Abstract: In certain examples, methods and semiconductor structures are directed to a switching (power) amplification circuit, including resonance circuitry to resonate at a frequency associated with at least one of a plurality of different selectable resonance frequencies. The switching amplification circuit is configured to deliver power to one or multiple loads while the switching amplifier circuit is operating based on one or more of the selectable resonance frequencies.

Abstract: Exemplary aspects are directed to a power-amplification circuit including multiple in-parallel circuit paths, each including a power amplifier driving an immittance converter. Current from each output of the respective immittance converters is combined for delivery to a load. In a more specific example, a control circuit may be used to modulate, such as by enabling or disabling power delivered from, one or more of the power amplifiers for fast, coarse resetting of the overall power delivered to the load, and/or to modulate one or more of the modulate immittance converters (e.g., via a phase or signal-timing adjustment) to finely tune the resetting of the overall power delivered to the load. Using the control circuit for providing both the coarse adjustment and the fine adjustment, and fast acting precise delivery of overall power delivered to a load may be realized for any of a variety of applications.

Abstract: A resonant DC-DC converter for generating high voltage MHz bi-polar DC pulses includes a left multi-level resonant rectifier bank [100] connected to a positive electrode [104] and coupled via capacitive isolation to a left RF amplifier terminal [128]; a right multi-level resonant rectifier bank [102] connected to a negative electrode [106] and coupled via capacitive isolation to a right RF amplifier terminal [130]. Each multi-level resonant rectifier bank comprises multiple resonant rectifier stages [112-122], where each stage comprises two capacitors for capacitively isolating the stage, an output capacitor, a MOSFET switch connected to an adjacent MOSFET switch of an adjacent stage, and a gating resonant circuit connected to the MOSFET switch, whereby MOSFET switches in the banks can be passively controlled by RF signals from a left RF amplifier and a right RF amplifier.

Abstract: Exemplary aspects are directed to a power-amplification circuit including multiple in-parallel circuit paths, each including a power amplifier driving an immittance converter. Current from each output of the respective immittance converters is combined for delivery to a load. In a more specific example, a control circuit may be used to modulate, such as by enabling or disabling power delivered from, one or more of the power amplifiers for fast, coarse resetting of the overall power delivered to the load, and/or to modulate one or more of the modulate immittance converters (e.g., via a phase or signal-timing adjustment) to finely tune the resetting of the overall power delivered to the load. Using the control circuit for providing both the coarse adjustment and the fine adjustment, and fast acting precise delivery of overall power delivered to a load may be realized for any of a variety of applications.

Abstract: A resonant DC-DC converter for generating high voltage MHz bi-polar DC pulses includes a left multi-level resonant rectifier bank [100] connected to a positive electrode [104] and coupled via capacitive isolation to a left RF amplifier terminal [128]; a right multi-level resonant rectifier bank [102] connected to a negative electrode [106] and coupled via capacitive isolation to a right RF amplifier terminal [130]. Each multi-level resonant rectifier bank comprises multiple resonant rectifier stages [112-122], where each stage comprises two capacitors for capacitively isolating the stage, an output capacitor, a MOSFET switch connected to an adjacent MOSFET switch of an adjacent stage, and a gating resonant circuit connected to the MOSFET switch, whereby MOSFET switches in the banks can be passively controlled by RF signals from a left RF amplifier and a right RF amplifier.