This is a 0.6/1kV aluminum conductor XLPE-insulated PVC-sheathed power cable, available in 4-core configuration with cross-sections ranging from 50mm² to 240mm² (50/95/120/150/185/240mm²). It is suitable for medium-low voltage distribution systems, offering lightweight, corrosion resistance, and cost-effectiveness.

This product is AVVG/AVVGng type underground direct burial power cable compliant with GOST 16442-80 standard, rated voltage 0.66/1.0kV, featuring 3.5-core aluminum conductor structure, suitable for 600V voltage level underground direct burial installation with excellent weather resistance and mechanical protection properties.

The N2XS(FL)2Y/NA2XS(FL)2Y medium voltage cable 12/20kV RM 1X300/25 and 1X400/50mm² aluminum conductor XLPE insulated cable features XLPE insulation and aluminum conductor structure, rated at 12/20kV. Compliant with German VDE 0276-620 standard and equipped with heavy-duty sheath design, it offers excellent mechanical strength and weather resistance, making it particularly suitable for direct burial or outdoor installations requiring high mechanical protection. The 1X300/25 specification features 300mm² conductor, while 1X400/50 has 400mm² conductor (50mm² equivalent metallic screen).

This is a series of underground power cables with aluminum conductors and XLPE insulation, available in various configurations (3X95+1X50, 3X120+1X70, 3X150+1X70, 3X185+1X95, 3X240+1X120, 3X300+1X150), rated for 16A to 30A current, suitable for underground power transmission systems.

The Nayy-O E-Ayy-O series low voltage underground aluminum conductor cable, rated at 0.6/1kV, offers various configurations: 3×240+120mm², 3×185+95mm², 3×150+70mm², 3×95mm², and 1×50mm². Designed with aluminum conductors and special insulation materials for underground installation, it features excellent waterproof and corrosion-resistant properties. Suitable for municipal projects, industrial zones, and building complexes' low voltage distribution systems, the product complies with international electrical standards to ensure safe and reliable power transmission.

Our Aluminum Cable Torsade, available in configurations 416, 425, and 4*35, is engineered for high-performance overhead applications. Featuring single-core stranded copper conductors, these cables blend the conductivity of copper with the structural stability required for overhead power transmission.​ The cables are insulated with a multi-layer system combining XLPE (Cross-Linked Polyethylene), PE (Polyethylene), and PVC (Polyvinyl Chloride), ensuring superior protection against environmental stressors. XLPE provides excellent thermal resistance and dielectric strength, PE enhances flexibility and moisture resistance, while PVC offers robust UV and abrasion protection—making the cable suitable for harsh outdoor conditions.​ Designed with a torsade (twisted) structure, the cables deliver enhanced mechanical stability, reducing sagging and improving resistance to wind-induced vibration over long spans. This twisted design also minimizes electromagnetic interference, ensuring efficient power transmission for residential, commercial, and industrial overhead networks.​ Compliant with international standards, our Aluminum Cable Torsade offers a reliable solution for overhead distribution, combining durability, flexibility, and cost-effectiveness. Ideal for utility projects, urban electrification, and industrial power lines, it ensures consistent performance with minimal maintenance.

This 600V quadruplex overhead cable—available in ACSR/AAC/AAAC aluminum conductors—features XLPE insulation and Ns75/Ns90 neutral support, designed for residential and light commercial service drops. The quadruplex configuration (3 phase +1 neutral) delivers balanced power, with Ns75 (75A) for small homes and Ns90 (90A) for high-demand loads like EV chargers.​ The neutral conductor (8kN tensile strength) enables 50-meter spans, reducing pole usage by 40%. XLPE insulation resists UV, -40°C to 90°C temperatures, ensuring 30+ years of service. ACSR offers strength for rural spans, AAC for urban flexibility, and AAAC for coastal corrosion resistance.​ Certified to ICEA S-76-474 and ASTM B230, it simplifies installation with pre-assembled design.​ Key SEO terms: 600V quadruplex overhead cable, ACSR AAC AAAC service drop, Ns75 Ns90 supported cable, XLPE aluminum conductor cable.

Aerial Twin Aluminum Cable Bundled Overhead Conductor 10mm² 16mm² 25mm² AAC with XLPE/PVC Insulation​ The aerial twin parallel aluminum cable, featuring AAC (All Aluminum Conductor) in 10mm², 16mm², and 25mm² with XLPE or PVC insulation, is a compact solution for low-voltage overhead distribution. Designed as twin parallel cores (1 phase + neutral), it excels in residential service drops, rural feeders, and light commercial lines, balancing efficiency and durability.​ AAC conductors (61% IACS conductivity) deliver reliable current: 45A (10mm²) for small homes, 65A (16mm²) for medium households, and 90A (25mm²) for larger properties or shops. The twin parallel design reduces installation time by 30% vs. single conductors, with bundled structure minimizing wind vibration.​ XLPE insulation withstands -40°C to 90°C and UV, ideal for harsh climates, while PVC offers cost-effective protection in mild environments. Both resist moisture and corrosion, ensuring 30+ year service life. Compliant with IEC 60228 and ASTM, this cable combines versatility in sizing, insulation options, and AAC efficiency, making it a top choice for modern overhead low-voltage networks.

The 4X120, 4X150, 4X185 fireproof security power cable is a 4-core power transmission cable specially designed for key equipment such as generators. With aluminum conductors and XLPE insulation as the core, it has both excellent fireproof performance and stable electrical transmission capacity, playing an irreplaceable role in emergency power supply, industrial guarantee and other scenarios.​ The conductor is made of high-purity aluminum material with a purity of ≥99.7%, manufactured through multi-strand compacted stranding process, which not only ensures good conductivity, but also improves the flexibility of the cable. The DC resistance of single-core conductors of the three specifications at 20℃ is respectively: 4X120mm² ≤0.158Ω/km, 4X150mm² ≤0.124Ω/km, 4X185mm² ≤0.0991Ω/km, all lower than the industry standard, which can effectively reduce energy loss during power transmission. The weight of aluminum conductor is only 1/3 of that of copper conductor of the same specification, which greatly reduces the installation and transportation burden, and is especially suitable for wiring in space-constrained areas such as generator rooms.​ The insulation layer is made of flame-retardant XLPE (cross-linked polyethylene) material. After special fireproof treatment, its temperature resistance level reaches 90℃, and it can withstand a high temperature of 250℃ during short circuit (within 5 seconds). It has passed the GB/T 19666-2019 fireproof test, and can maintain circuit integrity within 3 hours of direct burning by 800℃ flame, ensuring that the generator can continue to supply power in extreme situations such as fire. The volume resistivity of XLPE insulation is ≥10¹⁴Ω·cm, and the dielectric loss tangent is ≤0.002 (at 90℃), with excellent insulation performance, which can effectively isolate the risk of electric leakage and ensure the safety of power transmission.​ The overall structure design of the cable strengthens fire resistance and mechanical performance: the inner sheath is made of low-smoke halogen-free flame-retardant polyolefin material, with an oxygen index of ≥32%. When burning, the smoke density is low (light transmittance ≥60%) and no toxic gas is released; the outer armoring is double-layer galvanized steel tape, and the armoring thickness increases with specifications (0.3mm for 120mm² and 0.5mm for 185mm²), with a tensile strength of ≥300MPa, which can withstand vibration impact and external mechanical extrusion during generator operation. In addition, the cable is also equipped with a semi-conductive shielding layer, which can evenly distribute the electric field and avoid insulation aging caused by partial discharge.​ The current-carrying capacity is adapted to the generator power demand: the 4X120mm² cable has a current-carrying capacity of about 240A when laid in air, suitable for 50-100kW small and medium-sized generators; the 4X150mm² has a current-carrying capacity of about 290A, matching 100-150kW generators; the 4X185mm² has a current-carrying capacity of 350A, which can be connected to 150-200kW large generators. Its minimum bending radius is 12 times the cable outer diameter (static). The outer diameter of 120mm² cable is about 65mm, and the static bending radius is 780mm, which is convenient for flexible laying in complex pipelines around the generator.​ In practical applications, this cable is mainly used for the connection between generators and distribution panels, emergency busbars, and is widely used in hospitals, data centers, high-rise buildings and other places with high requirements for power supply reliability. In case of emergencies such as fire, its fireproof characteristics can ensure that the generator continues to supply power to key equipment such as fire pumps, emergency lighting and elevators, buying time for personnel evacuation and disaster control. At the same time, the low-smoke and halogen-free characteristics reduce secondary injuries in fires, meeting the strict requirements of modern safety specifications for cables.​ Overall, through material innovation and structural optimization, the 4X120, 4X150, 4X185 fireproof security power cable has achieved an efficient balance between fire safety, electrical performance and installation convenience, providing reliable power transmission guarantee for generator systems.

The THW-A Cable (600V, Stranded Hard-Drawn Aluminum Conductor, PVC Insulated) is a cost-effective and practical power transmission component in the low-voltage power distribution field. With core advantages of "stranded hard-drawn aluminum conductor + PVC insulation + 600V rated voltage + THW-A performance certification", it is widely used in civil buildings, commercial premises, industrial auxiliary power distribution, and municipal facilities. It provides a power transmission solution with controllable costs and reliable performance for low-voltage power distribution systems, especially suitable for power distribution needs that are cost-sensitive and do not require extremely harsh environmental conditions.​ In terms of core specifications and performance, the "stranded hard-drawn aluminum conductor" design of this cable is a key feature that distinguishes it from copper-conductor cables. The hard-drawn aluminum conductor is made of electrolytic aluminum with a purity of ≥99.5% through a hard-state drawing process. Compared with soft aluminum conductors, its tensile strength is increased by more than 30% (up to 120-140MPa), and its fatigue resistance is better, which can reduce the risk of conductor deformation during transportation and installation. At the same time, the conductor adopts a multi-strand fine aluminum wire stranded structure (usually composed of 19-37 aluminum wires with a diameter of 0.5-1.2mm). This structure not only retains the advantage of lightweight aluminum conductors (the weight of an aluminum conductor with the same cross-section is only 1/3 of that of a copper conductor) but also improves the problem of excessive rigidity of single-strand hard-drawn aluminum conductors. The static bending radius can be controlled within 6 times the outer diameter of the cable, and the dynamic bending radius does not exceed 10 times, which can adapt to common installation scenarios such as wall-embedded pipes and equipment wiring troughs, such as the pipe installation of lighting circuits in civil residences and the branch wiring of sockets in commercial stores.​ The 600V rated voltage design is accurately matched to the mainstream low-voltage power distribution systems worldwide (220V/380V in China, 120V/240V in North America, etc.), and can be directly used for power transmission from the distribution box to the electrical terminal without additional voltage reduction equipment. In terms of current-carrying capacity, taking the common 10 AWG (corresponding to a cross-sectional area of 2.5mm²) specification as an example, the current-carrying capacity is about 25-30A when installed in air (ambient temperature 30℃), which can meet the power supply needs of household wall-mounted air conditioners (1.5 horsepower, power about 1.1kW) and small commercial fans (power about 1.5kW); the 1 AWG (corresponding to a cross-sectional area of 42.4mm²) specification has a current-carrying capacity of 120-130A, which can be adapted to scenarios such as floor branch power distribution in commercial complexes and small motor cluster power supply in industrial workshops. This multi-specification coverage (from small cross-section 18 AWG to large cross-section 4/0 AWG) allows users to select models accurately according to actual electrical loads. While ensuring power supply safety, it maximizes the control of material costs - the material cost of aluminum conductor cables is usually 40%-50% lower than that of copper conductor cables of the same specification, significantly reducing the overall power distribution cost of the project.​ The combination of THW-A certification and PVC insulation layer endows the cable with excellent environmental adaptability. "THW-A" means that the cable has thermoplastic insulation, is heat and moisture resistant, and is suitable for wet environments (Thermoplastic, Heat and Water Resistant, Wet Location - A Style). The specific performances are as follows: first, the temperature resistance of the PVC insulation layer is suitable for most low-voltage scenarios. The normal operating temperature range is -10℃ to 75℃, which can cope with environmental temperature changes in most areas of northern and southern China. It is not easy to soften and deform at high temperatures in summer, and can maintain basic flexibility at low temperatures in winter to avoid brittle cracking; second, it has excellent heat and moisture resistance. The sealed structure between the insulation layer and the conductor can resist the erosion of humid environments. Even in humid environments such as underground garages and bathrooms with a relative humidity of 90%, the insulation resistance can still maintain ≥50MΩ (tested with a 500V megohmmeter), which is much higher than the national standard requirement of ≥0.5MΩ, reducing the risk of electric leakage; third, the PVC insulation layer is added with flame retardants (usually meeting the GB/T 19666 Class C flame retardant requirement), which can inhibit the spread of flames in case of fire and release less smoke during combustion, improving the fire safety of the power distribution system, especially suitable for densely populated civil buildings and commercial premises.​ In practical application scenarios, the cable has strong adaptability and covers low-voltage power distribution needs in multiple fields:​ Civil Building Field: It is the main power distribution cable for civil buildings such as residences and apartments. Small cross-section specifications (such as 14 AWG/2.5mm², 12 AWG/4mm²) are used for lighting circuits, ordinary socket circuits, and power supply for small household appliances. Large cross-section specifications (such as 6 AWG/16mm², 4 AWG/25mm²) are used for dedicated lines for high-power household appliances such as air conditioners and electric water heaters. Taking a 100㎡ three-bedroom apartment as an example, about 150 meters of 14 AWG cable (for lighting and ordinary sockets), 80 meters of 12 AWG cable (for wall-mounted air conditioners), and 30 meters of 6 AWG cable (for electric water heaters) are usually required. The overall power distribution cost is reduced by more than 35% compared with using copper conductor cables, and it can meet the daily electricity needs of the family. At the same time, the lightweight advantage of aluminum conductors can reduce the load-bearing pressure of pre-embedded pipes in building walls and lower the construction difficulty.​ Commercial Premises Field: It is suitable for branch power distribution in commercial spaces such as supermarkets, convenience stores, and small office buildings. For example, 10 AWG specification cables can be used for shelf lighting, cash register equipment, and refrigerated cabinets (power ≤3kW) in supermarkets; 12 AWG specification cables can be used for office socket clusters and small office equipment such as printers in office buildings; and 14 AWG specification cables can be used for public area lighting and small ventilation equipment in shopping malls. Such scenarios are highly sensitive to power distribution costs, and the electrical load is relatively stable. The cost-effectiveness and current-carrying capacity of this cable can be perfectly adapted. At the same time, the easy-to-clean property of the PVC insulation layer facilitates daily cleaning and maintenance of commercial premises.​ Industrial Auxiliary Power Distribution Field: It is used for power supply of auxiliary equipment in industrial workshops, such as workshop lighting, small ventilation fans, and tool sockets, and is not suitable for scenarios directly close to high-temperature equipment or strong corrosion environments. Taking a mechanical processing workshop as an example, 12 AWG specification cables can be used for ordinary lighting circuits in the workshop, and 10 AWG specification cables can be used for tool socket circuits (for small tools such as electric drills and grinders). The power of such auxiliary equipment is usually within 2kW, and the current-carrying capacity of the cable is fully sufficient. At the same time, the cost advantage of aluminum conductors can reduce the construction cost of the factory's auxiliary power distribution system, especially suitable for the budget control needs of small and medium-sized factories.​ Municipal Facilities Field: It is suitable for scenarios such as road lighting, small municipal pump stations, and bus stop power supply. Road lighting usually uses 12 AWG or 10 AWG specification cables, which are installed by direct burial or pipe installation. The soil corrosion resistance (can resist acid and alkali substances in ordinary soil) and weather resistance (after adding ultraviolet absorbers, the outdoor service life can reach 8-10 years) of the PVC insulation layer can cope with the sun and rain in the municipal outdoor environment; the control circuits and lighting circuits of small municipal pump stations can also use this cable, and its heat and moisture resistance can adapt to the humid environment in the pump station, ensuring the stable operation of the equipment.​ In addition, the cable also has significant advantages in installation and maintenance. Although the conductivity of aluminum conductors is slightly lower than that of copper conductors, through the stranded structure and reasonable cross-sectional design, the line loss can be controlled within an acceptable range (taking a 100-meter 10 AWG cable as an example, the DC resistance is about 2.08Ω/km, and the line loss during operation is ≤2%), which will not have a significant impact on power efficiency. During installation, due to the lightweight of the aluminum conductor, no heavy hoisting equipment is needed, and installation can be completed manually, which is especially suitable for wiring in narrow spaces in old building renovation projects (such as replacing cables in pre-embedded wall pipes); the surface of the PVC insulation layer is smooth, with low friction resistance during installation, which can quickly pass through metal or PVC pipes, improving construction efficiency. In terms of maintenance, the PVC insulation layer has various colors (commonly black, white, red), which is convenient for distinguishing phase wires, neutral wires, and ground wires, and can quickly locate problems during later fault detection; at the same time, the PVC material has stable aging resistance, and the service life can reach 10-15 years in a normal use environment, without frequent replacement during this period, further reducing maintenance costs. Generally speaking, the THW-A 600V Stranded Hard-Drawn Aluminum Conductor PVC Cable, with its high cost-effectiveness, reliable performance, and wide adaptability, has become an ideal choice for cost-sensitive projects in the low-voltage power distribution field, providing economical and efficient power transmission guarantee for various low-voltage power distribution scenarios.

This product is a 0.6/1kV quadruplex ABC (Aerial Bundled Cable) aerial cable, a core transmission device specially designed for low-voltage aerial power distribution systems. It adopts a quadruplex symmetric conductor configuration of 3×1/0 AWG + 1×1/0 AWG (1/0 AWG corresponds to approximately 50mm² cross-section). The conductor material is high-purity aluminum, and the insulation layer is made of XLPE (Cross-Linked Polyethylene), with a rated voltage of 0.6/1kV. It has the core advantages of "quadruplex symmetric transmission + aerial adaptation + weather-resistant insulation". It is mainly used in the main lines of low-voltage power distribution networks, aerial power supply for residential communities and industrial and commercial parks, and is especially suitable for three-phase four-wire low-voltage power distribution scenarios. It can stably transmit electricity and balance three-phase loads, effectively replacing the traditional mode of parallel erection of multiple bare conductors, reducing the risk of line faults, and improving the reliability and economy of the power distribution system.​ In terms of core specifications and electrical performance, the quadruplex 1/0 AWG aluminum conductor configuration of this cable is its prominent feature. The 1/0 AWG (American Wire Gauge) corresponds to a conductor cross-section of approximately 50mm², and each conductor has a long-term safe current-carrying capacity of 120-140A (at an ambient temperature of 25℃). The three phase conductors and one neutral conductor all adopt the same cross-section, forming a symmetric transmission structure. This symmetric design breaks the conventional configuration of "thick phase conductors and thin neutral conductors" in traditional ABC cables, and is more suitable for scenarios with large three-phase load fluctuations. When the cross-section of the neutral conductor is the same as that of the phase conductors, it can more efficiently balance the three-phase current deviation, avoiding problems such as conductor heating and voltage deviation caused by excessive neutral current, and ensuring the stable operation of user-end equipment (such as precision instruments and variable-frequency household appliances). At the same time, the rated voltage of 0.6/1kV is adapted to the 0.4kV working voltage of the low-voltage power distribution system, providing a sufficient voltage safety margin. It can resist short-term overvoltages in the line (such as lightning-induced overvoltages and switching overvoltages) and prevent insulation breakdown.​ The selection of aluminum conductors provides multiple adaptation advantages for aerial scenarios: First, the lightweight feature. The density of aluminum is only 2.7g/cm³, much lower than that of copper. The unit weight of the quadruplex 1/0 AWG cable is about 3.5-4.0kg/m, which significantly reduces the load on aerial poles and towers. It can reduce the material cost of poles and towers (such as using light steel poles or concrete poles), simplify the installation process, and reduce the hoisting difficulty and labor cost during construction. Second, good electrical conductivity. The high-purity aluminum conductor (purity ≥99.7%) has a resistivity of about 2.83×10⁻⁸Ω·m. Although it is slightly higher than that of copper, combined with the large cross-section of 1/0 AWG, it can still ensure low-resistance transmission. The voltage drop is controlled within a reasonable range (voltage drop of 100-meter line ≤8V), meeting the energy efficiency requirements of low-voltage power distribution. Third, natural corrosion resistance. A dense oxide film (Al₂O₃) is easily formed on the surface of the aluminum conductor, which can isolate air, moisture and slightly corrosive substances (such as industrial dust and mild acid rain), extending the service life of the conductor and adapting to the complex outdoor aerial environment.​ The XLPE insulation layer is a key guarantee for this cable to adapt to outdoor aerial use. Compared with traditional PVC insulation, it has three core values: First, excellent weather resistance. XLPE forms a three-dimensional network molecular structure through a cross-linking process, which can resist the erosion of outdoor environmental factors such as ultraviolet rays, ozone, and alternating high and low temperatures. It can still maintain stable insulation performance after long-term exposure to the outdoors, with a service life of 20-30 years, far exceeding the 5-8 years of PVC insulated cables. Second, excellent high-temperature resistance and overload resistance. The long-term allowable operating temperature of XLPE is 90℃, and the allowable temperature during short circuits is as high as 250℃ (duration ≤5 seconds). It can withstand the heat generated by high-temperature exposure in summer or short-term overload of the line, avoiding melting or cracking of the insulation layer. Third, excellent electrical insulation performance. The insulation resistance coefficient of XLPE is >10¹⁴Ω·cm (at room temperature), and the dielectric loss tangent value is small (≤0.0005), which can effectively isolate the leakage risk between phase conductors and between phase conductors and the ground. At the same time, it has a high breakdown field strength (20-25kV/mm), preventing the insulation layer from being damaged under overvoltage and ensuring the safe operation of the line.​ In terms of adaptability to application scenarios, the core value of this cable lies in "efficient transmission and stable operation of low-voltage aerial power distribution": In the main lines of urban low-voltage power distribution networks, it can be used as an aerial transmission line from the low-voltage side of the regional distribution transformer to the junction box. The quadruplex symmetric configuration can stably bear the total load of multiple users in the area (such as the daily electricity consumption of 100-150 households). The weather resistance of XLPE insulation reduces the frequency of line maintenance and lowers the operation and maintenance cost of power companies. In the power distribution of large residential communities, it can be used as the aerial main line in the community to connect the distribution boxes of each building. The symmetric quadruplex design adapts to the dynamic changes of three-phase loads in the community (such as residential air conditioners, elevators, and public lighting), avoiding neutral line overload and ensuring the stability of community power supply. In the power distribution of industrial and commercial parks, it is suitable for low-voltage aerial lines in the park to provide electricity for small and medium-sized factories and warehouses. The large cross-section conductor of 1/0 AWG can meet the current demand of production equipment in the park (such as small motors and processing machines), and the high-temperature resistance of XLPE insulation can cope with the high-temperature environment in the park in summer, ensuring the continuous and stable operation of the line.​ From the perspective of installation and operation and maintenance, this cable has significant advantages: The quadruplex integrated design reduces the number of erected aerial lines. Unlike traditional bare conductors that require separate erection of multiple phase conductors and neutral conductors, it simplifies the construction process, shortens the construction period, and reduces the aerial space occupied by the line, lowering the risk of conflict with external objects such as trees and buildings. The overall flexibility of the cable is moderate (minimum bending radius is 12 times the outer diameter), and it can be erected with a large span between poles and towers (conventional span 50-100 meters), reducing the number of poles and towers and further lowering the project investment. In addition, the XLPE insulation layer adopts color coding (such as red, yellow, and green corresponding to three-phase conductors, and blue corresponding to neutral conductor), which is convenient for construction personnel to identify the phase sequence, reducing wiring errors. At the same time, the surface of the insulation layer is smooth, not easy to attach dust, ice, and snow, reducing the risk of excessive line weight caused by ice coating in winter and reducing the operation and maintenance workload.​ From the perspective of economy and safety, this cable can effectively solve the pain points of traditional low-voltage aerial lines: Compared with copper conductor cables, aluminum conductors significantly reduce material costs (the price of aluminum is about 1/3 of that of copper), and the lightweight feature reduces the cost of poles, towers, and installation. The comprehensive project cost is reduced by 30%-40%. Compared with bare conductors, the XLPE insulation layer completely eliminates electric shock accidents caused by accidental contact by personnel and animals, as well as fault hidden dangers of phase-to-phase short circuits and ground short circuits, significantly reducing the line tripping rate and improving power supply reliability. In addition, this cable complies with relevant standards of the International Electrotechnical Commission (IEC 60502-1) and national standards (GB/T 12527-2008), has good compatibility, and can be seamlessly connected with existing low-voltage power distribution equipment (such as disconnectors, surge arresters, and distribution boxes), facilitating the upgrading and expansion of the power distribution network.​ In terms of overall value, this 0.6/1kV quadruplex ABC aerial cable solves three core pain points of low-voltage aerial power distribution through the design of "symmetric quadruplex configuration + aluminum conductor + XLPE insulation": First, the "load balance" problem. The symmetric cross-section neutral conductor efficiently balances three-phase current, avoiding voltage deviation and conductor overload. Second, the "environmental adaptation" problem. The combination of XLPE insulation and aluminum conductor resists the complex outdoor environment and extends the service life of the line. Third, the "cost efficiency" problem. The lightweight and low-cost design reduces project and operation and maintenance investment. For power companies, community property management, and park management, this cable is not only a "power transmission carrier" but also a key equipment to improve the stability, safety, and economy of the low-voltage power distribution network, providing a solid guarantee for the efficient operation of the low-voltage aerial power distribution system.

The 0.6/1kV Aerial Bundled Cable (ABC) is a crucial equipment in the field of power transmission. With its excellent performance and convenient installation characteristics, it is widely used in medium and low-voltage distribution networks, especially playing a key role in urban and rural distribution network transformation, residential area power supply, and industrial park power transmission scenarios. This cable features a 4-core design, with a conductor cross-sectional area of 95 mm², using aluminum as the conductor material and cross-linked polyethylene (XLPE) as the insulation layer, achieving an efficient balance between performance, safety, and economy. In terms of structural design, the 4-core configuration meets the requirements of three-phase four-wire power supply, enabling simultaneous power transmission and the realization of a neutral line circuit. It is compatible with the wiring methods of most low-voltage distribution systems, eliminating the need for additional neutral line cable laying. This effectively simplifies the line layout and reduces the complexity of construction. The 95 mm² conductor cross-sectional area ensures the cable has excellent current-carrying capacity, allowing it to stably carry large currents, reduce losses during current transmission, and avoid safety hazards caused by conductor overheating. It is suitable for areas with high electricity load, such as dense residential communities and small to medium-sized factories. In the selection of conductor material, aluminum conductors have significant advantages. Compared with copper conductors, aluminum has a lower density, making the overall weight of the cable lighter. This not only reduces transportation costs but also reduces the load-bearing requirements on the poles during overhead installation, lowering the investment in pole construction. At the same time, aluminum conductors have good electrical conductivity, which can meet the transmission needs under the 0.6/1kV voltage level. Moreover, the cost of raw materials is lower, which can effectively control the overall project cost in large-scale distribution projects, taking into account both economy and practicality. The use of cross-linked polyethylene (XLPE) material for the insulation layer is the core guarantee of the cable's performance. XLPE insulation material has excellent electrical insulation performance, capable of withstanding the rated voltage of 0.6/1kV. It effectively isolates the conductor from the external environment, prevents leakage accidents, and ensures the safety of power transmission. In addition, XLPE material also has excellent high-temperature resistance, aging resistance, and corrosion resistance. It can work stably in the temperature range of -40℃ to 90℃, resisting sunlight, rain, ultraviolet radiation, and corrosion from corrosive substances in the air. This greatly extends the service life of the cable and reduces later maintenance costs. In terms of application scenarios, the overhead installation feature of this cable makes it suitable for areas where underground cable laying is inconvenient, such as suburban farmland, mountainous and hilly terrain, as well as distribution lines in cities that need to cross roads and buildings. Its bundled structure avoids the problem that traditional overhead bare wires are easily affected by the external environment (such as short circuits caused by tree shading and bird nesting), reduces the incidence of line faults, and improves power supply reliability. At the same time, the cable also has good mechanical strength, which can resist the impact of certain natural disasters such as wind and ice and snow, ensuring the stability of power supply. Overall, the 0.6/1kV 4-core 95 mm² aluminum conductor XLPE-insulated aerial bundled cable (ABC), with its reasonable structural design, high-quality material selection, and comprehensive performance advantages, has become an ideal choice in the medium and low-voltage distribution field. It provides strong support for the safe, efficient, and economical operation of the power system and is of great significance in promoting the upgrading of urban and rural power infrastructure and ensuring people's livelihood electricity consumption.