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test_rftools.py
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# NanoVNASaver
#
# A python program to view and export Touchstone data from a NanoVNA
# Copyright (C) 2019, 2020 Rune B. Broberg
# Copyright (C) 2020 NanoVNA-Saver Authors
#
# This program is free software: you can redistribute it and/or modify
# it under the terms of the GNU General Public License as published by
# the Free Software Foundation, either version 3 of the License, or
# (at your option) any later version.
#
# This program is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
# GNU General Public License for more details.
#
# You should have received a copy of the GNU General Public License
# along with this program. If not, see <https://www.gnu.org/licenses/>.
import math
import unittest
# Import targets to be tested
from NanoVNASaver.RFTools import Datapoint, \
norm_to_impedance, impedance_to_norm, \
reflection_coefficient, gamma_to_impedance, clamp_value, \
parallel_to_serial, serial_to_parallel, \
impedance_to_capacitance, impedance_to_inductance, \
groupDelay, corr_att_data
class TestRFTools(unittest.TestCase):
def test_norm_to_impedance(self):
self.assertEqual(norm_to_impedance(50, 0), 0)
self.assertEqual(norm_to_impedance(1), 50)
self.assertEqual(norm_to_impedance(-1), -50)
self.assertEqual(norm_to_impedance(1.5), 75)
self.assertEqual(norm_to_impedance(1, 75), 75)
self.assertEqual(norm_to_impedance(complex(0, 1)), complex(0, 50))
self.assertEqual(norm_to_impedance(complex(1, 1)), complex(50, 50))
self.assertEqual(norm_to_impedance(complex(0, -1)), complex(0, -50))
self.assertAlmostEqual(
norm_to_impedance(complex(3.33333, 3.33333), 30),
complex(100, 100), 3)
def test_impedance_to_norm(self):
self.assertRaises(ZeroDivisionError, impedance_to_norm, 0, 0)
self.assertEqual(impedance_to_norm(0), 0)
self.assertEqual(impedance_to_norm(50), 1)
self.assertEqual(impedance_to_norm(-50), -1)
self.assertEqual(impedance_to_norm(75), 1.5)
self.assertEqual(impedance_to_norm(75, 75), 1)
self.assertEqual(impedance_to_norm(complex(0, 50)), complex(0, 1))
self.assertEqual(impedance_to_norm(complex(50, 50)), complex(1, 1))
self.assertEqual(impedance_to_norm(complex(0, -50)), complex(0, -1))
self.assertAlmostEqual(impedance_to_norm(
complex(100, 100), 30), (complex(3.333, 3.333)), 3)
def test_reflection_coefficient(self):
self.assertRaises(ZeroDivisionError, reflection_coefficient, -50)
self.assertEqual(reflection_coefficient(50), 0)
self.assertEqual(reflection_coefficient(75), 0.2)
# TODO: insert more test values here
def test_gamma_to_impedance(self):
self.assertEqual(gamma_to_impedance(0), 50)
self.assertAlmostEqual(gamma_to_impedance(0.2), 75)
self.assertEqual(gamma_to_impedance(1), math.inf)
# TODO: insert more test values here
def test_clamp_value(self):
self.assertEqual(clamp_value(1, 0, 10), 1)
self.assertEqual(clamp_value(1, 2, 10), 2)
self.assertEqual(clamp_value(1, -10, -1), -1)
def test_parallel_to_serial(self):
self.assertRaises(ZeroDivisionError, parallel_to_serial, 0)
self.assertAlmostEqual(
parallel_to_serial(complex(52, 260)),
complex(50, 10))
def test_serial_to_parallel(self):
self.assertEqual(
serial_to_parallel(complex(0, 0)),
complex(math.inf, math.inf))
self.assertEqual(
serial_to_parallel(complex(50, 0)),
complex(50, math.inf))
self.assertEqual(
serial_to_parallel(complex(0, 50)),
complex(math.inf, 50))
self.assertAlmostEqual(
serial_to_parallel(complex(50, 10)),
complex(52, 260))
def test_impedance_to_capacity(self):
self.assertEqual(impedance_to_capacitance(0, 0), -math.inf)
self.assertEqual(impedance_to_capacitance(0, 10), math.inf)
self.assertAlmostEqual(
impedance_to_capacitance(complex(50, 159.1549), 100000),
1e-8)
def test_impedance_to_inductance(self):
self.assertEqual(impedance_to_inductance(0, 0), 0)
self.assertAlmostEqual(
impedance_to_inductance(complex(50, 159.1549), 100000),
2.533e-4)
def test_groupDelay(self):
dpoints = [
Datapoint(100000, 0.1091, 0.3118),
Datapoint(100001, 0.1091, 0.3124),
Datapoint(100002, 0.1091, 0.3130),
]
dpoints0 = [
Datapoint(100000, 0.1091, 0.3124),
Datapoint(100000, 0.1091, 0.3124),
Datapoint(100000, 0.1091, 0.3124),
]
self.assertAlmostEqual(groupDelay(dpoints, 1), -9.514e-5)
self.assertEqual(groupDelay(dpoints0, 1), 0.0)
def test_cor_att_data(self):
dp1 = [
Datapoint(100000, 0.1091, 0.3118),
Datapoint(100001, 0.1091, 0.3124),
Datapoint(100002, 0.1091, 0.3130),
]
dp2 = corr_att_data(dp1, 10)
self.assertEqual(dp2[0].gain - dp1[0].gain, 10)
self.assertEqual(len(dp1), len(dp2))
# ignore negative attenuation
dp3 = corr_att_data(dp1, -10)
self.assertEqual(dp1, dp3)
class TestRFToolsDatapoint(unittest.TestCase):
def setUp(self):
self.dp = Datapoint(100000, 0.1091, 0.3118)
self.dp0 = Datapoint(100000, 0, 0)
self.dp50 = Datapoint(100000, 1, 0)
self.dp75 = Datapoint(100000, 0.2, 0)
self.dp_im50 = Datapoint(100000, 0, 1)
def test_properties(self):
self.assertEqual(self.dp.z, complex(0.1091, 0.3118))
self.assertEqual(self.dp.wavelength, 2997.92458)
self.assertAlmostEqual(self.dp.phase, 1.23420722)
self.assertEqual(self.dp0.gain, -math.inf)
self.assertAlmostEqual(self.dp.gain, -9.6208748)
self.assertEqual(self.dp50.vswr, 1.0)
self.assertAlmostEqual(self.dp.vswr, 1.9865736)
self.assertAlmostEqual(self.dp.impedance(),
complex(49.997525, 34.9974501))
self.assertAlmostEqual(self.dp.impedance(75),
complex(74.99628755, 52.49617517))
self.assertEqual(self.dp0.qFactor(), 0.0)
self.assertEqual(self.dp75.qFactor(), 0.0)
self.assertEqual(self.dp_im50.qFactor(), -1.0)
self.assertAlmostEqual(self.dp.qFactor(), 0.6999837)
self.assertAlmostEqual(self.dp.capacitiveEquivalent(), -4.54761539e-08)
self.assertAlmostEqual(self.dp.inductiveEquivalent(), 5.57001e-05)