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EVSE-100
Index: WMGBEVSE100
Multifunctional analyzer for electric vehicle charging stations
Description
Technical specification
Standard accessories
Optional accessories
Files
- Description
Comprehensive charging station diagnostics with a single instrument
Multifunctional analyzer EVSE-100 is an instrument dedicated to diagnostics of electric vehicle charging stations and cables. Using a single device, we will perform a set of tests on these objects, ending with the generation of a professional report. Through appropriate simulation of CP and PP circuits, the meter can put the station into various operating states. This allows us to verify the correctness of the control system and perform measurements in the field of electric shock protection. We can complete the verification of functionality and safety by simulating errors on the power supply side, i.e. the charging station (ICCB), and charging side of the vehicle (CP circuit).
Sonel MeasureEffect™
The meter is a part of the Sonel MeasureEffect™ platform. It is a comprehensive system that enables you to take measurements, store and manage data, and provides multi-level control of your instruments.
Applications
The meter makes it possible to carry out diagnostics on:
- AC electric vehicle charging stations with type 2 connector with socket or fixed charging cable (1-phase and 3-phase),
- portable electric vehicle charging stations with type 2 connector (1-phase and 3-phase),
- charging cables.
Basic functions of the device
- Simulation of PP cable parameters:
- open circuit,
- 13 A, 20 A, 32 A, 63 A, 80 A.
- Simulation of CP communication:
- state A – vehicle not connected,
- state B – vehicle connected, not charging,
- state C – vehicle connected, charging without ventilation.
- state D – vehicle connected, charging with ventilation.
- Safety measurements:
- measurement of short circuit loop Z,
- measurement of parameters of RCD circuit breakers (AC, A, B, 6 mA DC),
- measurement of insulation resistance RISO,
- measurement of RCONT,
- phase sequence indication,
- resistance of coding resistor RC,
- measurements of grounding RE.
- EVSE analysis – diagnostics:
- CP+, CP- voltage,
- frequency f (PWM),
- signal filling D (PWM),
- maximum charging current IMAX,
- graph of CP+, CP-, f, D, IMAX,
- toff off time,
- ton on time.
- EVSE analysis – simulation of errors (ICCB, EVCS):
- CPsh – short circuit of CP to PE,
- Dsh – diode short circuit,
- PEop – interruption in PE.
- EVSE analysis –s imulation of power supply circuit faults (ICCB):
- L1op – interruption in phase L1,
- L2op – interruption in phase L2,
- L3op – interruption in phase L3,
- Nop – interruption in N,
- PEop – interruption in PE,
- L↔PE – interchanged L and PE wires,
- UEXT(PE) – voltage on PE wire.
- EVSE analysis – transition time between states.
- Technical specification
Specifications
Measurement functions Measurement range Display range Resolution Accuracy Measurements of mains parameters Voltage 0 V…500 V 0 V…500 V from 0.1 V from ±(2% m.v. + 2 digits) Frequency 45.0…65.0 Hz 45.0…65.0 Hz 0.1 Hz ±(0.1% m.v. + 1 digit) Fault loop impedance Fault loop ZL-PE, ZL-N, ZL-L from 0.13 Ω…1999 Ω
acc. to EN IEC 615570.00 Ω…1999 Ω from 0.01 Ω ±(5% m.v. + 3 digits) Fault loop ZL-PE in RCD mode from 0.5 Ω…1999 Ω
acc. to EN IEC 615570.00 Ω…1999 Ω from 0.01 Ω ±(6% m.v. + 5 digits) Measurements of RCD parameters RCD tripping test and measurement of tripping time tA
measuring current 0.5 IΔn, 1 IΔn, 2 IΔn, 5 IΔnNone None None None • general and short-time delay RCD 0 ms…300 ms 0 ms…300 ms 1 ms from ±(2% m.v. + 2 digits) • selective RCD 0 ms…500 ms 0 ms…500 ms 1 ms from ±(2% m.v. + 2 digits) • 6 mA DC EV RCD and RCM 0 ms…10.0 s 0 ms…10.0 s from 1 ms ±(2% m.v. + 3 digits) Measurement of RCD tripping current IA
measuring current 0.3 IΔn…2.0 IΔnNone None None None • for sinusoidal residual current (AC type) 3.0 mA…500 mA 3.0 mA…500 mA from 0.1 mA ±5% IΔn • for unidirectional residual current and unidirectional with the 6 mA DC bias (type A) 3.5 mA…420 mA 3.5 mA…420 mA from 0.1 mA ±10% IΔn • for direct residual current (type B) 1.0 mA…600 mA 1.0 mA…600 mA from 0.1 mA from ±6% IΔn Earth resistance 3-pole method 0.85 Ω…1999 Ω
acc. to EN IEC 61557-50.00 Ω…1999 Ω from 0.01 Ω from ±(3% m.v. + 5 digits) Auxiliary electrodes resistance 0 Ω…1.99 kΩ 0 Ω…19.9 kΩ from 1 Ω ±(5% (RS+RE+RH) + 8 digits) Insulation resistance Measuring voltage 50 V 50 kΩ…49.9 MΩ
acc. to EN IEC 61557-20 kΩ…49.9 MΩ from 1 kΩ ±(5% m.v. + 8 digits) Measuring voltage 100 V 100 kΩ…99.9 MΩ
acc. to EN IEC 61557-20 kΩ…99.9 MΩ from 1 kΩ ±(5% m.v. + 8 digits) Measuring voltage 250 V 250 kΩ…199.9 MΩ
acc. to EN IEC 61557-20 kΩ…199.9 MΩ from 1 kΩ ±(5% m.v. + 8 digits) Measuring voltage 500 V 500 kΩ…599.9 MΩ
acc. to EN IEC 61557-20 kΩ…599.9 MΩ from 1 kΩ ±(5% m.v. + 8 digits) Measuring voltage 1000 V 1000 kΩ…599.9 MΩ
acc. to EN IEC 61557-20 kΩ…599.9 MΩ from 1 kΩ ±(8% m.v. + 8 digits) Resistance of protective conductors and equipotential bondings None Measurement of resistance of protective conductors and equipotential bondings with ±200 mA current 0.12 Ω…400 Ω
acc. to EN IEC 61557-40.00 Ω…400 Ω from 0.01 Ω ±(2% m.v. + 3 digits) Continuity testing of EV cable wires
L1, L2, L3, N, PE, CP0.20 Ω…400 Ω
acc. to EN IEC 61557-40.00 Ω…400 Ω from 0.01 Ω ±(3% m.v. + 5 digits) Phase sequence indication in the same direction (correct), opposite direction (incorrect), UL-L voltage: 100 V…440 V (45 Hz…65 Hz) None None None Resistance of coding resistor RC Resistor resistance (PP-PE) – IN PEop socket 0.32 Ω…6000 Ω
acc. to EN IEC 61557-40.00 Ω…6000 Ω from 0.01 Ω ±(3% m.v. + 8 digits) Resistor resistance (PP-PE) – OUT PEpp socket 0.32 Ω…6000 Ω
acc. to EN IEC 61557-40.00 Ω…6000 Ω from 0.01 Ω ±(3% m.v. + 8 digits) Simulation of PP cable parameters NC Open circuit Open circuit - - 13 A 1500 Ω 1500 Ω - ±2% 20 A 680 Ω 680 Ω - ±2% 32 A 220 Ω 220 Ω - ±2% 63 A 100 Ω 100 Ω - ±2% 80 A 56 Ω 56 Ω - ±3% Simulation of CP communication State A – vehicle not connected Open circuit Open circuit - - State B – vehicle connected, not charging 2740 Ω 2740 Ω - ±1% State C – vehicle connected, charging without ventilation 882 Ω 882 Ω - ±1% State D – vehicle connected, charging with ventilation 246 Ω 246 Ω - ±1% EVSEDIAG diagnostics Voltage CP+, CP- -19.99 V…19.99 V -19.99 V…19.99 V 0.01 V ±(1% m.v. + 8 digits) Frequency f (PWM) 950 Hz…1050 Hz 800 Hz…1200 Hz 1 Hz ±1 digit Duty cycle D (PWM) 3%…97% 1.0%…99.0% 0.1% ±3 digits Maximum charging current IMAX 0 A…80 A 0 A…80 A 1 A - Simulation of ERR OUT errors (ICCB, EVCS) CPsh – short circuit of CP to PE 0…3100 ms 0…3100 ms 1 ms ±(3% m.v. + 3 digits) Dsh – diode short circuit 0…3100 ms 0…3100 ms 1 ms ±(3% m.v. + 3 digits) PEop – interruption in PE 0…1000 ms 0…1000 ms 1 ms ±(3% m.v. + 3 digits) Simulation of ERR IN errors (ICCB) L/L1op – interruption in phase L/L1 as in EVSEDIAG as in EVSEDIAG - as in EVSEDIAG L/L2op – interruption in phase L/L2 as in EVSEDIAG as in EVSEDIAG - as in EVSEDIAG L/L3op – interruption in phase L/L3 as in EVSEDIAG as in EVSEDIAG - as in EVSEDIAG Nop – interruption in N as in EVSEDIAG as in EVSEDIAG - as in EVSEDIAG PEop – interruption in PE as in EVSEDIAG as in EVSEDIAG - as in EVSEDIAG L1↔PE – interchanged L1 and PE wires as in EVSEDIAG as in EVSEDIAG - as in EVSEDIAG L2↔PE – interchanged L2 and PE wires as in EVSEDIAG as in EVSEDIAG - as in EVSEDIAG L3↔PE – interchanged L3 and PE wires as in EVSEDIAG as in EVSEDIAG - as in EVSEDIAG UEXT(PE) – voltage on PE wire as in EVSEDIAG as in EVSEDIAG - as in EVSEDIAG Transition time between states A → C, B → C, A → D, B → D 0…3100 ms 0…3100 ms 1 ms ±(3% m.v. + 3 digits) C → A, C → B, D → A, D → B 0…1000 ms 0…1000 ms 1 ms ±(3% m.v. + 3 digits) - Standard accessories
- Optional accessories
- Files
- Firmware EVSE-100changelog
Changes in version 1.25.3.023 compared to the previous one:
- Extended validity of certificates.
- Minor improvements in the remote update system.
Changes in version 1.25.3.019 compared to the previous one:
- Improved meter update process.
- Improvements in fuse database management.
- Improvements in measurement data structure management.
- Interface optimization.
- Improvements in Re measurement.
- Changes to LED signaling on "OUT" sockets.
- Added support for measurements in 60 Hz networks.
