Abstract: Apparatus and method for parallel operation of radio frequency transistor amplifier circuits in a Class D mode of operation at radio frequency signal ranges without the use of frequency limiting components is disclosed. A driver circuit provides the input signals for each radio frequency transistor amplifier circuit. A transformer is disclosed that combines the output signals of the radio frequency transistor amplifier circuits while matching the amplifier circuit impedance and the transformer load impedance (i.e., the antenna impedance). The transformer eliminates the need for DC blocking capacitors between the primary and secondary windings of the transformer. The transformer/power combiner includes a plurality of (1:1) transformer units having the unit input terminals (power amplifier output signals) coupled in parallel and having unit output terminals coupled in series.
Abstract: Switching power amplifier circuits for use in a frequency range from 0.5 MHz to 100 MHz are described. The power amplifier circuits have power field effect transistor (FET) devices as output components and the FET devices are driven by bipolar transistor devices without frequency limiting components. The power amplifier circuits can be coupled in parallel and the coupled amplifier circuits can be operated in a push-pull mode of operation for increased power. The systems using these amplifier devices can operate in a Class A, B, C, D, E, F and S modes. In particular, a Class D amplifier system is described that uses the switching power amplifier circuits in the extended frequency range.
Abstract: Switching power amplifier circuits for use in a frequency range from 0.5 MHz to 100 MHz are described. The power amplifier circuits have power field effect transistor (FET) devices as output components and the FET devices are driven by bipolar transistor devices without frequency limiting components. The power amplifier circuits can be coupled in parallel and the coupled amplifier circuits can be operated in a push-pull mode of operation for increased power. The systems using these amplifier devices can operate in a Class A, B, C, D, E, F and S modes. In particular, a Class D amplifier system is described that uses the switching power amplifier circuits in the extended frequency range.