Пример #1
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    def test_aishi(self):
        part = capacitors_partname_decoder.resolve("EWH1EM221F11OT")
        self.assertIsNotNone(part)
        component = Capacitor(capacitor_type=Capacitor.Type.MLCC,
                              manufacturer="Aishi",
                              partnumber="EWH1EM221F11OT",
                              working_temperature_range=TemperatureRange('-40', '105'),
                              series="WH",
                              capacitance="220uF",
                              voltage="25V",
                              tolerance={'min': "-20%", 'max': '+20%'},
                              dielectric_type="Aluminium oxide",
                              case="8x11",
                              note="Miniature aluminium electrolytic capacitors")
        self.assertEqual(component, part)

        part = capacitors_partname_decoder.resolve("EWH1KM2R2D11OT")
        self.assertIsNotNone(part)
        component = Capacitor(capacitor_type=Capacitor.Type.MLCC,
                              manufacturer="Aishi",
                              partnumber="EWH1KM2R2D11OT",
                              working_temperature_range=TemperatureRange('-40', '105'),
                              series="WH",
                              capacitance="2.2uF",
                              voltage="100V",
                              tolerance={'min': "-20%", 'max': '+20%'},
                              dielectric_type="Aluminium oxide",
                              case="5x11",
                              note="Miniature aluminium electrolytic capacitors")
        self.assertEqual(component, part)
Пример #2
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 def test_yaego(self):
     # ---------------- CC -----------------
     with self.subTest("CC0402JRNPO9BN330"):
         part = capacitors_partname_decoder.resolve("CC0402JRNPO9BN330")
         self.assertIsNotNone(part)
         component = Capacitor(capacitor_type=Capacitor.Type.MLCC,
                               manufacturer="Yageo",
                               partnumber="CC0402JRNPO9BN330",
                               working_temperature_range=TemperatureRange('-55', '125'),
                               series="CC",
                               capacitance="33pF",
                               voltage="50V",
                               tolerance={'min': "-5%", 'max': '+5%'},
                               dielectric_type="NP0",
                               case="0402",
                               note="Paper/PE taping reel; Reel 7 inch")
         self.assertEqual(component, part)
     with self.subTest("CC1206MKX7RDBB102"):
         part = capacitors_partname_decoder.resolve("CC1206MKX7RDBB102")
         self.assertIsNotNone(part)
         component = Capacitor(capacitor_type=Capacitor.Type.MLCC,
                               manufacturer="Yageo",
                               partnumber="CC1206MKX7RDBB102",
                               working_temperature_range=TemperatureRange('-55', '125'),
                               series="CC",
                               capacitance="1nF",
                               voltage="2000V",
                               tolerance={'min': "-20%", 'max': '+20%'},
                               dielectric_type="X7R",
                               case="1206",
                               note="Blister taping reel; Reel 7 inch")
         self.assertEqual(component, part)
Пример #3
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def capacitor_from_partkeepr_json(capacitor_json):
    try:
        parameters = capacitor_json["parameters"]
        if len(capacitor_json["manufacturers"]) > 0:
            part_number = capacitor_json["manufacturers"][0]['partNumber']
            manufacturer_name = capacitor_json["manufacturers"][0]['name']
        else:
            part_number = capacitor_json['name']
            manufacturer_name = None
        capacitor_type = Capacitor.Type(parameters["Capacitor Type"]['value'])
        capacitance = capacitance_from_partkeepr_parameters(parameters)
        working_temperature = working_temperature_range_from_partkeepr_json(parameters)
        if 'Voltage' in parameters:
            if parameters['Voltage']['valueMax'] is not None:
                voltage = parameters['Voltage']['valueMax'] + "V"
            else:
                voltage = parameters["Voltage"]['value'] + 'V'
        else:
            voltage = None
        return Capacitor(capacitor_type=capacitor_type,
                         manufacturer=manufacturer_name,
                         partnumber=part_number,
                         working_temperature_range=working_temperature,
                         series=None,
                         capacitance=capacitance,
                         voltage=voltage,
                         tolerance=capacitanceTolerance_from_partkeepr_json(parameters['Tolerance']) if 'Tolerance' in parameters else None,
                         dielectric_type=parameters['Dielectric Type']['value'] if 'Dielectric Type' in parameters else None,
                         case=capacitor_json['footprint'] if len(capacitor_json['footprint']) > 0 else None,
                         note="")
    except TypeError:
        print(capacitor_json)
        raise
Пример #4
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    def test_samwha(self):
        part = capacitors_partname_decoder.resolve("CA1E337M10010VR")
        component = Capacitor(capacitor_type=Capacitor.Type.ElectrolyticAluminium,
                              manufacturer="Samwha",
                              partnumber="CA1E337M10010VR",
                              working_temperature_range=TemperatureRange('-55', '105'),
                              series="CA",
                              capacitance="330uF",
                              voltage="25V",
                              tolerance={'min': "-20%", 'max': '+20%'},
                              dielectric_type="Aluminium oxide",
                              case="10mm",
                              note="Chip type, Long Life Series")
        self.assertEqual(component, part)

        part = capacitors_partname_decoder.resolve("SD1J475M05011BB")
        component = Capacitor(capacitor_type=Capacitor.Type.ElectrolyticAluminium,
                              manufacturer="Samwha",
                              partnumber="SD1J475M05011BB",
                              working_temperature_range=TemperatureRange('-40', '85'),
                              series="SD",
                              capacitance="4.7uF",
                              voltage="63V",
                              tolerance={'min': "-20%", 'max': '+20%'},
                              dielectric_type="Aluminium oxide",
                              case="5mm",
                              note="Standard, For General Purposes Series")
        self.assertEqual(component, part)
Пример #5
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    def test_taiyo_yuden(self):
        part = capacitors_partname_decoder.resolve("EMK212B7475KG-T")
        component = Capacitor(capacitor_type=Capacitor.Type.MLCC,
                              manufacturer="Taiyo Yuden",
                              partnumber="EMK212B7475KG-T",
                              working_temperature_range=TemperatureRange('-55', '125'),
                              series="M",
                              capacitance="4.7uF",
                              voltage="16V",
                              tolerance={'min': "-10%", 'max': '+10%'},
                              dielectric_type="X7R",
                              case="0805",
                              note="Multilayer ceramic capacitor")
        self.assertEqual(component, part)

        part = capacitors_partname_decoder.resolve("HMK325B7225KM-T")
        component = Capacitor(capacitor_type=Capacitor.Type.MLCC,
                              manufacturer="Taiyo Yuden",
                              partnumber="HMK325B7225KM-T",
                              working_temperature_range=TemperatureRange('-55', '125'),
                              series="M",
                              capacitance="2.2uF",
                              voltage="100V",
                              tolerance={'min': "-10%", 'max': '+10%'},
                              dielectric_type="X7R",
                              case="1210",
                              note="Multilayer ceramic capacitor")
        self.assertEqual(component, part)
Пример #6
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 def test_JRG(self):
     part = capacitors_partname_decoder.resolve('JRG0J331M02500630115000B')
     component = Capacitor(capacitor_type=Capacitor.Type.MLCC,
                           manufacturer="JB Capacitors Company",
                           partnumber="JRG0J331M02500630115000B",
                           working_temperature_range=TemperatureRange('-40', '105'),
                           series="JRG",
                           capacitance="330uF",
                           voltage="6.3V",
                           tolerance={'min': "-20%", 'max': '+20%'},
                           dielectric_type="Aluminium oxide",
                           case='6.3x11.5mm',
                           note="Radial Aluminum Electrolytic Capacitor, Pitch=2.5, Lead length=Standard, Packing: Bulk")
     self.assertEqual(component, part)
Пример #7
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 def test_samsung_CL(self):
     part = capacitors_partname_decoder.resolve('CL05B222KB5NNNC')
     component = Capacitor(capacitor_type=Capacitor.Type.ElectrolyticAluminium,
                           manufacturer="Samsung",
                           partnumber="CL05B222KB5NNNC",
                           working_temperature_range=TemperatureRange('-55', '125'),
                           series="CL",
                           capacitance="2.2nF",
                           voltage="50V",
                           tolerance={'min': "-10%", 'max': '+10%'},
                           dielectric_type="X7R",
                           case="0402",
                           note="Normal")
     self.assertEqual(component, part)
Пример #8
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 def test_nichicon(self):
     part = capacitors_partname_decoder.resolve("UKA1H220MDD")
     component = Capacitor(capacitor_type=Capacitor.Type.ElectrolyticAluminium,
                           manufacturer="Nichicon",
                           partnumber="UKA1H220MDD",
                           working_temperature_range=TemperatureRange('-55', '105'),
                           series="KA",
                           capacitance="22uF",
                           voltage="50V",
                           tolerance={'min': "-20%", 'max': '+20%'},
                           dielectric_type="Aluminium oxide",
                           case="5",
                           note="For High Grade Audio Equipment, Wide Temperature Range")
     self.assertEqual(component, part)
Пример #9
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 def test_avx(self):
     part = capacitors_partname_decoder.resolve("04023C104KAT2A")
     component = Capacitor(capacitor_type=Capacitor.Type.ElectrolyticAluminium,
                           manufacturer="AVX",
                           partnumber="04023C104KAT2A",
                           working_temperature_range=TemperatureRange('-55', '125'),
                           series="",
                           capacitance="100nF",
                           voltage="25V",
                           tolerance={'min': "-10%", 'max': '+10%'},
                           dielectric_type="X7R",
                           case="0402",
                           note="Standard product")
     self.assertEqual(component, part)
Пример #10
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 def test_vishay_VJ(self):
     part = capacitors_partname_decoder.resolve('VJ0603D820JXCAJ')
     component = Capacitor(capacitor_type=Capacitor.Type.MLCC,
                           manufacturer="Vishay",
                           partnumber="VJ0603D820JXCAJ",
                           working_temperature_range=TemperatureRange('-55', '125'),
                           series="VJ",
                           capacitance="82pF",
                           voltage="200V",
                           tolerance={'min': "-5%", 'max': '+5%'},
                           dielectric_type="C0G",
                           case="0603",
                           note="Ni barrier100 % tin platematte finish")
     self.assertEqual(component, part)
Пример #11
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    def test_GCM(self):
        part = capacitors_partname_decoder.resolve('GCM155R71C104KA55D')
        component = Capacitor(
            capacitor_type=Capacitor.Type.MLCC,
            manufacturer="Murata Manufacturing",
            partnumber="GCM155R71C104KA55D",
            working_temperature_range=TemperatureRange('-55', '125'),
            series="GCM",
            capacitance="100nF",
            voltage="16V",
            tolerance={
                'min': "-10%",
                'max': '+10%'
            },
            dielectric_type="X7R",
            case="0402",
            note="Chip Multilayer Ceramic Capacitors for Automotive")
        self.assertEqual(component, part)

        part = capacitors_partname_decoder.resolve('GCM21BR71E105KA56L')
        component = Capacitor(
            capacitor_type=Capacitor.Type.MLCC,
            manufacturer="Murata Manufacturing",
            partnumber="GCM21BR71E105KA56L",
            working_temperature_range=TemperatureRange('-55', '125'),
            series="GCM",
            capacitance="1uF",
            voltage="25V",
            tolerance={
                'min': "-10%",
                'max': '+10%'
            },
            dielectric_type="X7R",
            case="0805",
            note="Chip Multilayer Ceramic Capacitors for Automotive")
        self.assertEqual(component, part)
Пример #12
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def decode_match(match):
    return Capacitor(capacitor_type=Capacitor.Type.MLCC,
                     manufacturer="Vishay",
                     partnumber=match.group(1) + match.group(2) +
                     match.group(3) + match.group(4) + match.group(5) +
                     match.group(6) + match.group(7) + match.group(8) +
                     match.group(9),
                     working_temperature_range=TemperatureRange('-55', '125'),
                     series='VJ',
                     capacitance=capacitance_string_to_farads(match.group(4)),
                     voltage=voltage[match.group(7)],
                     tolerance=tolerance[match.group(5)],
                     dielectric_type=dielectric_type[match.group(3)],
                     case=size[match.group(2)],
                     note=termination[match.group(6)])
Пример #13
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def decode_match(match):
    partnumber = match.group(1)+match.group(2)+match.group(3)+match.group(4)+match.group(5)+match.group(6)+\
                 match.group(7) + match.group(8)
    voltage_str = voltage[match.group(3)]
    return Capacitor(capacitor_type=Capacitor.Type.ElectrolyticAluminium,
                     manufacturer="Aishi",
                     partnumber=partnumber,
                     working_temperature_range=operating_temperature_range[match.group(2)](Decimal(voltage_str[:-1])),
                     series=match.group(2),
                     capacitance=capacitance_string_to_farads(match.group(5)) * Decimal('1000000'),
                     voltage=voltage_str,
                     tolerance=tolerance[match.group(4)],
                     dielectric_type="Aluminium oxide",
                     case=size_code[match.group(6)],
                     note=series[match.group(2)])
Пример #14
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def decode_match(match):
    return Capacitor(
        capacitor_type=Capacitor.Type.MLCC,
        manufacturer="Samsung",
        partnumber=match.group(1) + match.group(2) + match.group(3) +
        match.group(4) + match.group(5) + match.group(6) + match.group(7) +
        match.group(8) + match.group(9) + match.group(10) + match.group(11),
        working_temperature_range=operating_temperature_range[match.group(3)],
        series="CL",
        capacitance=capacitance_string_to_farads(match.group(4)),
        voltage=voltage[match.group(6)],
        tolerance=tolerance[match.group(5)],
        dielectric_type=dielectric_type[match.group(3)],
        case=size[match.group(2)],
        note=samsung_control_code[match.group(8)])
Пример #15
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 def test_kemet(self):
     with self.subTest("C0603C393K5RAC"):
         part = capacitors_partname_decoder.resolve("C0603C393K5RAC")
         self.assertIsNotNone(part)
         component = Capacitor(capacitor_type=Capacitor.Type.MLCC,
                               manufacturer="Kemet",
                               partnumber="C0603C393K5RAC",
                               working_temperature_range=TemperatureRange('-55', '125'),
                               series="C",
                               capacitance="39nF",
                               voltage="50V",
                               tolerance={'min': "-10%", 'max': '+10%'},
                               dielectric_type="X7R",
                               case="0603",
                               note="Standard")
         self.assertEqual(component, part)
Пример #16
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def decode_match(match):
    partname = match.group(1) + match.group(2) + match.group(3) + match.group(4) + match.group(
        5) + match.group(6) + match.group(7)
    dielectric = dielectric_type[match.group(2)]
    note = "Termination: " + termination[match.group(6)] + ", Packing: " + package_style[match.group(7)]
    return Capacitor(capacitor_type=Capacitor.Type.MLCC,
                     manufacturer="Fenghua Advanced Technology",
                     partnumber=partname,
                     working_temperature_range=operating_temperature_range[dielectric],
                     series=None,
                     capacitance=capacitance_string_to_farads(match.group(3)),
                     voltage=decode_voltage(match.group(5)),
                     tolerance=tolerance[match.group(4)],
                     dielectric_type=dielectric,
                     case=size[match.group(1)],
                     note=note)
Пример #17
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def decode_match(match):
    partname = match.group(1) + match.group(2) + match.group(3) + match.group(
        4) + match.group(5) + match.group(6) + match.group(7)
    partname += match.group(8) if match.group(8) is not None else ""
    return Capacitor(
        capacitor_type=Capacitor.Type.MLCC,
        manufacturer="Yageo",
        partnumber=partname,
        working_temperature_range=operating_temperature_range[match.group(5)],
        series='CC',
        capacitance=capacitance_string_to_farads(match.group(8)),
        voltage=voltage[match.group(6)],
        tolerance=tolerance[match.group(3)],
        dielectric_type=dielectric_type[match.group(5)],
        case=size[match.group(2)],
        note=packing_style[match.group(4)])
Пример #18
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def decode_match(match, series_code, height):
    partnumber = match.group(1) + match.group(2) + match.group(
        3) + match.group(4) + match.group(5) + match.group(6) + match.group(
            7) + match.group(8) + match.group(9)
    partnumber += match.group(10) if match.group(10) is not None else ""
    return Capacitor(
        capacitor_type=Capacitor.Type.MLCC,
        manufacturer="Murata Manufacturing",
        partnumber=partnumber,
        working_temperature_range=operating_temperature_range[match.group(5)],
        series=match.group(1) + match.group(2),
        capacitance=capacitance_string_to_farads(match.group(7)),
        voltage=voltage[match.group(6)],
        tolerance=tolerance[match.group(8)],
        dielectric_type=dielectric_type[match.group(5)],
        case=dimension[match.group(3)],
        note=series_code[match.group(2)])
Пример #19
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def decode_match_TZ(match):
    partnumber = match.group(1) + match.group(2) + match.group(
        3) + match.group(4) + match.group(5) + match.group(6) + match.group(7)
    series = match.group(2)
    capacitance_max = capacitance_string_to_farads(match.group(4))
    return Capacitor(
        capacitor_type=Capacitor.Type.CeramicTrimmer,
        manufacturer="Murata Manufacturing",
        partnumber=partnumber,
        working_temperature_range=operating_temperature_range_TZ[series],
        series=match.group(1) + series,
        capacitance=get_capacitance_range(series, capacitance_max),
        voltage=voltage_TZ[series](capacitance_max),
        tolerance=tolerance_TZ[series](capacitance_max),
        dielectric_type=None,
        case=None,
        note=series_TZ[match.group(2)])
Пример #20
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def decode_match(match):
    voltage_str = voltage[match.group(2)]
    partname = match.group(1) + match.group(2) + match.group(3) + match.group(
        4) + match.group(5) + match.group(6) + match.group(7)
    partname += match.group(8) if match.group(8) is not None else ""
    return Capacitor(
        capacitor_type=Capacitor.Type.ElectrolyticAluminium,
        manufacturer="Samwha",
        partnumber=partname,
        working_temperature_range=operating_temperature_range[match.group(1)](
            Decimal(voltage_str[:-1])),
        series=match.group(1),
        capacitance=capacitance_string_to_farads(match.group(3)),
        voltage=voltage_str,
        tolerance=tolerance[match.group(4)],
        dielectric_type="Aluminium oxide",
        case=case_diameter[match.group(5)],
        note=series[match.group(1)])
Пример #21
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 def test_GCD(self):
     part = capacitors_partname_decoder.resolve('GCD188R71H153KA01')
     component = Capacitor(
         capacitor_type=Capacitor.Type.MLCC,
         manufacturer="Murata Manufacturing",
         partnumber="GCD188R71H153KA01",
         working_temperature_range=TemperatureRange('-55', '125'),
         series="GCD",
         capacitance="15nF",
         voltage="50V",
         tolerance={
             'min': "-10%",
             'max': '+10%'
         },
         dielectric_type="X7R",
         case="0603",
         note="MLSC Design Chip Multilayer Ceramic Capacitors for Automotive"
     )
     self.assertEqual(component, part)
Пример #22
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 def test_0805(self):
     part = capacitors_partname_decoder.resolve('0805B472K500NT')
     component = Capacitor(
         capacitor_type=Capacitor.Type.MLCC,
         manufacturer="Fenghua Advanced Technology",
         partnumber="0805B472K500NT",
         working_temperature_range=TemperatureRange('-55', '125'),
         series=None,
         capacitance="4.7nF",
         voltage="50V",
         tolerance={
             'min': "-10%",
             'max': '+10%'
         },
         dielectric_type="X7R",
         case="0805",
         note=
         "Termination: Nickel Barrier Termination, Packing: Taping Package")
     self.assertEqual(component, part)
Пример #23
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 def test_KCM(self):
     part = capacitors_partname_decoder.resolve('KCM55LR71H106KH01')
     component = Capacitor(
         capacitor_type=Capacitor.Type.MLCC,
         manufacturer="Murata Manufacturing",
         partnumber="KCM55LR71H106KH01",
         working_temperature_range=TemperatureRange('-55', '125'),
         series="KCM",
         capacitance="10uF",
         voltage="50V",
         tolerance={
             'min': "-10%",
             'max': '+10%'
         },
         dielectric_type="X7R",
         case="2220",
         note=
         "Metal Terminal Type Multilayer Ceramic Capacitors for Automotive")
     self.assertEqual(component, part)
Пример #24
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def decode_match(match):
    partnumber = match.group(1) + match.group(2) + match.group(
        3) + match.group(4) + match.group(5) + match.group(6)
    partnumber += match.group(7) if match.group(7) is not None else ''
    voltage_str = voltage[match.group(3)]
    return Capacitor(
        capacitor_type=Capacitor.Type.ElectrolyticAluminium,
        manufacturer="Nichicon",
        partnumber=partnumber,
        working_temperature_range=operating_temperature_range[match.group(2)](
            Decimal(voltage_str[:-1])),
        series=match.group(2),
        capacitance=capacitance_string_to_farads(match.group(4)) *
        Decimal('1000000'),
        voltage=voltage_str,
        tolerance=tolerance[match.group(5)],
        dielectric_type="Aluminium oxide",
        case=configuration[match.group(6)],
        note=series[match.group(2)])
Пример #25
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 def test_GCG(self):
     part = capacitors_partname_decoder.resolve('GCG1555G1H121JA01')
     component = Capacitor(
         capacitor_type=Capacitor.Type.MLCC,
         manufacturer="Murata Manufacturing",
         partnumber="GCG1555G1H121JA01",
         working_temperature_range=TemperatureRange('-55', '150'),
         series="GCG",
         capacitance="120pF",
         voltage="50V",
         tolerance={
             'min': "-5%",
             'max': '+5%'
         },
         dielectric_type="X8G",
         case="0402",
         note=
         "AgPd Termination Conductive Glue Mounting Chip Multilayer Ceramic Capacitors for Automotive"
     )
     self.assertEqual(component, part)
Пример #26
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 def test_KC3(self):
     part = capacitors_partname_decoder.resolve('KC355LD72J154KH01')
     component = Capacitor(
         capacitor_type=Capacitor.Type.MLCC,
         manufacturer="Murata Manufacturing",
         partnumber="KC355LD72J154KH01",
         working_temperature_range=TemperatureRange('-55', '125'),
         series="KC3",
         capacitance="150nF",
         voltage="630V",
         tolerance={
             'min': "-10%",
             'max': '+10%'
         },
         dielectric_type="X7T",
         case="2220",
         note=
         "High Effective Capacitance & High Allowable Ripple Current Metal Terminal Type Multilayer Ceramic Capacitors for Automotive"
     )
     self.assertEqual(component, part)
Пример #27
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 def test_KCA(self):
     part = capacitors_partname_decoder.resolve('KCA55L7UMF102KH01')
     component = Capacitor(
         capacitor_type=Capacitor.Type.MLCC,
         manufacturer="Murata Manufacturing",
         partnumber="KCA55L7UMF102KH01",
         working_temperature_range=TemperatureRange('-55', '125'),
         series="KCA",
         capacitance="1nF",
         voltage="250VAC",
         tolerance={
             'min': "-10%",
             'max': '+10%'
         },
         dielectric_type="U2J",
         case="2220",
         note=
         "Safety Standard Certified Metal Terminal Type Multilayer Ceramic Capacitors for Automotive"
     )
     self.assertEqual(component, part)
Пример #28
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 def test_TZ(self):
     with self.subTest("TZB"):
         part = capacitors_partname_decoder.resolve('TZB4P400AB10R00')
         self.assertIsNotNone(part)
         component = Capacitor(
             capacitor_type=Capacitor.Type.CeramicTrimmer,
             manufacturer="Murata Manufacturing",
             partnumber="TZB4P400AB10R00",
             working_temperature_range=TemperatureRange('-25', '85'),
             series="TZB4",
             capacitance=CapacitanceRange("8.5pF", "40pF"),
             voltage="100V",
             tolerance={
                 'min': "-0%",
                 'max': '+50%'
             },
             dielectric_type=None,
             case=None,
             note="4mm Size SMD Type")
         self.assertEqual(component, part)
Пример #29
0
 def test_GC3(self):
     part = capacitors_partname_decoder.resolve('GC331AD72W153KX01')
     component = Capacitor(
         capacitor_type=Capacitor.Type.MLCC,
         manufacturer="Murata Manufacturing",
         partnumber="GC331AD72W153KX01",
         working_temperature_range=TemperatureRange('-55', '125'),
         series="GC3",
         capacitance="15nF",
         voltage="450V",
         tolerance={
             'min': "-10%",
             'max': '+10%'
         },
         dielectric_type="X7T",
         case="1206",
         note=
         "High Effective Capacitance & High Ripple Current Chip Multilayer Ceramic Capacitors for Automotive"
     )
     self.assertEqual(component, part)
Пример #30
0
 def test_GCJ(self):
     part = capacitors_partname_decoder.resolve('GCJ188R92A152KA01')
     component = Capacitor(
         capacitor_type=Capacitor.Type.MLCC,
         manufacturer="Murata Manufacturing",
         partnumber="GCJ188R92A152KA01",
         working_temperature_range=TemperatureRange('-55', '150'),
         series="GCJ",
         capacitance="1.5nF",
         voltage="100V",
         tolerance={
             'min': "-10%",
             'max': '+10%'
         },
         dielectric_type="X8R",
         case="0603",
         note=
         "Soft Termination Chip Multilayer Ceramic Capacitors for Automotive"
     )
     self.assertEqual(component, part)