1.
The Study of Unique Signal and Encryption Technology of MEMS Discriminator;
MEMS强链的UQS码及加密技术研究
2.
Data encryption system based on double FPGA and MEMS stronglink
基于MEMS强链和双FPGA的硬盘加密系统
3.
Application of MEMS strong-link in system of hard-disk
MEMS强链在硬盘加密系统中的应用研究
4.
Physics Identification System Based on MEMS Stronglink and FPGA
基于MEMS强链和FPGA的物理认证系统
5.
Design of portable hard-disk encryption based on MEMS stronglink controlled by FPGA
FPGA控制MEMS强链的移动硬盘加密设计
6.
Design of Portable Hard-Disk Encryption System Based on MEMS Strong-Link Controlled by FPGA
FPGA控制MEMS强链的移动硬盘加密系统设计
7.
Research of Physical ID Authentication and Physical Encryption Technology to IDE Hard-Disk Based on MEMS Strong-Link
基于MEMS强链的IDE接口硬盘物理身份认证和物理加密
8.
Design for Integrated Navigation System Based on MEMS SINS and Magnetometer;
MEMS SINS/磁强计组合导航系统设计
9.
The Simulation of a New Type of Horizontal MEMS Tunneling Magnetometer;
一种新型水平式MEMS隧穿磁强计仿真
10.
On-Line Examination Method of Bonding Strength Measurement in Silicon MEMS Devices
硅MEMS器件键合强度在线检测方法
11.
Modeling and Simulation of MEMS Surface Resonant Magnetometer
MEMS水平谐振式磁强计的建模与仿真
12.
The chain is no stronger than its weakest link.
〔谚语〕一环软弱,全链不强。
13.
Study on Synthetical Strengthening Technology Test for Roller Chain
滚子链疲劳强度的综合强化试验研究
14.
Influence of Processing Methods for Plate Hole on Fatigue Strength of Roller Chain Plate
板孔加工方法对滚子链链板疲劳强度的影响
15.
Please note: Amulets are not enchantable. Scrolls of enchant armor will not work on these items.
请注意:项链是不可增强的。防具增强卷轴使用到项链上将不起作用。
16.
Round Link Connector Strength Analysis and Optimization Design;
高强度接链环强度的理论分析及优化设计
17.
Extender-dependent adhesive strength of the emulsion were also investigated.
还讨论了扩链剂对其粘结强度的影响。
18.
And when shot peening treater, the fatigue strength of the chian will improve 12.3%.
经喷丸处理链条疲劳强度可提高12.3%。