Cable as Antenna: Industrial Leak Band Antenna
IWLAN RCoax leaky coaxial cable is suitable for rail vehicles such as cranes, elevators, or monorails, providing reliable wireless connections in locations where conventional antennas are difficult to install or not suitable for wireless communication.
Leakage cable suitable for stringent wireless environments
The IWLAN RCoax leaky coaxial cable boasts not only impressive radio frequency quality but also great durability, allowing for easy installation along the route without the need for specialized certification for use in potentially explosive environments (Zone 2).
RCoax Leak-Oven Cable: Suitable for transmission coaxial cable in industrial wireless local area networks
IWLAN RCoax cable is easy to integrate into wireless networks.
To facilitate wireless applications in industrial Wi-Fi LANs, the IWLAN RCoax cable is available in two types suitable for the 2.4 GHz and 5 GHz frequency bands. The RCoax leaky cable can be conveniently connected to an SCALANCE W access point as an external antenna. Connection to relevant mobile devices is easily achieved through the SCALANCE W client module.
Operation Principle of IWLAN RCoax Cable
The RCoax leaky coaxial cable is a WLAN antenna suitable for industrial applications, which can be laid as a cable. The coaxial cable is installed along the routes used by moving related equipment, such as within the tracks of an elevated monorail. Wireless signals are emitted through the apertures of the external conductor, establishing a wireless connection with mobile devices.
Establish a reliable wireless connection through IWLAN RCoax cable
Due to its unique emission characteristics, the IWLAN RCoax cable can establish a reliable radio field in locations where continuous coverage cannot be achieved with standard omnidirectional or directional antennas (such as in elevated monorail situations). With the use of RCoax cable, a radio field can be established along the route (e.g., track), without causing interference to other segments of the production process.
