Couplers for communications systems

That which is claimed is: 1. A microstrip coupler, comprising: a main conductive line comprising a first main section and a second main section; a first auxiliary conductive line comprising a first auxiliary section and a first end portion, wherein the first auxiliary section is adjacent and spaced apart from the first main section and is configured to couple with the main conductive line to generate a first coupled signal; a second auxiliary conductive line comprising a second auxiliary section and a second end portion, wherein the second auxiliary section is adjacent and spaced apart from the second main section and is configured to couple with the main conductive line to generate a second coupled signal; a transmission module comprising a first inlet, a second inlet and an outlet, wherein the first inlet is coupled to the first end portion, the second inlet is coupled to the second end portion, and the transmission module is configured to combine the first coupled signal from the first end portion and the second coupled signal from the second end portion into an output signal of the microstrip coupler and to pass the output signal to the outlet; and a coupled port coupled to the outlet and used for outputting the output signal. 2. The microstrip coupler according to claim 1 , wherein the first main section and the second main section do not include an overlapping part, and the first auxiliary conductive line is not directly connected to the second auxiliary conductive line. 3. The microstrip coupler according to claim 1 , wherein the transmission module further comprises: a combining node; a first transmission line coupled between the first inlet and the combining node; a second transmission line coupled between the second inlet and the combining node; and a third transmission line coupled between the combining node and the outlet. 4. The microstrip coupler according to claim 3 , wherein a length of at least one of the first transmission line and the second transmission line is configured such that at the combining node the first coupled signal and the second coupled signal have the same phase. 5. The microstrip coupler according to claim 3 , wherein the length of the third transmission line is λ/4, and λ is the wavelength corresponding to the center frequency of a signal propagating in the third transmission line. 6. The microstrip coupler according to claim 1 , wherein the first auxiliary conductive line and the second auxiliary conductive line are arranged such that the first end portion and the second end portion are located adjacent the transmission module. 7. The microstrip coupler according to claim 1 , wherein, the main conductive line further comprises a third main section; the microstrip coupler further comprises a third auxiliary conductive line, the third auxiliary conductive line comprises a third auxiliary section and a third end portion, the third auxiliary section is adjacent and spaced apart from the third main section and is configured to couple with the main conductive line to generate a third coupled signal; and the transmission module further comprises a third inlet, the third inlet is coupled to the third end portion, and the transmission module is further configured to combine the first, second and third signals from the first, second and third end portions respectively into the output signal and to pass the output signal to the outlet. 8. The microstrip coupler according to claim 7 , wherein the first, second and third auxiliary conductive lines are arranged around the transmission module. 9. The microstrip coupler according to claim 7 , wherein, the main conductive line further comprises a fourth main section; the microstrip coupler further comprises a fourth auxiliary conductive line, the fourth auxiliary conductive line comprises a fourth auxiliary section and a fourth end portion, the fourth auxiliary section is adjacent and spaced apart from the fourth main section and is configured to couple with the main conductive line to generate a fourth coupled signal; and the transmission module further comprises a fourth inlet, the fourth inlet is coupled to the fourth end portion and the transmission module is further configured to combine the first, second, third and fourth signals from the first, second, third and fourth end portions respectively into the output signal and to pass the output signal to the outlet. 10. The microstrip coupler according to claim 9 , wherein the first, second, third and fourth auxiliary conductive lines are arranged around the transmission module. 11. A coupler, comprising: an input port; an output port; a combining node; a coupled port that is coupled to the combining node; a main transmission line that couples the input port to the output port; a first coupling element that is configured to pass a first coupled signal to the combining node, the first coupled signal comprising a first portion of a signal that is input to the main transmission line at the input port that is coupled from the main transmission line by the first coupling element; a second coupling element that is configured to pass a second coupled signal to the combining node, the second coupled signal comprising a second portion of the signal that is input to the main transmission line at the input port that is coupled from the main transmission line by the second coupling element; wherein the first coupling element is spaced apart from the second coupling element. 12. The coupler according to claim 11 , wherein the coupler is configured to constructively combine the first coupled signal and the second coupled signal at the combining node to provide a combined signal, and to pass the combined signal to the coupled port. 13. The coupler according to claim 12 , wherein a magnitude of the combined signal is at least 80% of the sum of the magnitude of the first coupled signal and the magnitude of the second coupled signal. 14. The coupler according to claim 11 , wherein the first coupling element is further configured to pass a first coupled reflected signal to the combining node, the first coupled reflected signal comprising a first portion of a reflected signal that is input to the main transmission line at the output port that is coupled from the main transmission line by the first coupling element, and the second coupling element is further configured to pass a second coupled reflected signal to the combining node, the second coupled reflected signal comprising a second portion of the reflected signal that is input to the main transmission line at the output port that is coupled from the main transmission line by the second coupling element. 15. The coupler according to claim 14 , wherein the coupler is configured so that the first coupled reflected signal and the second coupled reflected signal are substantially cancelled at the combining node. 16. The coupler according to claim 14 , wherein a magnitude of the combination of the first coupled reflected signal and the second coupled reflected signal at the coupled port is less than 20% of the sum of the magnitude of the first coupled reflected signal and the magnitude of the second coupled reflected signal. 17. The coupler according to claim 11 , wherein the coupler comprises a microstrip coupler or a stripline coupler. 18. The coupler according to claim 11 , further comprising: a first transmission line that couples the first coupling element to the combining node; a second transmission line that couples the second coupling element to the combining node; and