Claims
- 1. A display device comprising:
- a plurality of discharge cells, each having at least first, second and third electrodes;
- a scan signal generating circuit connected to said first electrodes of said plurality of discharge cells, said scan signal generating circuit arranged to apply scan pulses to said first electrodes;
- a display signal generating circuit connected to said second electrodes of said plurality of discharge cells, said display signal generating circuit arranged to apply display pulses to said second electrodes;
- switching circuits, each electrically connected to said third electrodes of corresponding ones of said plurality of discharge cells;
- a pulse-gating signal generating circuit configured to provide gating signals to said switching circuits; and
- an energy recovery circuit electrically connected to said switching circuits, wherein
- said switching circuits are arranged to apply pulses from said energy recovery circuit to said third electrode of corresponding ones of said plurality of discharge cells to charge electric charge in at least a selected one of said corresponding ones of said plurality of discharge cells, and are further arranged to recover said electric charge from said at least a selected one of said corresponding ones of said plurality of discharge cells to said energy recovery circuit, wherein each of said switching circuits comprises:
- a first MOS transistor having a gate, a drain, and a source, said drain serving as an input terminal for said pulse and said source serving as an output terminal for said pulse;
- a diode connected to said gate and said source;
- a resistor connected to said gate and said source;
- a constant current supply transistor having a control voltage input terminal configured to receive one of said gating signals from said pulse-gating signal generating circuit and a constant current supply output terminal connected to said gate; and
- a voltage hold circuit connected to said source, said voltage hold circuit selectively maintaining said source potential at a predetermined voltage;
- wherein said constant current supply transistor, in response to said one of said gating signals, selectively outputs a control voltage signal to said gate to switch ON and OFF said first MOS transistor to selectively supply said pulse.
- 2. A device according to claim 1 wherein said control voltage signal is a negative pulse synchronized with said pulse.
- 3. A display device comprising:
- a plurality of discharge cells, each having at least first, second and third electrodes;
- a scan signal generating circuit connected to said first electrodes of said plurality of discharge cells, said scan signal generating circuit arranged to apply scan pulses to said first electrodes;
- a display signal generating circuit connected to said second electrodes of said plurality of discharge cells, said display signal generating circuit arranged to apply display pulses to said second electrodes;
- switching circuits, each electrically connected to said third electrodes of corresponding ones of said plurality of discharge cells;
- a pulse-gating signal generating circuit configured to provide gating signals to said switching circuits; and
- an energy recovery circuit electrically connected to said switching circuits, wherein
- said switching circuits are arranged to apply pulses from said energy recovery circuit to said third electrode of corresponding ones of said plurality of discharge cells to charge electric charge in at least a selected one of said corresponding ones of said plurality of discharge cells, and are further arranged to recover said electric charge from said at least a selected one of said corresponding ones of said plurality of discharge cells to said energy recovery circuit, wherein each of said switching circuits comprises:
- an MOS transistor having a gate, a drain, and a source, said source serving as an input terminal for said pulse and said drain serving as an output terminal for said pulse;
- a diode connected to said gate and said source; and
- a constant current supply transistor having a control voltage input terminal configured to receive one of said gating signals from said pulse-gating signal generating circuit and a constant current supply output terminal connected to said gate;
- wherein said constant current supply transistor, in response to said one of said gating signals, selectively outputs a control voltage signal to said gate to switch ON and OFF said MOS transistor to selectively supply said pulse, and wherein said control voltage signal is synchronized with said pulse.
- 4. A device according to claim 2 wherein said voltage hold circuit comprises a second MOS transistor having a gate, a drain and a source, wherein said drain of said second MOS transistor is connected to said source of said first MOS transistor, and a hold input signal is applied to said gate of said second MOS transistor.
- 5. A display device comprising:
- a plurality of discharge cells, each having at least first, second and third electrodes;
- a scan signal generating circuit connected to said first electrodes of said plurality of discharge cells, said scan signal generating circuit arranged to apply scan pulses to said first electrodes;
- a display signal generating circuit connected to said second electrodes of said plurality of discharge cells, said display signal generating circuit arranged to apply display pulses to said second electrodes;
- switching circuits, each electrically connected to said third electrodes of corresponding ones of said plurality of discharge cells;
- a pulse-gating signal generating circuit configured to provide gating signals to said switching circuits; and
- an energy recovery circuit electrically connected to said switching circuits, wherein
- said switching circuits are arranged to apply pulses from said energy recovery circuit to said third electrode of corresponding ones of said plurality of discharge cells to charge electric charge in at least a selected one of said corresponding ones of said plurality of discharge cells, and are further arranged to recover said electric charge from said at least a selected one of said corresponding ones of said plurality of discharge cells to said energy recovery circuit, wherein each of said switching circuits comprises:
- a first MOS transistor having a first gate, a first drain, and a first source, said first drain serving as an input terminal for said pulse and said first source serving as an output terminal for said pulse;
- a diode connected to said first gate and said first source;
- a constant current supply transistor having a control voltage input terminal configured to receive one of said gating signals from said pulse-gating signal generating circuit and a constant current supply output terminal connected to said first gate; and
- means connected to said first gate and to said first drain for raising the potential at said first gate;
- wherein said constant current supply transistor, in response to said one of said gating signals, selectively outputs a control voltage signal to said gate to switch ON and OFF said first MOS transistor to selectively supply said pulse.
- 6. A device according to claim 5 wherein said control voltage signal is a negative pulse synchronized with said pulse.
- 7. A device according to claim 5 wherein said means is a second MOS transistor having a second gate, a second drain and a second source, said second gate and second source being connected to said first drain and said second drain being connected to said first gate.
- 8. A display device comprising:
- a plurality of discharge cells each having at least first, second and third electrodes;
- a scan signal generating circuit coupled to said first electrodes of said plurality of discharge cells and arranged to apply scan pulses to said first electrodes of said plurality of discharge cells;
- a display signal generating circuit coupled to said second electrodes of said plurality of discharge cells and arranged to apply display pulses to said electrodes of said plurality of discharge cells;
- switching circuits each electrically coupled to said third electrodes of corresponding ones of said plurality of discharge cells; and
- an energy recovery circuit electrically coupled to said switching circuits, wherein
- said switching circuits are arranged to apply pulses from said energy recovery circuit in response to a signal to said third electrodes of corresponding ones of said plurality of discharge cells thereby to charge electric charge in at least a selected one of said corresponding ones of said plurality of discharge cells, and are further arranged to recover the electric charge from said at least a selected one of said corresponding ones of said plurality of discharge cells to said energy recovery circuit;
- each of said switching circuits includes
- a MOS transistor having a gate, a drain and a source, said drain serving as an input terminal for receiving said pulse from said energy recovery circuit and said source serving as an output terminal for outputting said pulse to said third electrodes of corresponding ones of said plurality of discharge cells,
- a diode coupled between said gate and said source of said MOS transistor,
- a resistor coupled between said gate and said source of said MOS transistor, and
- a constant current supply transistor having a control voltage input terminal for receiving said signal from said pulse-gating signal generating circuit and a constant current supply output terminal coupled to said gate of said MOS transistor, wherein
- said constant current supply transistor selectively outputs from said constant current supply output terminal, in response to said signal from said pulse-gating signal generating circuit, a control voltage signal to said gate to switch ON and OFF said MOS transistor thereby to selectively output said pulse from said source.
- 9. A display device comprising:
- a plurality of discharge cells each having at least first, second and third electrodes;
- a scan signal generating circuit coupled to said first electrodes of said plurality of discharge cells and arranged to apply scan pulses to said first electrodes of said plurality of discharge cells;
- a display signal generating circuit coupled to said second electrodes of said plurality of discharge cells and arranged to apply display pulses to said second electrodes of said plurality of discharge cells;
- switching circuits each electrically coupled to said third electrodes of corresponding ones of said plurality of discharge cells; and
- an energy recovery circuit electrically coupled to said switching circuits, wherein
- said switching circuits are arranged to apply pulses from said energy recovery circuit in response to a signal from a pulse-gating signal generating circuit to said third electrodes of corresponding ones of said plurality of discharge cells thereby to charge electric charge in at least a selected one of said corresponding ones of said plurality of discharge cells, and are further arranged to recover the electric charge from said at least a selected one of said corresponding ones of said plurality of discharge cells to said energy recovery circuit;
- each of said switching circuits includes
- a MOS transistor having a gate, a drain and a source, said source serving as an input terminal for receiving said pulse from said energy recovery circuit and said drain serving as an output terminal for outputting said pulse to said third electrodes of corresponding ones of said plurality of discharge cells,
- a diode coupled between said gate and said source of said MOS transistor, and
- a constant current supply transistor having a control voltage input terminal for receiving said signal from said pulse-gating signal generating circuit and a constant current supply output terminal coupled to said gate of said MOS transistor, wherein
- said constant current supply transistor selectively outputs from said constant current supply output terminal, in response to said signal from said pulse-gating signal generating circuit, a control voltage signal to said gate to switch ON and OFF said MOS transistor thereby to selectively output said pulse from said source, and wherein said control voltage signal is synchronized with said pulse.
Priority Claims (2)
Number |
Date |
Country |
Kind |
63-212465 |
Aug 1988 |
JPX |
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63-245446 |
Sep 1988 |
JPX |
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Parent Case Info
This is a continuation of application Ser. No. 08/006,718, filed Jan. 2, 1992, now abandoned, which is a continuation of application Ser. No. 07/398,857, filed Aug. 25, 1989, now abandoned.
US Referenced Citations (29)
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Number |
Date |
Country |
0253555 |
Jan 1988 |
EPX |
52-38824 |
Jan 1977 |
JPX |
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Mar 1978 |
JPX |
0088931 |
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JPX |
0026320 |
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JPX |
0181523 |
Jul 1988 |
JPX |
0729847 |
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SUX |
Non-Patent Literature Citations (2)
Entry |
"Energy Recovery Sustain Circuit for the AC Plasma Display ", SID Digest, 1987, pp. 92-95, University of Illnois, Larry F. Weber and Mark B. Wood. |
IEEE Standard Dictionary of Electrical and Electronics Terms; Jul. 1984; p. 278. |
Continuations (2)
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Number |
Date |
Country |
Parent |
006718 |
Jan 1992 |
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Parent |
398857 |
Aug 1989 |
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