Printhead dies molded with nozzle health sensor

What is claimed is: 1. A printhead, comprising: a printhead die molded into a molding, the die having a front surface exposed outside the molding to dispense fluid drops through nozzles and an opposing back surface covered by the molding except at a channel in the molding through which fluid may pass directly to the back surface; a nozzle health sensor molded into the molding to detect defective nozzles in the printhead die, wherein the molding comprises a first monolithic body of moldable material in which the printhead die is embedded. 2. A printhead as in claim 1 , wherein the nozzle health sensor comprises: an illumination array molded into a first side of the molding; a detection array molded into a second side of the molding to sense light emitted by the illumination array; and optical components to direct light emitted by the illumination array across the front surface of the die to the detection array. 3. A printhead as in claim 2 , wherein the optical components comprise: an optical component associated with the illumination array; and an optical component associated with the detection array. 4. A printhead as in claim 2 , wherein the detection array comprises imaging sensors selected from the group consisting of charge coupled devices (COD's), complementary metal oxide semiconductor (CMOS) devices, a photomultiplier tube (PMT), a contact image sensor (CIS), and photodiodes. 5. A printhead as in claim 2 , wherein the illumination array comprises an array of light emitting diodes. 6. A printhead as in claim 2 , wherein the optical component is selected from the group consisting of mirrors, lenses, and combinations thereof. 7. A printhead as in claim 1 , wherein the nozzle health sensor comprises a scanner to illuminate a media page onto which the fluid drops have been dispensed and to sense light reflected off the media page to determine where fluid drops dots are missing. 8. A printhead as in claim 7 , wherein the scanner comprises: a photosensitive element to receive light reflected off the media page and convert the light into electronic signals to enable formation of a digital image; and an optical component to direct the light reflected off the media page to the photosensitive element. 9. A printhead as in claim 8 , wherein the photosensitive element is selected from the group consisting of charge coupled devices (CCD's), complementary metal oxide semiconductor (CMOS) devices, a photomultiplier tube (PMT), a contact image sensor (CIS), and photodiodes. 10. A printhead as in claim 1 , wherein the printhead die comprises: a silicon substrate; a fluidics layer formed on the substrate having fluid ejection chambers, each chamber associated with a nozzle; and fluid feed holes in the substrate to enable fluid to pass from the channel through the substrate into the chambers. 11. A printhead as in claim 2 , wherein the molding comprises a second molding on the monolithic body of moldable material in which the optical components are embedded. 12. A printhead as in claim 2 , wherein the optical components adhered with an adhesive material to the molding. 13. A printhead as in claim 2 , wherein the printhead further comprising attachment fixtures to which the optical components are affixed, the attachment fixtures being molded into the first monolithic body of moldable material along with the printhead die. 14. A print bar, comprising: multiple printhead dies embedded in a molding, the dies arranged generally end to end along a length of the molding in a staggered configuration in which one or more of the dies overlaps an adjacent one or more of the dies; a nozzle health sensor molded into the molding to determine an absence of fluid drops expected to be ejected from the printhead dies, and wherein the molding is a monolithic body of moldable material. 15. A print bar as in claim 14 , wherein the nozzle health sensor comprises: an illumination array embedded in the molding along one side of the length of the molding; and a detection array embedded in the molding along another side of the length of the molding, such that the multiple printhead dies are disposed between the illumination array and the detection array. 16. A print bar as in claim 14 ; wherein the nozzle health sensor comprises a scanner embedded along the length of the molding at a first side of the molding; and the multiple printhead dies are disposed between the scanner and a second side of the molding opposite the first side. 17. A print bar as in claim 11 , wherein the molding comprises a separate fluid channel for each printhead die. 18. A print cartridge comprising: a housing to contain a printing fluid; and a printhead comprising: a molding that is a monolithic body of moldable material; a printhead die embedded in the molding with a back surface covered by the molding and an exposed front surface having nozzles therein to eject fluid drops, the molding mounted to the housing and having a channel through which fluid may pass to the back surface of the die; and a nozzle health sensor molded into the molding to detect defective nozzles in the printhead die. 19. A print cartridge as in claim 18 , wherein: the printhead die comprises multiple printhead dies arranged parallel to one another laterally across the molding along a bottom part of the housing; and the channel comprises multiple elongated channels each positioned at the back surface of a corresponding one of the printhead dies. 20. A cartridge as in claim 18 , wherein the printhead includes multiple printhead dies arranged generally end to end along the molding in a staggered configuration in which one or more of the dies overlaps an adjacent one or more of the dies.