Fluke FEV350 EV Charging Station Analyser – Optional Kits

SKU

FEV350

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£2,158.80 £1,799.00

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Description

Fluke FEV350 EV Charging Station Analyser

The Fluke FEV350 EV Charging Station Analyser is an all-in-one tool for testing the safety and functionality of AC EV charging stations with Type 1 or Type 2 connectors. Specifically designed to enable multiple quick tests with documentation, the FEV350 includes a Trutest EV Charging Software module for documentation and reporting; offers an array of electrical tests; and supports further measurement with a compatible Fluke multifunction tester. Wireless configuration diagrams and on-screen instructions ensure that EV charger tests are executed correctly. Furthermore, predetermined test plans and PASS/FAIL indications provide testing efficiency. This Fluke EV Charger Analyser seamlessly integrates with TruTest PC Software and includes Bluetooth connectivity.

Fluke FEV350 Tests

To ensure the safety and performance of electric vehicle charging stations, the analyser can perform the following checks:

PE (protective) earth pre-test (ensures dangerous voltage isn’t present)
30 mA RCD and 6 mA RDC-DD trip test
Nominal voltage and phase sequence
Proximity pilot
Error testing

Additionally, Auto Control Pilot simulates various electric vehicle states. Nominal results and waveforms are indicated on the FEV350’s colour display.

Fluke FEV350 & Fluke 1664 MFT Tests

When used with a compatible Fluke multifunction tester, such as the Fluke 1664, the Fluke EC Charger Analyser can conduct the following tests:

Earth bond
Insulation
Loop/line impedance

Fluke FEV350 Applications

The Fluke EV Charging Station Analyser is a safe, portable, easy-to-use all-in-one tool suitable for safety testing EV charging stations; functional testing electric vehicle charging stations; and troubleshooting charging stations.

Fluke FEV350 Options

FEV350 Kits	FEV350 Analyser	Type 1 Adapter	Type 2 Adapter	TruTest Software Licence	1664 MFT
TY2/TY1 PRO	✔	✔	✔	✔	-
KITUK	✔	✔	✔	-	✔
TY2	✔	-	✔	-	-
TY2 PRO	✔	-	✔	✔	-
TY2/TY1	✔	✔	✔	-	-

Designed in accordance with IEC/EN 61851-1 and IEC/HD 60364-7-72, the Fluke FEV350 EV Charging Station Analyser is a versatile tool designed for testing the safety and functionality of AC charging stations.

Key Features

An all-in-one tool for testing the safety and functionality of AC EV chargers with Type 1 or Type 2 connectors
Conduct multiple quick tests with documentation
Includes a TruTest EV Charging Software module
Wireless configuration diagrams
On-screen instructions
Predetermined test plans
PASS/FAIL indications
Seamlessly integrates with TruTest PC Software
Bluetooth connectivity
PE (protective) earth pre-test (ensures dangerous voltage isn’t present)
30 mA RCD and 6 mA RDC-DD trip test
Nominal voltage and phase sequence
Proximity pilot
Error testing
Auto Control Pilot simulates EV states
Indicates results and waveforms
Colour display
Use with Fluke 1664 MFT to perform earth bond, insulation, and loop/line impedance tests
Safety test EV charger
Functional test EV charging station
Troubleshoot/repair EV charger
Available in five combinations
Complies with IEC/EN 61851-1 and IEC/HD 60364-7-72
Test the safety and functionality of AC charging stations

What’s Included?

FEV350 Kits	TY2/TY1 PRO	KITUK	TY2	TY2 PRO	TY2/TY1
FEV350 EV Charging Station Analyser	✔	✔	✔	✔	✔
FEV300-CON-TY1 Plug	✔	✔	-	-	✔
FEV300-CON-TY2 Plug	✔	✔	✔	✔	✔
Zero Adapter/TY1	✔	✔	-	-	✔
Zero Adapter/TY2	✔	✔	✔	✔	✔
TPAK Magnetic Hanger	✔	✔	✔	✔	✔
Soft Carrying Bag	✔	✔	✔	✔	✔
Trutest Software Licence	✔	-	-	✔	✔
1664 FC Multifunction Tester	-	✔	-	-	-

Tech Specs

Fluke FEV350 EV Charging Station Analyser Technical Specifications

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
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		-50 %	-
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	5 V to 110 V		-(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°)				@ mains 100 V AC to 253 V AC
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
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	0 V 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 to1.1000 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		0.1 %
CP state indication	A, B, C, D	-	Based on voltage[2]
	x1, x2	-	Based on frequency[2]
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	-
	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		220 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		±(1.0 % + 3 digits)	RIN: 1 MΩ
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 %	-
Notes	[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.