Static information storage and retrieval – Floating gate – Particular biasing
Reexamination Certificate
2002-09-19
2004-03-09
Hoang, Huan (Department: 2818)
Static information storage and retrieval
Floating gate
Particular biasing
C365S229000
Reexamination Certificate
active
06704224
ABSTRACT:
BACKGROUND OF THE INVENTION
1. Field of Invention
The present invention relates to non-volatile semiconductor memory apparatuses, and more particularly to non-volatile semiconductor memory apparatuses equipped with charge pump devices that step up power supply voltage.
2. Description of Related Art
Semiconductor memory apparatuses may be classified into a variety of different types depending on their functions. Such semiconductor memory apparatuses include a memory cell array that is formed of memory cells arranged in a matrix. In general, an address in a row direction and a column direction in the memory cell array is designated in performing a reading, programming or erasing operation for each of the memory cells.
By controlling voltages applied to a signal line in the row direction and a signal line in the column direction that are connected to each of the memory cells, a specified memory cell can be accessed, such that a specified operation among reading, programming and erasing operations thereof can be performed. In other words, in order to select a specified memory cell, a voltage different from other voltages to be applied to other memory cells may be generated from the power supply voltage and applied.
Recently, MONOS (Metal-Oxide-Nitride-Oxide-Semiconductor or -substrate) type devices have been developed as non-volatile semiconductor devices that are electrically erasable and have non-volatility. A MONOS type non-volatile semiconductor memory apparatus has memory cells that each have two memory elements, as described in detail in a publication (Y. Hayashi, et al., 2000 Symposium on VLSI Technology Digest of Technical Papers p. 122-p. 123).
As described in this publication, to access each of the memory elements of the MONOS type non-volatile semiconductor memory apparatus via signal lines (control lines) that are provided according to the number of the memory cells, not only two kinds of voltage values, but a plurality of kinds of voltage values need to be set for each of the signal lines (control lines).
In this case, devices that each have a pair of a charge pump circuit that operates with the power supply voltage and a regulator may be prepared in the number of kinds of voltages required for each of the operations of the memory.
SUMMARY OF THE INVENTION
The response of the charge pump is slow due to restrictions of its clock frequencies and the like. Accordingly, when the operation of the charge pump circuit is stopped in a standby mode, it takes a long time, after shifting to an active mode, in particular when shifting to a read that requires a high voltage, to reach an accessible state.
In this respect, the charge pump may be operated even during a standby mode, and a high voltage is maintained by the charge pump, and a regulator may be used to generate required operation voltages.
However, the amount of current that circulates in the charge pump and a regulator that generates operation voltages to read in particular is extremely large. Therefore, it is a problem that the current consumption in the standby mode is high.
The present invention addresses the problems described above, and provides a non-volatile semiconductor memory apparatus that can substantially reduce the current consumption in a standby mode by using a regulator for standby with a low current consumption.
A non-volatile semiconductor memory apparatus in accordance with the present invention includes: a charge pump device that steps up and outputs a power supply voltage; an operation voltage setting device that sets operation voltages to execute plural modes for a specified non-volatile memory element within a memory array formed of the plurality of non-volatile memory elements; a constant voltage device for activation that is provided with voltages output from the charge pump device to generate the operation voltages in an active state; and a constant voltage device for standby that is provided with a voltage output from the charge pump device to generate a voltage based on the operation voltage with a lower current consumption than voltages generated by the constant voltage device for activation.
With this structure, the charge pump device steps up the power supply voltage and supplies the same to the constant voltage devices for activation and standby. The constant voltage device for activation, at the time of activation, generates operation voltages from the output of the charge pump device and supplies the same to the operation voltage setting device. The operation voltage setting device uses voltages generated by the constant voltage device for activation to set operation voltages to execute various modes, such as, for example, a read mode, program mode and erase mode. In contrast, at the time of standby, the constant voltage device for standby generates operation voltages from the output of the charge pump device. The constant voltage device for standby causes a low current consumption, such that the current consumption amount at the time of standby can be markedly reduced. Also, voltages based on the operation voltages are generated even at the time of standby, such that a high speed access becomes possible even in a shift from a standby mode to an active mode.
The operation voltage generated by the constant voltage device for standby is a voltage higher than the power supply voltage.
With this structure, even when the power supply voltage is stepped up to generate operation voltages, the current consumption at the time of standby can be reduced, and a high speed access when shifting to an active mode can be achieved.
The constant voltage device for standby generates an operation voltage for a read mode for the non-volatile memory element.
With this structure, at the time of reading, high operation voltages and high speed response are required. Since the constant voltage device for standby generates voltages based on the operation voltages to provide reading, a high speed access is made possible even when shifting to an active mode.
The charge pump device steps up the power supply voltage to generate a plurality of voltages.
With this structure, the range of voltage values that can be generated by one or a plurality of constant voltage devices can be broadened.
The constant voltage device is capable of generating constant voltages of different voltage values depending on read, program or erase mode for the non-volatile memory element.
With this structure, the constant voltage device can obtain constant voltages according to an operation mode, i.e., a read mode, a program mode or an erase mode. Therefore, when a plurality of operation voltages are required for each of the modes, each mode can be executed.
The non-volatile memory element is a memory element that forms a twin memory cell controlled by one word gate and first and second control gates.
With this structure, for example, a reading operation, a programming operation or an erasing operation can be performed for the memory array with twin memory cells.
The operation voltage setting device is characterized in that it sets voltage values provided from the constant voltage device independently for the first and second control gates, and an impurity layer to access trapped charge of the non-volatile memory element.
With this structure, the operation voltage setting device sets operation voltages required for a word gate that selects a twin memory cell, sets operation voltages required for the first and second control gates to select a non-volatile memory element within the selected twin memory cell, and sets required operation voltages for an impurity layer to access trapped charge of the selected non-volatile memory element. As a result, for example, a reading operation, a programming operation or an erasing operation can be performed for a specified non-volatile memory element in a specified twin memory cell.
The operation voltage setting device includes: a word line connected to a word gate of the twin memory cell in the same row; a control gate line that is commonly connected to the mutually adjacent first and second control gates
Hoang Huan
Oliff & Berridg,e PLC
Seiko Epson Corporation
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