The High Speed Data Transmission Cable is designed to provide fast, stable, and interference-free data transfer in industrial, commercial, and network environments. Engineered to support high-bandwidth applications, this cable is ideal for Ethernet networks, automation systems, industrial controllers, robotic communication networks, and data centers.
Its multi-stranded copper conductors, advanced shielding layers, and durable outer jacket provide excellent mechanical strength, flexibility, and EMI/RFI resistance, ensuring reliable performance even in harsh industrial conditions. The cable is suitable for long-distance transmission, high-speed networking, and continuous-motion applications such as drag chains or dynamic cable trays.
Compliant with CE, RoHS, UL, and ISO standards, the cable guarantees safety, reliability, and long service life for critical networking and industrial automation applications.
The High Speed Data Transmission Cable offers several advantages that make it a preferred choice for industrial and commercial networking:
High-Speed Performance: Supports up to 10 Gbps data transmission, ideal for Ethernet and high-bandwidth applications.
EMI/RFI Shielding: Foil and braided shielding reduce electromagnetic interference, ensuring stable signal quality.
Durable and Flexible Jacket: Resistant to oil, abrasion, chemicals, and mechanical stress.
Long-Distance Transmission: Maintains signal integrity over extended cable lengths without degradation.
Versatile Applications: Suitable for automation systems, Ethernet networks, robotics, CNC machines, and industrial communication systems.
Certifications: Compliant with CE, RoHS, UL, and ISO9001, meeting global safety and quality standards.
Customizable Options: Available in different conductor counts, lengths, shielding types, and jacket materials.
| Parameter | Specification |
|---|---|
| Cable Type | High Speed Data Transmission Cable |
| Conductor Material | Multi-Stranded Copper (OFC) |
| Conductor Size | 24–28 AWG |
| Number of Cores | 2–32 cores (customizable) |
| Insulation Material | PE / XLPE / TPE |
| Shielding | Foil + Braided Copper |
| Outer Jacket Material | PVC / PUR / LSZH (oil- and abrasion-resistant) |
| Voltage Rating | 300V – 600V |
| Temperature Range | -40°C to +80°C |
| Minimum Bending Radius | 7.5 × Cable Diameter |
| Flame Resistance | UL VW-1 / IEC 60332-1 |
| Data Transmission Speed | Up to 10 Gbps |
| Certifications | CE / RoHS / UL / ISO9001 |
| Applications | Industrial Automation, Ethernet Networks, Robotics, CNC Machines |
Supports communication between PLC controllers, sensors, and actuators, ensuring real-time and reliable data transmission for production lines.
Provides high-speed, stable connectivity for office networks, data centers, and industrial Ethernet systems.
Designed for dynamic motion applications, maintaining signal integrity during continuous movement in robotic arms and automated machines.
Ensures precise communication for motion control, feedback systems, and sensor integration in CNC equipment.
Maintains high-bandwidth and low-latency data transmission, suitable for server-to-server or server-to-network communication.
Even high-quality cables can encounter operational issues. Understanding the common causes of faults and troubleshooting methods ensures minimal downtime.
| Issue | Possible Cause | Solution |
|---|---|---|
| Signal Loss | Broken conductor, damaged insulation | Inspect cable; replace if damaged |
| Interference / Noise | Poor shielding, nearby high-voltage lines | Ensure proper shielding; separate from power cables |
| Data Corruption | EMI/RFI interference, long-distance over rated limit | Check shielding, ensure cable length within specifications |
| Connector Issues | Loose or corroded connectors | Tighten or replace connectors |
| Reduced Flexibility | Conductor fatigue or jacket damage | Replace cable if bending performance deteriorates |
| Overheating | Excessive current or voltage beyond rating | Verify electrical load; ensure cable rating matches system requirements |
Visual Inspection: Check for physical damage, abrasions, or bent connectors.
Continuity Test: Use a multimeter to confirm conductor continuity.
Signal Test: Check network performance using a network tester.
Check Shielding: Verify the foil and braided shield continuity.
Replace Damaged Sections: If irreparable, replace the cable with a certified replacement.
Proper transportation and handling prevent mechanical damage and performance degradation.
Reels or Drums: Use for long-length cables to prevent twisting or tangling.
Coils: Short-length cables can be coiled and secured.
Moisture Protection: Wrap in moisture-proof material to prevent corrosion.
Labeling: Include part number, batch number, and inspection certificate.
Avoid heavy impact or compression during shipping.
Keep away from extreme temperatures and direct sunlight.
Do not stack heavy items on cable reels.
Use proper lifting and securing techniques during loading/unloading.
Avoid sharp bends and kinks.
Use cable trays, conduits, or drag chains to route cables.
Do not expose cables to chemicals or oil beyond their rated tolerance.
Understanding root causes prevents future cable failures:
Mechanical Stress: Excessive bending, twisting, or dragging can damage conductors and insulation.
Electrical Overload: Operating beyond voltage or current ratings can cause overheating and signal degradation.
Environmental Exposure: Oil, chemical, or UV exposure can degrade the cable jacket over time.
EMI/RFI Exposure: Proximity to power lines or industrial machinery without adequate shielding can cause data corruption.
Improper Installation: Using incorrect connectors, tight bends, or unsupported spans can compromise performance.
Routine maintenance ensures long-term reliability and safety.
| Maintenance Task | Frequency | Details |
|---|---|---|
| Visual Inspection | Every 3 months | Check for cuts, abrasions, and insulation damage |
| Connector Check | Every 6 months | Ensure secure, corrosion-free connections |
| Flexibility Test | Annually | Test bending performance and integrity |
| Electrical Test | Annually | Measure insulation resistance, continuity, and data integrity |
| Replacement | Every 3–5 years | Replace if signal quality degrades or mechanical damage occurs |
Pre-Sales Consultation: Assist with cable selection, length, and specification matching.
Warranty: 24 months for manufacturing defects.
Replacement Policy: Free replacement for verified defects within warranty.
Technical Assistance: 24/7 support for installation, troubleshooting, and system integration.
On-Site Support: Available for large industrial automation projects.
The High Speed Data Transmission Cable delivers fast, reliable, and EMI-resistant signal transmission for industrial, commercial, and network applications. With durable construction, shielding, and high-flexibility design, it supports Ethernet networks, robotic systems, CNC machinery, and automation systems while maintaining signal integrity and performance over long distances.
Certified to CE, RoHS, UL, and ISO standards, and supported by technical guidance, maintenance instructions, and after-sales services, this cable is the ideal solution for engineers, system integrators, and industrial automation professionals seeking high-performance, durable, and reliable data cabling.
Choosing the right High Speed Data Transmission Cable is critical for stable, high-bandwidth, and interference-free communication in industrial automation and network systems. Combining mechanical durability, EMI shielding, and high-speed performance, this cable ensures efficient, safe, and long-lasting operation across robotics, CNC machinery, data centers, and automated production lines.
For technical consultation, custom cable orders, or installation guidance, our engineering team provides expert support, ensuring optimal performance and reliability of your data transmission systems.
אתר זה משתמש בקובצי Cookie כדי להבטיח שתקבל את החוויה הטובה ביותר באתר שלנו.
English
Español
Portugues
Pусский
Français
العربية
Türk dili
中文
فارسی
טֵלֵפוֹן