Switch linearization with asymmetrical anti-series varactor pair

What is claimed is: 1 . A radio-frequency switch comprising: a series arm coupled between an input node and an output node; a shunt arm having a set of field-effect transistors, the shunt arm coupled between the series arm and a reference node; and a varactor stack comprising a plurality of anti-series varactor pairs with at least one anti-series varactor pair being an anti-series asymmetric varactor pair with a first varactor having a width that is equal to a base width plus a width difference and a second varactor having a width that is equal to the base width minus the width difference and at least one anti-series varactor pair being an anti-series symmetric varactor pair with each varactor having a width equal to the base width, the varactor stack coupled in parallel to the shunt arm between the series arm and the reference potential node, a ratio of a number of asymmetric varactor pairs to a number of symmetric varactor pairs of the plurality of anti-series varactor pairs configured to reduce second-order harmonics generated by the set of field effect transistors in the shunt arm. 2 . The switch of claim 1 wherein the base width is configured to reduce third-order harmonics generated by the set of field-effect transistors in the shunt arm and the width difference is configured to further reduce second-order harmonics generated by the set of field-effect transistors in the shunt arm. 3 . The switch of claim 1 wherein the varactor stack includes a plurality of anti-series asymmetric varactor pairs. 4 . The switch of claim 3 wherein each varactor pair of the plurality of anti-series asymmetric varactor pairs has a same width difference. 5 . The switch of claim 4 wherein an aggregate of the width differences for all of the anti-series asymmetric varactor pairs is configured to reduce the second-order harmonics generated by the set of field-effect transistors in the shunt arm. 6 . The switch of claim 3 wherein each varactor pair of the plurality of anti-series asymmetric varactor pairs has a different width difference. 7 . The switch of claim 6 wherein an aggregate of the width differences for all of the anti-series asymmetric varactor pairs is configured to reduce the second-order harmonics generated by the set of field-effect transistors in the shunt arm. 8 . The switch of claim 1 wherein the series arm comprises a plurality of field-effect transistors. 9 . The switch of claim 1 , wherein the ratio is greater than or equal to 1. 10 . The switch of claim 1 , wherein the ratio is less than or equal to 1. 11 . A radio-frequency switch module comprising: a packaging substrate configured to receive a plurality of components; a semiconductor die mounted on the packaging substrate, the semiconductor die including a switch, the switch including a series arm coupled between an input node and an output node; the switch including a shunt arm having a set of field-effect transistors, the shunt arm coupled between the series arm and a reference node; the switch including a varactor stack comprising a plurality of anti-series varactor pair pairs with at least one anti-series varactor pair being an anti-series asymmetric varactor pair with a first varactor having a width that is equal to a base width plus a width difference and a second varactor having a width that is equal to the base width minus the width difference and at least one anti-series varactor pair being an anti-series symmetric varactor pair with each varactor having a width equal to the base width, the varactor stack coupled in parallel to the shunt arm between the series arm and the reference potential node, a ratio of a number of asymmetric varactor pairs to a number of symmetric varactor pairs of the plurality of anti-series varactor pairs configured to reduce second-order harmonics generated by the set of field effect transistors in the shunt arm. 12 . The switch module of claim 11 wherein the base width is configured to reduce third-order harmonics generated by the set of field-effect transistors in the shunt arm and the width difference is configured to further reduce second-order harmonics generated by the set of field-effect transistors in the shunt arm. 13 . The switch module of claim 11 wherein the varactor stack includes a plurality of anti-series asymmetric varactor pairs. 14 . The switch module of claim 13 wherein each varactor pair of the plurality of anti-series asymmetric varactor pairs has a same width difference. 15 . The switch module of claim 14 wherein an aggregate of the width differences for all of the anti-series asymmetric varactor pairs is configured to reduce the second-order harmonics generated by the set of field-effect transistors in the shunt arm. 16 . The switch module of claim 13 wherein each varactor pair of the plurality of anti-series asymmetric varactor pairs has a different width difference. 17 . The switch module of claim 16 wherein an aggregate of the width differences for all of the anti-series asymmetric varactor pairs is configured to reduce the second-order harmonics generated by the set of field-effect transistors in the shunt arm. 18 . The switch of claim 1 , wherein the ratio is greater than or equal to 1. 19 . The switch of claim 1 , wherein the ratio is less than or equal to 1. 20 . A wireless device comprising: a transceiver configured to process radio-frequency (RF) signals; an antenna in communication with the transceiver configured to facilitate transmission of an amplified RF signal; a power amplifier connected to the transceiver and configured to generate the amplified RF signal; and a switch connected to the antenna and the power amplifier and configured to selectively route the amplified RF signal to the antenna, the switch including a series arm coupled between an input node and an output node; the switch including a shunt arm having a set of field-effect transistors, the shunt arm coupled between the series arm and a reference node; the switch including a varactor stack comprising a plurality of anti-series varactor pair pairs with at least one anti-series varactor pair being an anti-series asymmetric varactor pair with a first varactor having a width that is equal to a base width plus a width difference and a second varactor having a width that is equal to the base width minus the width difference and at least one anti-series varactor pair being an anti-series symmetric varactor pair with each varactor having a width equal to the base width, the varactor stack coupled in parallel to the shunt arm between the series arm and the reference potential node, a ratio of a number of asymmetric varactor pairs to a number of symmetric varactor pairs of the plurality of anti-series varactor pairs configured to reduce second-order harmonics generated by the set of field effect transistors in the shunt arm.