Tunable duplexer having a circulator

The invention claimed is: 1. A tunable duplexer comprising: a transmission port; a reception port; a common port; a core having a first inductive element and a second inductive element; a first signal path electrically connecting the transmission port to the core; a second signal path electrically connecting the reception port to the core; a third signal path electrically connecting the common port to the core; a first tunable capacitive element that electrically connects the first signal path to electric ground; a second tunable capacitive element that electrically connects the second signal path to the electric ground, wherein the first inductive element and the second inductive element are inductively and conductively coupled to one another; a first inductor-capacitor (LC) parallel circuit that electrically connects the first signal path to the electric ground; a second LC parallel circuit that electrically connects the second signal path to the electric ground; and a third LC parallel circuit that electrically connects the third signal path to the electric ground. 2. The tunable duplexer according to claim 1 , wherein the core is a circulator. 3. The tunable duplexer according to claim 1 , further comprising a third inductive element inductively and conductively connected to the first inductive element, wherein the third inductive element is inductively and conductively connected to the second inductive element, and wherein the second inductive element is electrically connected to the third signal path. 4. The tunable duplexer according to claim 1 , further comprising a third capacitive element that electrically connects the third signal path to the electric ground. 5. The tunable duplexer according to claim 1 , further comprising: a series capacitive element that is electrically connected in series in the first signal path; a series capacitive element that is electrically connected in series in the second signal path; and a series capacitive element that is electrically connected in series in the third signal path. 6. The tunable duplexer according to claim 1 , further comprising: a series inductive element that is electrically connected in series in the first signal path; a series inductive element that is electrically connected in series in the second signal path; and a series inductive element that is electrically connected in series in the third signal path. 7. The tunable duplexer according to claim 1 , the first and second inductive elements and the first and second tunable capacitive elements are formed as patterned metallizations in a multilayer substrate. 8. The tunable duplexer according to claim 1 , further comprising a series capacitive element electrically connected in series in the third signal path. 9. The tunable duplexer according to claim 1 , wherein the first inductive element is electrically connected to the first signal path and the second inductive element is electrically connected to the second signal path. 10. The tunable duplexer according to claim 9 , wherein the first inductive element and the first tunable capacitive element form a resonant circuit connected to the electric ground that is suitable for producing a resonance at a center frequency in a selectable transmission frequency band, and wherein the second inductive element and the second tunable capacitive element form a resonant circuit electrically connected to the electric ground that is suitable for producing a resonance at a center frequency in a selectable reception frequency band.