Envelope controlled radio frequency switches

What is claimed is: 1 . A mobile device comprising: an antenna; and a front end system including a radio frequency field-effect transistor switch configured to provide a radio frequency signal to the antenna in a first state of an input control signal, and a charge pump configured to generate a first regulated voltage that is provided to a gate of the radio frequency field-effect transistor switch in the first state of the input control signal, the charge pump circuitry including a first filter having a first terminal electrically connected to the first regulated voltage and a second terminal configured to receive an envelope signal indicating an envelope of the radio frequency signal. 2 . The mobile device of claim 1 wherein the front end system further includes a level shifter configured to receive the input control signal and the first regulated voltage, the level shifter configured to provide the first regulated voltage to the gate of the radio frequency field-effect transistor switch in the first state of the input control signal. 3 . The mobile device of claim 2 wherein the level shifter is further configured to provide a second regulated voltage to the gate of the radio frequency field-effect transistor switch in a second state of the input control signal. 4 . The mobile device of claim 3 wherein the radio frequency field-effect transistor switch is turned off in the second state of the input control signal. 5 . The mobile device of claim 1 wherein the charge pump includes a first charge pump stage and a second charge pump stage, the second charge pump stage having an input electrically connected to an output of the first charge pump stage. 6 . The mobile device of claim 5 wherein the first terminal of the first filter is electrically connected to an output of the second charge pump stage. 7 . The mobile device of claim 6 wherein the charge pump further includes a second filter including a first terminal electrically connected to the output of the first charge pump stage and a second terminal electrically connected to the envelope signal. 8 . The mobile device of claim 1 wherein the front end system further includes a power amplifier configured to output the radio frequency signal. 9 . The mobile device of claim 8 further comprising an envelope tracker configured to generate a power amplifier supply voltage of the power amplifier, the envelope tracker configured to control a voltage level of the power amplifier supply voltage based on the envelope signal. 10 . The mobile device of claim 8 further comprising a transceiver configured to generate a radio frequency input signal to the power amplifier. 11 . A radio frequency switch system comprising: a radio frequency field-effect transistor switch configured to provide a radio frequency signal to an antenna terminal in a first state of an input control signal; and a charge pump configured to generate a first regulated voltage that is provided to a gate of the radio frequency field-effect transistor switch in the first state of the input control signal, the charge pump circuitry including a first filter having a first terminal electrically connected to the first regulated voltage and a second terminal configured to receive an envelope signal indicating an envelope of the radio frequency signal. 12 . The radio frequency switch system of claim 11 further comprising a level shifter configured to receive the input control signal and the first regulated voltage, the level shifter configured to provide the first regulated voltage to the gate of the radio frequency field-effect transistor switch in the first state of the input control signal. 13 . The radio frequency switch system of claim 12 wherein the level shifter is further configured to provide a second regulated voltage to the gate of the radio frequency field-effect transistor switch in a second state of the input control signal. 14 . The radio frequency switch system of claim 11 wherein the charge pump includes a first charge pump stage and a second charge pump stage, the second charge pump stage having an input electrically connected to an output of the first charge pump stage. 15 . The radio frequency switch system of claim 14 wherein the first terminal of the first filter is electrically connected to an output of the second charge pump stage. 16 . The radio frequency switch system of claim 15 wherein the charge pump further includes a second filter including a first terminal electrically connected to the output of the first charge pump stage and a second terminal electrically connected to the envelope signal. 17 . The radio frequency switch system of claim 11 further comprising a power amplifier configured to output the radio frequency signal. 18 . The radio frequency switch system of claim 17 further comprising an envelope tracker configured to generate a power amplifier supply voltage of the power amplifier, the envelope tracker configured to control a voltage level of the power amplifier supply voltage based on the envelope signal. 19 . A method of radio frequency switch control, the method comprising: providing a radio frequency signal to an antenna through a radio frequency field-effect transistor switch in a first state of an input control signal; generating a first regulated voltage using a charge pump that includes a first filter having a first terminal electrically connected to the first regulated voltage and a second terminal configured to receive an envelope signal indicating an envelope of the radio frequency signal; and providing the first regulated voltage to a gate of the radio frequency field-effect transistor switch in the first state of the input control signal. 20 . The method of claim 19 further comprising providing the radio frequency signal to the radio frequency field-effect transistor switch from an output of the power amplifier, and controlling a voltage level of a power amplifier supply voltage of the power amplifier based on the envelope signal using an envelope tracker.