PVC Cabtyre Cable (Vct Cable) with Class 5 flexible copper conductor is a special cable featuring high flexibility and durability, widely used in electrical equipment requiring frequent movement and bending. Its core advantages lie in the unique structural design and material selection, enabling it to maintain stable conductivity and mechanical strength even in complex environments.​ In terms of structure, the cable adopts Class 5 flexible copper conductors, which are stranded from multiple ultra-fine copper wires. Each copper wire has a diameter usually less than 0.2mm, forming a soft yet tough conductor structure through precision stranding technology. This design endows the cable with excellent bending performance, with a minimum bending radius as low as 4 times the cable outer diameter, far superior to ordinary cables (typically 6-8 times). It can adapt to scenarios involving frequent folding and twisting, such as power cords for electric tools and mobile devices. The conductor is covered with a PVC insulation layer with a temperature resistance rating of 105℃. The insulation thickness is designed according to the rated voltage (commonly 300/500V), ensuring no insulation cracking under high-frequency bending, while also possessing good resistance to acids, alkalis, and oil. The outermost layer is a specially formulated PVC sheath with a toughened formula, featuring a tear resistance of over 12kN/m, which can resist mechanical impact, abrasion, and UV aging, extending the cable's service life.​ In terms of performance parameters, the DC resistance of the cable's conductor is strictly controlled within standard ranges (at 20℃, the resistance of 0.5mm² conductor is ≤36.0Ω/km, and 1.5mm² is ≤12.1Ω/km), ensuring low-loss power transmission. The insulation resistance is ≥100MΩ·km under normal conditions, and can still maintain ≥10MΩ·km in humid environments (95% relative humidity, 40℃), effectively preventing leakage risks. It has excellent voltage resistance, capable of withstanding 2000V power frequency voltage for 1 minute without breakdown, meeting international standards such as GB/T 5023 or IEC 60227. In addition, the cable has excellent weather resistance, able to work long-term in an ambient temperature range of -15℃ to 70℃, with short-term temperature resistance up to 105℃, suitable for various indoor and outdoor scenarios.​ Its characteristic applications cover multiple fields: in the industrial sector, as power cords for hand-held electric tools (such as angle grinders and electric drills), its high flexibility can reduce cable dragging resistance during operation; in stage lighting equipment, it is used to connect mobile lamps, and frequent angle adjustments will not cause cable fatigue damage; in the medical equipment field, it is suitable for portable monitors, surgical lights, etc., and its soft nature avoids collision risks to patients; in warehousing and logistics, as connecting cables for automated sorting equipment, it adapts to cable swings during high-speed operation of the equipment. Furthermore, the cable is also commonly used in temporary power supply scenarios such as emergency power supplies and mobile power generation equipment, and its quick-plug connector design (with waterproof connectors) can improve work efficiency.​ Compared with ordinary PVC cables, the Class 5 conductor structure of Vct Cable increases its fatigue life by 3-5 times. Tests show that it can withstand more than 100,000 bending cycles (radius 10 times the outer diameter) without conductor breakage or insulation failure. The sheath's flame retardancy reaches UL94 V-0 level, which can self-extinguish quickly in case of fire, reducing the risk of fire spread. These characteristics make it the preferred cable for scenarios with strict requirements on flexibility and safety, reducing equipment maintenance costs while ensuring electrical safety.

PVC insulated flexible copper wires of 1.5mm² and 2.5mm² (IEC 60227-5) are two types of general-purpose electrical cables that comply with the International Electrotechnical Commission (IEC) 60227-5 standard. With their flexible characteristics and reliable performance, they play an important role in various electrical connection scenarios.​ The conductors of both cables are made of multiple strands of fine copper wires twisted together. This structure endows them with excellent flexibility, enabling them to easily cope with complex laying environments such as frequent bending and twisting. They are especially suitable for connecting electrical equipment that needs to be moved or adjusted frequently, such as household appliances, office equipment, and small power tools. The cross-sectional specifications of 1.5mm² and 2.5mm² correspond to different current-carrying capacities. The rated current-carrying capacity of the 1.5mm² cable is about 14-20A, which is suitable for power supply of lighting circuits and small household appliances (such as table lamps and laptop chargers). The rated current-carrying capacity of the 2.5mm² cable is about 20-25A, which can meet the electricity demand of medium-power appliances such as microwave ovens and vacuum cleaners.​ The insulation layer is made of high-quality polyvinyl chloride (PVC) material, which has good electrical insulation performance, wear resistance, and chemical corrosion resistance. Its insulation thickness is strictly controlled. The insulation thickness of the 1.5mm² cable is about 0.6mm, and that of the 2.5mm² cable is about 0.7mm, which can effectively isolate the current and prevent leakage and short-circuit accidents. At the same time, the PVC insulation layer also has certain temperature resistance, with a normal operating temperature range of -15℃ to 70℃, which can adapt to temperature changes in most indoor environments.​ Complying with the IEC 60227-5 standard is one of the core advantages of this cable. This means that it has passed strict tests in terms of conductor material, insulation performance, mechanical strength, and aging resistance, ensuring the safety and consistency of the product. The standard clearly specifies the structure, dimensional deviation, voltage test, mechanical performance test, etc. of the cable. For example, in the voltage test, the cable must be able to withstand an AC voltage of 1500V for 5 minutes without breakdown, which fully ensures electrical safety during use.​ In terms of application scenarios, 1.5mm² and 2.5mm² PVC insulated flexible copper wires are widely used in fixed or mobile electrical installations in civil and industrial fields. In homes, they can be used to connect lighting equipment such as chandeliers and wall lamps, as well as power lines for office appliances such as TVs and printers. In commercial places, such as offices and shopping malls, they are often used for temporary power supply lines and internal wiring of equipment. In industrial environments, they are suitable for wiring of small motors and instruments. In addition, their flexible characteristics make them easy to lay in narrow spaces or complex paths, reducing installation difficulty.​ The appearance of the two cables is usually a single-color insulation layer, with common colors such as white, black, and gray, which is convenient for distinguishing different circuits. The packaging form is mostly supplied in rolls, with lengths generally 100 meters or 500 meters, which is convenient for cutting according to actual needs. Overall, PVC insulated flexible copper wires 1.5mm² and 2.5mm² (IEC 60227-5) have become indispensable basic cable products in electrical connections due to their high flexibility, strong safety, and wide application range.

Flexible Copper Wire with Transparent PVC Insulation: Clear Grounding Cable for Reliable Earth Connections​ The flexible copper wire with transparent PVC insulation stands as a high-performance solution for grounding and earthing systems, engineered to ensure safe and efficient electrical discharge. Available in cross-sectional areas of 6mm², 10mm², 16mm², and 25mm², this cable is designed to meet the demands of residential, commercial, and industrial applications where reliable earth connections are critical for safety.​ Crafted with stranded flexible copper conductors, the wire offers exceptional maneuverability, making it easy to install in tight spaces, around corners, or in complex electrical setups. The flexibility minimizes the risk of breakage during handling and allows for seamless routing through conduits or along structural surfaces, ensuring a secure fit in diverse environments. The high-purity copper core ensures superior conductivity, facilitating rapid dissipation of fault currents to the earth, thereby protecting equipment and personnel from electrical hazards.​ The transparent PVC insulation is a defining feature, providing robust protection while allowing visual inspection of the conductor for signs of damage or corrosion. This insulation is resistant to moisture, chemicals, and temperature variations (operating efficiently within -15°C to 70°C), ensuring durability in both indoor and outdoor settings. Its non-toxic, flame-retardant properties comply with safety standards, reducing fire risks and enhancing overall system reliability.​ With a focus on grounding functionality, this cable is ideal for applications such as electrical panels, machinery, power distribution systems, and lightning protection setups. The range of sizes caters to varying current loads: 6mm² and 10mm² for light to medium-duty use in homes and small commercial spaces, while 16mm² and 25mm² handle heavier loads in industrial facilities and large-scale installations.​ Compliant with international electrical standards, this flexible copper grounding cable combines visibility, flexibility, and conductivity, making it a trusted choice for professionals seeking transparent performance in earth wire systems.

The 150mm² Class 5 flexible copper PVC insulated yellow/green earth wire (450/750V) is a specialized cable designed for the safety of electrical systems. Its core function is to safely conduct current to the ground in the event of electric leakage, short circuits, or equipment failures, preventing electric shock to personnel or damage to devices. It is a key component ensuring the safe operation of power systems.​ In terms of structure, this earth wire uses a Class 5 flexible copper conductor, which means the conductor is stranded with multiple fine copper wires, providing extremely high flexibility. The cross-sectional area of 150mm² endows it with strong current-carrying capacity, enabling it to quickly conduct fault currents, meeting the needs of high-current grounding scenarios such as large industrial equipment and high-voltage distribution systems. The high ductility of the flexible copper conductor allows it to be easily bent and laid in complex environments, maintaining good electrical connection even in narrow spaces or occasions requiring frequent movement.​ The insulation layer is made of polyvinyl chloride (PVC) material, which not only has excellent electrical insulation performance, withstanding the rated voltage of 450/750V, but also has good wear resistance and chemical corrosion resistance, capable of resisting erosion from environmental factors such as oil stains, dust, and moisture. More importantly, the insulation layer adopts the internationally recognized yellow-green 双色标识，a global standard for earth wires. This eye-catching color combination can quickly identify its function, avoiding misconnection and ensuring the correctness of the grounding system.​ In terms of performance, this earth wire performs outstandingly. Its long-term operating temperature range is -15℃ to 70℃, adapting to most indoor and outdoor environments; the short-term overload temperature can reach 105℃, maintaining structural stability when fault current passes through instantly. The flame-retardant property of the PVC insulation layer meets relevant standards, which can slow down the burning speed and reduce the risk of fire spread in case of fire. In addition, the low resistance characteristic of the flexible copper conductor (conductor resistance not exceeding 0.124Ω/km) ensures that the grounding resistance meets safety specifications, usually requiring the grounding resistance to be less than 4Ω, effectively guaranteeing the current leakage efficiency.​ The application scenarios are extensive and critical, mainly including: grounding of heavy machinery and equipment in large industrial plants, such as production line equipment in metallurgy, chemical industry, machinery manufacturing and other industries; grounding main lines of high-voltage distribution systems, connecting key equipment such as distribution cabinets and transformers to grounding electrodes; total grounding loops of commercial buildings and data centers, providing a unified grounding reference for the electrical systems of the entire building; equipment grounding in new energy fields such as photovoltaic power stations and wind farms, ensuring the safe operation of renewable energy systems; and grounding networks of large infrastructure such as railways and airports, ensuring the power safety of transportation hubs.​ In terms of installation and maintenance, due to the high flexibility of Class 5 flexible copper, this earth wire can be laid in various ways such as open laying, concealed laying, and pipe threading. There is no need to worry too much about conductor breakage during installation. However, it should be noted to avoid direct contact with sharp objects to prevent damage to the insulation layer; special grounding terminals must be used for terminal connection to ensure firm connection and good conductivity. In daily maintenance, regular inspections should be carried out to check whether the insulation layer is aged or cracked, and whether the conductor is oxidized or loose, ensuring that the grounding loop is always unobstructed.​ To sum up, the 150mm² Class 5 flexible copper PVC insulated yellow/green earth wire, with its large cross-sectional area, high flexibility, reliable insulation, and clear identification, has become an indispensable safety component in large electrical systems. It provides stable and efficient grounding solutions for various high-power, high-risk power scenarios and is an irreplaceable key link in the electrical safety system.

This product consists of 2.5mm² and 4mm² BVR flexible copper core PVC insulated wires, specifically designed for building electrical systems, with excellent conductivity, flexibility, and safety performance. The conductor is made of high-purity electrolytic copper, stranded with multiple fine copper wires. The 2.5mm² specification is usually composed of 19 strands of copper wires with a diameter of approximately 0.41mm, while the 4mm² specification consists of 49 strands of copper wires with a diameter of about 0.32mm. The multi-strand stranded structure endows the wire with excellent flexibility, enabling it to easily adapt to complex corners, pipe threading, and narrow space installation requirements in building wiring. It is particularly suitable for line layout in concealed parts such as ceilings and wall interlayers, while reducing the risk of conductor damage caused by bending.​ The insulation layer is made of high-quality polyvinyl chloride (PVC) material, which has good electrical insulation performance, aging resistance, and mechanical strength. The PVC insulation layer can effectively isolate the conductor from the external environment, withstand the normal operating temperature range (-15℃ to 70℃), and has certain acid-alkali resistance, oil resistance, and flame-retardant properties. It meets the safety requirements of national standards such as GB/T 5023.3 for building wires, which can significantly reduce the hidden dangers of short circuits, electric leakage, and fires. The insulation thickness of the two specifications is reasonably designed according to the conductor cross-sectional area. The insulation thickness of 2.5mm² wires is approximately 0.8mm, and that of 4mm² is about 0.9mm, which not only ensures insulation reliability but also avoids excessive wire diameter increasing wiring difficulty.​ In terms of electrical performance, the rated current-carrying capacity of 2.5mm² wires is approximately 16-25A (depending on the laying environment), suitable for household lighting circuits, ordinary socket circuits, and small household appliance power supply. The rated current-carrying capacity of 4mm² wires is about 25-32A, which can meet the power supply needs of high-power electrical appliances such as air conditioners and electric water heaters, or be used as the main line of branch circuits. Both are applicable to building electrical systems with AC 50Hz and rated voltage of 450/750V and below, and are widely used in power and lighting line laying in residences, commercial buildings, office buildings and other places.​ The product comes in a variety of colors, including yellow-green (exclusively for grounding wires), blue (neutral wire), brown or black (live wire), etc., strictly following the color identification standards of electrical specifications. This facilitates distinguishing line functions during installation and reduces wiring errors. In addition, the copper conductor of BVR flexible wire has undergone annealing treatment, with a smooth surface and no burrs, making close contact with connectors such as terminals and sockets, reducing contact resistance and heating risks, and ensuring long-term stable operation. Overall, with its characteristics of flexibility, easy installation, safety, reliability, and strong adaptability, this series of wires has become an ideal choice in building electrical wiring, which can meet the power supply needs of different power loads and provide a solid guarantee for the safe and efficient operation of building electrical systems.

The 1.5mm²/2.5mm² flexible copper wire, as an electrical connection carrier with both flexibility and reliability, features a rated voltage of 450/750V and a PVC insulation layer. It is widely applicable to low and medium-load electrical scenarios such as home decoration, office equipment, and small industrial machinery. Its unique flexible design and stable performance make it an ideal choice in wiring projects.​ In terms of specifications, the two types of wires accurately cover different power requirements. The conductor of the 1.5mm² wire is stranded with multiple 0.15mm fine copper wires, with an overall cross-sectional area of 1.5mm². At room temperature, the DC resistance is ≤12.1Ω/km, and the allowable continuous current-carrying capacity is 16A, which is sufficient to support the stable power supply of lighting fixtures and small household appliances (such as microwave ovens and vacuum cleaners). The 2.5mm² wire adopts a stranded structure of thicker copper wires, with a cross-sectional area of 2.5mm², a DC resistance of ≤7.41Ω/km, and a current-carrying capacity increased to 25A, which can meet the electricity demand of high-power household appliances such as air conditioners and electric water heaters. The rated voltage of 450/750V is much higher than the 220V standard voltage in homes and offices, providing sufficient safety margin for voltage fluctuations and preventing damage to the insulation layer due to overvoltage.​ The PVC insulation layer is crucial for its performance guarantee. This material has excellent corrosion resistance, which can resist moisture, dust, and slight chemical erosion in daily environments. At the same time, the insulation resistance is ≥100MΩ, which can effectively prevent the risk of electric leakage. The insulation layer has a uniform thickness (0.8mm for 1.5mm² and 1.0mm for 2.5mm²), with a smooth surface and clear marks, including wire specifications, rated voltage, certification marks, and meter scales. It not only facilitates quick identification during construction but also reduces friction loss during pipe laying.​ The flexible design is a prominent advantage of this wire. The stranded technology of multiple fine copper wires makes its minimum bending radius only 4 times the outer diameter of the cable, which can easily cope with wiring needs in narrow spaces such as corner turns and behind furniture. The conductor remains intact after repeated bending. For example, in home decoration, it can be hidden in wall gaps or under the floor, avoiding construction difficulties caused by stiff wires; in office equipment, it can flexibly deform with the slight movement of equipment components, reducing line fatigue damage.​ The application scenarios are diversified. In the household field, 1.5mm² wires are often used in lighting circuits and socket branch lines, while 2.5mm² wires dominate the main circuits of high-power electrical appliances in kitchens and bathrooms. In office scenarios, it can connect to power interfaces of printers, projectors, and other equipment. Its flexible feature facilitates hidden wiring along gaps in desks and cabinets. In small industrial environments, it is suitable for control lines of equipment such as assembly line conveyor motors and small air compressors, withstanding line pulling caused by slight vibrations.​ In addition, the wire has passed the GB/T 5023.3 standard certification. The insulation layer has an oxygen index of ≥28, with self-extinguishing properties, which can quickly flame retardant when exposed to open flames and delay the spread of fire. Each roll of wire is available in 100-meter and 200-meter lengths, supporting cutting according to actual needs to reduce material waste. In summary, with the triple advantages of "flexibility + safety + adaptability", this wire balances construction convenience and electrical safety, making it the preferred wiring solution for low and medium-load scenarios.

The H07vu and H07vr series electrical cables are high-performance cables specially designed for the French market, covering various specifications of 1.5mm², 2.5mm², 4mm², and 6mm², divided into rigid and flexible types with a rated voltage of 450/750V. They are widely used in power transmission and distribution in residential buildings, commercial buildings, industrial facilities and other fields in France. With excellent safety, durability and adaptability, they have become an important choice for local electrical systems.​ In terms of specification parameters, the current-carrying capacity of cables with different diameters varies significantly, which can meet diverse power demand. The 1.5mm² cable has a current-carrying capacity of about 16A, suitable for lighting circuits, small household appliance sockets, etc.; the 2.5mm² has a current-carrying capacity of about 25A, which can be used for ordinary sockets and small motor power supply; the 4mm² has a current-carrying capacity of about 32A, suitable for high-power appliances such as air conditioners and electric water heaters; the 6mm² has a current-carrying capacity of about 40A, often used for dedicated power supply of industrial equipment and large appliances. Among the two types, the rigid cable adopts a single-strand hard copper conductor with a stable structure, suitable for fixed laying; the flexible cable is a multi-strand soft copper conductor with good flexibility, and the minimum bending radius is 4 times the outer diameter, which is convenient for installation in narrow spaces or scenarios that require frequent bending.​ In terms of materials and performance, the insulation layer and sheath of the cable are made of high-quality PVC materials, with an insulation resistance of ≥100MΩ and a temperature resistance range of -25℃ to 70℃, which can resist the cold and heat changes and humid environment under France's diverse climate conditions. The sheath has good chemical corrosion resistance and resistance to mechanical damage, and has passed the NF C 32-070 French standard certification, meeting the strict requirements of French electrical specifications for cable safety performance. The color identification is clear, with brown, black, etc. as phase lines, blue as neutral line, and yellow-green 双色 as ground line, simplifying the wiring process and improving construction efficiency.​ Application scenarios cover many aspects of the electrical field in France. In residential buildings, 1.5mm² and 2.5mm² flexible cables are used for lighting and socket wiring, adapting to complex indoor wiring environments; rigid cables are suitable for fixed laying lines such as walls and floors. In commercial buildings, 4mm² and 6mm² cables supply power to central air conditioners and large commercial equipment to ensure stable operation. In industrial facilities, flexible cables can connect mobile equipment and production line motors, and rigid cables are used for fixed distribution trunks, both of which jointly ensure the efficient operation of industrial power systems. With a service life of more than 15 years and stable performance, they can perfectly adapt to the electrical needs of France, whether in new projects or old line transformation.

Fil Souple Flexible Copper Electrical Wire H07V-K is a kind of copper wire with high flexibility and reliability, covering various cross-sectional areas such as 1.5mm², 2.5mm², 4mm², 6mm², and 10mm². It is widely used in power transmission and equipment connection in industrial, commercial, and civil fields. Designed in accordance with the H07V-K standard, this wire features the perfect combination of multi-strand stranded copper conductors and PVC insulation layers, ensuring both efficient conductivity and excellent environmental adaptability and installation flexibility.​ In terms of conductor performance, this wire uses high-purity electrolytic copper as the conductor material with a purity of over 99.95% and a conductivity of more than 58MS/m, which can effectively reduce energy loss during current transmission. The multi-strand stranded structure is the key to its flexibility. Each copper wire has a diameter of only 0.1-0.3mm, and forms an integral conductor through a precision stranding process, enabling it to withstand repeated bending without breaking. It is especially suitable for installation in narrow spaces and complex wiring environments (such as internal wiring of equipment and wall pipe threading). The current-carrying capacity varies significantly among different specifications: 1.5mm² is suitable for small lighting and socket circuits with a current-carrying capacity of about 14-20A; 2.5mm² can meet the power supply of home appliances such as air conditioners and water heaters, with a current-carrying capacity of 20-25A; 4mm² and 6mm² are often used in residential main lines or small and medium-sized industrial equipment, with current-carrying capacities of 25-32A and 32-40A respectively; 10mm² is applicable to large power equipment or main lines of distribution boxes, with a current-carrying capacity of 40-60A (the specific value is adjusted according to the ambient temperature).​ The insulation layer is made of high-quality PVC material, with a thickness ranging from 0.6mm to 1.2mm depending on the specification. It has good temperature resistance (-15℃ to 70℃) and insulation strength (insulation resistance ≥100MΩ·km), which can effectively resist moisture, oil stains, and slight chemical corrosion, ensuring electrical safety. The wire is usually black or gray in appearance with a smooth surface for easy pipe threading, and is printed with identification information such as specifications and standards for easy construction identification.​ In terms of application scenarios, the flexibility of this wire makes it the preferred choice for diversified scenarios: in the industrial field, it can be used for internal wiring of machine tools, control cabinets, and production line equipment; in commercial buildings, it is suitable for power supply circuits of lighting systems, air conditioning units, and office equipment; in civil scenarios, it is an ideal connecting wire for sockets, lamps, and home appliances in home decoration; in addition, it can also play a stable role in temporary power supply systems and wiring of outdoor small equipment (such as garden tools).​ In summary, with multi-specification adaptability, high-conductivity stranded copper conductors, durable PVC insulation layers, and excellent flexibility, Fil Souple Flexible Copper Electrical Wire H07V-K provides a safe, efficient, and easy-to-install solution for medium and low-voltage power transmission in various fields, and is a high-quality wire product that balances performance and economy.

H07V-K Cable Flexible Copper Wire 1.5mm 2.5mm 4mm 6mm 10mm PVC Hook-up Wire​ The H07V-K cable, a versatile flexible copper wire available in 1.5mm², 2.5mm², 4mm², 6mm², and 10mm² sizes, stands out as a reliable solution for diverse electrical hook-up applications. Crafted with stranded copper conductors, it offers exceptional flexibility, enabling easy routing in tight spaces—ideal for connecting appliances, machinery, and electrical panels in residential, commercial, and light industrial settings.​ Encased in durable PVC insulation, this cable resists moisture, oils, and abrasion, ensuring long-term performance in harsh environments. The PVC layer also provides flame-retardant properties, enhancing safety in high-risk areas. Compliant with European standards (EN 50525), the H07V-K rating guarantees a voltage capacity of 450/750V, making it suitable for low-voltage power distribution and control systems.​ From 1.5mm² for small devices to 10mm² for heavier loads like industrial equipment, each size caters to specific current demands. Its SEO-optimized features—including “flexible copper,” “PVC hook-up wire,” and key sizes—make it easily discoverable for professionals seeking adaptable, code-compliant wiring. Whether for new installations or repairs, the H07V-K cable delivers consistent reliability, safety, and versatility.

H07V-K Cable Flexible Copper Wire 1.5mm² 2.5mm² 4mm² 6mm² 10mm² PVC Hook-up Wire​ The H07V-K cable, a premium flexible copper wire with PVC insulation, stands as a versatile solution for diverse hook-up applications across residential, commercial, and light industrial settings. Available in 1.5mm², 2.5mm², 4mm², 6mm², and 10mm², it caters to varying power demands with precision.​ Its stranded copper core ensures exceptional conductivity and flexibility, enabling easy routing through tight spaces—ideal for connecting appliances, control panels, and machinery. The durable PVC insulation resists moisture, oils, and abrasion, while offering flame-retardant properties to enhance safety in high-risk environments.​ Compliant with EN 50525 standards, the cable carries a 450/750V rating, making it suitable for low-voltage power distribution and signal transmission. From 1.5mm² for small electronics to 10mm² for heavy-duty equipment, each size delivers reliable performance. SEO-optimized keywords like “H07V-K flexible cable,” “PVC hook-up wire,” and key dimensions boost discoverability for professionals seeking adaptable, code-compliant wiring solutions.​ Whether for new installations or repairs, this cable merges durability, safety, and versatility, solidifying its role as a go-to choice in modern electrical hook-ups.

This product is a flexible 3-core copper cable with a specification of 3X1.5mm². Its core material is oxygen-free copper (OFC), and it has flame-retardant properties. It is a high-quality power cable specially designed for power transmission scenarios, and is widely used in various fields that have strict requirements on cable flexibility, electrical conductivity, and safety protection. In terms of core structure and material, the cable adopts a 3-core design, and the conductor cross-sectional area of each core wire is 1.5mm². This multi-core structure can effectively meet the needs of multi-circuit power transmission, while avoiding signal interference or power loss that may occur in single-core cables during complex wiring. The conductor material is oxygen-free copper. Compared with ordinary electrolytic copper, oxygen-free copper removes oxygen and other impurities from the copper material through a special process during production, resulting in higher purity. This gives the cable excellent electrical conductivity - lower resistance and higher current transmission efficiency, which can effectively reduce power loss during transmission, especially suitable for long-term and stable power supply scenarios. In addition, oxygen-free copper also has stronger oxidation resistance and corrosion resistance, which can extend the service life of the cable, reduce the risk of line faults caused by conductor oxidation and corrosion, and ensure the stability and safety of power transmission. Flexibility is one of the significant advantages of this cable. The product adopts a flexible design, and the outer layer and insulation layer of the cable are made of high-elasticity and bend-resistant high-quality materials. This makes the cable have good bending performance during installation and wiring, and can easily adapt to complex wiring environments, such as narrow spaces, corners, or scenarios that require frequent movement and adjustment. Whether it is wall embedding in home decoration, internal wiring of furniture, or connection wiring of industrial equipment and instruments, this flexibility can greatly reduce construction difficulty, improve wiring efficiency, and at the same time reduce installation inconvenience or bending damage caused by excessive cable rigidity, ensuring that the wired lines are beautiful and stable. Flame-retardant property is an important guarantee of this cable in terms of safety performance. The product complies with relevant flame-retardant standards, and the insulation layer and sheath layer of the cable are made of flame-retardant materials. When encountering open fire or high-temperature environment, it can effectively inhibit the spread of flame, slow down the burning speed, and even self-extinguish quickly after the fire source is removed, avoiding the expansion of fire accidents. This feature makes it highly applicable in crowded places (such as residences, office buildings, shopping malls), flammable and explosive environments (such as factory workshops, laboratories), and places with extremely high fire safety requirements (such as hospitals, schools, subways and other public facilities). It can provide strong protection for the safety of users' lives and properties, and reduce the risk of fires caused by cable burning. In terms of application scenarios, this flexible 3-core OFC flame-retardant power cable has an extremely wide range of applications. In the civil field, it can be used for the connection of socket circuits and lighting circuits in home circuit transformation, and can also be used as a dedicated power cable for high-power household appliances such as air conditioners, refrigerators, and washing machines. Its excellent electrical conductivity and flame-retardant properties can ensure the safe and stable operation of household appliances. In the commercial field, it is suitable for the power connection of lighting systems, security equipment, and office equipment in offices, shopping malls, hotels and other places, meeting the power demand of multiple devices operating simultaneously in commercial scenarios. In the industrial field, it can be used for internal wiring or external connection of small industrial equipment and instruments. Its flexibility and corrosion resistance enable it to adapt to complex working conditions in industrial environments. In addition, in the new energy field, such as power transmission of small solar energy equipment and energy storage equipment, this cable can also play an important role with its stable performance. Overall, this flexible 3-core copper cable 3X1.5mm² - OFC flame-retardant power wire achieves a good balance in terms of conductivity efficiency, installation convenience, and safety protection through high-quality OFC conductors, flexible structure design, and reliable flame-retardant performance. It can meet the power transmission needs in different scenarios and is a practical and reliable power cable product.

This product is a 24-core and 12-core control cable combo, a core signal and command transmission equipment specially designed for industrial automation scenarios. Each core has a uniform conductor cross-section of 1.5mm², made of flexible copper wire with a PVC sheath. It is precisely adapted to the wiring needs of PLC (Programmable Logic Controller), sensors, and various electromechanical equipment. Through the flexible configuration of "multi-core combination", it can not only meet the needs of parallel transmission of a large number of signals in complex systems but also adapt to the simplified wiring scenarios of small and medium-sized equipment. It provides a stable, efficient, and low-cost wiring solution for industrial production lines, intelligent control cabinets, automated machine tools, and other scenarios. In terms of core specifications and structural design, the cable is provided as a "combination set" with two core count options: 24-core and 12-core. The cross-section of each core conductor of both specifications is 1.5mm². This parameter is calculated based on the signal transmission needs of industrial automation scenarios. The 1.5mm² flexible copper wire can not only ensure sufficient current-carrying capacity (meeting the low current demand for control signal transmission while avoiding signal attenuation caused by overly thin conductors) but also transmit multiple groups of control signals in a single cable through the "multi-core integration" design. This significantly reduces the number of wires, lowering the wiring complexity inside control cabinets or between equipment. The 24-core specification is suitable for signal-intensive scenarios, such as the connection between large PLC control systems and multiple sensors/actuators (e.g., the main control PLC of an automobile production line needs to receive signals from dozens of position sensors and pressure sensors simultaneously and send action commands to multiple robotic arms). The 12-core specification is adapted to small and medium-sized wiring needs, such as the connection between the local control unit of a single automated machine tool and surrounding equipment (e.g., the signal interaction between the control panel of a CNC machine tool and the spindle motor, cooling system). The combination of the two specifications can flexibly meet the wiring differences of automation systems of different scales, reducing the cost and inventory pressure caused by users purchasing cables of different core counts separately. The flexible copper wire conductor is the core material advantage of this cable. Compared with rigid conductors or thin-gauge copper wires, it has three core values: First, excellent flexibility. The conductor is made of multiple strands of fine copper wire through a stranding process, which can be bent with a small radius in narrow spaces (the minimum bending radius is usually 6-8 times the cable outer diameter). It is suitable for the dense terminal layout inside control cabinets and the complex wiring paths inside equipment (such as wiring at the joints of automated robotic arms, which need to be bent repeatedly with mechanical movement), avoiding breakage or insulation layer damage caused by excessive conductor rigidity. Second, stable electrical conductivity. The use of high-purity electrolytic copper material makes the conductor resistivity much lower than industry standards, ensuring almost no attenuation of control signals during transmission. It is especially suitable for high-frequency, low-latency control command transmission (e.g., real-time speed adjustment signals from PLC to servo motors). Third, fatigue resistance. The multi-strand stranding structure can disperse mechanical stress. In scenarios where equipment operates for a long time (such as repeated movement of robotic arms and continuous vibration of production lines), it can effectively avoid fatigue fracture of the conductor due to repeated stretching and bending, extending the cable service life. The selection of PVC sheath is optimized for the practical needs of industrial environments: First, PVC material has excellent insulation performance, which can effectively isolate signal interference between adjacent conductors and avoid misjudgment of control signals caused by "crosstalk". In industrial scenarios, crosstalk is prone to occur when multi-core cables transmit in parallel, while the PVC insulation layer can isolate each conductor independently, ensuring the accuracy of signal transmission. Second, the PVC sheath has high mechanical strength, with wear resistance and impact resistance. It can resist dust, oil, and slight mechanical collisions in industrial environments (such as accidental scratches by tools during equipment maintenance), protecting the internal conductors and insulation layer from damage. In addition, PVC material also has a certain degree of temperature resistance and can work stably in the temperature range of -15℃ to 70℃, adapting to the normal temperature environment of most industrial workshops (such as clean workshops in electronics factories and normal temperature production areas in machinery processing plants). At the same time, it has flame retardant performance (complying with flame retardant standards such as UL94 V-0 or GB/T 18380), reducing the risk of fire caused by cable short circuits in industrial scenarios. In terms of application scenario adaptability, the core value of this cable lies in "accurately matching the wiring logic of industrial automation equipment": In PLC control systems, the 24-core cable can be used as a "main signal line" to connect the PLC host to the distributed I/O module, centrally transmitting the input signals of dozens of sensors and the output commands of actuators, reducing the difficulty of troubleshooting caused by messy wiring. The 12-core cable can be used as a "branch signal line" to connect the I/O module to a single device, forming a "main-branch" wiring architecture and improving system scalability (when adding new equipment later, only the branch lines need to be expanded without modifying the main signal line). In sensor wiring, its multi-core structure can transmit signals from multiple sensors simultaneously (e.g., temperature, humidity, and liquid level sensors in a production line can share a 24-core cable, with every 4-6 cores corresponding to one sensor, greatly simplifying wiring). The flexible conductor also facilitates the flexible installation of sensors on equipment (such as the narrow installation space of surface-mounted sensors). In electromechanical equipment wiring, the cable can be adapted to the control circuits of motors, pumps, valves, and other equipment. The 1.5mm² conductor cross-section can meet the low current demand of the equipment control circuit, and the PVC sheath can resist oil pollution and dust pollution during equipment operation, ensuring stable transmission of control signals. In terms of overall value, this 24-core & 12-core control cable combo solves three core pain points of industrial automation wiring through the design of "specification combination + material optimization + scenario adaptation": First, the "wiring complexity" problem. Multi-core integration reduces the number of wires and lowers installation and maintenance costs. Second, the "environmental adaptability" problem. The combination of flexible conductors and PVC sheaths adapts to the mechanical stress and polluted environment of industrial scenarios. Third, the "cost controllability" problem. The combination set reduces inventory and procurement costs, and the 1.5mm² conductor specification avoids material waste while meeting performance requirements. For the industrial automation industry, this cable is not only a "transmission medium" but also a key supporting component to improve system reliability and reduce operation and maintenance costs, helping automated equipment achieve efficient and stable operation.