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Novel anti-SEU (Single Event Upset) reinforcement storage cell based on crossly-coupled miller capacitors

A storage unit and Miller capacitor technology, applied in the field of new storage units, can solve the problems of not being able to automatically restore the original state, maintain an error state, and store data errors, etc., to improve anti-SEU reinforcement capabilities, reduce node voltage changes, increase Effect of Feedback Delay Time

Inactive Publication Date: 2014-06-25
HOHAI UNIV CHANGZHOU
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Problems solved by technology

[0004] However, if two (or more) sensitive points in the DICE unit are reversed at the same time, the traditional DICE structure cannot automatically restore the original state, but will remain in the wrong state, which will lead to errors in stored data

Method used

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  • Novel anti-SEU (Single Event Upset) reinforcement storage cell based on crossly-coupled miller capacitors

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Embodiment Construction

[0014] The present invention will be specifically introduced below in conjunction with the accompanying drawings and specific embodiments.

[0015] Novel memory cells based on cross-coupled Miller capacitance anti-SEU reinforcement, including memory cells.

[0016] The storage unit is a DICE storage unit, and the DICE storage unit includes four nodes X1, X2, X3 and X4.

[0017] A Miller capacitor is arranged between every two nodes of the four nodes of the DICE memory unit.

[0018] like figure 1 shown. Miller capacitor 21 is connected to the cross-coupling line of nodes X1 and X2, Miller capacitor 22 is connected to the cross-coupling line of nodes X2 and X3, Miller capacitor 23 is connected to the cross-coupling line of nodes X3 and X4, and Miller capacitor 24 is connected to On the cross-coupled lines at nodes X4 and X1. Each Miller capacitance goes from the input of one inverter to the output of the other inverter and vice versa. Each Miller capacitance is added betwe...

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Abstract

The invention discloses a novel anti-SEU (Single Event Upset) reinforcement storage cell based on crossly-coupled miller capacitors. The novel anti-SEU reinforcement storage cell comprises a storage cell. The novel anti-SEU reinforcement storage cell is characterized in that the storage cell is a DICE (Dual Interlocked storage Cell); a miller capacitor is arranged between each two nodes in four nodes of the DICE. The novel anti-SEU reinforcement storage cell has the beneficial effects that the crossly-coupled miller capacitors are connected among the nodes of the DICE so as to obtain relatively great capacitance by using small capacitance. On the aspect of a circuit size, the area of the device can not be obviously increased by the miller capacitors so as to meet the requirement that the size of an integrated size is smaller and smaller. The crossly-coupled miller capacitors are additionally arranged so that the critical load of overturning the nodes is increased, the change of voltage of each node, caused by collection loads with the same quantity, is reduced, the feedback delaying time between two phase inverters of the DICE is increased, the multi-point anti-SEU reinforcement capability of the DICE is improved, and a possible inversion phenomenon caused by that the two nodes are simultaneously influenced by radiation effects is avoided.

Description

technical field [0001] The invention relates to a storage unit anti-SEU reinforcement design scheme, in particular to a novel storage unit based on cross-coupling Miller capacitance anti-SEU reinforcement. Background technique [0002] In the space radiation environment, the radiation effect will lead to the reduction of the life of the integrated circuit or the confusion of the data of the storage unit. According to different radiation mechanisms, the impact of space radiation on the integrated circuit can be divided into two categories, namely the total dose effect (Total Ionizing Dose, TID ) and Single Event Effect (Single Event Effect, SEE). Total dose effect (TID) is the result of long-term accumulation of a large number of particle radiation, leading to the gradual deterioration of the entire integrated circuit. The development of integrated circuit manufacturing process technology has basically solved the problem of TID. The single event effect (SEE) is the ionizati...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G11C11/41
Inventor 王海滨林善明谢迎娟单鸣雷刘玉宏刘翔
Owner HOHAI UNIV CHANGZHOU
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