Product Details
Place of Origin: Hefei Anhui China
Brand Name: FeiChun™
Certification: VDE 0250 Part 814
Model Number: ProtoFlex EMV-FC 2XSLCY
Payment & Shipping Terms
Minimum Order Quantity: 200 Meter
Price: 10-50 USD per meter, price varies according to specifications
Packaging Details: Cable Reels or Packaging Bags
Delivery Time: 15-30 Days
Payment Terms: T/T, Western Union
Supply Ability: 18,000 meters per week
Compact Installation: |
Compact Design |
Conductor Integrity: |
Reliable Conductor Integrity |
Easy Installation Process: |
Easy To Install |
Flexibility: |
Good |
High Voltage Capacity: |
Robust Pressure Resistance Design |
Long Lifespan Assurance: |
Extended Lifespan |
Outstanding Flexibility: |
Extremely Flexible |
Temperature Tolerance: |
High-Temperature Endurance |
Compact Installation: |
Compact Design |
Conductor Integrity: |
Reliable Conductor Integrity |
Easy Installation Process: |
Easy To Install |
Flexibility: |
Good |
High Voltage Capacity: |
Robust Pressure Resistance Design |
Long Lifespan Assurance: |
Extended Lifespan |
Outstanding Flexibility: |
Extremely Flexible |
Temperature Tolerance: |
High-Temperature Endurance |
When it comes to ensuring safety, durability, and reliability in hazardous environments, having the right cable can make all the difference.
The ProtoFlex EMV-FC 2XSLCY 0.6/1kV Motor Power Supply Explosion-Proof Cable is specifically designed for environments where explosions are a potential risk.
This highly specialized cable is perfect for frequency converter controlled AC drives and is built to handle medium mechanical stress in a variety of conditions.
Whether you're installing it indoors, outdoors, in dry, damp, or wet environments, the ProtoFlex EMV-FC provides excellent performance. However, it’s not suited for direct burial in the ground or for installation in water.
Let's dive into what makes this cable special and how it compares to other industry standards like the Type Protolon (SC) (N)TSCGEWOEU 6/10kV Medium Voltage Cable.
The ProtoFlex EMV-FC 2XSLCY is specifically designed for use in explosion-prone areas. Here are its standout features:
Conductor: Copper, plain, finely stranded, class 5 according to IEC 60228. This ensures excellent conductivity and flexibility.
Insulation: The insulation is made of cross-linked polyethylene (XLPE), a material that’s widely used due to its superior electrical properties and resistance to aging.
Core Identification: The cable uses clear core color identification according to VDE 0293-308 standards, including green-yellow, brown, black, and grey. This makes it easier to work with during installation.
Screen: The cable includes a multi-layer screen made from aluminum-coated foil and a braid of tinned copper wires. This feature enhances the cable's ability to resist electromagnetic interference (EMC), making it ideal for applications with frequency converters.
Outer Sheath: The outer sheath is made of PVC compound ST2 as per IEC 60502-1. It’s both durable and resistant to external elements, with a distinctive orange transparent color for easy identification.
Rated Voltage: The cable operates at 0.6/1 kV (600/1000V), making it suitable for a wide range of industrial applications.
Max. Operating Voltage: AC voltage is capped at 0.7/1.2 kV, while DC voltage can reach up to 0.9/1.8 kV.
AC Test Voltage: The cable undergoes rigorous testing at 5 kV, ensuring its robustness in high-voltage environments.
Peak Voltage: The 2400 V peak voltage makes it highly resistant to spikes in current, providing greater stability.
EMC Optimization: The cable’s EMC-optimized design reduces Radio Frequency Interference (RFI) and ensures smooth data transmission, even in environments with high electromagnetic activity.
Max Operating Temperature: The conductor can operate at a maximum temperature of 90°C, ensuring it withstands high-heat environments without degradation.
Max Short Circuit Temperature: For short bursts, the conductor can tolerate temperatures up to 250°C (for up to 5 seconds).
Tensile Load: The cable supports a maximum tensile load of 15 N/mm² in motion and 50 N/mm² in fixed installations, making it durable under both static and dynamic conditions.
UV and Ozone Resistance: The cable is resistant to UV and ozone exposure according to DIN EN 60811-403 and UL1581, ensuring longevity even in harsh outdoor conditions.
While both the ProtoFlex EMV-FC and the Protolon (SC) (N)TSCGEWOEU cables are designed for high-stress industrial applications, they have some significant differences.
The most noticeable difference is in their voltage ratings:
ProtoFlex EMV-FC: Rated at 0.6/1kV, it is ideal for lower voltage applications.
Protolon (SC) (N)TSCGEWOEU: Rated at 6/10kV, this cable is designed for medium voltage situations, making it more suitable for heavier-duty applications where higher voltage is required.
ProtoFlex EMV-FC: Specially designed for frequency converter controlled AC drives, it is best suited for environments with explosion hazards and medium mechanical stress. It's commonly used in fixed installations where some flexibility is required.
Protolon (SC) (N)TSCGEWOEU: This cable is meant for more intensive use in mining operations and other industrial applications that require high voltage capabilities and enhanced data transmission via fiber optics.
ProtoFlex EMV-FC uses cross-linked polyethylene (XLPE) insulation, which provides excellent heat and electrical resistance, while the outer sheath is made from PVC compound ST2, ensuring durability in various environmental conditions.
Protolon (SC) (N)TSCGEWOEU also uses EPR insulation for better performance under high voltage and mechanical stress, while its outer sheath is made of high-grade rubber compound for enhanced abrasion and tear resistance.
If you're looking for a reliable explosion-proof cable for medium mechanical stress applications, especially in areas with explosion hazards, the ProtoFlex EMV-FC 2XSLCY is the ideal choice.
Its EMC-optimized design, excellent thermal resistance, and robust electrical properties make it perfect for a variety of industrial settings.
Here’s why you should consider this cable:
Explosion-proof design for hazardous environments.
Ideal for frequency converter controlled AC drives.
EMC-optimized to prevent electromagnetic interference.
UV and Ozone resistant for outdoor installations.
Flexible enough for both fixed installations and occasional free flexing.
This cable is particularly well-suited for environments that require explosion-proof solutions, such as:
Chemical plants where volatile gases may be present.
Oil and gas refineries with the potential for explosive atmospheres.
Industrial factories where frequency converter-controlled motors are used.
Power plants that require high-performance power supply cables for AC drives.
Q: Can this cable be buried directly in the ground?
A: No, the ProtoFlex EMV-FC 2XSLCY is not suitable for direct burial in the ground or water.
Q: Is this cable flexible enough for moving applications?
A: Yes, it is designed for occasional free flexing and medium mechanical stress.
Q: Can this cable handle high temperatures?
A: Absolutely, it can operate at temperatures up to 90°C and withstand short circuit temperatures of 250°C.
The ProtoFlex EMV-FC 2XSLCY 0.6/1kV Motor Power Supply Explosion-Proof Cable is a versatile, high-performance cable designed to meet the demands of hazardous environments.
Whether you’re looking to install it in an industrial plant or an explosion-prone area, this cable offers the safety, durability, and performance you need to keep your operations running smoothly.
For more information or to request a quote, don’t hesitate to get in touch with us today!
Note: This is just part of the standard parameters of our products. Please contact our Engineer if you need more. And the information contained within this webpage is for guidance only and is subject to change without notice or liability. All dimensions and specifications are nominal and are subject to normal manufacturing tolerances. All pictures shown are for illustration purposes only. The actual product may vary. All the information is provided in good faith and is believed to be correct at the time of publication.