High quality N-male connector E84130 for use with Tri-Lan 240 and Belden H-155 cables. The connector can be used up to 6 GHz. It features low insertion loss and high return loss. 5-6 GHz systems require specially designed quality connectors that ensure optimal parameters. Tri-Lan 240 - low-loss cable.The cable guarantees not only efficient power transmission but also ensures savings on installation cost, in the process of migration from 2.4GHz to 5GHz band (it can work in both bands, so the cabling will not have to be replaced). The sheath of the cable is made of PE (UV-resistant), so Tri-Lan 240 can be used outdoors. Self-amalgamating SCAPA 2501 tape is based on PIB (Polyisobutylene) rubber. It is a versatile material for waterproofing, corrosion protection, jointing and repair of cables - used indoors and outdoors. Product properties and correct application ensure waterproof connections (for fresh and sea water) in a wide range of temperatures.
€103.27
Price | Disc. | Quantity | Validity |
---|---|---|---|
€103.27 | 0 % | from 1 piece |
Available
Modern low-loss RF cable up to 6 GHz. The cable guarantees not only efficient power transmission but also ensures savings on installation cost, in the process of migration from 2.4GHz to 5GHz band (it can work in both bands, so the cabling will not have to be replaced).
• 50Ω RF cable up to 6 GHz
• Low loss (as far as 20% lower than of H155)
• Perfect matching (30 dB at 2.4 GHz)
• High screening efficiency (90 dB at 2.4 GHz)
• CPR class: Fca
• Low loss (as far as 20% lower than of H155)
• Perfect matching (30 dB at 2.4 GHz)
• High screening efficiency (90 dB at 2.4 GHz)
• CPR class: Fca
Details
The cable guarantees not only efficient power transmission but also ensures savings on installation cost, in the process of migration from 2.4 GHz to 5 GHz band (it can work in both bands, so the cabling will not have to be replaced).
The sheath of the cable is made of UV-resistant PE, so this kind of Tri-Lan 240 cable can be used outdoors.
Cable structure.
Main features
- low loss (as far as 20% lower than of H155)
- perfect matching (30 dB at 2.4 GHz)
- high screening efficiency (90 dB at 2.4 GHz)
TRILAN cables are compliant with Construction Products Regulation (CPR) and EN 50575 harmonized European standard that specifies reaction to fire performance requirements, test and assessment methods for electric cables used for the supply of electricity and for control and communication purposes, which are intended for use in construction works and subject to performance requirements on reaction to fire.
Modern low-loss RF cable up to 6 GHz.
RoHS compliance declaration.
With this cable there can be used all connectors suitable for H-155 cable (working up to 2.4 GHz).
For 5GHz band we recommend the connectors working up to 6 GHz: N-plug
Maximum transmitted power
Frequency [MHz] | Power [kW] |
30 | 1.41 |
50 | 1.09 |
150 | 0.62 |
220 | 0.51 |
450 | 0.35 |
900 | 0.24 |
1500 | 0.19 |
1800 | 0.17 |
2000 | 0.16 |
2500 | 0.14 |
5800 | 0.09 |
Cable loss at 20oC
Frequency [MHz] | Attenuation [dB/100m] |
30 | 4.2 |
50 | 5.4 |
150 | 9.2 |
220 | 11.2 |
450 | 16.2 |
900 | 23.3 |
1500 | 30.7 |
1800 | 33.9 |
2000 | 35.9 |
2500 | 40.6 |
5800 | 65.2 |
Loss versus frequency for a 10m cable segment (measurements performed in CLBT)
Matching characteristics (measurements performed in CLBT)
Price for 100m
Specifications
Product type | Coaxial cable | ||
type | Tri-LAN 240 | ||
Brand | Tri-Lan | ||
Applications | Outdoor | ||
Cable length | m | 100 | |
Cable class | RF240 | ||
CPR class | FCA | ||
Gel-filled cable | No | ||
Physical properties | |||
Impedance | Ohm | 50 | |
Conductor | Material | Coper | |
Diameter | mm | 1.4 | |
Dielectric | foaming | Physical | |
Diameter | mm | 3.8 | |
shield | |||
No. of plies | 1 | ||
First foil | bonded to dielectric | No | |
Material | Al foil/polyester/Al foil | ||
Dimensions | μm | 12/15/12 | |
Braid | Material | CuSn | |
wire diameter | mm | 16 × 7 × 0,12 | |
braid coverage | % | 80 | |
sheath | Material | PE | |
Diameter | mm | 6.1 | |
Color | RAL9005 (black) | ||
Electrical parameters | |||
Maximum transmitted power | 30 MHz | kW | 1.41 |
50 MHz | kW | 1.09 | |
150 MHz | kW | 0.62 | |
220 MHz | kW | 0.51 | |
450 MHz | kW | 0.35 | |
900 MHz | kW | 0.24 | |
1500 MHz | kW | 0.19 | |
1800 MHz | kW | 0.17 | |
2000 MHz | kW | 0.16 | |
2500 MHz | kW | 0.14 | |
5800 MHz | kW | 0.09 | |
Cable attenuation | 30 MHz | dB/100 m | 4.2 |
50 MHz | dB/100 m | 5.4 | |
150 MHz | dB/100 m | 9.2 | |
220 MHz | dB/100 m | 11.2 | |
450 MHz | dB/100 m | 16.2 | |
900 MHz | dB/100 m | 23.3 | |
1500 MHz | dB/100 m | 30.7 | |
1800 MHz | dB/100 m | 33.9 | |
2000 MHz | dB/100 m | 35.9 | |
2500 MHz | dB/100 m | 40.6 | |
5800 MHz | dB/100 m | 65.2 | |
Resistance at 20°C | core | Ω/km | 11.2 |
braid | Ω/km | 12.4 | |
capacity | pF/m | 83 | |
Wave reduction factor | % | 81 | |
Mechanical properties | |||
Operating temperature | °C | -40...+70 | |
Minimum bending radius | mm | 30/60 | |
Weight | kg/km | 47 |