ION writing unit with heating

The invention claimed is: 1. An ion writing unit comprising: a housing including a chamber at least partially containing an ion generator; an electrode assembly including an array of electrode nozzles on one exposed exterior surface of the housing and aligned to receive and guide generated ions; and a heating mechanism to heat at least one of: the chamber; and at least a portion of the array of electrode nozzles, wherein the heating mechanism is separate from, and independent of, the ion generator. 2. The ion writing unit of claim 1 , wherein the chamber comprises a tube and the heating mechanism includes a heating element secured onto an outer surface of the tube. 3. The ion writing unit of claim 2 , wherein the housing comprises a wall at least partially enclosing the tube and spaced apart from the tube. 4. The ion writing unit of claim 3 , wherein the ion generator comprises: a corona wire spaced apart from a wall of the tube and aligned with the electrode nozzles to generate ions for passage through the electrode nozzles. 5. The ion writing unit of claim 1 , wherein the array of electrode nozzles is formed by a first layer of ring electrodes of the electrode assembly, the electrode assembly also including a second electrode layer having holes aligned with the ring electrodes and a dielectric layer sandwiched between the respective first and second layers. 6. The ion writing unit of claim 5 , wherein the heating mechanism includes at least one of: a heating element defining at least one of a portion of the second electrode; and a heating element attached to the first layer of ring electrodes. 7. The ion writing unit of claim 1 , wherein ion generator includes a corona wire, wherein the heating mechanism is implemented to exclude application of heat to the chamber, and the ion writing unit further comprises: an air flow source coupled to the ion writing unit to cause air flow at least adjacent the corona wire. 8. The ion writing unit of claim 1 , wherein the writing unit forms part of a system comprising: a media support to releasably support the passive e-paper at a fixable distance relative to the electrode nozzles, wherein the media support and the ion writing unit are capable of controlled movement relative to each other at least during a writing operation on the passive e-paper. 9. An e-paper writing unit comprising: a housing including a shell containing a tube spaced apart from a wall of the shell, the tube at least partially enclosing a corona wire to generate an ion flow; a first layer of selectively activatable ring electrodes on one exposed exterior surface of the housing and aligned with the corona wire to receive and direct the positive ion flow; and a heating element coupled to at least one of the tube and the first layer of ring electrodes. 10. The e-paper writing unit of claim 9 , wherein the heating element extends about at least a partial circumference of an outer surface of the tube. 11. The e-paper writing unit of claim 9 , wherein the heating element is secured onto the first layer of ring electrodes. 12. The e-paper writing unit of claim 9 , wherein the first layer of ring electrodes forms part of an electrode assembly including a second layer of continuous electrode material having holes aligned with the ring electrodes and a dielectric layer sandwiched between the respective first and second layers, wherein the heating element forms part of the second layer. 13. A method of manufacturing comprising: providing an ion generator including housing having a chamber that at least partially encloses a corona wire; arranging an array of ring electrodes to be exposed on an exterior surface of the housing and aligned to receive and guide ions generated by the corona wire toward a passive e-paper external of the housing; arranging a heating mechanism to heat at least one of the chamber and the ring electrodes; arranging a biasing mechanism to be releasably couplable to, and electrically bias, the passive e-paper; and coupling a controller to the heating mechanism to cause heating at least when the biasing mechanism is active. 14. The method of claim 13 , comprising at least one of: arranging the chamber as a tube, and wherein coupling the heating element includes securing the heating element onto an outer surface of the tube, and arranging the housing as a shell that at least partially encloses the tube while being spaced apart from the tube; and arranging the array of ring electrodes to be a first electrode layer of an electrode assembly, which includes a second electrode layer having holes aligned with the respective ring electrodes and a dielectric layer sandwiched between the respective first and second layers, wherein coupling the heating element comprises at least one of connecting the heating element to the first electrode layer and forming the heating element as at least a portion of the second electrode layer. 15. The method of claim 13 , comprising: positioning the heating mechanism adjacent at least one of the chamber and the array of ring electrodes; and providing the heating mechanism as at least one of a radiation heat source and a convective heat source.