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215mm

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SKU/MPN792836-001Availability✅ In StockProcessing TimeUsually ships same day ManufacturerHPE Product/Item ConditionExcellent Refurbished ServerOrbit Replacement WarrantySix-Month (180 Days)

Power Cable 215mm

The Power Cable 215mm category is an essential component in industrial, commercial, and residential electrical systems, designed for higher power transmission needs. These cables are engineered to deliver reliable electricity over longer distances with minimal power loss. The 215mm power cable category represents a particular specification that caters to medium to high voltage applications, requiring more robust and durable solutions. Understanding the characteristics, applications, and benefits of the Power Cable 215mm can help industries, contractors, and electricians make informed decisions when selecting cables for critical power systems.

Power cables are used to transmit electrical power from one point to another, and the 215mm designation refers to a specific cable size, typically indicating the diameter or cross-sectional area of the cable's conductor. The 215mm power cable is designed to handle a higher voltage and current, making it suitable for heavy-duty applications such as large industrial machinery, power distribution, and even large-scale commercial systems. These cables are constructed with high-quality conductors, insulation, and protective layers to ensure they meet safety standards while offering maximum efficiency.

Components of the Power Cable 215mm

The Power Cable 215mm, like other cables, consists of several components that work together to ensure the cable functions effectively. The main components include:

  • Conductor: The conductor in the 215mm power cable is made of high-conductivity materials like copper or aluminum. These materials help the cable efficiently transfer electrical energy from one location to another.
  • Insulation: Insulation surrounds the conductor to prevent electrical shocks, shorts, and leakage. The insulation material may be made of PVC, XLPE (cross-linked polyethylene), or rubber, depending on the application and required voltage rating.
  • Sheath: The sheath acts as an outer protective layer to safeguard the cable against environmental factors such as moisture, dirt, and temperature fluctuations. It also provides mechanical protection from external physical damage.
  • Armoring: Many 215mm power cables come with armoring, typically made of steel or aluminum. This feature provides additional protection against mechanical stress and ensures the integrity of the cable in rough environments.

Types of Power Cables 215mm

Power cables 215mm are used in various industries and applications, and their design can vary depending on the voltage levels and specific requirements of the project. The following are common types of 215mm power cables:

Low Voltage Power Cables

Low-voltage 215mm power cables are typically used in residential or light commercial installations where the voltage rating is under 1,000 volts. These cables are designed to deliver reliable electricity to homes, offices, and small industrial systems, providing the necessary safety and protection against environmental risks.

Medium Voltage Power Cables

Medium voltage 215mm power cables are commonly used in industrial applications, power distribution systems, and substations, with voltage ratings ranging from 1 kV to 35 kV. These cables are ideal for transmitting power over medium distances while maintaining efficiency and safety standards. They are used in critical infrastructure such as factories, commercial buildings, and power grids.

High Voltage Power Cables

High voltage 215mm power cables are designed to handle voltages greater than 35 kV, making them suitable for long-distance transmission lines, substation connections, and other high-power applications. These cables ensure efficient transmission of electricity over significant distances, minimizing losses and ensuring the smooth operation of the electrical grid.

Armored 215mm Power Cables

Armored 215mm power cables feature an additional layer of protection, typically made of steel wire or aluminum, to provide extra mechanical strength. These cables are suitable for use in environments where the risk of physical damage is high, such as in underground installations, industrial plants, and outdoor applications exposed to harsh weather conditions.

Flexible 215mm Power Cables

Flexible 215mm power cables are specifically designed for use in mobile or temporary applications where cables need to be frequently moved or reconfigured. These cables are more pliable than traditional rigid cables and are often used in construction sites, events, and other dynamic environments where flexibility is crucial.

Applications of Power Cable 215mm

The 215mm power cable category is versatile and finds applications in various industries that require high-performance cables capable of handling substantial electrical loads. Some common applications include:

Industrial and Manufacturing Plants

In industrial environments, the 215mm power cable is used to power heavy machinery, equipment, and production lines. These cables ensure that critical systems such as motors, pumps, and automated equipment receive a continuous supply of power. With their robust construction, these cables are able to withstand harsh conditions such as high temperatures, chemical exposure, and mechanical stress.

Power Distribution Systems

Power cable 215mm is integral to electrical power distribution systems that connect substations to residential, commercial, and industrial consumers. The 215mm size is ideal for these applications, as it can handle the large electrical loads required to supply power across large areas. These cables are used in overhead or underground transmission lines, ensuring the reliable and efficient delivery of electricity.

Substations and Grid Systems

Substations require reliable power cables like the 215mm to connect various components such as transformers, circuit breakers, and switches. These cables help transmit power at higher voltages and are critical in maintaining the stability of the power grid. The 215mm cables are used to manage large amounts of electrical energy and allow for the safe distribution of power across different regions.

Renewable Energy Systems

As renewable energy systems, such as solar and wind power, gain prominence, the need for high-capacity power cables like the 215mm cable increases. These cables are used to connect renewable energy generation equipment to the grid, helping to ensure the efficient transfer of generated electricity from energy sources to homes, businesses, and industries.

Advantages of Power Cable 215mm

Choosing the right power cable is crucial to ensuring the safety and efficiency of electrical systems. The 215mm power cable offers several advantages:

High Capacity

Power cables of 215mm size are built to carry high electrical loads, making them ideal for industries and systems that require large amounts of power. With the ability to handle significant voltages and currents, these cables help ensure that electrical systems operate smoothly, even under heavy demand.

Durability

With strong insulation and protection against environmental factors such as moisture, extreme temperatures, and chemicals, the 215mm power cable is highly durable and reliable. The cables can perform well under harsh conditions, ensuring that electrical systems remain operational even in challenging environments.

Safety

Power cables of this size are designed to meet or exceed strict safety standards. The multi-layer construction, which includes insulation, sheathing, and armoring, provides robust protection against short circuits, electrical shocks, and fires. Furthermore, many 215mm cables are equipped with fire-resistant features, ensuring safe operation in case of emergencies.

Energy Efficiency

The 215mm power cable ensures the efficient transmission of electrical power with minimal energy loss, which is critical in large-scale industrial applications or long-distance transmission. The optimized design of these cables reduces the risk of overheating and power loss, improving overall energy efficiency.