Secure against spectral manipulation tactics and immune to remote disruption. Rapidly deployable and reconfigurable for mission readiness.ĭesigned for minimal spectral footprint to minimize risk of detection. The militaries of the world appear to be in widespread agreement that the critical communication infrastructure of tomorrow's battlefields need to be: The security and integrity of critical communications is of the utmost importance as the world progresses towards an increasingly networked theater of operations. As quickly as secure communication strategies are being developed to encrypt mission critical data, so too are the technologies used to detect, decode, and disrupt such communications. Communication technologies, such as 5G, are quickly being adopted by militaries in an attempt to satisfy the demand for exponentially larger amounts of data transmission in a shorter period of time. Generating the optimal system power saving strategy based on users’ own applications to provide mission critical communications.The critical role of spectrum superiority in the success of battlefield campaigns is evidenced by the enormous investments being made in electronic warfare (EW) capabilities by governments worldwide.Understanding the associated performance trade-offs for each power saving option.
Understanding the power saving options offered by Analog Devices´ newest SDR transceiver.Thoroughly understanding the trade-offs empowers engineers to design the best system power saving strategy to achieve both the optimal power consumption and a satisfactory system performance.
The article showcases the power saving for each option and explains the associated performance cost. The new transceiver solution has been designed to provide scalable power and performance for many satellite, military, land mobile, utility infrastructure, and cellular mission critical communications. This article discusses multiple options of the power and performance trade-offs offered by Analog Devices’ newest generation software-defined radio (SDR) transceiver, the ADRV9001.
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