Optical multiplexer and transmitter optical subassembly

What is claimed is: 1. An optical multiplexer, comprising: at least two levels of light-combining parts, wherein each level of light-combining parts comprises light combiners whose number is half the number of beams of input light of the each level, wherein each light combiner is configured to combine two beams of light into one beam, and wherein the optical multiplexer comprises at least two different types of light combiners; collimation lenses, wherein a number of the collimation lenses is the same as a number of light sources, and wherein each of the collimation lenses is disposed between a light source and a first level of light-combining parts; and a focusing lens disposed behind a light outlet of a last level of light-combining parts. 2. The optical multiplexer according to claim 1 , wherein one type of the at least two different types of light combiners comprises a polarization beam combiner (PBC) light combiner. 3. The optical multiplexer according to claim 2 , wherein the PBC light combiner comprises: a PBC configured to combine light input through a first light inlet and light input through a second light inlet into one beam, wherein the first light inlet directly faces first incident light of the PBC light combiner; a half wave plate whose optical axis is disposed at a 45-degree angle to a polarization direction of second incident light of the PBC light combiner, and a reflector configured to reflect light output by the half wave plate to the second light inlet of the PBC. 4. The optical multiplexer according to claim 2 , wherein another type of the at least two different types of light combiners comprises a light-splitting prism light combiner, and wherein the light-splitting prism light combiner comprises: a light-splitting prism configured to combine light input through a first light inlet and light input through a second light inlet into one beam, wherein the first light inlet directly faces first incident light of the light-splitting prism light combiner; a reflector configured to reflect second incident light of the light-splitting prism light combiner to the second light inlet of the light-splitting prism; and a beam absorber disposed on an opposite side of the second light inlet of the light-splitting prism and configured to absorb light obtained after the light input through the second light inlet is transmitted by the light-splitting prism and light obtained after the light input through the first light inlet is reflected by the light-splitting prism. 5. The optical multiplexer according to claim 4 , wherein the light-splitting prism is a 3 decibel (dB) light-splitting prism. 6. The optical multiplexer according to claim 1 , wherein light combiners in one level of light-combining parts are the same. 7. The optical multiplexer according to claim 1 , wherein the optical multiplexer further comprises at least one isolator disposed between two levels of light-combining parts and configured to isolate light that is reflected from a light output direction. 8. The optical multiplexer according to claim 7 , wherein the at least one isolator is a polarization-related isolator when a next level of light-combining parts comprises a PBC light combiner. 9. The optical multiplexer according to claim 1 , wherein one type of the at least two different types of light combiners comprises a light-splitting prism light combiner. 10. A transmitter optical subassembly, comprising: an optical multiplexer, wherein the optical multiplexer comprises: at least two levels of light-combining parts, wherein each level of light-combining parts comprises light combiners whose number is half the number of beams of input light of the each level, wherein each light combiner is configured to combine two beams of light into one beam, and wherein the optical multiplexer comprises at least two different types of light combiners; collimation lenses, wherein a number of the collimation lenses is the same as the number of light sources, each of the collimation lenses being disposed between a light source and a first level of light-combining parts; a focusing lens disposed behind a light outlet of a last level of light-combining parts; a laser chip that is used as a light source, wherein the laser chip is connected to an input end of the optical multiplexer; and a ceramic ferrule that is used for coupling output, wherein the ceramic ferrule is connected to an output end of the optical multiplexer. 11. The transmitter optical subassembly according to claim 10 , comprising a photoelectric detector connected to the laser chip and configured to monitor transmitted power of the laser chip. 12. The transmitter optical subassembly according to claim 10 , wherein one type of the at least two different types of light combiners is a polarization beam combiner (PBC) light combiner. 13. The transmitter optical subassembly according to claim 12 , wherein the PBC light combiner comprises: a PBC configured to combine light input through a first light inlet and light input through a second light inlet into one beam, wherein the first light inlet directly faces first incident light of the PBC light combiner, a half wave plate, whose optical axis is disposed at a 45-degree angle to a polarization direction of second incident light of the PBC light combiner; and a reflector configured to reflect light output by the half wave plate to the second light inlet of the PBC. 14. The transmitter optical subassembly according to claim 12 , wherein another type of the at least two different types of light combiners comprises a light-splitting prism light combiner, and wherein the light-splitting prism light combiner comprises: a light-splitting prism configured to combine light input through a first light inlet and light input through a second light inlet into one beam, wherein the first light inlet directly faces first incident light of the light-splitting prism light combiner; a reflector configured to reflect second incident light of the light-splitting prism light combiner to the second light inlet of the light-splitting prism; and a beam absorber disposed on an opposite side of the second light inlet of the light-splitting prism and configured to absorb light obtained after the light input through the second light inlet is transmitted by the light-splitting prism and light obtained after the light input through the first light inlet is reflected by the light-splitting prism. 15. The transmitter optical subassembly according to claim 14 , wherein the light-splitting prism is a 3 decibel (dB) light-splitting prism. 16. The transmitter optical subassembly according to claim 10 , wherein light combiners in one level of light-combining parts are the same. 17. The transmitter optical subassembly according to claim 10 , wherein the optical multiplexer further comprises at least one isolator disposed between two levels of light-combining parts and configured to isolate light that is reflected from a light output direction. 18. The transmitter optical subassembly according to claim 17 , wherein the at least one isolator is a polarization-related isolator when a next level of light-combining parts comprises a PBC light combiner. 19. The transmitter optical subassembly according to claim 10 , wherein one type of the at least two different types of light combiners comprises a light-splitting prism light combiner.