Dedicated shunt switch with improved ground

What is claimed is: 1. Antenna tuning switch circuitry comprising: an input port; an integrated ground connection; a shunt switch directly coupled between the input port and the integrated ground connection; and control circuitry comprising a control signal input port, a switch driver output port coupled to the shunt switch, and a ground connection port directly coupled to the integrated ground connection, wherein the input port, the integrated ground connection, the shunt switch, and the control circuitry are monolithically integrated together on a single semiconductor die. 2. The antenna tuning switch circuitry of claim 1 wherein the input port of the antenna tuning switch circuitry is coupled to a point on a surface of an antenna. 3. The antenna tuning switch circuitry of claim 2 wherein the control circuitry is configured to change the transmission and/or reception characteristics of the antenna by selectively placing the point on the surface of the antenna in contact with the integrated ground connection. 4. The antenna tuning switch circuitry of claim 1 wherein the control circuitry is configured to control the state of the shunt switch based on a control signal received at the control signal input port. 5. The antenna tuning switch circuitry of claim 1 wherein the control circuitry further comprises: a low-dropout voltage regulator; charge pump circuitry; and switch driver circuitry. 6. The antenna tuning switch circuitry of claim 5 wherein the low-dropout voltage regulator is configured to receive a supply voltage and generate a regulated supply voltage for delivery to the charge pump circuitry and the switch driver circuitry. 7. The antenna tuning switch circuitry of claim 5 wherein the low-dropout voltage regulator, the charge pump circuitry, and the switch driver circuitry are coupled to the integrated ground connection. 8. The antenna tuning switch circuitry of claim 6 wherein the charge pump circuitry is configured to receive the regulated supply voltage and generate a stepped-up driver supply voltage for delivery to the switch driver circuitry. 9. The antenna tuning switch circuitry of claim 8 wherein the switch driver circuitry is configured to receive the regulated supply voltage, the stepped-up driver supply voltage, and a control signal, and generate one or more switch control signals for controlling the state of the shunt switch. 10. The antenna tuning switch circuitry of claim 1 further including one or more fixed impedance components coupled between the shunt switch and the integrated ground connection. 11. Mobile terminal front end circuitry comprising: an antenna; a transmit chain configured to process signals for transmission to the antenna; a receive chain configured to process received signals from the antenna; and antenna tuning switch circuitry coupled to the antenna and comprising: an input port; an integrated ground connection; a shunt switch directly coupled between the input port and the integrated ground connection; and control circuitry comprising a control signal input port, a switch driver output port coupled to the shunt switch, and a ground connection port directly coupled to the integrated ground connection, wherein the input port, the integrated ground connection, the shunt switch, and the control circuitry are monolithically integrated together on a single semiconductor die. 12. The mobile terminal front end circuitry of claim 11 wherein the input port of the antenna tuning switch circuitry is coupled to a point on a surface of the antenna. 13. The mobile terminal front end circuitry of claim 12 wherein the control circuitry is configured to change the transmission and/or reception characteristics of the antenna by selectively placing the point on the surface of the antenna in contact with the integrated ground connection. 14. The mobile terminal front end circuitry of claim 11 wherein the control circuitry is configured to control the state of the shunt switch based on a control signal received at the control signal input port. 15. The mobile terminal front end circuitry of claim 11 wherein the control circuitry further comprises: a low-dropout voltage regulator; charge pump circuitry; and switch driver circuitry. 16. The mobile terminal front end circuitry of claim 15 wherein the low-dropout voltage regulator is configured to receive a supply voltage and generate a regulated supply voltage for delivery to the charge pump circuitry and the switch driver circuitry. 17. The mobile terminal front end circuitry of claim 15 wherein the low-dropout voltage regulator, the charge pump circuitry, and the switch driver circuitry are coupled to the integrated ground connection. 18. The mobile terminal front end circuitry of claim 16 wherein the charge pump circuitry is configured to receive the regulated supply voltage and generate a stepped-up driver supply voltage for delivery to the switch driver circuitry. 19. The mobile terminal front end circuitry of claim 18 wherein the switch driver circuitry is configured to receive the regulated supply voltage, the stepped-up driver supply voltage, and a control signal, and generate one or more switch control signals for controlling the state of the shunt switch. 20. The mobile terminal front end circuitry of claim 11 further including one or more fixed impedance components coupled between the shunt switch and the integrated ground connection.