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Future Developments in
Power Amplifier Technology
Jon Jacocks is the President and CEO of Empower RF Systems. He joined joined the company as VP of Sales and served in that capacity until transitioning into the CEO role in January 2013.An RF and components industry veteran, Jon started his career with Avantek in Santa Clara, CA, and held positions of increasing responsibilities at Hewlett Packard, Agilent, and Avago Technologies as that succession of business transitions took place following the HP acquisition of Avantek and rebranding of RF components and semiconductor products over the following years. Jon is a former Army officer with a BS in Industrial Engineering from North Carolina State and an MBA from Virginia Tech. We talked with Jon about some of the future developments in power amplifier technology.
JED: What are some of the important technological trends that have driven the military market for power amplifiers over the past 10 years, and how do you see these trends evolving over the next 5-10 years?
Jacocks: Commercial availability of GaN on SiC RF semiconductors has been a gamechanger in terms of enabling solid state amplifier solutions with broader bandwidth, increasingly higher frequencies and impressive power densities. Requirements for handling complex waveforms and pulse fidelity in modern systems are also driving demand for solutions that do more than just “amplify.” Integrating more RF blocks on the antenna side of the amplifier (switches, filters, upconverters, etc.) has always been of interest in certain requirements, but looking ahead, there will also be expectations that the transmit function integrate more of the “upstream” RF processing and enable direct digital conversion and modulation inside the high power amplifier. That’s going to be a big one and, along with complex combining of scalable solid-state solutions to replace aging TWT infrastructure, it’s keeping our RF and SW/FW multi-discipline design team very busy.
JED: Do you think that modular open standards architectures, such as SOSA, for example, will begin to make an impact in the power amplifier market in the future?
JED: As the DoD begins to embrace multifunction systems – combining radar, comms, EW and other functions, for example – how will power amplifier designs change in response to this trend?
Jacocks: A multifunction amplifier requires an architecture with high-speed processing and control and the analog/digital “hooks” for the control system to effect RF monitoring, performance and protection. We are doing this today with fielded products that have programmable mode settings and the onboard sensing to optimize output power with user defined parameters for waveform peak-to-average ratio, numbers of carriers on the signal, type of modulation and output power and gain settings managed by the amplifier. It is important to note that some functional combinations are easier to deliver than others – multifunction comms and jamming is what we are supporting with the example mentioned above – and the realities of semiconductor device and other RF hardware limitations have to be accounted for as these multifunction systems are being envisioned. Thermal considerations, broadband and high power combining, system prime power (efficiency) and antenna coverage have to be managed, as well, and solutions to those important elements are not all evolving at the same rate.
JED: What other types of new technologies do you see power amplifier companies integrating into their systems over the next several years?
Jacocks: I can’t speak for all power amplifier companies, but there is certainly a range in respective suppliers’ appetite for innovation and their ability to execute. Companies with long-tenured positions on legacy programs are trying to maintain status quo. Others are going to be monitoring the latest announcements from the RF semiconductor suppliers to take advantage of frequency range and power density improvements as a product roadmap. Forward thinking companies with investments in multi-discipline design teams (like ours) are looking well beyond just power density improvements and raising the stakes with high speed sensor networks and embedded computing inside the amplifier. As mentioned previously, integration of RF processing and direct digital conversion is a logical (and powerful) extension of the embedded computing capabilities that end users and systems integrators should be expecting their power amplifiers to have. Broadband, digital predistortion and the ability to do pulse correction are similarly related to fielding intelligent amplifier systems that will make decisions on operating capacity and adjust to the conditions available to maximize RF output power.
JED: Is there a role for AI/ML to benefit power amplifier technology – either in terms of helping to optimize system design or by designing AI/ML into the power amplifier itself?
Jacocks: We’ve already introduced real intelligence (RI) into our latest generation amplifiers, and we continue to introduce more capabilities through our use of embedded computing and high-speed sensors in standalone amplifiers and amplifier arrays. The amount of synchronized sensor data being processed inside each of these amplifiers is on the order of 9.6 Gbps, and that’s a solid foundation for machine learning and the application of AI. Interactively correcting amplifier nonlinearities is an area of interest for us and for a number of our key customers as well. Our CTO would be happy to talk in much more detail about those possibilities and other topics that I’ve touched on.
If you’d like to deepen the technical discussion related to your technological roadmap, email
sales@EmpowerRF.com to schedule a conference call.
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