Circulator distortion cancellation subsystem

What is claimed is: 1. A telecommunications system, comprising: a circulator device coupled between an antenna, a transmit path, and a receive path; directional couplers coupled to a signal path between the circulator device and the antenna, wherein the directional couplers are configured to generate samples of a transmit signal; a correction circuit coupled to the directional couplers, wherein the correction circuit is configured to correct imperfections in the samples due to finite directivity of the directional couplers and output a corrected transmit signal; and a cancellation circuit coupled to the correction circuit and the receive path, the cancellation circuit configured to: generate an output signal using the corrected transmit signal; and combine the output signal with a receive signal in the receive path to reduce distortion of the receive signal by transmit signal components. 2. The telecommunications system of claim 1 , wherein the cancellation circuit includes: an adaptive filter coupled to the correction circuit, wherein the adaptive filter is configured to generate the output signal by adjusting a level and a phase of the corrected transmit signal; and a summer device in the receive path, wherein the summer device is configured to combine the output signal with the receive signal to reduce distortion of the receive signal by the transmit signal. 3. The telecommunications system of claim 1 , wherein the correction circuit includes: a processing device; a database device including calibration information usable by the processing device to correct the imperfections in the samples; an adaptive filter coupled to the processing device and a first directional coupler; and a summer device coupled to the adaptive filter and a second directional coupler of the directional couplers, wherein the summer device is configured to combine a sample receive from the second directional coupler with a signal from the adaptive filter to generate the corrected transmit signal. 4. The telecommunications system of claim 1 , wherein the correction circuit is coupled to the directional couplers by corresponding receiver devices, the corresponding receiver devices being positioned between the directional couplers and the correction circuit, wherein the corresponding receiver devices are configured to receive the samples from the directional couplers. 5. The telecommunications system of claim 4 , wherein the corresponding receiver devices include digital receivers having analog-to-digital converters configured to digitize the samples. 6. The telecommunications system of claim 1 , further including a receiver device positioned in the receive path between the circulator device and the cancellation circuit, wherein the receiver device is configured to receive the receive signal. 7. The telecommunications system of claim 1 , wherein the circulator device is positioned in a remote unit of the telecommunications system. 8. The telecommunications system of claim 1 , wherein the circulator device is coupled between the transmit path and the antenna to transfer power from the transmit path to the antenna and between the antenna and the receive path to transfer power between the antenna and the receive path. 9. A distortion cancellation subsystem for a telecommunications system, comprising: a correction circuit couplable to directional couplers, wherein the correction circuit is configured to receive samples of a transmit signal from the directional couplers, wherein the correction circuit is configured to correct imperfections in the samples caused by finite directivity of the directional couplers and output a corrected transmit signal; and a cancellation circuit couplable to the correction circuit and a receive path, the cancellation circuit configured to: generate an output signal using the corrected transmit signal; combine the output signal with a receive signal to reduce distortion of the receive signal by transmit signal components. 10. The distortion cancellation subsystem of claim 9 , wherein the cancellation circuit includes: an adaptive filter coupled to the correction circuit, wherein the adaptive filter is configured to generate the output signal by adjusting a level and a phase of the corrected transmit signal; and a summer device in the receive path, wherein the summer device is configured to combine the output signal with the receive signal to reduce distortion of the receive signal by the transmit signal. 11. The distortion cancellation subsystem of claim 10 , wherein the cancellation circuit further includes an adaptation circuit couplable to the summer device and the adaptive filter, wherein the adaptation circuit is configured to correct error in the adaptive filter based on an output of the summer device. 12. The distortion cancellation subsystem of claim 9 , wherein the correction circuit includes: a processing device couplable to the directional couplers, the processing device configured to receive the samples of the transmit signal; a database device including calibration information usable by the processing device to correct the imperfections in the samples; an adaptive filter coupled to the processing device and couplable to a first directional coupler of the direction couplers, wherein the adaptive filter is configured to receive a first sample of the transmit signal and apply a transfer function to the first sample to generate a correction signal; a summer device coupled to the adaptive filter and a second directional coupler of the directional couplers, wherein the summer device is configured to receive a second sample of the transmit signal and combine the correction signal with the second sample to generate the corrected transmit signal. 13. The distortion cancellation subsystem of claim 9 , wherein the correction circuit is couplable to the directional couplers via corresponding receiver devices, the corresponding receiver devices being positioned between the directional couplers and the correction circuit, wherein the corresponding receiver devices are configured to receive the samples from the directional couplers. 14. The distortion cancellation subsystem of claim 13 , wherein the corresponding receiver devices include digital receivers having analog-to-digital converters configured to digitize the samples. 15. The distortion cancellation subsystem of claim 9 , wherein the correction circuit and the cancellation circuit are positionable in a remote unit of the telecommunications system. 16. A method, comprising: receiving, from directional couplers between a circulator device and an antenna, samples of a transmit signal; receiving, from the circulator device, a receive signal traversing a receive path; generating, by a correction circuit, a corrected transmit signal by correcting imperfections in the samples due to finite directivity of the directional couplers; generating, by a cancellation circuit, an output signal by adjusting a level and a phase of the corrected transmit signal; and combining, via the cancellation circuit, the receive signal and the output signal to reduce a distortion of the receive signal by the transmit signal. 17. The method of claim 16 , wherein the corrected transmit signal includes no receive signal components. 18. The method of claim 16 , further comprising adjusting, via an adaptation circuit, an error of an adaptive filter to reduce a contribution of transmit signal components to an output of a summer device, wherein the adaptation circuit is positioned in a signal path between the