Fluke FEV150 EV Charging Station Analyzer

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The Fluke FEV350 is a complete solution for safety and performance testing of AC EV charging stations with Type 2 or Type 1 connectors.

Key features

  • Test the safety and functionality of AC electrical vehicle charging stations with the all-in-one solution
  • Pass/fail test results
  • Auto control pilot (CP) with waveform analysis
  • Compatible with TruTestâ„¢ Data Management Software

    Fluke FEV350 Datasheet

 

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    Fluke FEV350 EV Charging Station Analyzer

    The FEV350 is a complete solution for safety and performance testing of AC EV charging stations with Type 2 or Type 1 connectors. Designed for technicians required to perform and document multiple tests quickly and efficiently without carrying multiple tools.

    Spend less time processing test results and compiling reports with TruTestâ„¢

    • Easily manage measurement data from EVSE inspections
    • Quickly create inspections and reports
    • Control Pilot waveform analysis with easy pass/fail visuals
    • Compare site data to previous site data to see changes over time
    • Quickly access the latest firmware to update your FEV350
    • Download a free 60-day demo version of TruTestâ„¢. Purchase a software key to unlock the Lite or Advanced version.

    The solution includes TruTest EV Charging software module for documentation and reporting. The solution performs the available measurements below in addition to the supporting measurements with Fluke’s compatible multifunction installation testers for installation certification/inspections via wireless Bluetooth connection, wiring configuration diagrams, and info screens for seamless integration with TruTest software for report generation. The Fluke FEV350 provides predetermined test plans and pass/fail indications on measurement results to simplify analysis and time spent testing. The FEV350 EV Charging Station Analyzer is designed in accordance with IEC/EN 61851-1 and IEC/HD 60364-7-722.

    Available measurements:

    • PE (protective) earth pre-test to ensure no dangerous voltage is present
    • Visual Inspection
    • 30 Ma Rcd + 6 Ma Rdc-Dd Trip Test
    • Nominal Voltage + Phase Sequence
    • Auto Control Pilot (Cp) with Waveform Analysis
    • Proximity Pilot
    • Error Testing

    Supported measurements with compatible Fluke multi-function testers:

    • Earth Bond
    • Insulation
    • Loop/Line Impedance

    See Models tab for different kits including FEV350 for the best package for your needs. Compatible with Bluetooth 5.0

    Specifications

    Fluke FEV350 EV Charging Station Analyzer

    Test function specifications

    The operational error specification reference for digit counts is defined as ±(% of reading + digit counts). The operational error for other specifications that reference a % are defined as the % of the reading unless otherwise specified. The operational error specification reference temperature for all readings is 23 °C ±5K temperature coefficient of 0.1 %/°C.

    Test/function Display range Measurement range Operational error Nominal values
    PE pre-test
    Touch voltage, safe range ≤50 V AC/DC -50%
    Touch voltage, dangerous range >50 V AC/DC +0%
    Visual inspection See checklist
    Earth bond, RLO[1] @ >200 mA Itest
    Insulation, RINS[1] @ 500 V Unom
    Loop/Line impedance[1] no trip loop
    RCD/RDC-DD pre-test
    Uf 5V to 110V -(0 % + 0 digits),
    +(10 % + 3 digits)
    @ Itest
    0.33 x IΔN AC
    Re 166 Ω to 3667 Ω -10 % to +15 %
    RCD test (IΔN 30 mA)
    RCD type A, B/B+, RDC-PD @ mains 100 V AC to 253 V AC
    RCD trip time with AC, half wave, DC (0°, 180°)
        x0.5 (30 mA) 0 ms to 510 ms ±(2 % + 3 ms)
        x1 (30 mA) TN: 0 ms to 310 ms
    TT @120 V: 0 ms to 310 ms TT @230 V: 0 ms to 210 ms
        x5 (30 mA) 0 ms to 50 ms
    Ramp current (0°, 180°)
        AC @RCD type B/B+ 12.0 mA to 36.0 mA, 17 steps with
    1.5 mA
    ±1.5 mA
        AC half wave @RCD type A and RCD-PD 7.5 mA to 48.0 mA, 28 steps with
    1.5 mA
        DC @RCD type B/B+ 12.0 mA to 66.0 mA, 37 steps with
    1.5 mA
    Test/function Display range Measurement range Operational error Nominal values
    RDC-DD test (IΔN +6 mA EV)
    Trip time (0°, 180°) @ mains 100 V AC to 253 V AC
        +3 mA DC 0.000 s to 10.100 s ±(2 % + 3 ms)
        +6 mA DC
        +60 mA DC 0 ms to 310 ms
        +200 mA DC 0 ms to 110 ms
    Ramp current (0°, 180°) smooth ramp
    2.0 mA to 6.0 mA
    ±0.6 mA
    Mains voltage
    L-N, L-PE, N-PE 0 V to 280 V 0V to 253 V ±(3 % + 3 digits) RIN L-N:
    >30 MΩ, RIN L-PE:
    >10 MΩ,
    40 Hz to 70 Hz,
    crest factor 2, Vmax peak: 560 V
    L-L 0 V to 490 V 0 V to 440 V RIN L-L: >30 MΩ,
    40 Hz to 70 Hz,
    crest factor 2, Vmax peak: 980 V
    Frequency 40.00 Hz to 70.00 Hz ±0.20 Hz
    Phase sequence right, left, none voltage imbalance:
    <20 % voltage difference between phases,
    phase imbalance:
    120° ±10°
    50 V to 280 V
    phase to N
    CP signal analysis
    Voltage -15.000 V to
    15.000 V
    -15.000 V to
    -2.000 V,
    2.000 V to
    15.000 V
    ±0.5 % RIN: 1 MΩ
    0.9000 kHz to
    1.1000 kHz;
    UCP+ >2.000 V,
    UCP- <-2.000 V
    PWM duty cycle 2.0 % to 98.0 % 3.0 % to 97.0 % ±5 digits
    Current indication 0.0 A to 80.0 A Based on duty cycle[3]
    Frequency 0.9000 kHz to 1.1000 kHz 0.001
    CP state indication A, B, C, D Based on voltage[2]
    x1, x2 Based on frequency[2]
    Test/function Display range Measurement range Operational error Nominal values
    CP state simulation A >900  kΩ ±0.2 %
    B Upper level: 4610  Ω
    ±0.2 %[2]
    Nominal level: 2740  Ω
    ±0.2 %[2]
    Lower level: 1870  Ω
    ±0.2 %[2]
    C Upper level: 1723  Ω
    ±0.2 %[2]
    Nominal level: 1300  Ω
    ±0.2 %[2]
    Lower level: 909  Ω
    ±0.2 %[2]
    D Upper level: 448  Ω
    ±0.2 %[2]
    Nominal level: 270  Ω
    ±0.2 %[2]
    Lower level: 140  Ω
    ±0.2 %[2]
    PP state simulation open >900  kΩ
    13 A 1500  Ω ±1.5 %[2]
    20 A 680  Ω ±1.5 %[2]
    32 A 220  Ω ±1.5 %[2]
    63 (70) A 100  Ω ±1.5 %2]
    Error <60  Ω (56 Ω ±5 %)
    Fault simulation PE error (earth fault/PE open)
    CP error E @ 0 Ω
    or 120 Ω
    -0  Ω/ +2  Ω,
    120  Ω ±1.5 %[2]
    Diode short
    Error D
    PP voltage measurement
    (Type 2 with socket)
    0.10 V to 15.00 V ±(1.0 % + 3 digits) RIN: 1 MΩ
    Test/function Display range Measurement range Operational error Nominal values
    PP resistor measurement
    Type 2 with cable (Rc) 50.0 Ω to 499.9 Ω
    500  Ω to 5000 Ω
    ±1.0 %
    Type 1 with cable (S3, R6, R7)
    CP resistor measurement (R1) 800  Ω to 1200 Ω ±1.0 %
    [1]   The test requires a multi-function tester (MFT). See the documentation of the MFT for the display range, measurement range, and operational error or accuracy values.
    [2]   According to IEC 61851-1.
    [3]   According to table A.8 of IEC 61851-1.
    General Specifications
    Input electrical ratings 1 Φ: 250 V max
    3 Φ: 230/400V max, 50/60 Hz, max 1 A
    Internal power consumption 3 W max
    Size (H x W x D) ~(263 mm x 123 mm x 63 mm)
    ~(10.35  in x 4.84 in x 2.48 in), without the TY1 or TY2 plug
    Weight ~0.9 kg, without the TY1 or TY2 plug
    ~1.4 kg, with the TY1 or TY2 plug
    Battery 4 x AA/IEC LR6 alkaline or IEC HR6 NiMH
    Temperature
    Operating -10 °C to 40 °C (14 °F to 104 °F)
    Storage -20 °C to 50 °C (-4 °F to 122 °F)
    Relative humidity
    Operating 10 % to 85 %, 0 °C to 40 °C
    (32 °F to 104 °F), non-condensing
    Storage up to 95 %
    Wireless radio, Bluetooth 5.0
    Frequency range 2412 MHz to 2462 MHz
    Output power <100 mW
    Altitude 3000 m
    Safety IEC 61010-1: Pollution Degree 2, IEC 61010-2-030, CAT II 300 V, Protection Class II
    Performance IEC 61557-1, IEC 61557-6, IEC 61557-7, IEC 61557-10
    Ingress protection IEC 60529: IP40
    Electromagnetic Compatibility (EMC)
    International IEC 61326-1: Basic Electromagnetic Environment, CISPR 11: Group 1, Class A
    Group 1: Equipment has intentionally generated and/or uses conductively-coupled radio frequency energy that is necessary for the internal function of the equipment itself.
    Class A: Equipment is suitable for use in all establishments other than domestic and those directly connected to a low-voltage power supply network that supplies buildings used for domestic purposes. There may be potential difficulties in ensuring electromagnetic compatibility in other environments due to conducted and radiated disturbances.
    Caution: This equipment is not intended for use in residential environments and may not provide adequate protection to radio reception in such environments. Emissions that exceed the levels required by CISPR 11 can occur when the equipment is connected to a test object.
    Korea (KCC) Class A Equipment (Industrial Broadcasting & Communication Equipment)
    Class A: Equipment meets requirements for industrial electromagnetic wave equipment and the seller or user should take notice of it. This equipment is intended for use in business environments and not to be used in homes.

    Models

    Models: Fluke FEV350 EV Charging Station Analyzer

    FEV350/TY2

    FEV350 EV Charging Station Analyzer kit for Type 2 connector

    FEV350/TY2 includes:

    • FEV350/BASIC Test Analyzer
    • FEV300-CON-TY2
    • Zero Adapter/TY2
    • TPAK Magnetic Hanger
    • Soft Carrying Bag

    FEV350/TY2 PRO

    FEV350 EV Charging Station Analyzer kit for Type 2 connector with TruTest software license

    FEV350/TY2/TY1

    FEV350 EV Charging Station Analyzer kit for Type 1 and 2 connectors

    FEV350/TY2/TY1 PRO

    FEV350 EV Charging Station Analyzer kit for Type 1 and 2 connectors with TruTest software license