Claims
- 1. An ink jet firing system, comprising:a plurality of firing cells comprised of a plurality of heater resistors, a plurality of dynamic memory circuits having respective dynamic memory elements for storing energizing data and associated with respective ones of said heater resistors, and a plurality of energy switching circuits for enabling transfer of energy to associated ones of said plurality of heater resistors as a function of a state of energizing data stored in associated ones of said plurality of dynamic memory circuits, wherein each of said plurality of dynamic memory circuits stores energizing data solely for an associated heater resistor; a control circuit for providing energizing data to said plurality of dynamic memory circuits and for selectively enabling said dynamic memory circuits to store said energizing data; and an energy supply circuit for selectively transferring energy to said heater resistors as enabled by said energy switching circuits.
- 2. The ink jet firing system of claim 1 wherein:said plurality of firing cells are arranged in a sequence of fire groups of firing cells; said energy supply circuit transfers energy to heater resistors within each fire group during fire time intervals respectively associated with said fire groups.
- 3. An ink jet firing system, comprising:a plurality of firing cells comprised of a plurality of heater resistors, a plurality of dynamic capacitive memory elements for storing energizing data and associated with respective ones of said heater resistors, a plurality of precharge circuits for controllably precharging respective ones of said plurality of dynamic capacitive memory elements, a plurality of discharge circuits for controllably discharging respective ones of said plurality of dynamic capacitive memory elements, and a plurality of energy switching circuits for enabling transfer of energizing energy to associated ones of said plurality of heater resistors as a function of a state of energizing data stored in associated ones of said plurality of dynamic capacitive memory elements, wherein each of said plurality of dynamic capacitive memory elements stores energizing data solely for an associated heater resistor, and wherein energizing data is represented by whether a dynamic capacitive memory element is charged or discharged; a control circuit for providing energizing data to said plurality of dynamic capacitive memory elements and enabling storage of said energizing data on said dynamic capacitive memory elements by selectively controlling said precharge circuits and said discharge circuits; and an energy supply circuit for selectively transferring energy to said heater resistors as enabled by said energy switching circuits.
- 4. The ink jet firing system of claim 3 wherein:said plurality of firing cells are arranged in a sequence of firing groups of firing cells, each firing group having a plurality of subgroups of firing cells; said control circuit provides energizing data to all of said plurality of dynamic capacitive memory elements during data storage time intervals; and said energy supply circuit transfers energy to heater resistors within each fire group during respective fire time intervals respectively associated with said fire groups, wherein a fire time interval for a fire group starts after energizing data is valid in dynamic capacitive memory elements of a fire subgroup of such fire group, and wherein said respective fire time intervals are staggered in time.
- 5. The ink firing system of claim 4 wherein a data storage time interval for one of said fire subgroups is within a fire time interval for a different fire group.
- 6. The ink firing system of claim 4 wherein said respective fire time intervals are overlapped in time.
- 7. The ink jet firing system of claim 3 wherein:said plurality of ink firing cells are arranged in a sequence of firing groups of ink firing cells; said control circuit successively enables one fire group at a time to precharge capacitive memory elements of said one fire group during a precharge time interval and then discharge selected ones of said capacitive memory elements of said one fire group during a discharge time interval, wherein a discharge time interval for a fire group follows a precharge time interval for such fire group; and said energy supply circuit transfers energy to heater resistors within each fire group during fire time intervals respectively associated with said fire groups, wherein a fire time interval for a fire group follows a discharge time interval for such group.
- 8. The ink firing system of claim 7 wherein a discharged time interval for a fire group is concurrent with a precharge time interval for a next fire group to be enabled to precharge capacitive memory elements thereof.
- 9. The ink firing system of claim 7 wherein a fire time interval for one of side fire groups overlaps a fire time interval for a different fire group.
- 10. The ink firing system of claim 7 wherein a fire time interval for a fire group overlaps a discharge time interval for such fire group.
- 11. An ink jet firing system, comprising:a plurality of firing cells comprised of a plurality of heater resistors, a plurality of dynamic memory circuits having respective dynamic memory elements for storing energizing data and associated with respective ones of said heater resistors, and a plurality of energy switching circuits for enabling transfer of energy to associated ones of said plurality of heater resistors as a function of a state of energizing data stored in associated ones of said plurality of dynamic memory circuits, wherein each of said plurality of dynamic memory circuits stores energizing data solely for an associated heater resistor; said plurality of firing cells arranged in a sequence of fire groups of firing cells, each fire group having a plurality of fire subgroups of firing cells; a control circuit for providing energizing data to said plurality of dynamic memory circuits and for selectively enabling said dynamic memory circuits to store said energizing data; said control circuit successively enabling dynamic memory circuits from one fire subgroup at a time, one fire subgroup from each fire group in succession, to store energizing data during data storage time intervals that are associated with respective fire subgroups; an energy supply circuit for selectively transferring energy to said heater resistors as enabled by said energy switching circuits; and said energy supply circuit transfering energy to heater resistors within each fire group during fire time intervals respectively associated with said fire groups, wherein a fire time interval for each of said fire groups starts after energizing data is valid in dynamic memory elements of one of said fire subgroups of such fire group.
- 12. The ink jet firing system of claim 11 wherein a data storage time interval for one of said fire subgroups is within a fire time interval for a different fire group.
- 13. The ink jet firing system of claim 11 wherein said respective fire time intervals are staggered and overlapping.
- 14. An ink jet firing system, comprising:a plurality of firing cells comprised of a plurality of heater resistors, a plurality of dynamic memory circuits having respective dynamic memory elements for storing energizing data and associated with respective ones of said heater resistors, and a plurality of energy switching circuits for enabling transfer of energy to associated ones of said plurality of heater resistors as a function of a state of energizing data stored in associated ones of said plurality of dynamic memory circuits, wherein each of said plurality of dynamic memory circuits stores energizing data solely for an associated heater resistor; said plurality of firing cells arranged in a sequence of fire groups of firing cells; a control circuit for providing energizing data to said plurality of dynamic memory circuits and for selectively enabling said dynamic memory circuits to store said energizing data; an energy supply circuit for selectively transferring energy to said heater resistors as enabled by said energy switching circuits; said energy supply circuit transfering energy to heater resistors within each fire group during fire time intervals respectively associated with said fire groups; and said respective fire time intervals being staggered and overlapping.
- 15. An ink jet firing system, comprising:a plurality of firing cells comprised of a plurality of heater resistors, a plurality of dynamic memory circuits having respective dynamic memory elements that store energizing data and associated with respective ones of said heater resistors, and a plurality of energy switching circuits that enable transfer of energy to associated ones of said plurality of heater resistors as a function of a state of energizing data stored in associated ones of said plurality of dynamic memory circuits, wherein each of said plurality of dynamic memory circuits stores energizing data solely for an associated heater resistor; a control circuit that provides energizing data to said plurality of dynamic memory circuits and selectively enables said dynamic memory circuits to store said energizing data; and an energy supply circuit selectively transfers energy to said heater resistors as enabled by said energy switching circuits.
- 16. The ink jet firing system of claim 15 wherein:said plurality of firing cells are arranged in a sequence of fire groups of firing cells, each fire group having a plurality of subgroups of firing cells; said control circuit successively enables dynamic memory circuits from one fire subgroup at a time, one fire subgroup from each fire group in succession, to store energizing data during data storage time intervals that are associated with respective fire subgroups; said energy supply circuit transfers energy to heater resistors within each fire group during fire time intervals respectively associated with said fire groups, wherein a fire time interval for a fire group starts after energizing data is valid in dynamic memory elements of a fire subgroup of such fire group.
- 17. The ink jet firing system of claim 16 wherein a data storage time interval for one of said fire subgroups is within a fire time interval for a different fire group.
- 18. The ink jet firing system of claim 16 wherein said respective fire time intervals are staggered and overlapping.
- 19. The ink jet firing system of claim 15 wherein:said plurality of firing cells are arranged in a sequence of fire groups of firing cells; and said energy supply circuit transfers energy to heater resistors within each fire group during fire time intervals respectively associated with said fire groups.
- 20. The ink jet firing system of claim 19 wherein said respective fire time intervals are staggered and overlapping.
- 21. An ink jet firing system, comprising:a plurality of firing cells comprised of a plurality of heater resistors, a plurality of dynamic capacitive memory elements that store energizing data and are associated with respective ones of said heater resistors, a plurality of precharge circuits that controllably precharges respective ones of said plurality of dynamic capacitive memory elements, a plurality of discharge circuits that controllably discharge respective ones of said plurality of dynamic capacitive memory elements, and a plurality of energy switching circuits that enable transfer of energizing energy to associated ones of said plurality of heater resistors as a function of a state of energizing data stored in associated ones of said plurality of dynamic capacitive memory elements, wherein each of said plurality of dynamic capacitive memory elements stores energizing data solely for an associated heater resistor, and wherein energizing data is represented by whether a dynamic capacitive memory element is charged or discharged; a control circuit that provides energizing data to said plurality of dynamic capacitive memory elements and enables storage of said energizing data on said dynamic capacitive memory elements by selectively controlling said precharge circuits and said discharge circuits; and an energy supply circuit that selectively transfers energy to said heater resistors as enabled by said energy switching circuits.
- 22. The ink jet firing system of claim 21 wherein:said plurality of firing cells are arranged in a sequence of firing groups of firing cells, each firing group having a plurality of subgroups of firing cells; said control circuit provides energizing data to all of said plurality of dynamic capacitive memory elements during data storage time intervals; and said energy supply circuit transfers energy to heater resistors within each fire group during respective fire time intervals respectively associated with said fire groups, wherein a fire time interval for a fire group starts after energizing data is valid in dynamic capacitive memory elements of a fire subgroup of such fire group, and wherein said respective fire time intervals are staggered in time.
- 23. The ink firing system of claim 22 therein a data storage time interval for one of said fire subgroups is within a fire time interval for a different fire group.
- 24. The ink firing system of claim 22 wherein said respective fire time intervals are overlapped in time.
- 25. The ink jet firing system of claim 21 wherein:said plurality of ink firing cells are arranged in a sequence of firing groups of ink firing cells; said control circuit successively enables one fire group at a time to precharge capacitive memory elements of said one fire group during a precharge time interval and then discharge selected ones of said capacitive memory elements of said one fire group during a discharge time interval, wherein a discharge time interval for a fire group follows a precharge time interval for such fire group; and said energy supply circuit transfers energy to heater resistors within each fire group during fire time intervals respectively associated with said fire groups, wherein a fire time interval for a fire group follows a discharge time interval for such group.
- 26. The ink firing system of claim 25 wherein a discharge time interval for a fire group is concurrent with a precharge time interval for a next fire group to be enabled to precharge capacitive memory elements thereof.
- 27. The ink firing system of claim 25 wherein a fire time interval for one of said fire groups overlaps a fire time interval for a different fire group.
- 28. The ink firing system of claim 25 wherein a fire time interval for a fire group overlaps a discharge time interval for such fire group.
CROSS REFERENCE TO RELATED APPLICATION(S)
This is a continuation of copending application Ser. No. 09/365,110 filed on Jul. 30, 1999, which is hereby incorporated by reference herein.
US Referenced Citations (11)
Foreign Referenced Citations (3)
Number |
Date |
Country |
0592221 |
Apr 1994 |
EP |
0913255 |
May 1999 |
EP |
WO9851509 |
Nov 1998 |
WO |
Non-Patent Literature Citations (1)
Entry |
European Search Report, Jul. 4, 2001, Application No. 00306398. |
Continuations (1)
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Number |
Date |
Country |
Parent |
09/365110 |
Jul 1999 |
US |
Child |
10/050209 |
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US |