06MM-E6TF - RG6 Tri-shield Cable Flooded 305M

RG6 Tri-shield Cable Flooded 305M

06MM-E6TF

Coaxial Cable

Matchmaster has a complete range of PAY TV and FTA approved cables for both commercial and residential applications. Matchmaster’s range includes standard, flooded, messengered, Tri-Shield and Quad Shield RG6 and RG11 cable. Also available in White approved RG6 Quad Shield cable for indoor use. Whatever the application Matchmaster has the cable to suit.
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Features and Benefits

  • An RG6 metre marked cable with Tri-shielding and Flooded
  • Sold in a 305 metre reel
  • Suitable and approved for Pay and Digital TV
  • Foxtel (F30442), Optus (4868), Telstra (739/32) and NBN approved

Specifications

Electrical Specifications
Sheilding Effectiveness >100dB
Impedance (Nominal) 75Ω
Velocity of Propagation 85% Nominal
Return Loss >dB
VHF 20
UHF 20
Attenuation @ 20°C
Frequency Max. (dB) per 100m
5MHz 1.90
55MHz 5.25
211MHz 10.00
250MHz 10.82
350MHz 12.63
400MHz 13.61
450MHz 14.43
500MHz 15.09
550MHz 16.08
600MHz 16.73
750MHz 18.54
865MHz 20.01
1000MHz 21.49
1200MHz 23.89
1450MHz 26.30
2000MHz 32.00
Physical Specifications
Nominal Diameter Quadshield
Copper Covered Centre Conductor
Nominal Conductor (mm) 1.02 (18AWG)
Nominal Dielectric (mm) 4.57
Nominal Diameter - 1st Shield (mm) 4.75
Nominal Diameter - Over Jacket (mm) 7.62
Nominal Diameter - Jacket Wall Thickness (mm) 0.86
Physical Dimensions
Inner Conductor Material CCS
Dia., mm 1.02±0.01 (27%)
Insulation Material Physical Foamed PE
Dia., mm 4.57±0.13
Outer Conductor First Shield Bonded Aluminium Foil (APA)
Second Shield Aluminium Wire 16x4.5/0.16
Third Shield Unbonded Aluminium Foil (APA)
Fourth Shield Aluminium Wire 16x3/0.16
Jacket Material Low Smoke Zero Halogen & Anti-UV & -40°C Temperature Resistance PVC
Dia., mm 7.54±0.20
Mechanical Characteristics
Adhesion Force (>N) (Sample of 300mm Long) 20
Electrical Characteristics
Capacitance, pF/m 54
Propagation Velocity, % 80
DC Breakdown Voltage, KV 3.0
Insulation Resistance, MΩ•Km >1x104
Nominal DC Resistance (20°C, Ω/km) Inner Conductor 102
Outer Conductor 19.1
Loop 121.1
Attenuation increases at higher temperature.