The frustration that comes with a poor mobile signal and shoddy Internet connection is incomparable when trying to complete work efficiently and without hassle. That pesky “missed call” notification serves as a gut punch, indicating that once again, an important contact couldn’t get through to you. As businesses continue to extend flexible working, relying heavily on both mobile and Internet connections, these issues surface more frequently and prove to be problematic for both productivity and profitability.
The complex framework, modern materials, and substantial walls used to erect conventional office buildings, unfortunately, generate havoc on mobile signal emissions, causing difficulty penetrating the structure to provide substantial signal reception for individuals inside. This reality leads to the prevalence of dead zones, more commonly known as “not spots,” making it arduous to maintain appropriate and consistent mobile signals in most office environments.
Fortunately, there is a solution that can eradicate this common dilemma entirely, thus creating a more efficient and profitable business model. The solution lies in mobile signal boosters for commercial buildings.
These advanced devices amplify the mobile signal in almost any area, ensuring that there is a reliable connection that individuals require to facilitate daily procedures. With a mobile booster on a commercial scale, as many mobile phones that are necessary can be supported, inhibiting those pesky missed calls and not-spots that typically generate frustration.
Different configurations of mobile signal boosters work best for varying building sizes and various numbers of users, with some powerful enough to supply strong signal reception in even the most unconventional structures. But how do these brilliant mechanisms work?
The first mobile phone signal booster is that they deliver without the use of any substantial antennae or hazardous cabling that might impede the environment. Our mobile signal boosters are installed effortlessly in six straightforward phases. The steps might be technical, but the outcome is outstanding.
To ensure the most effective installation, the initial phase involves a site survey that determines where all components of the mobile booster are to be installed. Typically, a subtle donor antenna is installed on the uppermost peak of the building that transmits and receives the signals required from the nearest signal tower. Coaxial cables are positioned in the optimum locations, running between the donor antenna and the network unit or “repeater” inside the building, carrying the mobile signal. The network unit is installed next, conditioning and amplifying the off-air signals in multiple frequency bands as a signal source. Optimised CAT 6 cables are then used to connect the network unit with the coverage units, which will be situated throughout the additional areas requiring better signal reception, including various floors or even the underground parking space. These remote units assist in converting and amplifying the mobile signal to create a stronger reception.
Before deciding on the appropriate mobile signal booster for your building, it’s vital to consider a few crucial aspects. Firstly, to determine the ideal booster for your space, one must calculate the square meterage of the required coverage. It’s important to note that the booster may not need to provide coverage in every inch of the building. A thorough assessment can aid in narrowing down the specific areas that require optimum signal enhancement.
Additionally, an assessment of building materials and structural features should also be taken into account, as they can impact signal strength, ease of installation and compatibility. Materials such as concrete, steel and glass, can weaken and reduce the efficacy of the mobile signal, which may ultimately affect the overall booster selection.
In conclusion, investing in a mobile signal booster for your building is a smart decision, but it’s paramount to consider numerous factors before making your purchase. A comprehensive assessment of the chosen location’s size, materials, and structural barriers can help make the right selection to ensure optimal signal coverage.