Nonlinear characterization and modeling of dispersive effects in high-frequency power transistors
TL;DRAbstract
Power amplifiers (PAs) are key elements of telecommunications and radar front ends at radio frequencies. Recent evolutions are driving the use of those power amplifiers in more and more complex conditions. These result from an increased complexity of signals that are fed into the PA on the one hand, and from the increased density of power that solid state PAs are required to support on the other hand. In both cases – modulated signals used in telecommunications systems and complex pulsed signals used in radar systems – there exist low-frequency components which excite the dispersive phenomena that are present in electronic devices. From the point of view of systems designers, the dispersion phenomena appear as memory effects in PAs. Those memory effects can be classified as short-term memory (STM) effects and long-term memory (LTM) effects [1]. A typical simplified schematic of a radio frequency (RF) PA is given in Figure 7.1, where the bias networks, the matching networks (Qe and Qs)
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Power amplifiers (PAs) are key elements of telecommunications and radar front ends at radio frequencies. Recent evolutions are driving the use of those power amplifiers in more and more complex conditions. These result from an increased complexity of signals that are fed into the PA on the one hand, and from the increased density of power that solid state PAs are required to support on the other hand. In both cases – modulated signals used in telecommunications systems and complex pulsed signals used in radar systems – there exist low-frequency components which excite the dispersive phenomena that are present in electronic devices. From the point of view of systems designers, the dispersion phenomena appear as memory effects in PAs. Those memory effects can be classified as short-term memory (STM) effects and long-term memory (LTM) effects [1]. A typical simplified schematic of a radio frequency (RF) PA is given in Figure 7.1, where the bias networks, the matching networks (Qe and Qs)
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