Home > Medium Voltage Power Cables > NA2XSEBY Three Core 3.6/6 (7.2) kV Aluminum XLPE insulated Steel tape armored Cable

NA2XSEBY Three Core 3.6/6 (7.2) kV Aluminum XLPE insulated Steel tape armored Cable

Application

Medium voltage NA2XSEBY cables for distribution networks. They are suitable for laying indoor, tunnel, cables trench and underground, it is able to bear external mechanical forces, but unable to bear heavy pulling force, it widely used in transformer stations, electric power plants and industrial plants.

Construction

Conductor: Aluminum, class 2, circular compacted conductors
Conductor screen: Non-metallic, semi-conducting compound
Insulation: Cross-linked polyethylene (XLPE)
Insulation screen: Non-metallic, semi-conducting compound
Metallic screen: Copper tape
Filler: Non-hygroscopic material
Inner sheath: Polyvinyl chloride (PVC)
Armour: Steel tape
Outer sheath: Polyvinyl chloride (PVC)

Main Characteristics

Good electrical and mechanical properties.
Minimal dielectric loss, high insulation resistance.

Specification

IEC 60228 Conductors of Insulated Cables
IEC 60502-2 Power Cables with Extruded Insulation and Their Accessories for Rated Voltages from 1kV (Um=1.2kV) up to 30kV (Um=36kV)-Part 2: Cables for Rated Voltages from 6kV (Um=7.2kV) up to 30kV (Um=36kV).

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No.of Cores and Nominal Cross Section	Nominal Insulation Thickness	Nominal Steel Tape Thickness	Nominal Sheath Thickness	Approx. Overall Diameter	Approx.Weight		Max.D.C. Resistance of Conductor at 20℃
No.of Cores and Nominal Cross Section	Nominal Insulation Thickness	Nominal Steel Tape Thickness	Nominal Sheath Thickness	Approx. Overall Diameter	Cu	Al	Cu	Al
mm²	mm	mm	mm	mm	kg/km	kg/km	Ω/km	Ω/km
3×25	2.5	0.5	2.2	39	2460	2000	0.727	1.2
3×35	2.5	0.5	2.3	41.6	2885	2248	0.524	0.868
3×50	2.5	0.5	2.4	44.1	3376	2512	0.387	0.641
3×70	2.5	0.5	2.5	48.2	4203	2955	0.268	0.443
3×95	2.5	0.5	2.6	52.3	5171	3440	0.193	0.32
3×120	2.5	0.5	2.8	55.5	6091	3901	0.153	0.253
3×150	2.5	0.5	2.9	59.1	7131	4425	0.124	0.206
3×185	2.5	0.5	3	63	8439	5031	0.0991	0.164
3×240	2.6	0.5	3.2	69	10397	5974	0.0754	0.125
3×300	2.8	0.5	3.4	75.2	12535	6991	0.0601	0.1
3×400	3.0	0.8	3.7	84.1	16483	9340	0.047	0.0778
3×500	3.2	0.8	3.9	93	20192	11126	0.0366	0.0605
3×630	3.2	0.8	4.2	102	24938	13166	0.0283	0.0469

Application and case display

FAQ

Why do cable prices vary significantly among suppliers within the same region?

How Do Water-Blocking Cables Work?

What is the minimum order quantity for the product?

Longitudinal Water Blocking vs. Lateral Water Blocking?

Is a flame-retardant cable also fire resistant?

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.

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 application of Armored vs. Unarmored Cables?

Armored cables are suitable for use in hazardous environments, such as underground installations, areas with high moisture levels, and areas prone to mechanical damage. Unarmored cables are suitable for less demanding applications, such as inside walls or other protected locations.

What temperature can high-temperature resistant cables reach, and what are their application scenarios?

High-temperature resistant cables are engineered to function within a wide temperature range, spanning from -50°C to +260°C, depending on the cable's specific type and construction. Silicone rubber-insulated cables can withstand temperatures up to 180°C, whereas fluoroplastic insulated cables are designed to endure temperatures as high as 200°C to 260°C over extended periods. They are widely used in steel metallurgy, power, petrochemicals, aerospace, and industrial kilns for power transmission and equipment control in high-heat environments.

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Tel: +86-371-63395670

Email: info@starsunelectric.com

Address: No. 1207, Building B, No. 96 Kangning Street, Zhengdong New District, Zhengzhou, China

NA2XSEBY Three Core 3.6/6 (7.2) kV Aluminum XLPE insulated Steel tape armored Cable

Product Parameters

Application and case display

FAQ

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