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1.
A newly integrated pulsed laser system has been utilized to investigate the effects of voltage stress on single event upset (SEU) of flip flop chain manufactured in 65 nm bulk CMOS technology. Laser mappings of the flip flop chain revealed that the SEU sensitive regions increased with laser energy. Post-processing of the data from the laser mapping facilitated the plotting of the cross-section versus laser energy curve. We found a clear shift in the cross-section curves after voltage stress of 130 h. Comparisons of data revealed at least a doubled increase in sensitive areas after voltage stress. During the voltage stress, various electrical parameters were monitored and changes were observed. It was found that the increase in SEU sensitivity is related to electrical parameter changes and SPICE simulation results concur likewise.  相似文献   

2.
基于激光背部辐照方法的小尺寸器件的单粒子效应特性   总被引:1,自引:1,他引:0  
本文基于脉冲激光背部辐照试验方法,测试了小尺寸器件的单粒子翻转与闩锁特性,以克服高集成度器件日益增加的金属布线层对激光试验的影响。研究了SRAM器件存储的数据类型对器件单粒子翻转阈值与截面的影响特性。试验测试了深亚微米器件微闩锁效应的电流变化特征。建立了一种激光能量与重离子LET值对应关系的经验公式,用于评估小尺寸器件的等效激光LET值。此外,利用激光背部辐照试验方法,初步试验研究了90nmSOI工艺PowerPC微处理器的单粒子翻转特性。  相似文献   

3.
为了减轻辐射环境中静态随机存储器(SRAM)受单粒子翻转(SEU)的影响以及解决低功耗和稳定性的问题,采用TSMC 90nm工艺,设计了一款可应用于辐射环境中的超低功耗容错静态随机存储器。该SRAM基于双互锁存储单元(DICE)结构,以同步逻辑实现并具有1KB(1K×8b)的容量,每根位线上有128个标准存储单元,同时具有抗SEU特性,提高并保持了SRAM在亚阈值状态下的低功耗以及工作的稳定性。介绍了这种SRAM存储单元的电路设计及其功能仿真,当电源电压VDD为0.3V时,该SRAM工作频率最大可达到2.7MHz,此时功耗仅为0.35μW;而当VDD为1V时,最大工作频率为58.2MHz,功耗为83.22μW。  相似文献   

4.
This paper proposes a straightforward methodology to estimate by simulation the Single-Event Upset (SEU) sensitivity of a memory array using open source and commercial codes. It is based on a four-step process including the calculation of the deposited energy distribution in sensitive volumes, the determination of a criterion for SEU triggering, the count of SEUs, and finally the SEU cross-section calculation. The approach is validated with neutron irradiation experiments performed on a 65 nm Static Random Access Memory (SRAM).  相似文献   

5.
利用3D TCAD仿真,在45 nm 体硅工艺下,对5管SRAM单元和传统6管SRAM单元的抗辐射性能进行了对比研究。结果表明,5管SRAM单元的敏感面积更小,由该单元构成的SRAM阵列更难发生多位翻转。提出了一种带额外保护环的5管SRAM单元抗辐射加固策略,这种加固策略没有面积开销,模拟结果证实了该加固策略的有效性。  相似文献   

6.
The SRAM 6T bit-cell suffers many limitations in advanced technology nodes among which variability effects. Various alternatives have been experimented and the paper focuses on the 5T-Portless bit-cell. Read and write operations are operated by varying voltage conditions. Literature regarding 32 nm CMOS for Portless SRAM has been reviewed and improvements are presented. The bit-cells are arranged in matrix to permit a current-mode read operation as opposed to voltage-based sensing techniques. Thus safety and stability of the bit-cell operation is established without constraints on memory periphery. The current-mode operation enables a significant gain in dynamic power consumption beneficial to always-on memories. The paper presents different existing solutions to limit the power consumption and their limitations in thin CMOS technologies. The portless bit-cell is presented as a low power architecture alternative to 6T-SRAM. A matrix test-chip is currently under fabrication in bulk CMOS 32 nm.  相似文献   

7.
武书肖  李磊  任磊 《微电子学》2016,46(6):796-800
在空间辐射环境中,单粒子翻转(SEU)效应严重影响了SRAM的可靠性,对航天设备的正常运行构成极大的威胁。提出了一种基于自恢复逻辑(SRL)结构的新型抗辐射SRAM单元,该单元的存储结构由3个Muller C单元和2个反相器构成,并采用读写线路分开设计。单粒子效应模拟实验结果表明,该单元不仅在静态存储状态下对SEU效应具有免疫能力,在读写过程中对SEU效应同样具有免疫能力。  相似文献   

8.
Altitude and underground real-time soft error rate (SER) measurements on SRAM circuits have been analyzed in terms of independent multi-Poisson processes describing the occurrence of single events as a function of bit flip multiplicity. Applied for both neutron-induced and alpha particle-induced SERs, this detailed analysis highlights the respective contributions of atmospheric radiation and alpha contamination to multiple cell upset mechanisms. It also offers a simple way to predict by simulation the radiation response of a given technology for any terrestrial position, as illustrated here for bulk 65 nm and 40 nm SRAMs.  相似文献   

9.
本文提出了一种新式SEU加固的10管PD SOI静态存储单元。通过将互锁反相器中的上拉和下拉管分割成两个串联的晶体管,该单元可有效抑制PD SOI晶体管中的寄生BJT和源漏穿通电荷收集效应,这两种电荷收集效应是引起PD SOISRAM翻转的主要原因。通过混合仿真发现,与穿通的浮体6T单元相比,该单元可完全解决粒子入射单个晶体管引起的单粒子翻转。通过分析该新式单元的翻转机制,认为其SEU性能近似与6T SOI SRAM的单粒子多位翻转性能相等。根据参考文献的测试数据,粗略估计该新式单元的SEU性能比普通45nm 6T SOI SRAM单元提升了17倍。由于新增加了四个晶体管,该单元在面积上增加了43.4%的开销,性能方面有所降低。  相似文献   

10.
提高静态随机存储器(SRAM)的抗单粒子能力是当前电子元器件抗辐射加固领域的研究重点之一。体硅CMOS SRAM不作电路设计加固则难以达到较好抗单粒子能力,作电路设计加固则要在芯片面积和功耗方面做出很大牺牲。为了研究绝缘体上硅(SOI)基SRAM芯片的抗单粒子翻转能力,突破了SOI CMOS加固工艺和128kb SRAM电路设计等关键技术,研制成功国产128kb SOI SRAM芯片。对电路样品的抗单粒子摸底实验表明,其抗单粒子翻转线性传输能量阈值大于61.8MeV/(mg/cm^2),优于未做加固设计的体硅CMOS SRAM。结论表明,基于SOI技术,仅需进行器件结构和存储单元的适当考虑,即可达到较好的抗单粒子翻转能力。  相似文献   

11.
采用silvaco软件对抗辐射不同沟道宽度的PD SOI NMOS器件单元进行了三维SEU仿真,将瞬态电流代入电路模拟软件HSPICE中进行SRAM存储单元单粒子翻转效应的电路模拟。通过这种电路模拟的方法,可以得到SRAM存储单元的LET阈值。通过对比LET阈值的实际测量值,验证了这种方法的实用性,并对不同驱动能力的SRAM单元进行了翻转效应的对比。在NMOS和PMOS驱动比相同的情况下,沟道宽度越大,SRAM的翻转LET阈值反而越高。  相似文献   

12.
赵雯  郭晓强  陈伟  罗尹虹  王汉宁 《电子学报》2018,46(10):2495-2503
以65nm双阱CMOS(Complementary Metal Oxide Semiconductor)工艺的SRAM(Static Random Access Memory)为研究对象,采用三维数值模拟方法,结合SRAM中晶体管布局和邻近SRAM的相对位置,对寄生双极晶体管效应致纳米SRAM内部节点电势多次翻转的产生机制进行了深入阐述,对寄生双极晶体管效应致纳米SRAM发生MCU(Multiple Cell Upset)的影响因素进行了详细研究.发现寄生双极晶体管效应致SRAM内部节点电势多次翻转源于N阱中两个PMOS漏极电势的竞争过程,竞争过程与寄生双极晶体管效应的强弱相关,需综合考虑PMOS源极与N阱接触的距离、PMOS漏极与N阱的电势差两个因素.在纳米双阱CMOS工艺的SRAM中,PNP寄生双极晶体管效应对MCU起着重要作用.减小阱接触与SRAM单元的距离,可减弱邻近SRAM的寄生双极晶体管效应并降低MCU的发生概率,即使阱接触距离很近,特殊角度的斜入射和高LET(Linear Energy Transfer)值离子入射仍存在触发邻近SRAM的寄生双极晶体管效应并导致MCU的可能.  相似文献   

13.
An advance in the simulation of a single event upset (SEU) of a static memory is achieved by combining transport and circuit effects in a single calculation. The program SIFCOD [4] is applied to the four transistors of a CMOS SRAM cell to determine its transient circuit response following a very high energy ion hit. Results unique to this type of calculation include determination of relative upset sensitivites and different upset mechanisms for specific area hits, i.e., the OFF p-channel drain, the OFF or ON n-channel drain, etc. The calculation determines the transport variables as a function of time in two-space dimensions for each of the four transistors and provides the nodal voltage and current responses for assessing memory upset conditions.  相似文献   

14.
As a consequence of technology scaling down, gate capacitances and stored charge in sensitive nodes are decreasing rapidly, which makes CMOS circuits more vulnerable to radiation induced soft errors. In this paper, a low cost and highly reliable radiation hardened latch is proposed using 65 nm CMOS commercial technology. The proposed latch can fully tolerate the single event upset (SEU) when particles strike on any one of its single node. Furthermore, it can efficiently mask the input single event transient (SET). A set of HSPICE post-layout simulations are done to evaluate the proposed latch circuit and previous latch circuits designed in the literatures, and the comparison results among the latches of type 4 show that the proposed latch reduces at least 39% power consumption and 67.6% power delay product. Moreover, the proposed latch has a second lowest area overhead and a comparable ability of the single event multiple upsets (SEMUs) tolerance among the latches of type 4. Finally, the impacts of process, supply voltage and temperature variations on our proposed latch and previous latches are investigated.  相似文献   

15.
This paper presents a single event upset (SEU) resilient, single event transient (SET) filterable and cost effective latch (referred to as RFEL) using 45 nm CMOS commercial technology. By means of triple mutual feedback CMOS structures, one of which is an input-split Schmitt trigger, and two of which are Muller C-elements, the internal nodes and output node of the latch are self-recoverable from single event upset regardless of the energy of a striking particle. The latch filters a much wider spectrum of single event transient on account of hysteresis property of the embedded input-split Schmitt trigger, and temporal redundancy in the grouped inputs of the Muller C-element at output stage. The latch performs with lower overheads regarding area, power, and delay than most of the single event upset and single event transient simultaneously tolerated latches as well. Simulation results show that the area-power-delay-pulse product of the latch is 65.58% saving on average, and Monte Carlo simulation results demonstrate the equivalent or even less sensitivity of the latch to process, and temperature variations, compared with the previous radiation hardened latches.  相似文献   

16.
Radiation hardened 16K and 64K CMOS SRAMs were tested at the Brookhaven SEU Test Facility. No failures of 16K SRAMs were observed at room temperature with any value of the feedback resistors. SEU cross section measured at elevated temperatures was a function of reduced feedback resistance. A difference was observed in critical LET forBr andAu ions. SEU cross section decreased at very high angles of incidence. After initial SEU testing, the 64K SRAM was degraded by proton total dose irradiation. An increase in the SEU cross section as well as imprinting of the memory pattern was observed. Test chips fabricated by the same technology were also submitted to proton radiation. Threshold voltage shift was measured for NMOS transistors with and without inversion bias. An increase in the density of interface states for both NMOS and PMOS transistors was measured by the charge-pumping technique. This research has been supported by the NASA grants NAG-5-929 and NAG-9-333.  相似文献   

17.
中子是近地空间和核爆的主要辐射源之一,中子二次反应诱发的单粒子效应极大地影响了电子元器件的可靠性。本文针对商用体硅工艺静态存储器(SRAM)单元提出了一种中子饱和翻转截面预测模型。通过一个电路级的仿真模型,对应于辐射作用距离的线性电荷沉积(LET)效应可以通过基于SPICE仿真曲线来表现,进而用来预测翻转截面。该方法简单有效,预测结果与130 nm体硅工艺的中子实验结果吻合。  相似文献   

18.
本文基于单粒子效应地面重离子模拟实验,选取体硅SRAM与SOI SRAM两种待测器件,在兰州重离子加速器上(HIRLF)研究了温度对单粒子翻转测试的影响。用12C粒子对体硅SRAM器件的温度实验显示,单粒子翻转截面易受温度的影响。对于SOI SRAM器件,12C粒子测得的单粒子翻转截面随温度升高有显著的增大,但209Bi 粒子测得的单粒子翻转截面却随温度保持恒定。用Monte Carlo的方法分析了温度对单粒子翻转测试的影响规律,发现在单粒子翻转阈值LET附近温度对单粒子翻转截面有大的影响,但是随着单粒子翻转的发生接近于饱和,单粒子翻转截面渐渐的表现出低的温度依赖性。基于该模拟结果,我们对实验数据进行了分析,同时提出了一种准确评估在轨翻转率的合理方法。  相似文献   

19.
对0.13μm部分耗尽SOI工艺的抗辐射特性进行了研究.首先通过三维仿真研究了单粒子事件中的器件敏感区域,随后通过实验分析了器件的总剂量效应.三维仿真研究了离子入射位置不同时SOI NMOS器件的寄生双极效应和电荷收集现象,结果表明,离子入射在晶体管的体区和漏区时,均可以引起较大水平的电荷收集.对SRAM单元的单粒子翻转效应(SEU)进行了仿真,结果表明,体区和反偏的漏区都是翻转的敏感区域.通过辐照实验分析了器件的总剂量效应,在该工艺下对于隐埋氧化层,关断状态是比传输门状态更劣的辐射偏置条件.  相似文献   

20.
SRAM型FPGA在航天领域有着广泛的应用,为解决FPGA在宇宙环境中单粒子翻转的问题,适应空间应用需求,给出了一种低成本抗辐照解决方案,对耐辐射FPGA器件进行抗单粒子翻转加固设计。该方案兼容多种型号FPGA芯片,从3片SPI FLASH中读取配置数据,通过串行接口配置FPGA,并在配置完成后按照设定时间周期性刷新芯片,可以满足航天领域对抗辐照型FPGA的使用需求。  相似文献   

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