Supported by a team of adroit professionals, we are able to provide the best grade Field Sensitive Lightning Rod to our valued patrons. The offered rod is manufactured by utilizing optimal quality materials with the aid of latest technologies. Available in three different sizes as per requirements of clients, this is widely used in buildings, towers, factories and even the space shuttle's launch pad for high level protection. Further, the provided Field Sensitive Lightning Rod is available at reasonable prices.
- Rugged construction
- Extended durability
- Supreme performance
- Consume less power
Escoltrix NEXO FSD (Field Sensitive Device- ESE)
A Super Active Wide Area Protection
Active lightning system is the only possible method to protect from direct lightning strikes. Because during the thunderstorm the lightning down-leader is approaching to ground, and the upward iron dissipation is created by any conductive surface.
Nexo FSD lightning conductor is shaped by two Variable Impedance Units. One of them is connected to ground other at atmospheric potential. During the thunderstorm produce great magnitude of the electric field and the Nexo FSD variable impedance units are separated by a very short distance, the difference of potential between the variable units create upward leader earlier during downward leader becomes considerable
The streamer emission favors the upward leader formation, which will progress continuously till reaching the downward leader, forming then the discharge path and the Nexo FSD is the point where the upward leader was formed. It will be the receiver of the lightning strike.
Nexo FSD Variable Impedance Unit working is regulated by the atmospheric field. The advantages of the Nexo FSD are in normal conditions the device is not working and avoiding then unnecessary stress to the components.
The previous phase to the formation of the upward leader is the formation of corona discharges (streamers) that propagate towards the downward leader. One of these streamers will become the upward leader, which will propagate continuously to the downward leader, forming then the lightning discharge path.
Protection Radius Theory
According to NF C 17-102, the triggering time instance gain T is associated with a triggering time distance gain L.
L = V. T where:
L (m): Gain in lead distance of the spark over distance.
V (m/s): The average speed of the downward tracer.
T (s): Gain in spark over time of the upward leader.
According to NF C 17-102 Ed. 2.0, the standard protection radius (Rp) of the Nexo FSD is linked to T, the protection levels I (98%), II (95%), III (90%) or IV (80%) and the height of the Nexo FSD above the structure to be protected (H, as a minimum 2 m)
The protection level of the object depends on several factors such as:
if the object is inhabited or not,
if the object is explosive or not,
material of the roof and the roof construction (wood, metal)
The more valuable and vulnerable the object is the higher the level of protection needed. e.g. an inhabited house, with a metal roof could be attributed to protection class 1. A telephone pole of low value could attribute to the protection class 4. The safety class can be calculated with our lightning risk assessment program.
Installation height: - the higher the lightning conductor is installed the greater the protective radius Rp (m) Rp(m)
Radius protection, we recommend to install the lightning conductor 5 meters minimum hight because you can achieve the high level of protection.
- Meets NFC 17-102 & UNE 21186 standards
- Tested to withstand multiple 40kA impulses
- High quality anti-corrosive and conductive coating
- Wind resistance and light weight
- Suitable for connection to a variety of down conductors
- Available in three models to suit specific site requirements
- 5years replacement warranty