Tunable Microwave Devices with Auto-Adjusting Matching Circuit

What is claimed is: 1 . A variable circuit, comprising: a matching network coupleable to a tunable device; wherein the matching network comprises a first port and a second port; wherein the tunable device is coupled to one of the first port or the second port; wherein the matching network comprises one or more variable capacitors; wherein the one or more variable capacitors are operable to receive a first signal to cause the one or more variable capacitors to change a first reactance of the matching network; and wherein the tunable device is operable to receive a second signal to cause a change in a second reactance of the tunable device. 2 . The variable circuit of claim 1 , wherein the tunable device is a tunable antenna. 3 . The variable circuit of claim 1 , wherein the change in the first reactance of the matching network causes an increase in power transferred from the first port to the second port or from the second port to the first port. 4 . The variable circuit of claim 1 , wherein the change in the second reactance of the tunable device causes an increase in power transferred from the first port to the second port or from the second port to the first port. 5 . The variable circuit of claim 1 , wherein the one or more variable capacitors comprise tunable material comprising a composition of barium strontium titanate. 6 . The variable circuit of claim 5 , wherein the tunable device comprises a second tunable material. 7 . The variable circuit of claim 6 , wherein the second signal is coupled to the second tunable material to cause the change in the second reactance of the tunable device. 8 . A tunable circuit, comprising: a matching network coupleable to an antenna, wherein the antenna comprises an antenna member that is tunable; wherein the matching network comprises a first port and a second port; wherein the antenna is coupled to one of the first port or the second port; wherein the matching network comprises one or more variable reactive components; wherein the one or more variable reactive components are operable to receive a first signal to cause the one or more variable reactive components to change a first reactance of the matching network; and wherein the antenna member is operable to receive a second signal to cause the member to change a second reactance of the antenna. 9 . The tunable circuit of claim 8 , wherein at least one of the change in the first reactance of the matching network, or the change in the second reactance of the antenna, or both causes a change in power transferred from the first port to the second port or from the second port to the first port. 10 . The tunable circuit of claim 8 , wherein each of the one or more variable reactive components comprises one or more variable capacitors. 11 . The tunable circuit of claim 10 , wherein all of the one or more variable capacitors comprise barium strontium titanate. 12 . The tunable circuit of claim 11 , wherein the antenna member comprises a second tunable material. 13 . The tunable circuit of claim 12 , wherein the second signal is coupled to the second tunable material to cause the change in the second reactance of the antenna. 14 . The tunable circuit of claim 8 , wherein at least one of the one or more variable reactive components of the matching network comprises a tunable material. 15 . The tunable circuit of claim 14 , wherein the tunable material comprises a composition of barium strontium titanate. 16 . A circuit, comprising: an antenna comprising a tunable component; wherein the tunable component is operable to receive a variable signal to cause the tunable component to change a reactance of the antenna; and wherein the tunable component comprises: a first element; a second element; and one or more reactive elements connected with the first and second elements, wherein at least one of the first element or the second element, or both are adapted to receive the variable signal to cause the change in the reactance of the antenna. 17 . The circuit of claim 16 , wherein the change in the reactance of the antenna causes a change in power transferred by the antenna. 18 . The circuit of claim 16 , wherein the one or more reactive elements comprise a tunable material comprising a tunable dielectric material. 19 . The circuit of claim 18 , wherein the tunable material comprises a composition of barium strontium titanate. 20 . The circuit of claim 16 , wherein the tunable component is arranged in one of a Pi, a T, or a ladder type network and wherein the circuit does not include a directional coupler.