Study on Inertial Response Performance of A Micro Electrical Switch for Fuze

The design,modeling,and simulation of a micro electrical switch for fuze are presented.It consists of springemass system with zigzag slot in mass,latching and electrical connection mechanism and movement-limit mechanism.The switch keeps off-state until it is subjected to an acceleration when fuze is launched normally.The acceleration is simulated as half-sine pulse with specific amplitude and duration.The dynamics model of the switch is studied.Based on zigzag slot in mass,the methods used for recognizing acceleration load are established and analyzed according to the dynamics theory.Two typical half-sine accelerations are loaded on the switch in simulation.The simulation results are in accordance with those of theoretical analysis.The inertial response characteristics of the switch can ensure that the fuze power supply and circuit are connected safely and reliably.

低g值MEMS惯性开关研究进展

微机电系统(MEMS)惯性开关是集传感与执行为一体的无源电子器件,具有体积小、重量轻、易集成、加工一致性好、免装配等优势,在汽车工业、航空航天、武器装备等领域具有广阔的应用前景。低g值MEMS惯性开关的应用场景主要为飞行器加/减速过程特定功能的触发,在设计时应保证弹簧刚度低,质量块体积大,在结构设计与加工工艺中存在一定难度。本文介绍了低g值MEMS惯性开关的基本物理模型和工作原理,对国内外研究现状进行了阐述,总结了现阶段迫切需要解决的关键问题,并提出相应解决思路,为后续研究提供有益参考。

具有阈值可调功能的磁自锁MEMS惯性开关

设计了一种阈值为5g的低g值磁自锁微机电系统(MEMS)惯性开关,具有阈值可调和自回复功能。该惯性开关的惯性敏感单元由1个方形质量块、1块固定在质量块下的方形棋盘状磁铁和4根支撑它的方形阿基米德螺旋梁组成。磁铁和4块位于移动电极下方的铁磁性固定电极、双层平面线圈一起共同实现磁自锁和阈值调节功能。通过有限元仿真软件ANSYS对其进行仿真分析,利用激光加工和PCB工艺制造样片机,并通过离心机对样品进行性能测试。测试结果显示,制作的MEMS惯性开关在垂直敏感方向上的阈值加速度为5.27g,通过施加−0.5~0.5 A范围的电流,阈值的调整范围为6g~3.75g。结果表明此结构能够在实现闭锁功能的同时,在无外力作用的情况下实现自回复,且在一定范围内阈值可调。

基于AMESim的压力调节器结构优化

针对现有某型涡桨飞机发动机的防冰系统配套压力调节器在真空环境下出口压力衰减及不能反馈开关位置信号的问题,采用真空波纹管结构对压力调节器先导阀进行结构改进,保证先导腔压力的稳定,并利用AMESim软件对压力调节器进行性能仿真,计算蝶板在正常工作压力状态下的最小开启角度,以此对微动开关进行调整,实现全部工作区下位置信号指示。试验结果表明:在真空环境下,真空波纹管结构压力调节器出口压力相对于地面环境波动较小,可满足要求;AMESim软件对蝶板开启角度的计算结果较为可靠,为开关状态信号的设置提供了有力支撑。

基于螺旋弹簧的引信用低g值MEMS惯性开关

微机电系统(MEMS)惯性开关在引信领域有广阔的应用前景,但可用于引信工作环境的低g值型MEMS惯性开关较少。对此,为低发射过载的弹药引信提出一种低闭合阈值的MEMS惯性开关设计方案,满足引信识别低g值冲击信号的功能需求,实现稳定接通引信电源的功能,同时具备抵抗引信工作环境中高过载的能力,提高引信可靠性。依据触发信号特征和引信工作环境提出设计要求,对惯性开关的振荡模型进行理论分析,阐明惯性开关结构尺寸对开关性能的影响规律,给出开关整体设计方案,并应用ANSYS有限元软件对设计结果进行仿真验证。仿真结果表明,所设计的惯性开关能够监测幅值为20g、脉宽为1 ms的冲击信号,开关响应时间小于1 ms,电极接触时间长于30μs,抗过载性能达到12 000g,满足性能指标要求。

基于微课的翻转课堂教学模式应用探索——以“路由与交换技术”课程为例

基于微课的“路由与交换技术”课程翻转课堂教学模式,通过多媒体技术、计算机技术和现代教育技术,为学生创设生动的教学情境,实现基于“学”的“教”,基于“互动”的“传授”,并从教学模式的应用思路和注意事项的角度对其具体实施方法加以探讨,让教学改革真正落地。作者对比传统教学模式后发现,基于微课的翻转课堂教学模式能够增强教学的灵活性和针对性,帮助学生更好地掌握理论知识,促进学生同教师之间的互动与合作,从而提升整体教学效果。

Sensitivity analysis of pull-in voltage for RF MEMS switch based on modified couple stress theory

An approximate analytical model for calculating the pull-in voltage of a stepped cantilever-type radio frequency （RF） micro electro-mechanical system （MEMS） switch is developed based on the Euler-Bernoulli beam and a modified couple stress theory, and is validated by comparison with the finite element results. The sensitivity functions of the pull-in voltage to the designed parameters are derived based on the proposed model. The sensitivity investigation shows that the pull-in voltage sensitivities increase/decrease nonlinearly with the increases in the designed parameters. For the stepped cantilever beam, there exists a nonzero optimal dimensionless length ratio, where the pull-in voltage is insensitive. The optimal value of the dimensionless length ratio only depends on the dimensionless width ratio, and can be obtained by solving a nonlinear equation. The determination of the designed parameters is discussed, and some recommendations are made for the RF MEMS switch optimization.

Research on Seamless Switching Control Strategy Based on Virtual Synchronous Generator

This paper studies the voltage, phase and current tracking strategy to eliminate voltage and current mutations when the virtual synchronous generator is switching between grid-connected and islanded. By using these strategies the inverter can realize secondary frequency regulation and voltage regulation. If the phase is near 0 or 2π a little disturbance may made the PLL output a big error, so a new PLL is proposed by this paper. A sine module is added in the PLL to avoid this error. In order to verify the strategy proposed by this paper a simulation model is built in Matlab/Simulink. The simulation results show that the control strategy can realize seamless switching.

Study of Multi-Function Micro-Plasma Spraying Technology

A multi-functional micro-arc plasma spraying system was developed according to aerodynamics and plasma spray theory. The soft switch IGBT （Insulated Gate Bipolar Transistor） invert technique, micro-computer control technique, convergent-divergent nozzle structure and axial powder feeding techniques have been adopted in the design of the micro-arc plasma spraying system. It is not only characterized by a small volume, a light weight, highly accurate control, high deposition efficiency and high reliability, but also has multi-functions in plasma spraying, welding and quenching. The experimental results showed that the system can produce a supersonic flame at a low power, spray Al2O3 particles at an average speed up to 430 m/s, and make nanostructured AT13 coatings with an average bonding strength of 42.7 MPa. Compared to conventional 9M plasma spraying with a higher power, the coatings with almost the same properties as those by conventional plasma spray can be deposited by multi-functional micro-arc plasma spraying with a lower power plasma arc due to an improved power supply design, spray gun structure and powder feeding method. Moreover, this system is suitable for working with thin parts and undertaking on site repairs, and as a result, the application of plasma spraying will be greatly extended.

A Novel Approach in RF-MEMS Switch Analysis Using Time Domain TLM Method

In this paper the transmission line matrix (TLM) method is exploited to evaluate the electromagnetic field distribution over a new radio frequency micro electromechanical system (RF-MEMS). A hybrid symmetrical condensed node is used to analyze S-parameters of the switch in on and off states. Furthermore, the effects of spring zigzag cuts over the bridge are analyzed. Results have authorized that TLM method offers a much faster and more reliable results compare to other numerical methods because of its time domain behavior and transmission line basis.

微惯性开关制作过程中界面结合强度研究

在利用微电铸工艺制作惯性开关的过程中,经常会出现由于界面结合强度低而引起的铸层翘起问题。微电铸层与基板的界面结合强度低会降低微开关的制作成品率、延长制作周期、增加制作成本。针对这一问题,本文从界面钝化膜的角度,采用了“电解活化去除钝化膜”和“引入Cu过渡层”的方法。为探究钝化膜对界面结合强度的影响,通过Materials Studio软件对不同钝化膜去除率模型的界面结合能进行仿真计算,计算结果表明钝化膜去除率越高越有利于界面结合强度的提高,在完全去除钝化膜后界面结合强度提高了197%;为探究过渡金属对界面结合强度的影响,分别以Cu,Cr,Ti作为过渡层,与不锈钢基板和镍铸层建立结合层体系,计算体系的结合能,计算结果表明Cu与基板、Cu与铸层的结合能最高,与未引入过渡金属相比,引入Cu后界面结合强度提高了81%。在仿真研究结果的基础上,开展了电解活化实验,通过电解活化法去除了基板表面的钝化膜,实验结果表明:电解活化区域铸层的界面结合强度明显高于未活化区域铸层的界面结合强度;同时开展了铜过渡层实验,对比了有无Cu过渡层的界面结合强度,实验结果表明:引入Cu后,铸层的界面结合强度明显提高。在上述仿真和实验结果的基础上,制作出尺寸为23 mm×20 mm、总高度为900μm的微惯性开关。

Noise analysis and characterization of a full differential CMOS interface circuit for capacitive closed-loop micro-accelerometer

To achieve a high precision capacitive closed-loop micro-accelerometer,a full differential CMOS based on switched-capacitor circuit was presented in this paper as the sensor interface circuit.This circuit consists of a balance-bridge module,a charge sensitive amplifier,a correlated-double-sampling module,and a logic timing control module.A special two-path feedback circuit configuration was given to improve the system linearity.The quantitative analysis of error voltage and noise shows that there is tradeoff around circuit's noise,speed and accuracy.A detailed design method was given for this tradeoff.The noise performance optimized circuit has a noise root spectral density of 1.0 μV/Hz,equivalent to rms noise root spectral density of 1.63 μg/Hz.Therefore,the sensor's Brown noise becomes the main noise source in this design.This circuit is designed with 0.5 μm n-well CMOS process.Under a ±5 V supply,the Hspice simulation shows that the system sensitivity achieves 0.616 V/g,the system offset is as low as 1.456 mV,the non-linearity is below 0.03%,and the system linear range achieves ±5 g.

一种X波段三叉H型低电压RF MEMS开关设计

针对射频电路系统所需要的低电压,高隔离度,低插入损耗的应用需求,通过对开关正对面积对驱动电压产生的影响进行探究,设计了一款应用于X波段三叉H型的RF MEMS开关。开关具有六条悬臂梁作为支撑,通过增大上极板面积来降低开关的开启电压。分别使用HFSS和COMSOL对开关的射频性能和机械性能进行仿真,开关最终优化后,在8-12 GHz内,插入损耗为0.26~0.57 dB,隔离度大于31.30 dB。在10.1 GHz达到最优值,插入损耗为0.40 dB,隔离度为50.25 dB。开关电压在11V时就能够实现状态转换,开关的响应时间为18μs。此开关可与射频可重构器件结合,应用于新一代射频微波领域。

电机用直流圆盘式电磁制动器的安装调整应用解析

主要讲述电机用直流圆盘式电磁制动器的工作原理和间隙调整方法,说明电磁制动器的选择,气隙调整控制措施,制动刹车时间和制动器电源的控制原理。根据安装运转过程中可能出现的不良状况,阐述制动器使用中应注意的问题,并对可能存在的故障隐患进行分析。

座椅靠背微动开关可靠性试验及失效探讨

微动开关[1]的触点间距小、动作行程短、按动力小、通断迅速等优点,被广泛地应用在汽车电子智能、安全、控制领域。然而,车用零部件的使用环境往往比较严苛,经常面临着气候负荷、机械负荷和电气负荷。本文针对座椅靠背微动开关进行可靠性试验探讨,并对其试验失效现象进行分析。目的为了帮助厂家能够更清晰地暴露产品问题所在,更高效地完成可靠性验证并保证其产品质量。

射流微通道耦合高效散热器传热实验研究

针对光导开关高重复频率运行时产生丝电流加热,使光导开关温度迅速超过材料最高允许使用温度,造成开关失效或损伤的难题,本文结合微通道散热技术和射流冷却技术的优点,设计了射流微通道耦合高效散热器。通过实验测试,对不同运行工况下射流微通道耦合高效散热器的传热特性进行了研究,并与美国进口的蜂窝型微通道散热器进行散热性能对比。实验结果表明:体积流量为3 L/min的情况下,射流微通道耦合高效散热器的换热系数超过35000 W/(K·m^(2)),散热量高达1000 W,相比蜂窝型微通道散热器散热量提升了45%。在测试流量下,随着体积流量的增加,射流微通道耦合高效散热器的平均换热系数接近线性增加,而蜂窝型微通道散热器的平均换热系数在大流量下却增加缓慢。此外,采用射流微通道耦合高效散热器冷却的热源面温度均匀性明显优于采用蜂窝型微通道散热器冷却的热源面温度均匀性,采用射流微通道耦合高效散热器的热源面温度波动能降低58%,更有利于降低光导开关热应力。

航天炉粉煤加压气化装置阀门阀位检测故障原因分析与改造

航天炉粉煤加压气化装置部分远程控制阀门阀位反馈信号延时迟滞严重、阀门开关状态频繁跳变,严重干扰正常操作,威胁气化装置的安全稳定运行。通过分析阀位检测微动开关和相匹配的安全栅间的结构,发现电气开关周期已达上限,无法正常工作,原因是安全栅选型不当。对安全栅重新选型、安装后,解决了现场阀门位置检测异常的问题,确保了气化装置的安全稳定运行。

微电网光储多源协调及多模式平滑切换控制

传统新能源微电网由于微源(光伏(PV)、储能)种类的不同,存在逆变器种类较多、系统整体控制层级复杂等缺点。针对光储微电网供电系统,提出整合传统光伏、储能逆变器于一体的两级式光储微电网逆变结构,实现了光伏组件与储能设备的多源协调管理。基于所提架构详细分析了光储多源协调供电系统控制方案,实现了新能源光储微电网在孤岛与并网模态下稳定工作,以及不同工作模态下的平滑切换控制。同时针对孤岛模态下负载不平衡等问题,提出了光储微电网逆变器机端电压平衡控制策略。最后通过搭建额定功率15 kVA光储微电网逆变器原理样机,对所提新能源光储微电网逆变拓扑及控制方案可行性开展了实验验证。

基于相位调制表面角反射器的ISAR图像调制方法

针对空中目标对抗逆合成孔径雷达(inverse synthetic aperture radar,ISAR)成像侦察的无源防护手段防护面积有限和灵活性不足的问题,提出了一种基于相位调制表面(phase-switched screen,PSS)角反射器的ISAR图像调制方法.分析了互旋角反射器结构在施加PSS周期调制前后的ISAR成像特性,揭示了其对ISAR图像的干扰特点;基于距离向干扰的扩展需求,分析了PSS双极性调制波形和三角阶梯相位调制波形的频谱特性,并据此制定了不同的干扰策略;设计仿真实验,分析了在互旋PSS角反射器上加载不同的调制信号的干扰效果.仿真结果表明:未施加PSS调制时,互旋角反射器结构的距离向干扰范围仅受限于其物理尺寸;施加PSS调制之后,根据不同的策略可使距离向干扰范围扩展至3~7倍,上述仿真结果与理论分析一致.本文方法结合了有源干扰与无源干扰的优势,具有结构简单、成本低廉、隐蔽性好、使用灵活的优点,可使空中目标采用较小尺寸的无源防护装置即可灵活对抗ISAR成像侦察.

柱上开关状态监测与故障诊断技术研究

针对传统柱上开关监测与故障诊断技术存在硬件设备不够完善、监测时间长、监测精度低的问题,采用储存电能电动机状态监测装置和多分类柱上开关状态故障诊断算法模型对现有方法进行了改良。构建出了具有数据采集模块、数据传输模块、数据计算模块、用户服务模块的柱上开关状态监测系统。对于所收集到的柱上开关状态监测数据进行深入的分析与计算,从而实现完善的监测硬件设备,较短的监测时间以及很高的监测精度。通过实验表明,本设计最低监测精度可达95%,在小数据量数据包最快所需监测时间只要10s。