Static information storage and retrieval – Addressing – Particular decoder or driver circuit
Reexamination Certificate
2001-02-02
2002-07-02
Phan, Trong (Department: 2818)
Static information storage and retrieval
Addressing
Particular decoder or driver circuit
C365S226000
Reexamination Certificate
active
06414899
ABSTRACT:
BACKGROUND OF THE INVENTION
1. Field of the Invention
The present invention relates to memory devices, in particular, semiconductor memory devices, and most particularly, scalable, power-efficient semiconductor memory devices.
2. Background of the Art
Memory structures have become integral parts of modern VLSI systems, including digital signal processing systems. Although it typically is desirable to incorporate as many memory cells as possible into a given area, memory cell density is usually constrained by other design factors such as layout efficiency, performance, power requirements, and noise sensitivity.
In view of the trends toward compact, high-performance, high-bandwidth integrated computer networks, portable computing, and mobile communications, the aforementioned constraints can impose severe limitations upon memory structure designs, which traditional memory system and subcomponent implementations may fail to obviate.
One type of basic storage element is the static random access memory (SRAM), which can retain its memory state without the need for refreshing as long as power is applied to the cell. In an SRAM device, the memory state II usually stored as a voltage differential within a bistable functional element, such as an inverter loop. A SRAM cell is more complex than a counterpart dynamic RAM (DRAM) cell, requiring a greater number of constituent elements, preferably transistors. Accordingly, SRAM devices commonly consume more power and dissipate more heat than a DRAM of comparable memory density, thus efficient; lower-power SRAM device designs are particularly suitable for VLSI systems having need for high-density SRAM components, providing those memory components observe the often strict overall design constraints of the particular VLSI system. Furthermore, the SRAM subsystems of many VLSI systems frequently are integrated relative to particular design implementations, with specific adaptions of the SRAM subsystem limiting, or even precluding, the scalability of the SRAM subsystem design. As a result SRAM memory subsystem designs, even those considered to be “scalable”, often fail to meet design limitations once these memory subsystem designs are scaled-up for use in a VLSI system with need for a greater memory cell population and/or density.
There is a need for an efficient, scalable, high-performance, low-power memory structure that allows a system designer to create a SRAM memory subsystem that satisfies strict constraints for device area, power, performance, noise sensitivity, and the like.
SUMMARY OF THE INVENTION
The present invention satisfies the above needs by providing a limited swing driver, having a pass transistor coupled between a memory cell and an associated bitline; an inverter, the inverter output coupled to the gate of the pass transistor, and selectively driving the pass transistor and the inverter input coupled with the memory cell. A memory node is formed at the juncture of the inverter input and the memory cell forming a memory node. The driver also includes a discharge transistor coupled between the memory node and ground. The discharge transistor being driven by an input on the discharge transistor gate. It is preferred that the discharge transistor being programmed to produce a limited swing voltage at the memory node. It is desirable that the limited swing voltage be less than about 350 mV, and it is preferable that the limited swing voltage be between about 300 mV and about 200 mV. In addition, the limited swing voltage driver can include a tri-state output enable isolating the memory node from the bitline, particularly if the bitline is a shared or multiplexed bitline; and a self-reset circuit resetting the driver to a predetermined signal state.
The present invention will be more fully understood from the following detailed description of the embodiments thereof, taken together with the following drawings.
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Afghahi Morteza (Cyrus)
Terzioglu Esin
Broadcom Corporation
Phan Trong
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