Push-pull amplifier, corresponding apparatus and method

The invention claimed is: 1. A push-pull amplifier, comprising: a pair of active devices driving a primary side of a transformer arrangement having a secondary side configured to be coupled to a load, wherein the transformer arrangement includes: a double distributed active transformer including a first set of transformers and a second set transformers; and a set of active stages coupled between the first and second sets of transformers, wherein: the primary side includes a cascaded arrangement of primary windings of the first set of transformers with the pair of active devices directly connected to ends of the cascaded arrangement of primary windings of the first set of transformers, the pair of active devices configured to cause a transformer input current to flow from the cascaded arrangement of primary windings of the first set of transformers through the pair of active devices, the secondary side includes a cascaded arrangement of secondary windings of the second set of transformers configured to produce a load current, and secondary windings of the first set of transformers are coupled to drive inputs of respective active stages of the set of active stages, said active stages of the set of active stages having outputs driving respecting primary windings of the second set of transformers. 2. The push-pull amplifier of claim 1 , further comprising a tap point that is intermediate of the cascaded arrangement of primary windings of the first set of transformers and configured to be coupled to a voltage power supply line. 3. The push-pull amplifier of claim 2 , wherein the first set of transformers includes an array of an even number of transformers with said tap point positioned centrally of the array, wherein the tap point partitions said array into two sub-sets each including a same number of transformers in the first set of transformers. 4. The push-pull amplifier of claim 1 , wherein the active devices in said pair of active devices include current sink terminals directly coupled respectively at said ends of the cascaded arrangement of primary windings. 5. The push-pull amplifier of claim 1 , wherein the double distributed active transformer is folded in space to a three-dimensional structure. 6. The push-pull amplifier of claim 1 , wherein the double distributed active transformer is implemented as an integrated circuit. 7. The push-pull amplifier of claim 1 , wherein active stages in said set of active stages include differential amplifiers amplifying signals input thereto from the secondary windings of the first set of transformers. 8. An amplifier, comprising: an input stage, a first amplifier stage configured to amplify a signal from the input stage, a matching transformer stage fed with an output from the first amplifier stage, a push-pull amplifier having an input coupled to an output of the matching transformer, wherein said push-pull amplifier comprises: a pair of active devices driving a primary side of a transformer arrangement having a secondary side configured to be coupled to a load, wherein the transformer arrangement includes: a double distributed active transformer including a first set of transformers and a second set transformers; and a set of active stages coupled between the first and second sets of transformers, wherein: the primary side includes a cascaded arrangement of primary windings of the first set of transformers with the pair of active devices directly connected to ends of the cascaded arrangement of primary windings of the first set of transformers, the pair of active devices configured to cause a transformer input current to flow from the cascaded arrangement of primary windings of the first set of transformers through the pair of active devices, the secondary side includes a cascaded arrangement of secondary windings of the second set of transformers configured to produce a load current, and secondary windings of the first set of transformers are coupled to drive inputs of respective active stages of the set of active stages, said active stages of the set of active stages having outputs driving respecting primary windings of the second set of transformers. 9. An amplifier circuit, comprising: a push-pull circuit including a first transistor having a first conduction path coupled between a first node and a ground node and a second transistor having a second conduction path coupled between a second node and the ground node, wherein control terminals of the first and second transistors are configured to receive an input; and a double distributed active transformer (DDAT) including: a first set of transformers including first primary windings coupled in series with each other and directly connected at a first end to the first node and directly connected at a second end to a power supply node and second primary windings coupled in series with each other and directly connected at a third end to the power supply node and directly connected at a fourth end to the second node, the first set of transformers further including a plurality of secondary windings; a second set of transformers including a plurality of secondary windings coupled in series between a first output node and a second output node, the second set of transformers further including a plurality of primary windings; and a plurality of differential active stages, each active stage having inputs coupled to ends of one of the secondary windings of the first set of transformers and outputs coupled to ends of one of the primary windings of the second set of transformers. 10. The amplifier circuit of claim 9 , wherein the double distributed active transformer is folded in space to a three-dimensional structure. 11. The amplifier circuit of claim 9 , wherein the double distributed active transformer is implemented as an integrated circuit.