Claims
- 1. An output driver circuit including a data output terminal and for providing an output data via said data output terminal, comprising:
- a semiconductor substrate,
- a predetermined node formed in said substrate,
- current providing means formed in said substrate and responsive to an applied data signal defining said output data for providing an output current via said data output terminal, and
- current increasing rate control means formed in said substrate and responsive to a potential at said predetermined node for controlling an increasing rate of the output current by said current providing means,
- wherein said current providing means comprises a first field effect transistor connected between a first power supply potential and said data output terminal, and said current increasing rate control means comprises conductance increasing timing control means responsive to the potential at said predetermined node for controlling an increasing rate of a conductance of said first field effect transistor, and
- said current increasing rate control means controlling the output driver circuit to operate in at least a first state and a second state, said current providing means provides a first current increasing rate in the first state and said current providing means provides a second current increasing rate in the second state, said second current increasing rate being slower than said first current increasing rate.
- 2. The output driver circuit according to claim 1, wherein said current providing means further comprises a first switching element connected in parallel with said first field effect transistor between the first power supply potential and said data output terminal, and responsive to said applied data signal.
- 3. The output driver circuit according to claim 2, wherein said current increasing rate control means comprises delay means responsive to the potential at said predetermined node for delaying a conducting timing of said first field effect transistor.
- 4. The output driver circuit according to claim 3, wherein said first switching element comprises a second field effect transistor.
- 5. The output driver circuit according to claim 4, wherein said first field effect transistor has a mutual conductance smaller than that of said second field effect transistor.
- 6. The output drive circuit according to claim 1, wherein said conductance increasing rate control means comprises potential increasing rate control means responsive to the potential at said predetermined node for controlling an increasing rate of a potential of a gate electrode of said first field effect transistor.
- 7. The output driver circuit according to claim 1, wherein said current providing means comprises first charging means responsive to said applied data signal for charging a gate electrode of said first field effect transistor,
- wherein said conductance increasing rate control means comprises charge accelerating means responsive to the potential at said predetermined node for accelerating charging of the gate electrode of said first field effect transistor.
- 8. The output driver circuit according to claim 7, wherein said charge accelerating means comprises second charging means responsive to the potential at said predetermined node and said applied data signal for charging the gate electrode of said first field effect transistor.
- 9. The output driver circuit according to claim 1, wherein said current providing means comprises a plurality of switching elements connected in parallel between the first power supply potential and said data output terminal, and responsive to said applied data signal,
- wherein said current increasing rate control means comprises delay conducting means responsive to said potential at said predetermined node for conducting with delay at least one of said plurality of switching elements.
- 10. An output driver circuit including a data output terminal and for providing an output data via said data output terminal, comprising:
- a semiconductor substrate,
- a predetermined node formed in said substrate,
- current providing means formed in said substrate and responsive to an applied data signal defining said output data for providing an output current via said data output terminal,
- current increasing rate control means formed in said substrate and responsive to a potential at said predetermined node for controlling the increasing rate of the output current by said current providing means, wherein said predetermined node comprises a bonding pad formed in said substrate,
- wiring means for selectively applying a power supply potential to said bonding pad, and
- potential detecting means formed in said substrate for detecting a potential at said bonding pad,
- wherein said current increasing rate control means responds to said potential detecting means for controlling the increasing rate of the output current of said current providing means.
- 11. An output driver circuit including a data output terminal and for providing an output data via said data output terminal, comprising:
- a semiconductor substrate,
- a predetermined node formed in said substrate,
- current providing means formed in said substrate and responsive to an applied data signal defining said output data for providing an output current via said data output terminal, and
- current increasing rate control means formed in said substrate and responsive to a potential at said predetermined node for controlling an increasing rate of the output current by said current providing means,
- wherein said current providing means comprises first and second field effect transistors connected in parallel between a first power supply potential and said data output terminal, said first field effect transistor having a mutual conductance smaller than that of said second field effect transistor, and
- said current increasing rate control means comprises conductance increasing timing control means responsive to the potential at said predetermined node for controlling an increasing rate of a conductance of said first field effect transistor, and delay means responsive to the potential at said predetermined node for delaying a conduction timing of said second transistor.
Priority Claims (1)
Number |
Date |
Country |
Kind |
4-294993 |
Nov 1992 |
JPX |
|
CROSS-REFERENCE TO RELATED, COPENDING APPLICATION
Related, copending application of particular interest to the instant application is U.S. Ser. No. 08/043,697 entitled "Improved Output Driver Circuit for Restraining Generation of Noise and Semiconductor Memory Device Utilizing Such Circuit", filed Apr. 8, 1993 and assigned to the same assignee of the instant application.
US Referenced Citations (4)
Foreign Referenced Citations (2)
Number |
Date |
Country |
3632862 |
Apr 1987 |
DEX |
3-214669 |
Sep 1991 |
JPX |
Non-Patent Literature Citations (2)
Entry |
"Dual-Regulator Dual-Decoding-Trimmer DRAM Voltage Limiter for Burn-in Test", Masashi Horiguchi et al., IEEE Journal of Solid-State Circuits, vol. 26, No. 11, Nov. 1991, pp. 1544-1549. |
R.C. Foss et al., "Application of a High-Voltage Pumped Supply for Low-Power DRAM", 1992 Symposium on VLSI Circuits Digest of Technical Papers. |