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Covering multiple rooms or even floors of a building can be challenging 

as each is a different size and shape . Balancing the signal coverage can 

require multiple attenuators, cables, taps and splitters . All of these can 

decrease your system gain and coverage . Reasons to install an In-Line 

Signal Booster include: 

Cable loss – Long runs of cable from the Inside Antenna to the main 

1 . 

Signal Booster may have significant loss or require expensive low-loss 

cable .

Splitter loss – When multiple rooms must be evenly covered, a splitter 

2 . 

evenly divides the signal for separate Inside Antennas . Each division 

reduces system gain and inside coverage area .

Tap loss – Taps pass the signal with low attenuation out one port and 

3 . 

pass the signal with high attenuation port continues on to another 

location possibly with more splitters and taps downstream . The 

attenuation port typically runs directly to an Inside Antenna .

Increased system dynamic range – A user who gets too near an Inside 

4 . 

Antenna can lower the gain and coverage area for all other users . The 

In-Line Signal Booster adds dynamic range to the in-building installation 

and reduces use of the main Signal Booster automatic gain control .

The In-Line Signal Booster overcomes the losses associated with large 

in-building installations . The Signal Booster recovers inside coverage area 

that is normally lost due to cable, splitter and tap loss . By installing the 

Signal Booster near an Inside Antenna, uplink noise figure is minimized 

and downlink power is maximized . Additionally, the In-Line Signal Booster 

enhances performance of the main Signal Booster by increasing the system 

gain and input signal dynamic range . The variable gain knobs on the In-Line 

allow for simple, quick signal level balancing and installation .