Switched multiplexer with flat group delay and channelized limiting

What is claimed is: 1. A switching circuit, comprising: first filter circuitry configured to filter signals in a first frequency band used by a first channel; and second filter circuitry, configured to filter signals in a second frequency band used by a second channel, comprising an intrinsically-switched filter subsection, wherein the intrinsically-switched filter subsection comprises: an adjustable capacitor having an adjustable capacitance C 1 , and a fixed capacitor having a fixed capacitance C 2 , wherein an inter-resonator coupling between resonators of the first filter circuitry and the second filter circuitry is configured to be canceled based on values of C 1 and C 2 when the intrinsically-switched filter subsection is switched to an off state to disable filtering for the second frequency band. 2. The switching circuit of claim 1 , wherein the first frequency band is adjacent to the second frequency band. 3. The switching circuit of claim 1 , wherein the intrinsically-switched filter subsection is configured to be switched off without initiating a return loss for the first filter circuitry greater than 15 dB. 4. The switching circuit of claim 1 , wherein the second filter circuitry further comprises: a first fixed filter subsection coupled to an input circuit and the intrinsically-switched filter subsection; and a second fixed filter subsection coupled to an output circuit and the intrinsically-switched filter subsection. 5. The switching circuit of claim 4 , wherein the first fixed filter subsection remains coupled to the input circuit when the intrinsically-switched filter subsection is switched off, and wherein the second fixed filter subsection remains coupled to the output circuit when the intrinsically-switched filter subsection is switched off. 6. The switching circuit of claim 4 , wherein the first fixed filter subsection and the second fixed filter subsection are configured to provide respective bandstop responses when the intrinsically-switched filter subsection is switched off. 7. The switching circuit of claim 1 , wherein the intrinsically-switched filter subsection comprises an intrinsically-switched coupling section. 8. The switching circuit of claim 7 , wherein the intrinsically-switched coupling section further comprises a pair of coupled transmission lines. 9. The switching circuit of claim 8 , wherein the intrinsically-switched coupling section is configured to provide frequency-independent isolation that is dependent on: a ratio of C 1 and C 2 ; a first transmission line parameter y 11 of the pair of coupled transmission lines; and a second transmission line parameter y 12 of the pair of coupled transmission lines. 10. The switching circuit of claim 9 , wherein the first and second transmission line parameters are admittance parameters of the pair of coupled transmission lines. 11. The switching circuit of claim 9 , wherein an off state of the intrinsically-switched coupling section is determined by the equation C 1 /C 2 =y 11 /y 12 −1. 12. The switching circuit of claim 7 , wherein the intrinsically-switched coupling section is configured such that a transfer function of the intrinsically-switched coupling section is equal to zero for all frequencies when the intrinsically-switched coupling section is switched off. 13. The switching circuit of claim 1 , wherein the first filter circuitry comprises a second intrinsically-switched coupling section. 14. The switching circuit of claim 1 , wherein the intrinsically-switched filter subsection comprises a second inter-resonator coupling between the resonators of the first filter circuitry and the second filter circuitry, the second inter-resonator coupling is configured to be canceled when the second intrinsically-switched filter subsection is switched to the off state to disable filtering for the first frequency band. 15. An intrinsically-switched coupling section of a filter, comprising: a pair of coupled transmission lines, comprising: a first transmission line, and a second transmission line, coupled to the first transmission line, wherein the pair of coupled lines has a first transmission line parameter y 11 and a second transmission line parameter y 12 ; an adjustable capacitor having an adjustable capacitance C 1 ; and a fixed capacitor having a fixed capacitance C 2 , wherein an inter-resonator coupling, coupled to the intrinsically-switched coupling section and coupled between resonators of the filter, is configured to be canceled, based on values of y 11 , y 12 , C 1 , and C 2 , when the intrinsically-switched coupling section is switched to an off state. 16. The intrinsically-switched coupling section of claim 15 , wherein the off state of the intrinsically-switched coupling section is determined based on values of y 11 , y 12 , C 1 , and C 2 . 17. The intrinsically-switched coupling section of claim 15 , wherein the filter is configured to filter signals in a first frequency band, wherein the intrinsically-switched coupling section is configured such that the intrinsically-switched coupling section is switched to the off state without initiating a return loss greater than 15 dB in a second filter, and wherein the second filter is configured to filter signals in a second frequency band. 18. A filter, comprising: a first fixed filter subsection coupled to an input circuit; a second fixed filter subsection coupled to an output circuit; and an intrinsically-switched filter subsection configured to be coupled to the first fixed filter subsection and the second fixed filter subsection in an on state and to be decoupled from the first fixed filter subsection and the second fixed filter subsection in an off state, wherein the intrinsically-switched filter subsection comprises: an adjustable capacitor having an adjustable capacitance C 1 , and a fixed capacitor having a fixed capacitance C 2 , wherein an inter-resonator coupling coupled between resonators of the first and second fixed filter subsections is configured to be canceled based on values of C 1 and C 2 when the intrinsically-switched filter subsection is switched to the off state. 19. The filter of claim 18 , wherein the first fixed filter subsection and the second fixed filter subsection are configured to provide respective bandstop responses when the intrinsically-switched filter subsection is switched off. 20. The filter of claim 18 , wherein the intrinsically-switched filter subsection comprises a second inter-resonator coupling coupled between the first and second fixed filter subsections, the second inter-resonator coupling is configured to be canceled when an intrinsically-switched coupling section of the intrinsically-switched filter subsection is switched to the off state.