基于3.3V电源模块及ZXDSL 9806H log的板件故障诊断方法

文章首先简单的介绍了ZXDSL 9806H光接入设备的产品定位、主要组网方式、安装场所及ZXDSL 9806H硬件组成。并通过分析ZXDSL 9806H近几年设备送修情况和ZXDSL 9806H设备检测过程中发现的问题,结合电信运营商目前所面临着新设备建设及旧设备改造资金投入大,以及"提速降费"所带来的运营利润减少的问题。从网络运营维护方面,探索一种基于3.3V电源模块和ZXDSL 9806H log来快速、准确诊断ZXDSL 9806H故障板件的方法。以此来减少板件由于误判的送修量,从而达到降低设备维护成本,提高企业运营效益的目的。

3.3V电缆驱动器和均衡器

在很多应用中需要长距离传输数据.这包括在相当长距离上运行在400Mbps数据率的电信和视频有线电接口.用现有器件很容易实现长距离数据传输.

GRAPES_MESO V3.3模式强天气预报性能的初步检验

本文针对2013年6月升级后的GRAPES_MESO V3.3模式预报产品进行了天气学检验。检验结果表明:模式能够较好地反映强对流过程发生发展的水汽、稳定度和垂直风切变等物理条件,8-10月期间,预报准确率随着季节的转换而有所不同,对于达到一定阈值条件的部分物理参数预报效果较好,对业务具有较好的参考价值。模式对于强降水以及华北雷暴大风和冰雹等强天气过程具有一定的预报能力,特别是高时空分辨率的产品能够在一定程度上较好地描述过程的发生发展,但对于极端强降水、受地形影响的强降水等,预报能力有限。

DSP与CAN总线驱动器的一种接口方案研究

本文提出了一种3.3VDSP TMS320F2812与5VCAN总线驱动器PCA82C250的接口方案,用较简单的电路实现了电平转换功能,并介绍了研制中元器件的选型过程及要求,给出了方案电路中各元器件参数的测定方法。该设计方案已经成功应用到了控制器与上位机的通信当中,进行了理论设计并完成了试验验证,试验结果表明了其有效性和可靠性。

一种关于水文RTU电源稳定性的优化方案

本文简要的介绍了水文RTU(Remote Terminal Unit)远程测控终端的电源系统,针对传统水文RTU电源系统中电源切换电路、3.3V电源电路和现场仪表供电电路的缺点,分别提出了优化方法与改进措施。对于电源切换电路,利用Liner公司的LTC4412芯片控制MOSFET的导通,解决了电源在切换时产生纹波的现象;对于3.3V供电电路,利用磁环电感替换相同感值的柱状电感,使磁力线会集中在磁环电感中,避免了漏磁的产生;对于现场仪表供电电路,用MOSFET代替电磁继电器,解决了电磁继电器误动作和机械寿命短的问题。通过这三个部分优化了RTU电源系统,提高了电源系统的稳定性。

低电压FPGA/CPLD在5伏系统中的应用

介绍了不同电压接口存在的问题以及不同电压的逻辑标准,对低压FPGA/CPLD与5V电平接口的4种情形进行了详细分析,并以低压MAXⅡ芯片EPM1270为例介绍低压FPGA/CPLD在5伏系统中的应用方法。

55纳米CMOS图像传感器栅极多晶硅工艺研究

随着市场对于摄像设备的更多和更高性能的需求,基于互补金属氧化物晶体管的图像传感器CIS(CMOS image sensor)由于其优异的性能正逐步取代原有的电荷耦合器件(CCD)。华力55CIS平台将55LP(55纳米低功耗)工艺的逻辑区和客户的像素区结合起来,通过引入ONO(氧化硅/氮化硅/氧化硅)的硬掩模工艺,实现对像素区对高能量注入的阻挡和优化的多晶硅形貌。在后续的工艺中,多晶硅的再氧化,逻辑区输入/输出(IO)器件轻掺杂漏注入和硬掩膜的去除顺序会引起对核心器件区域,输入/输出器件(IO33)区域和像素区的硅表面的损伤,需要找出优化的工艺方案来确保器件性能和可靠性。本文通过对多晶硅的再氧化,逻辑区IO器件轻掺杂漏注入和硬掩膜的去除顺序的研究,找出了优化的工艺顺序,并对器件性能,可靠性进行评估。

Effects of progesterone on T-type-Ca^(2+)-channel expression in Purkinje cells

Plasticity of cerebellar Purkinje cells(PC)is influenced by progeste rone via the classical progeste rone receptors PR-A and PR-B by stimulating dendritogenesis,spinogenesis,and synaptogenesis in these cells.Dissociated PC cultures were used to analyze progeste rone effects at a molecular level on the voltage-gated T-type-Ca^(2+)-channels Ca_(v)3.1,Ca_(v)3.2,and Ca_(v)3.3 as they helped determine neuronal plasticity by regulating Ca^(2+)-influx in neuronal cells.The results showed direct effects of progesterone on the mRNA expression of T-type-Ca^(2+)-channels,as well as on the protein kinases A and C being involved in downstream signaling pathways that play an important role in neuronal plasticity.For the mRNA expression studies of T-type-Ca^(2+)-channels and protein kinases of the signaling cascade,laser microdissection and purified PC cultures of diffe rent maturation stages were used.Immunohistochemical staining was also performed to characte rize the localization of T-type-Ca^(2+)-channels in PC.Expe rimental progesterone treatment was performed on the purified PC culture for 24 and 48 hours.Our results show that progesterone increases the expression of Ca_(v)3.1 and Ca_(v)3.3 and associated protein kinases A and Cin PC at the mRNA level within 48 hours after treatment at latest.These effects extend the current knowledge of the function of progesterone in the central nervous system and provide an explanatory approach for its influence on neuronal plasticity.

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Ca_v3.3-mediated endochondral ossification in a three-dimensional bioprinted Gel MA hydrogel

The growth plate(GP)is a crucial tissue involved in skeleton development via endochondral ossification(EO).The bone organoid is a potential research model capable of simulating the physiological function,spatial structure,and intercellular communication of native GPs.However,mimicking the EO process remains a key challenge for bone organoid research.To simulate this orderly mineralization process,we designed an in vitro sh Ca_(v)3.3 ATDC5-loaded gelatin methacryloyl(Gel MA)hydrogel model and evaluated its bioprintability for future organoid construction.In this paper,we report the first demonstration that the T-type voltage-dependent calcium channel(T-VDCC)subtype Ca_(v)3.3 is dominantly expressed in chondrocytes and is negatively correlated with the hypertrophic differentiation of chondrocytes during the EO process.Furthermore,Ca_(v)3.3 knockdown chondrocytes loaded with the Gel MA hydrogel successfully captured the EO process and provide a bioink capable of constructing layered and orderly mineralized GP organoids in the future.The results of this study could therefore provide a potential target for regulating the EO process and a novel strategy for simulating it in bone organoids.