LMR-240-DB

LMR-240-DB Coaxial cable is recognised globally as the industry standard Ultra Low Insertion Loss, Flexible, Low Cost, Lightweight, Water Blocked, DC-6 GHz coaxial cable solution for most applications – backed up by the best warranty and technical support in the business.

McGill Microwave Systems introduces the LMR-240-DB Ultra Low Loss, water blocked coaxial cable series

The LMR-240-DB cable, Manufactured by Times Microwave Systems, has a very similar make up as standard LMR-240 and uses the exact same LMR® connector ranges, however there is one critical difference.

In a normal scenario, if the outer jacket of a coaxial cable were to be cut for any reason – or damaged by wildlife , this would leave the cable with a potential leak path, directly leading to system performance degradation problems caused by increases of attenuation due to internal corrosion over time – especially if the cable was installed vertically as the moisture would travel down the cable with gravity.

The significant advantage of the LMR-240-DB cable is that in the event of the cable outer jacket being damaged, the blocking agent flows to the area where the outer jacket has been damaged and effectively re-seals the cable – ensuring that the ingress threat is localised to the small area where moisture has entered the cable and prevents any further moisture ingress.

Water Blocking feature and how it works.

Between the tinned copper overall braid and the polyethylene jacket, there is a highly flexible water sealing compound. This acts as a fully sealed, protective secondary barrier should the jacket integrity be compromised anywhere along the cable.

The LMR-DB coaxial cable product series can therefore be used in any outdoor application, including underground and saturated environments.

LMR-240-DB Reliability

When purchasing the LMR-240-DB cable, you immediately benefit from the best warranty in the business – Times Microwave Systems 12-year warranty for any of the LMR-DB™ cable sizes.

How is the LMR-240-DB low loss figures achieved?

This is achieved due to the cable construction specifications. The centre conductor uses a high conductivity, Bare copper clad covered aluminium centre conductor material. The dielectric is nitrogen injected, foamed, closed cell, Polyethylene which helps achieve 83% Velocity of Propagation. The Dielectric has a Aluminium foil outer conductor, which is chemically bonded on to it. Due to the cable construction, The attenuation is significantly lower as compared to single shielded coaxial cables.

Outer Jacket

All standard LMR coaxial cable comes with a UV resistant, PE Jacket. This helps to ensure the cable jacket can withstand harsh outside environments and UV rays from sunlight, this is designed to last for up to 20 years of outdoor service.

Frequency Operating Band

LMR-240-DB is designed to operate excellent from DC – 6GHz. For any frequency band at VHF and above LMR is the obvious choice.

Should you find your RF system operates at above 1GHz, LMR is once again, your best option, as RG cable typically isn’t compatible with any frequency in excess of 1GHz.

 Applications

 LMR-240-DB Flexible Low Loss Communications Coaxial Cable is ideal for:
  •  Jumper Assemblies in Wireless Communications Systems
  •  Short Antenna Feeder runs
  • WLL
  • GPS
  • LMR
  • WLAN
  • WISP
  • WiMAX
  • SCADA
  • Radio antennas or receivers
  • TVRO
  • Mobile Antennas
  • High gain 4G antennas

Attenuation dB figures per 100m

30 MHz : 4.4dB
50 MHz : 5.7dB
150 MHz : 9.9dB
220 MHz : 12.0dB
450 MHz : 17.3dB
900 MHz : 24.8dB
1500 MHz : 32.4dB
1800 MHz : 35.6dB
2000 MHz: 37.7dB
2500 MHz: 42.4dB
5800 MHz: 66.8dB
8000 MHz: 79.7dB

Temperature range: -40⁰C – +85⁰C 

Inner Conductor: Solid BC (1.42mm)
Dielectric: Foam PE (3.81mm)
Outer conductor: Aluminium tape (3.94mm)
Overall Braid: Tinned copper (4.52mm)
Jacket: Black PE (6.10mm)

Mechanical Specifications

Bend Radius: installation 19.1mm
Bend Radius: repeated 63.5mm
Bending Moment: 0.34Nm
Weight lb/ft 0.05 Kg/M
Tensile Strength 36.3Kg
Flat Plate Crush: 0.36Kg/mm


LMR® is a registered trademark of Times Microwave Systems

In a normal scenario, if the outer jacket of a coaxial cable were to be cut for any reason – or damaged by wildlife , this would leave the cable with a potential leak path, directly leading to system performance degradation problems caused by increases of attenuation due to internal corrosion over time – especially if the cable was installed vertically as the moisture would travel down the cable with gravity. This is achieved due to the cable construction specifications. The centre conductor uses a high conductivity, Bare copper clad covered aluminium centre conductor material. The dielectric is nitrogen injected, foamed, closed cell, Polyethylene which helps achieve 83% Velocity of Propagation. The Dielectric has a Aluminium foil outer conductor, which is chemically bonded on to it. Due t
In a normal scenario, if the outer jacket of a coaxial cable were to be cut for any reason – or damaged by wildlife , this would leave the cable with a potential leak path, directly leading to system performance degradation problems caused by increases of attenuation due to internal corrosion over time – especially if the cable was installed vertically as the moisture would travel down the cable with gravity. This is achieved due to the cable construction specifications. The centre conductor uses a high conductivity, Bare copper clad covered aluminium centre conductor material. The dielectric is nitrogen injected, foamed, closed cell, Polyethylene which helps achieve 83% Velocity of Propagation. The Dielectric has a Aluminium foil outer conductor, which is chemically bonded on to it. Due t