessageBox(
|
|
QtWidgets.QMessageBox.Icon.Information,
|
|
"NanoVNA not connected",
|
|
(
|
|
"Please ensure the NanoVNA is connected before attempting"
|
|
" calibration."
|
|
),
|
|
).exec()
|
|
self.btn_automatic.setDisabled(False)
|
|
return
|
|
|
|
if self.app.sweep.properties.mode == SweepMode.CONTINOUS:
|
|
QtWidgets.QMessageBox(
|
|
QtWidgets.QMessageBox.Icon.Information,
|
|
"Continuous sweep enabled",
|
|
(
|
|
"Please disable continuous sweeping before attempting"
|
|
" calibration."
|
|
),
|
|
).exec()
|
|
self.btn_automatic.setDisabled(False)
|
|
return
|
|
|
|
short_step = QtWidgets.QMessageBox(
|
|
QtWidgets.QMessageBox.Icon.Information,
|
|
"Calibrate short",
|
|
(
|
|
'Please connect the "short" standard to port 0 of the'
|
|
" NanoVNA.\n\n"
|
|
"Press Ok when you are ready to continue."
|
|
),
|
|
QtWidgets.QMessageBox.StandardButton.Ok | QtWidgets.QMessageBox.StandardButton.Cancel,
|
|
)
|
|
|
|
response = short_step.exec()
|
|
if response != QtWidgets.QMessageBox.StandardButton.Ok:
|
|
self.btn_automatic.setDisabled(False)
|
|
return
|
|
self.reset()
|
|
self.app.calibration.source = "Calibration assistant"
|
|
self.nextStep = 0
|
|
self.app.worker.signals.finished.connect(self.automaticCalibrationStep)
|
|
self.app.sweep_start()
|
|
return
|
|
|
|
def automaticCalibrationStep(self):
|
|
if self.nextStep == -1:
|
|
self.app.worker.signals.finished.disconnect(
|
|
self.automaticCalibrationStep
|
|
)
|
|
return
|
|
|
|
if self.nextStep == 0:
|
|
# Short
|
|
self.cal_save("short")
|
|
self.nextStep = 1
|
|
|
|
open_step = QtWidgets.QMessageBox(
|
|
QtWidgets.QMessageBox.Icon.Information,
|
|
"Calibrate open",
|
|
(
|
|
'Please connect the "open" standard to port 0 of the'
|
|
" NanoVNA.\n\n"
|
|
"Either use a supplied open, or leave the end of the"
|
|
" cable unconnected if desired.\n\n"
|
|
"Press Ok when you are ready to continue."
|
|
),
|
|
QtWidgets.QMessageBox.StandardButton.Ok | QtWidgets.QMessageBox.StandardButton.Cancel,
|
|
)
|
|
|
|
response = open_step.exec()
|
|
if response != QtWidgets.QMessageBox.StandardButton.Ok:
|
|
self.nextStep = -1
|
|
self.btn_automatic.setDisabled(False)
|
|
self.app.worker.signals.finished.disconnect(
|
|
self.automaticCalibrationStep
|
|
)
|
|
return
|
|
self.app.sweep_start()
|
|
return
|
|
|
|
if self.nextStep == 1:
|
|
# Open
|
|
self.cal_save("open")
|
|
self.nextStep = 2
|
|
load_step = QtWidgets.QMessageBox(
|
|
QtWidgets.QMessageBox.Icon.Information,
|
|
"Calibrate load",
|
|
(
|
|
'Please connect the "load" standard to port 0 of the'
|
|
" NanoVNA.\n\n"
|
|
"Press Ok when you are ready to continue."
|
|
),
|
|
QtWidgets.QMessageBox.StandardButton.Ok | QtWidgets.QMessageBox.StandardButton.Cancel,
|
|
)
|
|
|
|
response = load_step.exec()
|
|
if response != QtWidgets.QMessageBox.StandardButton.Ok:
|
|
self.btn_automatic.setDisabled(False)
|
|
self.nextStep = -1
|
|
self.app.worker.signals.finished.disconnect(
|
|
self.automaticCalibrationStep
|
|
)
|
|
return
|
|
self.app.sweep_start()
|
|
return
|
|
|
|
if self.nextStep == 2:
|
|
# Load
|
|
self.cal_save("load")
|
|
self.nextStep = 3
|
|
continue_step = QtWidgets.QMessageBox(
|
|
QtWidgets.QMessageBox.Icon.Information,
|
|
"1-port calibration complete",
|
|
(
|
|
"The required steps for a 1-port calibration are now"
|
|
" complete.\n\n"
|
|
"If you wish to continue and perform a 2-port calibration,"
|
|
' press "Yes". To apply the 1-port calibration and stop,'
|
|
' press "Apply"'
|
|
),
|
|
QtWidgets.QMessageBox.StandardButton.Yes
|
|
| QtWidgets.QMessageBox.StandardButton.Apply
|
|
| QtWidgets.QMessageBox.StandardButton.Cancel,
|
|
)
|
|
|
|
response = continue_step.exec()
|
|
if response == QtWidgets.QMessageBox.StandardButton.Apply:
|
|
self.calculate()
|
|
self.nextStep = -1
|
|
self.app.worker.signals.finished.disconnect(
|
|
self.automaticCalibrationStep
|
|
)
|
|
self.btn_automatic.setDisabled(False)
|
|
return
|
|
if response != QtWidgets.QMessageBox.StandardButton.Yes:
|
|
self.btn_automatic.setDisabled(False)
|
|
self.nextStep = -1
|
|
self.app.worker.signals.finished.disconnect(
|
|
self.automaticCalibrationStep
|
|
)
|
|
return
|
|
|
|
isolation_step = QtWidgets.QMessageBox(
|
|
QtWidgets.QMessageBox.Icon.Information,
|
|
"Calibrate isolation",
|
|
(
|
|
'Please connect the "load" standard to port 1 of the'
|
|
" NanoVNA.\n\n"
|
|
"If available, also connect a load standard to"
|
|
" port 0.\n\n"
|
|
"Press Ok when you are ready to continue."
|
|
),
|
|
QtWidgets.QMessageBox.StandardButton.Ok | QtWidgets.QMessageBox.StandardButton.Cancel,
|
|
)
|
|
|
|
response = isolation_step.exec()
|
|
if response != QtWidgets.QMessageBox.StandardButton.Ok:
|
|
self.btn_automatic.setDisabled(False)
|
|
self.nextStep = -1
|
|
self.app.worker.signals.finished.disconnect(
|
|
self.automaticCalibrationStep
|
|
)
|
|
return
|
|
self.app.sweep_start()
|
|
return
|
|
|
|
if self.nextStep == 3:
|
|
# Isolation
|
|
self.cal_save("isolation")
|
|
self.nextStep = 4
|
|
through_step = QtWidgets.QMessageBox(
|
|
QtWidgets.QMessageBox.Icon.Information,
|
|
"Calibrate through",
|
|
(
|
|
'Please connect the "through" standard between'
|
|
" port 0 and port 1 of the NanoVNA.\n\n"
|
|
"Press Ok when you are ready to continue."
|
|
),
|
|
QtWidgets.QMessageBox.StandardButton.Ok | QtWidgets.QMessageBox.StandardButton.Cancel,
|
|
)
|
|
|
|
response = through_step.exec()
|
|
if response != QtWidgets.QMessageBox.StandardButton.Ok:
|
|
self.btn_automatic.setDisabled(False)
|
|
self.nextStep = -1
|
|
self.app.worker.signals.finished.disconnect(
|
|
self.automaticCalibrationStep
|
|
)
|
|
return
|
|
self.app.sweep_start()
|
|
return
|
|
|
|
if self.nextStep == 4:
|
|
# Done
|
|
self.cal_save("thrurefl")
|
|
self.cal_save("through")
|
|
apply_step = QtWidgets.QMessageBox(
|
|
QtWidgets.QMessageBox.Icon.Information,
|
|
"Calibrate complete",
|
|
(
|
|
"The calibration process is now complete. Press"
|
|
' "Apply" to apply the calibration parameters.'
|
|
),
|
|
QtWidgets.QMessageBox.StandardButton.Apply | QtWidgets.QMessageBox.StandardButton.Cancel,
|
|
)
|
|
|
|
response = apply_step.exec()
|
|
if response != QtWidgets.QMessageBox.StandardButton.Apply:
|
|
self.btn_automatic.setDisabled(False)
|
|
self.nextStep = -1
|
|
self.app.worker.signals.finished.disconnect(
|
|
self.automaticCalibrationStep
|
|
)
|
|
return
|
|
|
|
self.calculate()
|
|
self.btn_automatic.setDisabled(False)
|
|
self.nextStep = -1
|
|
self.app.worker.signals.finished.disconnect(
|
|
self.automaticCalibrationStep
|
|
)
|
|
return
|