Multi-Triad, 7/0.3mm, 8 Triad, Screened, PVC, 1000m
Part #: MCT7038S1000
7/0.30 mm Bare Copper Conductor, PVC insulated, Tripled (Triad),Cabled, Aluminium Laminate Screened, PVC Jacketed, 8 Triad Control, Instrumentation and Security Cable
MCT triad cables come in a variety of conductor sizes including 7/0.25mm, 7/0.3 mm and 7/0.5mm. These cables are used in the industrial sector to connect control circuits and monitors. Conductor size is based on the voltage drop that can be allowed for the distance and current expected in the circuit.
As with the other products in the MCP range, these cables find use connecting control circuits to sensors, detectors and various alarms and relay or switching devices.
General | |
Pack Size | 1000m |
Applicable Standards | AS/NZS 1125 , AS/NZS 3808 , IEC60332-1 |
Suitable Applications | Used to carry voice and data services, they also serve as the interconnection between electrical equipment and instruments. |
ROHS Compliant | Yes |
No. Triads | 8 |
Conductor Characteristics | |
AWG | 20 |
Stranding (mm) | 7/0.3mm |
Area (mm2) | 0.5 |
Diameter (mm) | 0.9 |
Material | BC |
Insulation | |
Material | PVC |
Nominal Thickness (mm) | 0.32 |
Nominal OD (mm) | 1.65 |
Drain Wire | |
AWG | 22 |
Stranding | 7/0.25mm |
Area (mm2) | 0.343 |
Diameter (mm) | 0.75 |
Material | TC |
Screen | |
Material | Al. Polyester Tape |
Coverage (%) | 1 |
Outer Sheath | |
Material | PVC |
Colour | BLACK |
Nominal Thickness (mm) | 0.9 |
Nominal OD (mm) | 13 |
Electrical Properties | |
Voltage Rating | 110a.c /150d.c |
Max. Conductor DC Resistance @ 20°C | 38.4 Ω/km |
Max. Mutual Capacitance @ 1KHz | 85pF/m |
Nom. Characteristic Impedance @ 1MHz | 380 Ω |
Voltage Test: Conductor to core | 2kV ac for 1min |
Mechanical Properties | |
Operating Temp Range | -150°C to +900°C |
Max. Recommended Pulling Tension | 720 |
Min Bend Radius (Install) | 130mm |
Approximate Mass(kgs/100m) | 24Kg/100m |
Image Disclaimer. The product images shown may represent the range of product, or be for illustration purposes only and may not be an exact representation of the product.