Multiple Conductor Cables

Part Number	Description / PDF	Quantity
30-01516 Tensility International Corporation	CBL 9COND 20AWG SHLD 153M MPPE	0
30-00454 Tensility International Corporation	CBL 3CON 32AWG SHLD WHT 1M BIO	29
31-00048 Tensility International Corporation	CBL COIL SHLD 4C 26AWG 1115MM	0
30-01066 Tensility International Corporation	CBL 7CON 22AWG SHLD WHT 153M	0
30-01120 Tensility International Corporation	CBL 5CON 24AWG SHLD BLK BIO 153M	7
30-01438 Tensility International Corporation	CBL 4COND 22AWG SHLD 153M MPPE	7
30-00914 Tensility International Corporation	CBL 26AWG TPU SHLD 3CON 153M	0
30-00447 Tensility International Corporation	CBL 4CON 28AWG SHLD GRY 153M BIO	10
30-01135 Tensility International Corporation	CBL 6CON 24AWG SHLD BLK BIO 153M	11
30-00451 Tensility International Corporation	CBL 4CON 24AWG SHLD GRY 305M BIO	0
30-01085 Tensility International Corporation	CBL 9CON 18AWG SHLD BLK 153M	0
31-00135 Tensility International Corporation	CBL COIL SHLD 9C 24AWG 1115MM	0
30-01156 Tensility International Corporation	CBL 7CON 28AWG SHLD BLK BIO 153M	5
30-00218 Tensility International Corporation	CABLE 4COND 32AWG SHLD 305M	7
30-01166 Tensility International Corporation	CBL 8CON 24AWG SHLD WHT BIO 153M	0
30-01462 Tensility International Corporation	CBL 5COND 30AWG SHLD 153M MPPE	0
30-01058 Tensility International Corporation	CBL 6CON 26AWG SHLD WHT 153M	0
30-01104 Tensility International Corporation	CBL 10CON 24AWG SHLD WHT 153M	0
30-00655 Tensility International Corporation	CBL 2CON 28AWG SHLD GRY 305M BIO	0
30-01080 Tensility International Corporation	CBL 8CON 24AWG SHLD WHT 153M	0

Multiple Conductor Cables

1. Overview

Multiple Conductor Cables (MCC) are composite cable structures containing two or more individually insulated conductors enclosed within a common jacket. These cables enable simultaneous transmission of power, data, and control signals in complex systems. Their modular design optimizes space utilization while maintaining signal integrity, making them essential in industrial automation, telecommunications, and energy distribution systems.

2. Main Types and Functional Classification

Type	Functional Characteristics	Application Examples
Control Cables	Low capacitance, high flexibility, 300-1000V rating	PLC systems, factory automation
Power Cables	Large cross-section conductors, thermal-resistant insulation	Machinery power supply, HVAC systems
Data Communication Cables	Twisted pair configurations, 100 impedance	Ethernet networks, fieldbus systems
Signal Cables	Shielded designs, noise suppression	Sensor networks, instrumentation

3. Structure and Composition

Typical construction includes:

Conductors: Annealed copper or aluminum (solid/stranded), 0.14-10mm cross-section
Insulation: PVC, XLPE, or FEP materials with 300% elongation
Shielding: Aluminum-polyester foil (100% coverage) or braided copper (85% coverage)
Jacket: Flame-retardant PVC or LSZH compounds (0.8-3.0mm thickness)

Layered design prevents crosstalk between conductors while maintaining mechanical durability (20N/mm tensile strength).

4. Key Technical Parameters

Parameter	Typical Range	Significance
Conductor Count	2-104 conductors	Determines system integration density
Voltage Rating	300V-2000V	Defines operational safety margin
Temperature Range	-40 C to +125 C	Environmental adaptability
Shielding Effectiveness	60-100dB	EMI protection level
Bending Radius	7.5 OD to 15 OD	Installation flexibility

5. Application Areas

Primary industries utilizing MCC:

Industrial Automation: Robotic arms, CNC machines
Transportation: Rail vehicle control systems
Energy: Wind turbine pitch control systems
Telecommunications: 5G base station interconnects

Case Study: Automotive production lines use 24-conductor control cables to synchronize robotic welding stations with <0.1ms latency.

6. Leading Manufacturers

Manufacturer	Key Products	Specialization
Legrand	Okonite Multi-Conductor	Building automation solutions
Belden	8760 DataTuff	Industrial Ethernet cables
Prysmian Group	Fire resistant Ecos Z	Energy sector applications
Alpha Wire	3279 UltraFlex	High-flex robotics cables

7. Selection Guidelines

Key considerations:

Current carrying capacity vs. conductor size (I = 3.2 Amm for Cu)
Chemical resistance requirements (oil/grease exposure)
Signal transmission requirements (CAT5e/CAT6 data rate support)
Regulatory compliance (UL/CSA/IEC standards)
Mechanical stress factors (vibration, bending cycles)

Recommend conducting thermal cycling tests (-20 C to +85 C) for critical applications.

8. Industry Trends

Emerging developments include:

Hybrid cables integrating fiber optics and power conductors
Nano-coated conductors for 50% weight reduction
Smart cables with embedded temperature/sensor monitoring
Halogen-free materials meeting IEC 60754-1 standards
Miniaturization trend: 0.08mm micro-conductors in medical cables

Market forecasts indicate 6.2% CAGR through 2030 driven by Industry 4.0 adoption.