STP Cable
TRVVPS Multi-Core Servo Cable
- Product Brief: Flexible drag chain cables are suitable for installation under continuous reciprocating motion, especially for frequent bending scenarios in dry or humid industrial environments. Typical applications include: drag chains of modern mechanical standard components, as well as logistics systems, control systems, mechanical automation systems, etc. They are also applicable to indoor and outdoor environments of CNC machine tools, electronic equipment, hardware punch presses, wood and stone machinery, glass and door/window machinery, injection molding machines, robots (robotic arms), construction machinery, heavy machinery factories, automobile manufacturing, lifting and transportation equipment, automated warehouses, docks, fire trucks, etc.
Description
Product Brief
Flexible drag chain cables are suitable for installation under continuous reciprocating motion, especially for frequent bending scenarios in dry or humid industrial environments. Typical applications include: drag chains of modern mechanical standard components, as well as logistics systems, control systems, mechanical automation systems, etc. They are also applicable to indoor and outdoor environments of CNC machine tools, electronic equipment, hardware punch presses, wood and stone machinery, glass and door/window machinery, injection molding machines, robots (robotic arms), construction machinery, heavy machinery factories, automobile manufacturing, lifting and transportation equipment, automated warehouses, docks, fire trucks, etc.
Shielded flexible cables are specifically used in shielded scenarios that require consistent and stable information transmission and monitoring without discrepancies or variations.
Polyurethane (shielded) flexible cables are specially designed for harsh environments such as heavy mechanical loads, coastal areas, ports, outdoor locations, high/low temperatures, and high pollution. They are applied in shielded scenarios that demand consistent and stable information transmission and monitoring without discrepancies or variations.
Product Structure
Product Name: TRVVPS Multi-Core Servo Cable
Outer Sheath Color: Black (other colors available upon customization request)
Inner Core Wire Color: For 22-core to 50-core cables, all core wires are white with printed coded numbers, twisted in pairs as 1/2, 3/4, …, 49/50.
Conductor Stranding Method: Precision-stranded with multiple strands of 0.12mm bare copper wire.
Insulation Material: Modified PVC insulation material
Applicable Temperature Range: -40℃ to 105℃
Service Life Performance: Withstands over 5 million bending cycles
Core Wire Filling/Components: Thickened insulated outer sheath, tinned copper braided mesh, shielding aluminum foil, thickened tensile rope, insulated inner sheath for core wires, oxygen-free bare copper wire
FAQs
Common causes of flexible cable failure include:
Over-Bending: Bending the cable beyond its minimum bend radius (MBR) damages conductors and insulation. Prevention: Adhere to the manufacturer’s MBR specifications and use cable management tools (e.g., cable tracks) to control bending paths.
Abrasion & Wear: Friction with surrounding components wears down the sheath. Prevention: Choose cables with wear-resistant sheathing (e.g., PUR) and install protective conduits or cable carriers.
Environmental Damage: Exposure to chemicals, moisture, or extreme temperatures degrades materials. Prevention: Select cables rated for the specific environment and use sealing or shielding where necessary.
Incorrect Installation: Tension, kinking, or improper grounding can strain the cable. Prevention: Follow installation guidelines, avoid pulling cables tightly, and ensure proper grounding for shielded cables.
Eelecting the appropriate flexible cable requires considering several key factors:
Movement Type: Determine if the cable will undergo bending (single or multi-axis), twisting, or torsional movement—this dictates the required flexibility (e.g., high-flex for robotic arms vs. medium-flex for simple folding applications).
Environmental Conditions: Assess temperature range (from extreme cold to high heat), exposure to chemicals, oil, water, or UV radiation—choose insulation/sheathing materials (e.g., PUR for oil resistance, TPE for wide temperature tolerance) accordingly.
Electrical Requirements: Confirm voltage rating, current capacity, and signal transmission needs (e.g., shielded flexible cables for reducing electromagnetic interference in data applications).
Mechanical Durability: Evaluate the number of bending cycles required (e.g., millions of cycles for long-life industrial use) to select cables with suitable conductor stranding and sheath thickness.
lexible cables are widely used in industries and equipment where frequent movement is involved. Common applications include:
Industrial Automation: Robotic arms, automated guided vehicles (AGVs), and linear motion systems.
Material Handling: Conveyor belts, hoists, and cranes that require cables to bend with mechanical movement.
Medical Equipment: Portable devices (e.g., ultrasound machines), surgical robots, and patient monitors that need flexible wiring for mobility.
Consumer Electronics: Laptop power cords, headphones, and wearable devices where flexibility ensures user comfort and product longevity.
Automotive Industry: Wiring for folding side mirrors, seat adjustments, and retractable door handles.
A flexible cable is a type of electrical cable designed to withstand repeated bending, twisting, and movement without compromising its electrical performance or structural integrity. Unlike standard fixed-installation cables, which are engineered for static or minimal-movement applications, flexible cables feature specialized constructions—such as fine-stranded conductors (instead of solid or coarse-stranded ones), flexible insulation materials (like PVC, TPE, or PUR), and robust sheathing—that enhance their durability under dynamic stress. This design allows them to be used in scenarios requiring constant motion, such as robotic arms, conveyor systems, and portable equipment.
In industrial scenarios where dynamic motion and signal integrity coexist, standard cables often fail to meet requirements—either lacking flexibility for long-term bending or failing to block interference for precise signals. TRVVPS Twisted Pair Shielded Drag Chain Cable solves these pain points through its integrated design of twisted pairs, shielding, and high flexibility, ensuring reliable, stable, and long-lasting performance. It is a critical cabling solution for upgrading automation levels and improving production precision in modern manufacturing.













