Flow-through printhead with bypass manifold

What is claimed is: 1. A printhead comprising: a plurality of flow-through jetting channels configured to jet a print fluid, wherein each of the jetting channels includes a pressure chamber, a nozzle at a first end of the pressure chamber, a diaphragm at a second end of the pressure chamber opposite the first end, and an actuator that contacts the diaphragm; a supply manifold disposed within the printhead that is fluidly coupled to the jetting channels; a return manifold disposed within the printhead that is fluidly coupled to the jetting channels; and at least one bypass manifold disposed between the supply manifold and the return manifold that fluidly couples the supply manifold and the return manifold separately from the jetting channels. 2. The printhead of claim 1 wherein: the supply manifold includes longitudinal sections disposed longitudinally along a length of the printhead and fluidly coupled to the jetting channels via first fluid paths, and includes transverse sections disposed transversely in the printhead; the return manifold includes longitudinal sections disposed longitudinally along the length of the printhead and fluidly coupled to the jetting channels via second fluid paths, and includes transverse sections disposed transversely in the printhead; and the at least one bypass manifold is disposed between a transverse section of the supply manifold and a transverse section of the return manifold. 3. The printhead of claim 2 wherein: the at least one bypass manifold is disposed longitudinally within the printhead between the transverse section of the supply manifold and the transverse section of the return manifold. 4. The printhead of claim 2 wherein: the supply manifold comprises a loop within the printhead that includes the longitudinal sections and the transverse sections of the supply manifold. 5. The printhead of claim 1 wherein: the supply manifold is directly coupled to pressure chambers of the jetting channels through first restrictors; and the return manifold is directly coupled to the pressure chambers of the jetting channels through second restrictors. 6. The printhead of claim 5 wherein: the supply manifold is disposed between a first Input/Output (I/O) port of the printhead, and the first restrictors; and the return manifold is disposed between a second I/O port of the printhead, and the second restrictors. 7. The printhead of claim 1 wherein: a fluid resistance of the at least one bypass manifold is greater than a fluid resistance of the jetting channels. 8. A jetting apparatus comprising: the printhead of claim 1 ; and a controller configured to control the printhead to jet the print fluid. 9. A printhead comprising: a plurality of flow-through jetting channels configured to jet a print fluid that are arranged in one or more rows along a length of the printhead, wherein each of the jetting channels includes a pressure chamber, a nozzle at a first end of the pressure chamber, a diaphragm at a second end of the pressure chamber opposite the first end, and an actuator that contacts the diaphragm; a supply manifold within the printhead disposed between a first Input/Output (I/O) port and the jetting channels, wherein major sections of the supply manifold are disposed longitudinally within the printhead and are fluidly coupled to the jetting channels through first restrictors; a return manifold within the printhead disposed between a second I/O port and the jetting channels, wherein major sections of the return manifold are disposed longitudinally within the printhead and are fluidly coupled to the jetting channels through second restrictors; and at least one bypass manifold disposed between the supply manifold and the return manifold that fluidly couples the supply manifold and the return manifold in addition to the jetting channels. 10. The printhead of claim 9 wherein: the supply manifold includes the major sections disposed longitudinally, and transverse sections disposed transversely in the printhead; the return manifold includes the major sections disposed longitudinally, and transverse sections disposed transversely in the printhead; and the at least one bypass manifold is disposed between a transverse section of the supply manifold and a transverse section of the return manifold. 11. The printhead of claim 10 wherein: the at least one bypass manifold is disposed longitudinally within the printhead between the transverse section of the supply manifold and the transverse section of the return manifold. 12. The printhead of claim 10 wherein: the supply manifold comprises a loop within the printhead that includes the major sections and the transverse sections of the supply manifold. 13. The printhead of claim 9 wherein: a fluid resistance of the at least one bypass manifold is greater than a fluid resistance of the jetting channels. 14. A jetting apparatus comprising: the printhead of claim 9 ; and a controller configured to control the printhead to jet the print fluid. 15. A jetting apparatus comprising: at least one printhead configured to jet droplets onto a medium; and a controller configured to control the at least one printhead; wherein the at least one printhead includes: a plurality of flow-through jetting channels arranged in one or more rows along a length of the at least one printhead, wherein each of the jetting channels includes a pressure chamber, a nozzle at a first end of the pressure chamber, a diaphragm at a second end of the pressure chamber opposite the first end, and an actuator that contacts the diaphragm; a supply manifold within the at least one printhead disposed between a first Input/Output (I/O) port and the jetting channels, wherein major sections of the supply manifold are disposed longitudinally within the at least one printhead and are fluidly coupled to the jetting channels through first restrictors; a return manifold within the at least one printhead disposed between a second I/O port and the jetting channels, wherein major sections of the return manifold are disposed longitudinally within the at least one printhead and are fluidly coupled to the jetting channels through second restrictors; and at least one bypass manifold disposed between the supply manifold and the return manifold that fluidly couples the supply manifold and the return manifold in addition to the jetting channels. 16. The jetting apparatus of claim 15 wherein: the supply manifold includes the major sections disposed longitudinally, and transverse sections disposed transversely in the printhead; the return manifold includes the major sections disposed longitudinally, and transverse sections disposed transversely in the printhead; and the at least one bypass manifold is disposed between a transverse section of the supply manifold and a transverse section of the return manifold. 17. The jetting apparatus of claim 16 wherein: the at least one bypass manifold is disposed longitudinally within the printhead between the transverse section of the supply manifold and the transverse section of the return manifold. 18. The jetting apparatus of claim 16 wherein: the supply manifold comprises a loop within the printhead that includes the major sections and the transverse sections of the supply manifold. 19. The jetting apparatus of claim 15 wherein: a fluid resistance of the at least one bypass manifold is greater than a fluid resistance of the jetting channels. 20. The jetting apparatus of claim 15 wherein: the