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High-speed, high-irradiation-resistant ferroelectric memory based on strained sige channel

A ferroelectric memory and channel technology, applied in static memory, digital memory information, information storage, etc., can solve the problems of high-speed development of the information industry, loss, etc., and achieve low power consumption, high speed, and erasable times many effects

Inactive Publication Date: 2012-02-08
TSINGHUA UNIV +1
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  • Abstract
  • Description
  • Claims
  • Application Information

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Problems solved by technology

[0003] Traditional SRAM, DRAM, E 2 PROM, FLASH and other memories all use silicon as the storage medium. Due to the limits of physics and technology, they can no longer meet the further rapid development of the information industry.
and E 2 PROM and FLASH store information based on electronic charges, which will be lost under the radiation conditions of electromagnetic waves or various rays; therefore, new storage media must be sought and developed

Method used

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  • High-speed, high-irradiation-resistant ferroelectric memory based on strained sige channel
  • High-speed, high-irradiation-resistant ferroelectric memory based on strained sige channel
  • High-speed, high-irradiation-resistant ferroelectric memory based on strained sige channel

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Embodiment Construction

[0020] The invention provides a high-speed and highly radiation-resistant ferroelectric memory based on strained SiGe channels to address the deficiencies of the prior art. The present invention will be described below in conjunction with the accompanying drawings.

[0021] exist figure 2 , image 3 In the shown FeRAM2T2C cell structure and circuit diagram based on strained SiGe, the cell structure of the ferroelectric memory is composed of M1 tubes connected in series with ferroelectric capacitors Cf1 and M2 connected in series with ferroelectric capacitors Cf2, and then the two ferroelectric capacitors are connected together It is then connected to the drive line PL, the gates of M1 and M2 are connected in series and then connected to the word line WL, and the source (or drain) electrodes of M1 and M2 are respectively connected to the bit line BL and the bit line BLB; BL and BLB are then connected to the sensitive The amplifier SA is connected, where M1 and M2 are N-MOS t...

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Abstract

The invention discloses a high-speed and highly radiation-resistant ferroelectric memory based on a strained SiGe channel, which belongs to the scope of microelectronic devices. The unit structure of the ferroelectric memory is to connect the ferroelectric capacitor Cf1 and M2 in series with the ferroelectric capacitor Cf2 by the M1 tube, and then connect the two ferroelectric capacitors together and connect them to the drive line PL. After the gates of M1 and M2 are connected in series Connected to the word line WL, the sources or drains of M1 and M2 are respectively connected to the bit line BL and the bit line BLB; BL and BLB are connected to the sense amplifier SA, wherein M1 and M2 are N-MOS transistors. In the present invention, the strained SiGe is used as the channel of the P-MOS tube, and the mobility of holes in the channel is increased, thereby increasing the working speed of the P-MOS tube so as to match the speed of the N-MOS tube. It has outstanding advantages such as volatility, low power consumption, high-speed access, high rewrite resistance, and high security. It is widely used and is expected to replace the existing semiconductor memory. It has great market potential.

Description

technical field [0001] The invention belongs to the scope of microelectronic devices, in particular to a ferroelectric memory with high speed and high radiation resistance based on strained SiGe channels. Background technique [0002] With the development of the microelectronics industry, information security and intellectual property protection have received extensive attention. Especially in the development of defense industry devices, a high-efficiency, low-cost and safe storage technology is required. Therefore, it is particularly important to seek new types of memory with high speed, low power consumption, high security and non-volatile characteristics. [0003] Traditional SRAM, DRAM, E 2 PROM, FLASH and other memories all use silicon as the storage medium. Due to the limitations of physics and technology, they can no longer meet the further rapid development of the information industry. and E 2 PROM and FLASH store information based on electronic charges, which wil...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): G11C11/22H01L27/115H01L29/78
Inventor 刘道广任天令谢丹许军刘理天陈弘毅徐世六
Owner TSINGHUA UNIV
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