Claims
- 1. An integrated circuit firing cell for a thermal ink jet printhead, comprising:an ink jet heater resistor; a dynamic memory circuit having: a dynamic memory element for receiving and storing energizing data only for said heater resistor; and a data switching circuit for transferring said energized data to said dynamic memory element; and an energy switching circuit for enabling a transfer of energizing energy to said heater resistor as a function of a state of said energizing date.
- 2. The integrated firing cell of claim 1 wherein said dynamic memory element comprises a memory capacitor, and wherein said data switching circuit is configured to transfer said energizing data to said memory capacitor.
- 3. The integrated circuit firing cell of claim 2 wherein said energy switching circuit comprises a FET, and wherein said memory capacitor comprises a gate capacitance of said FET.
- 4. The integrated circuit firing cell of claim 2 wherein said data switching circuit includes a pass transistor.
- 5. The integrated circuit firing cell of claim 2 wherein said data switching circuit includes an address transistor and a select transistor.
- 6. An integrated circuit firing cell for a thermal ink jet printhead, comprising:an ink jet heater resistor; a dynamic memory circuit having a dynamic memory element comprising a memory capacitor and storing energizing data only for said heater resistor, said dynamic memory circuit comprising a data switching circuit for transferring said energizing data to said memory capacitor; an energy switching circuit comprising a FET for enabling a transfer of energizing energy to said heater resistor as a function of a state of said energizing data; said memory capacitor comprising a gate capacitance of said FET; and a clamp circuit for preventing parasitic charging of said gate capacitance.
- 7. The integrated circuit firing cell of claim 6 wherein said clamp circuit is connected across a drain and a gate of said FET.
- 8. An integrated circuit firing cell for a thermal ink jet printhead, comprising:an ink jet heater resistor; a dynamic memory circuit having: a dynamic memory element that receives and stores energizing data only for said heater resistor; and a data switching circuit that transfers said energized data to said dynamic memory element; and an energy switching circuit that enables a transfer of energizing energy to said heater resistor as a function of a state of said energizing data.
- 9. The integrated firing cell of claim 8 wherein said dynamic memory element comprises a memory capacitor, and wherein said data switching circuit transfers said energizing data to said memory capacitor.
- 10. The integrated circuit firing cell of claim 9 wherein said energy switching circuit comprises a FET, and wherein said memory capacitor comprises a gate capacitance of said FET.
- 11. The integrated circuit firing cell of claim 10 further including a clamp circuit that prevents parasitic charging of said gate capacitance.
- 12. The integrated circuit firing cell of claim 11 wherein said clamp circuit is connected across a drain and a gate of said FET.
- 13. The integrated circuit firing cell of claim 9 wherein said data switching circuit includes a pass transistor.
- 14. The integrated circuit firing cell of claim 9 wherein said data switching circuit includes an address transistor and a select transistor.
- 15. An integrated circuit firing array for a thermal ink jet printhead comprising:a plurality of firing cells, each firing cell comprising: an ink jet heater resistor, a capacitive memory element that receives and stores energizing data only for said heater resistor, wherein said energizing data is represented by whether said capacitive memory element is charged or discharged, a precharge circuit that controllably precharges said capacitive memory element pursuant to control information received by the firing cell, a discharge circuit that controllably discharges said capacitive memory element pursuant to control information received by the firing cell, and an energy switching circuit that enables a transfer of energizing energy received by the firing cell to said heater resistor as a function of a state of said energizing data stored on said capacitive memory element; said plurality of firing cells being divided into a plurality of fire groups of firing cells, and each firing group having a plurality of fire subgroups of firing cells; a plurality of data lines that provide energizing data to said plurality of firing cells, wherein each of said data lines provides energizing data to firing cells in multiple subgroups in multiple fire groups, and wherein each of said firing cells of each of said fire subgroups receives energizing data from only one of said data lines; a plurality of control lines that provides control information to said plurality of firing cells, wherein all firing cells within each of said fire subgroups are controlled by a common subset of said control lines which allows for concurrent storage of energizing data in all firing cells within each of said fire subgroups; and a plurality of fire lines that supply energizing energy to said plurality of firing cells, wherein all firing cells of each of said fire groups receive energizing energy from only one of said fire lines.
- 16. The integrated circuit firing array of claim 15 wherein said control lines include:precharge lines that provide precharge control information to said plurality of firing cells; select lines that provide select control information to said plurality of firing cells; and address lines that provide subgroup address.information to said plurality of firing cells.
- 17. The integrated circuit firing array of claim 16 wherein:all firing cells in each of said fire groups are connected to only one of said precharge lines and only one of said select lines; and all firing cells in each of said fire subgroups are connected to a common subset of said address lines.
- 18. The integrated circuit firing array of claim 17 wherein said select line for one said fire groups is connected to said precharge line for a different one of said fire groups.
CROSS REFERENCE TO RELATED APPLICATION
This is a continuation of copending applicaton No. 09/365,110 filed on Jul. 30, 1999, which is hereby incorporated by reference herein.
US Referenced Citations (13)
Foreign Referenced Citations (3)
Number |
Date |
Country |
0592221 |
Apr 1994 |
EP |
913255 |
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 |
10/050835 |
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US |