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Cables by Type

Cables by Type

Bare AAACBare AAAC-product
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Bare AAAC

2024-08-15

The All Aluminum Alloy Conductor (AAAC) is an electrical conductor commonly used in overhead power transmission and distribution systems. It is made entirely of aluminum alloy, known for its superior corrosion resistance, strong mechanical properties, and excellent electrical conductivity. Our AAAC conductors are manufactured according to BS, ASTM, DIN, IEC, CAN, NFC, AS-NZS, BS EN, and GOST standards.

AAAC conductors are composed of high-strength aluminum alloy, typically 6201 aluminum, which offers both strength and conductivity. Although not as conductive as pure aluminum (AAC), AAAC provides good electrical conductivity suitable for various transmission and distribution applications. The aluminum alloy used in AAAC conductors has higher tensile strength than pure aluminum, making it ideal for longer spans and higher tension applications. The alloy's excellent resistance to atmospheric corrosion makes AAAC well-suited for harsh environmental conditions. Additionally, the lower density of aluminum alloy results in a lightweight conductor that is easier to handle and install compared to heavier conductors like ACSR.

AAAC is widely used in high-voltage power transmission lines where high strength and good conductivity are essential. It is also commonly used in medium and low-voltage distribution networks, balancing strength and conductivity effectively. The conductor’s excellent corrosion resistance makes it ideal for coastal regions and industrial areas with high corrosion potential. Additionally, its lightweight nature benefits urban and rural electrification projects, simplifying installation.

Service Drop CableService Drop Cable-product
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Service Drop Cable

2024-08-15

Service drop cable is an overhead electrical line that extends from a utility pole to a customer's building or service entrance. It delivers electrical power from the distribution network to individual homes or businesses. These cables are mainly with three types: Duplex Service Drop Wire, Triplex Service Drop Wire and Quadruplex Service Drop Wire.

Duplex Service Drop Wire: Duplex service drop aluminum conductors are designed to supply 120-volt aerial service for various applications, including temporary services at construction sites and outdoor or street lighting. They are also suitable for permanent installations operating at 600 volts or lower, with a maximum conductor temperature of 75°C. These conductors are ideal for settings where reliability and ease of installation are critical.

Triplex Service Drop Wire: Triplex service drop aluminum conductors are used to deliver electrical power from utility lines to the consumer's weatherhead. These conductors are designed for service applications at 600 volts or less (phase to phase) with a maximum conductor temperature of 75°C for polyethylene insulation or 90°C for cross-linked polyethylene (XLPE) insulation. They are commonly employed in residential and commercial installations for safe and reliable power distribution.

Quadruplex Service Drop Wire: Quadruplex service drop aluminum conductors are intended for supplying three-phase power, typically from a pole-mounted transformer to the user's service head, where they connect to the service entrance cable. These conductors are suitable for applications at voltages of 600 volts or less (phase to phase) and can operate at conductor temperatures up to 75°C for polyethylene-insulated conductors or 90°C for XLPE-insulated conductors. They are ideal for residential, commercial, and light industrial power distribution.

LSZH CableLSZH Cable-product
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LSZH Cable

2024-08-16

LSZH (Low Smoke Zero Halogen) cables are essential components for medium and low voltage applications, power applications, indoor general wiring, and more. They are specifically designed for environments where there is a risk of fire, smoke emission, and toxic fumes posing a threat to life and equipment. Our LSZH cables ensure reliability, safety, and compliance with international standards.

Our LSZH cables are engineered with high-quality conductors to ensure efficient power transmission and flexibility. The conductors are typically made from either copper or aluminum, providing excellent electrical conductivity and mechanical strength. The superior insulation materials used, such as LSZH and XLPE (Cross-Linked Polyethylene), ensure electrical safety and durability by preventing electrical hazards. The cables are sheathed in LSZH materials, which minimize fire risks, smoke emissions, and toxic fumes, thereby enhancing overall safety. Additionally, our LSZH cables are available in various sizes and types to suit different applications, ensuring they meet the specific needs of diverse projects. Each product complies with international standards for safety and performance, providing assurance of their quality and reliability.

LSZH cables are versatile and suitable for a wide range of applications. In power applications, they are used for D.C. power supplies in telecoms equipment and other power-related uses. For medium voltage applications, they are ideal for power networks, underground installations, outdoor use, and cable ducting. In low voltage applications, they serve power networks, underground installations, outdoor usage, and cable ducting efficiently. Indoor general wiring applications include pendant lighting drops and general supply leads in hospitals, airports, and other projects. Additionally, they are used in transportation, distribution, and permanent installations, both in protected and unprotected environments, to safeguard individuals and electronic equipment.

Cold Resistant CableCold Resistant Cable-product
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Cold Resistant Cable

2024-08-19

Cold resistant cables are specifically designed to withstand extreme cold temperatures while maintaining their electrical performance and mechanical integrity. These cables are commonly used in environments where temperatures drop below freezing, such as cold storage facilities, outdoor installations in polar regions, and refrigerated warehouses. They are engineered with materials that can withstand low temperatures without becoming brittle or losing their flexibility, ensuring reliable operation even in harsh winter conditions.

Our cold resistant cables are widely used in environments and industries where exposure to low temperatures is a concern. They are essential for power distribution and lighting in cold storage facilities, outdoor installations, and polar regions. These cables support infrastructure development, telecommunications, and industrial operations in extremely cold climates. Additionally, they connect motors and equipment in refrigeration units and are used in construction projects in cold climates for temporary power supply and heating systems.

They are engineered to remain flexible at temperatures as low as -30℃, -40℃, and -50℃. They are constructed with materials that resist brittleness and cracking, ensuring durability and mechanical integrity in harsh conditions. These cables maintain optimal electrical conductivity and insulation properties at low temperatures, preventing voltage drops and electrical faults. Their outer sheath protects against moisture, snow, and ice, making them suitable for outdoor use in cold climates. Manufactured to international standards and rigorously tested, cold resistant cables enhance safety by minimizing the risk of electrical hazards in cold environments.

Cold Resistant CableCold Resistant Cable-product
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Cold Resistant Cable

2024-08-19

Cold resistant cables are specifically designed to withstand extreme cold temperatures while maintaining their electrical performance and mechanical integrity. These cables are commonly used in environments where temperatures drop below freezing, such as cold storage facilities, outdoor installations in polar regions, and refrigerated warehouses. They are engineered with materials that can withstand low temperatures without becoming brittle or losing their flexibility, ensuring reliable operation even in harsh winter conditions.

Our cold resistant cables are widely used in environments and industries where exposure to low temperatures is a concern. They are essential for power distribution and lighting in cold storage facilities, outdoor installations, and polar regions. These cables support infrastructure development, telecommunications, and industrial operations in extremely cold climates. Additionally, they connect motors and equipment in refrigeration units and are used in construction projects in cold climates for temporary power supply and heating systems.

They are engineered to remain flexible at temperatures as low as -30℃, -40℃, and -50℃. They are constructed with materials that resist brittleness and cracking, ensuring durability and mechanical integrity in harsh conditions. These cables maintain optimal electrical conductivity and insulation properties at low temperatures, preventing voltage drops and electrical faults. Their outer sheath protects against moisture, snow, and ice, making them suitable for outdoor use in cold climates. Manufactured to international standards and rigorously tested, cold resistant cables enhance safety by minimizing the risk of electrical hazards in cold environments.

Century-long Life Wires and CablesCentury-long Life Wires and Cables-product
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Century-long Life Wires and Cables

2024-08-19

Compared to traditional cables, the Century-long Life Wires and Cables developed by Eastful Group offer superior performance, enhancing convenience for residents and businesses while promoting social progress, environmental protection, resource conservation, and sustainable development. This wire has the characteristics of heat resistance, waterproofing, moisture resistance, anti-aging, low smoke emission, non-toxicity, and non-corrosiveness. It also has strong overload capacity, making it suitable for use in high-end residential installations, high-rise buildings, public buildings, and design-oriented architecture.

The cable boasts high current-carrying capacity with low power loss and minimal heat generation. Its double co-extruded structure ensures excellent electrical insulation, waterproofing, and moisture resistance, preventing copper conductor oxidation and enhancing aging resistance. It has safe flame retardancy, being non-corrosive and non-toxic even when burned, and meets non-extended combustion requirements with flames quickly extinguished. Electronic irradiation crosslinking enhances the material's performance, eliminating oil and water during production to prevent water tree formation. It supports long-term operation at temperatures up to 125°C and a maximum short-circuit temperature of 250°C for up to 5 seconds, with a service life exceeding 70 years. Additionally, it features low-smoke, halogen-free flame retardancy, non-toxicity, and high-temperature resistance, ensuring no harmful gases are released during combustion and preventing secondary pollution.