Abstract: In one or more embodiments, a cellular signal is received and directed to a path bypassing active amplifier circuitry. This may be in response to the active amplifier circuitry being non-operational (e.g., in a fault state) or detecting that an RF environment does not necessitate amplification. Bypassing the active amplifier circuitry may enable transmission of a non-amplified cellular signal when active circuitry is in a fault state or while traveling through areas of strong cellular service (e.g., proximate a cell tower).
Abstract: In one or more embodiments, a cellular signal is received and directed to a path bypassing active amplifier circuitry. This may be in response to the active amplifier circuitry being non-operational (e.g., in a fault state) or detecting that an RF environment does not necessitate amplification. Bypassing the active amplifier circuitry may enable transmission of a non-amplified cellular signal when active circuitry is in a fault state or while traveling through areas of strong cellular service (e.g., proximate a cell tower).
Abstract: In one or more embodiments, a cellular signal is received and amplified by a particular amount of gain. A power level of the amplified cellular signal is measured and compared to a power level threshold. The particular amount of gain is adjusted based on the comparison to alter the power level of the amplified cellular signal by less than 1 dB. The cellular signal having the altered power level is then transmitted.