Adaptive multi-carrier filter response systems and methods

What is claimed is: 1 . A tunable diplex filter for a wireless frequency division duplex system, the tunable diplex filter comprising: a diplexer in communication between an input node and first and second output nodes, the diplexer being configured to separate signals present at the input node into a first signal to the first output node and a second signal to the second output node; a first tunable filter in communication between the diplexer and the first output node, the first tunable filter being selectively tunable to define a first reject band and a first tunable pass band configured to have a minimum pass band insertion loss at any of a range of frequencies that are higher than the first reject band; and a second tunable filter in communication between the diplexer and the second output node, the second tunable filter being selectively tunable to define a second reject band and a second tunable pass band configured to have a minimum pass band insertion loss at any of a variety of frequencies that are lower than the first reject band. 2 . The tunable diplex filter of claim 1 , wherein the first tunable filter or the second tunable filter are configured to concurrently pass a plurality of signals having frequencies associated with different carrier aggregation bands. 3 . The tunable diplex filter of claim 1 , wherein the first reject band and the second reject band are tunable to adjust frequencies at which signals in both the first tunable filter and the second tunable filter are attenuated. 4 . The tunable diplex filter of claim 1 , wherein one or both of the first tunable filter or the second tunable filter comprises: a first resonator and a second resonator configured to block signals within a respective one of the first reject band or the second reject band; and one or more coupling impedance element connected to both the first resonator and the second resonator, the one or more coupling impedance element being tunable to vary a frequency at which an insertion loss of a respective one of the first tunable pass band or the second tunable pass band is a relative minimum. 5 . The tunable diplex filter of claim 4 , wherein the first resonator comprises at least one first shunt impedance element connected between the diplexer and a ground; wherein the second resonator comprises at least one second shunt impedance element connected between the respective one of the first output node or the second output node and the ground; and wherein the one or more coupling impedance element is connected in series between the diplexer and a respective one of the first output node or the second output node 6 . The tunable diplex filter of claim 4 , wherein the one or more coupling impedance element comprises one or more tunable capacitor. 7 . The tunable diplex filter of claim 6 , wherein the one or more coupling impedance element comprises one or more inductor connected in parallel with the one or more tunable capacitor. 8 . The tunable diplex filter of claim 4 , wherein the one or more coupling impedance element is tunable to vary a frequency at which an insertion loss of a respective one of the first tunable pass band or the second tunable pass band is less than about 7 dB. 9 . A wireless frequency division duplex system comprising: a tunable diplex filter comprising an input node, a high-pass output node, and a low-pass output node; wherein the tunable diplex filter is configured to exhibit reject band characteristics and tunable pass band characteristics that are programmable such that signals passed to the high-pass output node have any of a range of frequencies that are above a desired transmit frequency and signals passed to the low-pass output node have any of a range of frequencies that are below the desired transmit frequency. 10 . The wireless frequency division duplex system of claim 9 , comprising a receive front end in communication with the high pass output node and the low pass output node; wherein the receive front end comprises one or more first pairs of a low-noise amplifier and a frequency-selection mixer in communication with the high pass output node and one or more second pairs of a low-noise amplifier and a frequency-selection mixer in communication with the low pass output node; wherein each of the first pairs and the second pairs of a low-noise amplifier and a frequency-selection mixer are configured to pass signals having frequencies associated with a discrete carrier band. 11 . The wireless frequency division duplex system of claim 10 , wherein the receive front end comprises: a first additional low-noise amplifier in communication with the high-pass output node; a second additional low-noise amplifier in communication with the low-pass output node; and a common frequency-selection mixer in communication with both of the first additional low-noise amplifier and the second additional low-noise amplifier, wherein the common frequency-selection mixer is configured to be selectively connected to either the first additional low-noise amplifier or the second additional low-noise amplifier. 12 . The wireless frequency division duplex system of claim 10 , wherein the receive front end comprises: a first dummy low-noise amplifier in communication with the high-pass output node; and a second dummy low-noise amplifier in communication with the low-pass output node; wherein the first and second dummy low-noise amplifiers are configured to provide a constant impedance at a respective one of the high-pass output node or the low-pass output node. 13 . A method for tuning a wireless frequency division duplex system, the method comprising: identifying a first receive band, a second receive band, and a transmit band; if one or both of the first receive band or the second receive band comprise frequencies that are greater than frequencies of the transmit band: tuning a first tunable filter to move a first tunable pass band towards the frequencies of the one or both of the first receive band or the second receive band; and tuning the first tunable filter to define a first reject band at the frequencies of the transmit band; and if one or both of the first receive band or the second receive band comprise frequencies that are less than frequencies of the transmit band: tuning a second tunable filter to move a second tunable pass band towards the frequencies of the one or both of the first receive band or the second receive band; and tuning the second tunable filter to define a second reject band at the frequencies of the transmit band. 14 . The method of claim 13 , wherein identifying the first receive band and the second receive band comprises: establishing a scan of power over frequency; and setting the first receive band and the second receive band at frequencies at which a receive filter loss is below a predetermined threshold. 15 . The method of claim 13 , wherein identifying the first receive band, the second receive band, and the transmit band comprises: receiving channel and band information from downlink information from a base station with which the wireless frequency division duplex system is communicating.