Home > New Energy Cables > 62893 IEC 123 Copper EV1-2 insulated Cable

62893 IEC 123 Copper EV1-2 insulated Cable

Application

62893 IEC 123 cable is used to connect electric vehicle charging device and charging infrastructure, so as to carry out power transmission for electric vehicles, and is equipped with a certain number of signal lines, control lines, power auxiliary lines, etc., to ensure accurate control of the entire charging process and safe operation. Charging cables are generally used in charging stations, parking lots, hotels, communities, garages and other are as, and portable charging cables can be placed in the car.

Construction

Conductor: EN/IEC 60228, Class 5 Flexible
Insulation Layer: EV1-2
Jacket Layer: EVM-1

Main Characteristics

Temperature range: -40℃to +90℃
Nominal voltage: AC U0/U 450/750V
Min.Bending Radius: Fixed installation 5x cable
Certificate Number: R 50626648 / R 50626645

Specification

IEC 62893 /EN 50620

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Cross Section	Conductor Stranded O.D.	Insulation Thickness	Jacket Thickness	Cable O.D. Ref.Range	Approximate Weight	Conductor Resistance at 20℃ Max.
mm²	mm	mm	mm	mm	kg/km	Ω/km
3×1.5+1×0.5	1.6	0.7	1.0	9.20±0.60	100.7	13.3
3×1.5+2×0.5	1.6	0.7	1.0	9.20±0.60	113.3	13.3
3×2.5+1×0.5	2.0	0.7	1.0	10.00±0.60	143.6	7.98
3×2.5+2×0.5	2.0	0.7	1.0	10.00±0.60	149.8	7.98
3×4+1×0.5	2.6	0.7	1.1	11.50±0.60	201.4	4.95
3×4+2×0.5	2.6	0.7	1.1	11.50±0.60	207.6	4.95
3×6+1×0.5	3.2	0.7	1.2	13.00±0.80	275.4	3.30
3×6+2×0.5	3.2	0.7	1.2	13.00±0.80	281.6	3.30
3×10+1×0.5	4.5	0.7	1.4	16.20±0.80	437.3	1.91
3×10+2×0.5	4.5	0.7	1.4	16.20±0.80	443.4	1.91
3×16+1×0.5	5.5	0.7	1.5	18.60±0.80	638.5	1.21
3×16+2×0.5	5.5	0.7	1.5	18.60±0.80	644.6	1.21
3×25+1×0.5	7.1	0.9	1.7	23.30±1.00	986.4	0.780
3×25+2×0.5	7.1	0.9	1.7	23.30±1.00	992.6	0.780
3×35+1×0.5	8.6	0.9	1.9	27.00±1.20	1388.7	0.554
3×35+2×0.5	8.6	0.9	1.9	27.00±1.20	1394.9	0.554
5×1.5+1×0.5	1.6	0.7	1.2	11.20±0.80	166.7	13.3
5×1.5+2×0.5	1.6	0.7	1.2	11.20±0.80	172.9	13.3
5×2.5+1×0.5	2.0	0.7	1.2	12.30±0.80	226.3	7.98
5×2.5+2×0.5	2.0	0.7	1.2	12.30±0.80	232.5	7.98
5×4+1×0.5	2.6	0.7	1.3	14.10±0.80	319.1	4.95
5×4+2×0.5	2.6	0.7	1.3	14.10±0.80	325.2	4.95
5×6+1×0.5	3.2	0.7	1.4	16.00±1.00	438.1	3.30
5×6+2×0.5	3.2	0.7	1.4	16.00±1.00	444.3	3.30
5×10+1×0.5	4.5	0.7	1.5	19.60±1.00	688.8	1.91
5×10+2×0.5	4.5	0.7	1.5	19.60±1.00	695.0	1.91
5×16+1×0.5	5.5	0.7	1.7	22.80±1.20	1023.5	1.21
5×16+2×0.5	5.5	0.7	1.7	22.80±1.20	1029.7	1.21
5×25+1×0.5	7.1	0.9	2.0	29.00±1.20	1594.6	0.780
5×25+2×0.5	7.1	0.9	2.0	29.00±1.20	1600.8	0.780
5×35+1×0.5	8.6	0.9	2.3	33.60±1.50	2259.7	0.554
5×35+2×0.5	8.6	0.9	2.3	33.60±1.50	2265.9	0.554

Application and case display

FAQ

What is the application of Armored vs. Unarmored Cables?

How long is the validity period of cold shrink cable accessories?

Flame Retardant Cables VS Fire Resistant Cables?

What are the benefits of EPR material?

What is the length tolerance for cables?

How do you calculate the minimum bending radius of cables?

The bend radius refers to the curved shape in which an electrical cable can be bent or curved without sustaining damage. To determine the minimum bend radius for cables, apply the following formula: Minimum Bend Radius = Cable Outer Diameter×Cable Multiplier. For example, if the outer diameter of a cable is 20mm, its minimum bending radius would be 20mm×6 = 120mm. Conversely, if an armored cable has an outer diameter of 30mm, its minimum bending radius would be 30mm×12 = 360mm.

How Do Water-Blocking Cables Work?

Water-blocking cables are essential for ensuring reliable operation in environments with high levels of moisture or frequent water contact. These cables employ water-blocking techniques to effectively prevent water ingress, protecting them from damage and prolonging their lifespan.

What is the validity period for the offer of cable?

Typically, the offer is valid for 7 to 30 days, and the price will be adjusted according to the cost of raw materials and the exchange rate.

What is the purpose of a metallic shield in MV and HV cables?

Medium and high voltage power cables, typically those in circuits exceeding 2kV, usually feature a shield layer made of copper or aluminum tape. Similar to their use in low voltage cables, metallic wires and tapes are employed to prevent electromagnetic interference. These shields effectively neutralize or significantly diminish the field currents surrounding the conductor or core. The capacitive and inductive charging currents induced under normal operating conditions are subsequently grounded by the metallic screen.

What is the operating temperature of the cable?

The operating temperature of a cable is determined by the insulation and sheathing material. PVC has a range of -15°C to 70°C, XLPE can reach up to 90°C, while silicone rubber can handle temperatures from -60°C to 180°C.