Circuits and methods for reducing insertion loss effects associated with radio-frequency power couplers

What is claimed is: 1. A radio-frequency (RF) circuit comprising: a first amplification path including an output match network for a first RF signal in a first band; a second amplification path including an output match network for a second RF signal in a second band; a power detector including a first coupler configured to detect power along the first amplification path, and a second coupler configured to detect power along the second amplification path, the first coupler and the second coupler implemented in a daisy-chain configuration; and an adjustment circuit including an inductance implemented between the second output match network and the second coupler of the second path, the adjustment circuit configured to move a frequency response feature associated with the first amplification path and resulting at least in part from the second coupler, away from the first band. 2. The RF circuit of claim 1 wherein the first band and the second band are high and low bands, respectively, relative to each other. 3. The RF circuit of claim 2 wherein each of the first path and the second path includes a power amplifier (PA) having its output coupled to the corresponding output match network. 4. The RF circuit of claim 2 wherein the inductance includes an inductor. 5. The RF circuit of claim 2 wherein the adjustment circuit further includes a capacitance connected in series with the inductance. 6. The RF circuit of claim 5 wherein the capacitance includes a capacitor. 7. The RF circuit of claim 2 wherein the second output match network includes a matching inductance and a shunt capacitance connected to an output of the matching inductance. 8. The RF circuit of claim 2 wherein the frequency response feature includes a notch in a power spectrum that contributes to an insertion loss along the first amplification path. 9. The RF circuit of claim 2 wherein the first band includes an E-UTRA band B7, B38 or B40. 10. The RF circuit of claim 9 wherein the second band includes an E-UTRA band B18 or B8. 11. The RF circuit of claim 2 wherein the frequency response feature is moved to a frequency range that is not utilized during operation of the first amplification path. 12. The RF circuit of claim 11 wherein the frequency range includes a frequency range between E-UTRA bands B8 and B4. 13. The RF circuit of claim 2 wherein the adjustment circuit is configured to move the frequency response feature to a lower frequency. 14. The RF circuit of claim 13 wherein the lower frequency where the frequency response feature moves to is between frequencies associated with the first band and the second band. 15. A radio-frequency (RF) module comprising: a packaging substrate configured to receive a plurality of components; and an RF circuit implemented on the packaging substrate, the RF circuit including a first amplification path having an output match network for a first RF signal in a first band, and a second amplification path having an output match network for a second RF signal in a second band, the RF circuit further including a power detector having a first coupler configured to detect power along the first amplification path, and a second coupler configured to detect power along the second amplification path, the first coupler and the second coupler implemented in a daisy-chain configuration, the RF circuit further including an adjustment circuit having an inductance implemented between the second output match network and the second coupler of the second path, the adjustment circuit configured to move a frequency response feature associated with the first amplification path and resulting at least in part from the second coupler, away from the first band. 16. The RF module of claim 15 wherein the RF module is a power amplifier module, such that the first path includes an output of a first power amplifier (PA) and the second path includes an output of a second PA. 17. The RF module of claim 16 wherein both of the first and second PAs are implemented on a semiconductor die. 18. A radio-frequency (RF) device comprising: a transceiver configured to process RF signals; an antenna in communication with the transceiver, the antenna configured to facilitate transmission of an amplified RF signal; and a power amplifier (PA) module connected to the transceiver, the PA module configured to generate the amplified RF signal, the PA module including a first amplification path having an output match network for a first RF signal in a first band, and a second amplification path having an output match network for a second RF signal in a second band, the PA module further including a power detector having a first coupler configured to detect power along the first amplification path, and a second coupler configured to detect power along the second amplification path, the first coupler and the second coupler implemented in a daisy-chain configuration, the PA module further including an adjustment circuit having an inductance implemented between the second output match network and the second coupler of the second path, the adjustment circuit configured to move a frequency response feature associated with the first amplification path and resulting at least in part from the second coupler, away from the first band. 19. The RF device of claim 18 wherein the RF device includes a wireless device.