Reconfigurable amplifier system with a switchable multiple-coil transformer

What is claimed is: 1 . A transformer comprising: a first coil electrically coupled to a pre-power amplifier that is configured to receive an input signal; a second coil inductively coupled to the first coil and configured to be electrically coupled to a first power amplifier; a third coil inductively coupled to the first coil and electrically coupled to a second power amplifier; and a first switch configured to alternately connect and disconnect the third coil from a ground. 2 . The transformer of claim 1 , wherein the first switch alternately connects and disconnects the third coil on one side of an output of the third coil, the transformer further comprising a first pair of switches including the first switch and a second switch of the first pair of switches to alternately connect and disconnect the third coil from the ground with the first switch at another side of the output of the third coil. 3 . The transformer of claim 2 , further comprising a third switch to alternately open and close a break in the third coil. 4 . The transformer of claim 3 , further comprising a second pair of switches including the third switch and a fourth switch of the second pair of switches to alternately open and close a break in the third coil with the third switch at another side of the third coil. 5 . The transformer of claim 4 , wherein the first pair of switches is configured to connect the third coil to the first power amplifier and the second pair of switches is configured to close the break in the third coil when the first power amplifier is active and wherein the first pair of switches is configured to ground the third coil and the second pair of switches is configured to open the break in the third coil when the second power amplifier is active. 6 . The transformer of claim 1 , wherein the second power amplifier is external to the transformer, the transformer further comprising an output pad coupled to the third coil and configured to connect to the second power amplifier. 7 . The transformer of claim 1 , further comprising a center tap of the third coil coupled to a bias gate of the second power amplifier to provide a bias voltage to the second power amplifier when the switch disconnects the third coil from ground. 8 . The transformer of claim 7 , further comprising a bias switch to couple a first bias from the center tap to the bias gate when the bias switch connects the third coil to ground and a second bias when the bias switch disconnects the third coil from the ground. 9 . The transformer of claim 8 , wherein the bias switch provides the first bias when the second power amplifier is deactivated and the second bias when the second power amplifier is activated. 10 . A method comprising: receiving an input signal at an input port of a pre-power amplifier; receiving a pre-power amplifier signal at a first coil of a transformer that is electrically coupled to the pre-power amplifier; inductively coupling the pre-power amplifier signal through the first coil to a second coil which is electrically coupled to a first power amplifier; inductively coupling the pre-power amplifier signal through the first coil to a third coil which is electrically coupled to a second power amplifier; and alternately connecting and disconnecting the third coil from a ground. 11 . The method of claim 10 , further comprising alternately opening and closing a break in the third coil with the alternately connecting and disconnecting the third coil from the ground to alternately connect and disconnect the second power amplifier. 12 . The method of claim 10 , further comprising activating a first and a second cell of the pre-power amplifier to supply the first power amplifier when a switch connects the third coil to the ground. 13 . The method of claim 12 , further comprising coupling a first bias from a center tap of the third coil to a bias gate of the first power amplifier when the switch connects the third coil to the ground and coupling a second bias to the bias gate when the switch disconnects the third coil from the ground. 14 . A reconfigurable amplifier system comprising: a pre-power amplifier having an input port configured to receive an input signal; an internal power amplifier; a transformer having a first coil electrically coupled to the pre-power amplifier, a second coil inductively coupled to the first coil and configured to be electrically coupled to an external power amplifier, and a third coil inductively coupled to the first coil and electrically coupled to the internal power amplifier; and a switch to alternately connect and disconnect the third coil from a ground to connect and disconnect the internal power amplifier. 15 . The reconfigurable amplifier system of claim 14 , wherein the pre-power amplifier comprises a first cell and a second cell and wherein the first and second cell are active to supply the external power amplifier when the switch connects the third coil to the ground. 16 . The reconfigurable amplifier system of claim 15 , wherein the pre-power amplifier is configured to supply the internal power amplifier when the switch disconnects the third coil from the ground when the second cell is not active. 17 . The reconfigurable amplifier system of claim 16 , wherein the first cell comprises a first cascode amplifier and the second cell comprises a second cascode amplifier and wherein the first cascode amplifier and the second cascode amplifier are connected in parallel to the input port and to the first coil. 18 . The reconfigurable amplifier system of claim 14 , further comprising a third switch to alternately open and close a break in the third coil such that the break is opened when the third coil is connected to the ground. 19 . The reconfigurable amplifier system of claim 14 , wherein the third switch is an embedded field effect transistor. 20 . The reconfigurable amplifier system of claim 14 , further comprising a semiconductor substrate and wherein the pre-power amplifier, the transformer, the internal power amplifier and the switch are formed on the semiconductor substrate and the external power amplifier is not formed on the semiconductor substrate.