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.