Filtering antenna systems, devices, and methods

What is claimed is: 1. A filtering antenna device comprising: a module carrier integrated onto a floor plan of a wireless device; a tunable antenna having one or more first variable impedance element positioned on the module carrier and configured to selectively vary an impedance at a signal path output; a tunable filter in communication between the signal path output of the tunable antenna and a signal processing chain, the tunable filter having one or more second variable impedance element positioned on the module carrier and configured to provide a frequency-selective filtering response between the signal path output and the signal processing chain; and a controller in communication with both the tunable antenna and the tunable filter; wherein the controller is configured for selectively tuning an impedance value of one or more of the one or more first variable impedance element or the one or more second variable impedance element. 2. The filtering antenna device of claim 1 , wherein the tunable antenna comprises: an antenna element having a signal path connection point; and a tunable impedance matching network in communication between the signal path connection point and the signal path output; wherein the tunable impedance matching network is operable to match an antenna impedance to the impedance at the signal path output. 3. The filtering antenna device of claim 1 , wherein the tunable antenna comprises: an antenna element having a signal path connection point and a load tuning connection; and an antenna load tuner in communication with the load tuning connection; wherein the antenna load tuner is to configured to provide variable impedance values to the antenna element to adjust a resonant frequency of the antenna element. 4. The filtering antenna device of claim 1 , wherein the one or more first variable impedance element or the one or more second variable impedance element comprises one or more tunable capacitors. 5. The filtering antenna device of claim 4 , wherein the one or more tunable capacitors comprise one or more of a MEMS capacitor, semiconductor-switched capacitor, varactor, BST, or a variable capacitor produced using semiconductor technology including CMOS, SOI, or pHEMT; and wherein the controller is configured to adjust the tuning state of the one or more tunable capacitors by respectively controlling one or more of electromechanical actuation, electric field actuation, or switching of electrical semiconductor switches connected to an array of capacitances. 6. The filtering antenna device of claim 1 , wherein the one or more first variable impedance element or the one or more second variable impedance element comprises one or more inductor. 7. The filtering antenna device of claim 6 , wherein the one or more inductor comprises a plurality of turns of conductive material; wherein in the turns share a common magnetic field; and wherein an effective conductor winding aperture is larger than 0.7 mm. 8. The filtering antenna device of claim 1 , wherein the frequency-selective filtering response of the tunable filter comprises one or more of tunable band reject characteristics configured for rejecting an interfering signal, tunable band pass characteristics having a bandwidth of at least a modulating bandwidth of a signal to be passed, tunable lowpass characteristics, or tunable highpass characteristics. 9. The filtering antenna device of claim 1 , wherein the controller is configured for selectively tuning an impedance value of the one or more of the one or more first variable impedance element or the one or more second variable impedance element based on commands given by a wireless basestation controller. 10. The filtering antenna device of claim 9 , wherein the controller is configured to set up a frequency response of one or both of the tunable antenna or the tunable filter according to a band assigned for receive or transmit by the wireless basestation controller. 11. The filtering antenna device of claim 1 , wherein the module carrier has a height of at least 1 mm. 12. The filtering antenna device of claim 1 , wherein the control unit is positioned on the module carrier. 13. The filtering antenna device of claim 1 , wherein the signal processing chain comprises one of a receive processing chain or a signal transmission path. 14. The filtering antenna device of claim 1 , wherein the filtering antenna system is configured to have suppression at a notch or band reject frequency so that the filtering antenna gain in dBi is more than 10 dB lower than the filtering antenna gain in dBi at frequencies outside of the notch or band reject frequency. 15. A filtering antenna device comprising: an antenna impedance tuner having one or more first variable impedance element configured for connection to one or more connection points of an antenna element for which the impedance can be varied; and a tunable filter configured for connection to a signal path output of the antenna element and to a signal processing chain, the tunable filter having one or more second variable impedance element configured to provide a frequency-selective filtering response between the signal path output and the signal processing chain; wherein the antenna impedance tuner and the tunable filter are integrated together on a common module carrier that is integrated onto a floor plan of a wireless device. 16. The filtering antenna device of claim 15 , wherein the antenna impedance tuner comprises a tunable impedance matching network configured for connection between a signal path connection point of an antenna element and the signal path output; wherein the tunable impedance matching network is operable to match an antenna impedance to the impedance at the signal path output. 17. The filtering antenna device of claim 15 , wherein the antenna impedance tuner comprises an antenna load tuner configured for connection with a load tuning connection of an antenna element; wherein the antenna load tuner is to configured to provide variable impedance values to the antenna element to adjust a resonant frequency of the antenna element. 18. The filtering antenna device of claim 15 , wherein the one or more first variable impedance element or the one or more second variable impedance element comprises one or more inductor. 19. The filtering antenna device of claim 18 , wherein the one or more inductor comprises a plurality of turns of conductive material; wherein in the turns share a common magnetic field; and wherein an effective conductor winding aperture is larger than 0.7 mm. 20. The filtering antenna device of claim 15 , wherein the common module carrier has a height of at least 1 mm. 21. The filtering antenna device of claim 15 , comprising a controller positioned on the common module carrier; wherein the controller is in communication with both the antenna impedance tuner and the tunable filter and is configured for selectively tuning an impedance value of one or more of the one or more first variable impedance element or the one or more second variable impedance element. 22. A method for making a filtering antenna device, the method comprising: integrating an antenna impedance tuner and a tunable filter on a common module carrier that is integrated onto a floor plan of a wireless device, the antenna impedance tuner having one or more first variable impedance element configured to selectively vary an impedance at a signal path output, and the tunable filter in communication