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can weather affect internet connection-essence of checking weather hourly

Always serious weather conditions dish out headlines every season, residents and visitors seems to willingly accept the effect on the air and roads and still  we all take for granted the fact that communications networks will continue disturbing. sometimes it appear  that the information system does not in any way  give them an on road situations when it concerns network,thereby making the one of the most severe problems travelers encounter. note; when traveling try to be checking weather hourly to know when not to use internet.

weather network

weather network

Getting wireless networks to solve this overlooked problem, every company should acts to its best standard and also should learn to be checking weather hourly. To get this done over a short period time, all RF equipments and interconnection passing through the RF path must be installed in a professional manner, pre mobed and constantly serviced to make sure optimum performance is the case. Making use of quality materials should be a considered. If service providers should engage in purchasing cheap and non genuine materials, here is when it results in buying the same items two times and when they dont, this is most likely to bring about rapid weather degradation. sometimes it appears to look impossible to safe guard wireless masts from hurricanes, tornados, and floods, but yet it is very important to make sure that they are secured from normal daily weather activities. Antennas, masks and other sensitive devices located at different locations and sites have to disallow exposure to natural things that can cause harm to them.  read also>>WAYS TO IMPROVE SAFETY IN WORK PLACE

weather is a set back to quality connectivity  and reliability of all RF equipment. bad weather conditions cause almost all severe damage and most of long power outages that land in bad network in various areas which they can be obtained. However. Most times bad weather can lead to faulty equipments and sometimes complete damage of network equipments.

weather network

weather network

Keeping water and other liquid out of RF way is vital to ensuring its safety. Depending on the area, the RF may have many varieties of architectures and device types and also water ingress in joint points between cable and some other devices is a risk. powerful winds can make rain and enter into sensitive RF devices, making them to have signal distortion and also poor network coverage. Cable connectors should be made in a way that it will have  waterproof attachments. making use of butyl tape or cling film makes available another layer of protection from the elements.

Any water ingress that goes into transmission lines and connectors can disturb the RF signals and may cause mechanical issues. Water will make antenna mounts to develop  rust, resulting to poorly aligned devices or may even cause  antennas falling off towers.

weather issues

weather issues

securing the baseband devices is a important element to the viability of the cell site during time of  severe weather and can be assist by checking weather hourly. While environmentally protects cabinets and help shield radios and some other sensitive devices at the area of severe weather conditions. read also>>COMMON FAULTS DEVELOPED BY MOBILE PHONES AND SOLUTIONS

For some financial and also practical reasons network masts located in remote areas are always daisy-chained together with the aid of microwave link rather than being joined to the network by cables. The practice is very sound but the microwave links works on a much higher frequency making them to look  more susceptible to interference from heavy rain. In turn this will affect the accuracy of cell site analysis techniques that is used to identify networking problems.

weather network

weather network

Long-term issues

Unlike some ‘weather hourly’ events that cause instant damage to communications networks, a long-term exposure to some elements is far more insidious. Slow weather degradation, be it liquid ingress, rust or air affected antennas, may cause long-term degradation of communications networks with out a sudden point of failing. A prime example is Passive Intermodulation (PIM).

The mechanics of PIM includes the production of not needed signal frequency components in the passive, non-linear components commonly found in and within base stations. These extraneous signals may cause interference to transmission frequencies on the same or an adjacent site. PIM is usually the result of two (or more) high power tones mixing at device non-linearities such as junctions of dissimilar metals, corrosion or rust and may be loose also>>EARN A LIVING SENDING SMS AT HOME USING BULK SMS SERVICE

PIM may severely affect traffic management operations and traveller information systems as these are very sensitive to interference than the spoken word. For jnstance, a 9dB increase in PIM can lower the area of high speed coverage by more than 60%.

There are some physical considerations to take into note in any small cell deployment exposed to weather degradation – one most important is how to gain maximum data throughout .this can be achieved some times by checking weather hourly. Considerations center on increasing and maintaining the signal level while reducing sound and interference so that all data packages can be successfully received.

weather network

weather network

in the Detail

Well and detailed network design and planning is very essential to ensure optimal, long-term performance in any weather conditions. low designed (or maintained) wireless networks may suffer significant issues when everyday weather begins to have an effect. For instance, every tower mount is designed and rated for a particular weight and air tolerance of the original device. But throughout its existence additional equipment is always added and if the mast is not designed to carry the additional load,  it will face an increased likelihood of issues over the long-term.

Weather-related problems is not always limited to the winter and the system operators must take into account of all foreseeable weather conditions – including illusive sunshine. Designers must make sure that all necessary cooling systems are put inplace to dissipate heat from the electronics device within the base stations cope throughout the summer time if the equipment is expected to function correctly.

weather issues

weather issues

It is obvious that no cell site is immune to going down as a natural disaster can break down a whole tower or demolish a structure carrying antennas or housing the device. But it is very clear that well planned design and correct installation makes a site to be resilient to high winds, driving rain, heavy snow and cold. While some  operators may try to reduce the cost of new installations, minimizing capital expenditure by buying lower quality products or lighter work cell structures can result in increased rapid weather-related degradation.

improved maintenance of weather-related issues can easily outweigh the cash saved on buying  lower spec components – especially in rural  locations

The aid and fixing of equipment plays a vital role in keeping antenna and other RF path component in proper alignment. Even little movements due to air and other weather factors can significantly minimize network performance, if not total break down of  communications link. Good infrastructure  supports with well mounts and equipment installed help maintain alignments.

That’s not to say that the  planners and the designers pay no mind to weather conditions – it is proof that they do because radio towers are usually made with lightning conductors and antennas are made out from the metallic tower structure. Radio components rooms tend to be sealed and fixed on mini platforms to prevent any flooding. And As for snow – the antennas are  fixed  vertical and as they transmit energy, there is also a very little warming effect.

The major challenge is to have problem-free solutions rather than considering price alone. Payback will come not quite immediately but as operators do not have to repeatedly spend money fixing performance issues caused by weather-related degradation.

For example antennas should be designed to withstand winds of at least 250km/h (155mph) which is equal to the top obtained wind speeds in Category four hurricanes. Not just that, the antenna should be fixed and tilted as operators would fix and then test them with simulated wind  forces coming from the front side and back sides. read also>>how to optimize your blog for seo

Ikenna valentine Administrator
C.E.O , Myfreshgists

Frenzy valentine ikenna is a passionate blogger and student of university of calabar. He is the founder and editor of  connect on Facebook  and Instagram @frenzy_valentine

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