Ion writing unit with rate control

The invention claimed is: 1. An ion writing unit comprising: a housing at least partially containing an ion generator; and an array of electrode nozzles on one exposed exterior surface of the housing and aligned to receive and guide generated ions, wherein the ion writing unit convertibly operates between at least: a first mode in which ions flow from the ion generator through selected nozzles at a first flow rate to cause image formation on an electrically biased passive e-paper spaced apart from the electrode nozzles; and a second mode in which ions flow from the ion generator through at least some electrode nozzles at a second flow rate that does not cause image formation on the electrically biased passive e-paper, wherein the second mode is automatically engaged when the first mode is inactive. 2. The ion writing unit of claim 1 , wherein the second flow rate is at least one order of magnitude less than the first flow rate. 3. The ion writing unit of claim 1 , a controller to control operation of the ion generator between at least the respective first and second modes. 4. The ion writing unit of claim 1 , wherein convertible operation of the ion writing unit includes a third mode in which no ions flow and the e-paper is not electrically biased, wherein the third mode becomes engaged when both the first and second modes are inactive. 5. The ion writing unit of claim 1 , wherein ion generator comprises: a housing including a hollow chamber at least partially enclosing a corona wire, wherein the corona wire is aligned with the electrode nozzles to generate ions for passage through the electrode nozzles. 6. The ion writing unit of claim 1 , wherein the array of electrode nozzles is spaced apart from the corona wire, and wherein the array of electrode nozzles comprises a first layer of an electrode assembly, the electrode assembly further including a second electrode layer with a dielectric layer sandwiched between the respective first and second layers. 7. 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 holes, 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. 8. An e-paper writing unit comprising: a housing having a chamber that encloses a corona wire to generate an ion flow; and an array of selectively activatable electrode nozzles on one exposed exterior surface of the housing and aligned to receive and direct the ion flow, wherein the ion writing unit causes the electrode nozzles to operate in one of: a first state to permit ion flow at a first flow rate to cause image formation on an electrically biased passive e-paper spaced apart from the electrode nozzles; and a second state to permit ion flow at a second flow rate, lower than the first flow rate, that does not cause image formation on the passive e-paper, wherein selectively activated electrode holes operate in the first state and the ion writing unit automatically causes at least some non-activated electrode nozzles to operate in the second state. 9. The e-paper writing unit of claim 8 , comprising: a biasing mechanism for electrical coupling to the passive e-paper, wherein the electrode nozzles operate in the first and second states while the biasing mechanism is active. 10. The e-paper writing unit of claim 8 , wherein, when the biasing mechanism is inactive, the writing unit causes the electrode nozzles to operate in a third state in which there is no ion flow. 11. The e-paper writing unit of claim 8 , wherein the second flow rate is one order of magnitude less than the first flow rate. 12. 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 electrode nozzles 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 biasing mechanism to electrically bias the passive e-paper; coupling a controller to the ion generator to cause, when the biasing mechanism is active, at least a first flow rate of ion flow when the biasing mechanism is active wherein the first flow rate is at least one order of magnitude less than a writing flow rate of ion flow used for image formation on the passive e-paper; and arranging the controller to automatically cause the ion generator to produce the first flow rate when the second flow rate is not applied. 13. The method of claim 12 , comprising: arranging the controller to terminate ion flow when the biasing mechanism is inactive. 14. The method of claim 12 , comprising: arranging a media support to releasably support the passive e-paper at a fixed distance relative to the respective electrode nozzles, wherein the media support and the ion generator are capable of movement relative to each other at least during a writing operation. 15. The method of claim 12 , comprising: arranging the array of electrode nozzles to be a first layer of an electrode assembly, which also includes a second solid electrode layer and a dielectric layer sandwiched between the respective first and second layers.