接触式悬臂梁RF-MEMS开关的研制与数值模拟分析

研究了一种直接接触悬臂梁式RF-MEMS开关,悬臂梁采用Al金属材料.开关通过静电控制,且与信号通道分离.为了优化材料结构和获得好的性能,进行了有限元ANSYS模拟.采用表面微加工工艺来制作开关,获得满意结果.器件的驱动电压为12V,与ANSYS模拟结果11V基本相符;器件的隔离度,在0.05～10GHz的范围内,实验测试与HFSS模拟的结果基本一致,都优于-20dB;器件的插入损耗,HFSS模拟小于-0.2dB,而实验测试小于-0.9dB,偏高是由于悬臂梁表面不平,导致接触电阻增大,在测试中引入接触阻抗所致.     

Wideband DC-contact MEMS series switch

The demonstration of a wideband DC-contact MEMS series switch on an alumina substrate is reported. The switch is based on a cantilever beam design. The tip of the cantilever beam was formed into a fork tip design, and its RF performance was measured and compared with a regular rectangular tip. This design reduced up-state capacitance from 10 to 3.8 fF. The beam with fork tip exhibited high isolation: -39, -32 and -17.3 dB at 5, 10 and 77 GHz, respectively. The measured insertion loss was -0.142, -0.172 and 0.36 dB at 5, 10 and 77 GHz, respectively. The switch had low actuation voltage (⩽39 V) and a relatively fast switching time of 45 s. To our knowledge, this is the first demonstration of a high-performance cantilever beam design DC-contact MEMS series switch at W-band frequencies.     

A novel pull-up type RF MEMS switch with low actuation voltage

We report a novel pull-up type radio frequency (RF) microelectromechanical system (MEMS) switch with no elastic deformation of the cantilever involved in the actuation. At a voltage of 4.5V, reliable actuations are achieved such that the movable lower contact pad is pulled up by the electrostatic force to make contact with the upper pad. At a frequency of 50GHz, an insertion loss of 0.5dB, a return loss of 12.4dB, and an isolation of 55dB are obtained from the switch. The measured transient times for switch-on and switch-off are 120 and 130ns, respectively. Compared to the MEMS switches reported thus far, the pull-up type switch shows the best switching speed and isolation characteristic at 50GHz.     

MEMS microswitches for reconfigurable microwave circuitry

The performance is reported for a new microelectromechanical structure (MEMS) cantilever microswitch. We report on both dc- and capacitively-contacted microswitches. The dc-contacted microswitches have contact resistance of less than 1 Ω, and the RF loss of the switch up to 40 GHz in the closed position is 0.1-0.2 dB. Capacitively-contacted switches have an impedance ratio of 141:1 from the open to closed state and in the closed position have a series capacitance of 1.2 pF. The capacitively-contacted switches have been measured up to 40 GHz with S₂₂ less than -0.7 dB across the 5-40 GHz band     

Piezoelectrically actuated RF MEMS DC contact switches with low voltage operation

In this paper, fully integrated radio frequency (RF) microelectromechanical system (MEMS) switches with piezoelectric actuation have been proposed, designed, fabricated, and characterized. At a very low operation voltage of 2.5V, reliable and reproducible operation of the fabricated switch was obtained. The proposed RF MEMS switch is comprised of a piezoelectric cantilever actuator with a floated contact electrode and isolated CPW transmission line suspended above the silicon substrate. The measured insertion loss and isolation of the fabricated piezoelectric switch are -0.22 dB and -42dB at a frequency of 2GHz, respectively.     

高隔离度宽频带MEMS双膜桥开关

利用一种新型双边加直流驱动电极的电容耦合式MEMS并联膜开关与直接接触式并联膜开关进行级联,形成MEMS双膜开关.通过对其尺寸和结构的优化,降低开关阈值电压,Coventor软件模拟表明,开关的阈值电压小于20V;通过对其匹配设计改善开关的高频性能,HFSS软件模拟的结果表明,在DC～20GHz整个频带内,开关的插入损耗优于-0.1dB,反射损耗低于-30dB,隔离度低于-20dB,在 谐振点处隔离度能达到-40dB.     

DCDC—20GHz射频MEMS开关

描述了 DC— 2 0 GHz射频 MEMS开关的设计和制造工艺 .开关为一薄金属膜桥组成的桥式结构 ,形成一个单刀单掷 (SPST)并联设置的金属 -绝缘体 -金属接触 .开关通过上下电极之间的静电力进行控制 ,其插入损耗及隔离性能取决于开态和关态的电容 .测试结果如下 :射频 MEMS开关驱动电压约为 2 0 V,在“开”态下 DC— 2 0 GHz带宽的插入损耗小于 0 .6 9d B;在“关”态下在 14— 18GHz时隔离大于 13d B,在 18— 2 0 GHz时隔离大于 16 d B.本器件为国内首只研制成功的宽带射频 MEMS开关     

High-isolation CPW MEMS shunt switches. 2. Design

For pt.1 see ibid., vol.48, no.6, p.1045-1052 (2000). In this paper, the second of two parts, the equivalent RLC model of the shunt switch is used in the design of tuned two- and four-bridge “cross” switches from 10 to 40 GHz. The cross switch attained an insertion loss of less than 0.3-0.6 dB, a return loss below -20 dB from 22 to 38 GHz in the up state, and a down-state isolation of 45-50 dB with only 1.5 pF of down-state capacitance (C_d). Also, an X-band microelectromechanical system (MEMS) switch with an insertion loss of less than 0.2 dB and an isolation of 35 dB is presented. This is done by inductively tuning the LC series resonance of the shunt switch. The MEMS bridge height is 1.5-2.5 μm, resulting in a pull-down voltage of 15-25 V. Application areas are in low-loss high-isolation communication and radar     

单刀双掷RF MEMS开关的研究与设计

介绍了一种基于横向金属接触的DC-5GHz单刀双掷RF MEMS开关的研究与设计．横向金属接触开关包括了一套有限的共面波导（FGCPW）传输线和左右摆动的悬臂梁．为了降低开启电压,设计了一种曲折型的折叠梁结构,通过理论分析与仿真实验验证了该结构的可行性,并利用MetalMUMPs工艺加以实现．测试结果显示,该开关在5GHz处的插入损耗为0．8dB,回波损耗大于20dB,隔离度为40dB．测得最低开启电压为33V．     

高隔离度S波段MEMS膜桥开关

常规的 MEMS膜桥开关在 1 0 GHz以上频段才具有低插损、高隔离度 (>2 0 d B)的优点。文中介绍了一种应用于微波低频段—— S波段的高隔离 MEMS膜桥开关 ,给出了开关的设计与优化方法 ,建立了开关的等效电路模型。通过双膜桥结构、选择高介电常数的介质膜、微电感结构膜桥这些措施 ,达到提高开关隔离度的目的。利用 HFSS软件仿真的结果表明 ,该开关在微波低频段 (3～ 6GHz)有着很好的隔离性能。开关样品在片测试的电性能指标 :插损 <0 .3 d B,隔离度 >40 d B,驱动电压 <2 0 V     

基于SP4T开关的4位MEMS开关线式移相器设计

设计了一款4位MEMS开关线式移相器,由SP4TMEMS开关和微带传输线构成,工作于X波段。单刀四掷(single pole 4throw,SP4T)开关用于切换两条不同电长度的信号通道,即参考相位通道和延迟相位通道。每个SP4T开关包含4个悬臂梁接触式RF MEMS串联开关。介绍了4位MEMS开关线式移相器的总体设计,并给出了其关键部件SP4T开关和相位延迟线的设计细节。采用ADS软件仿真分析了器件的电气性能。仿真分析得到:SP4T开关在中心频率10GHz处的回波损耗为-36dB,插入损耗约为0.18dB;移相器各相位的回波损耗均低于-15dB,插入损耗为-0.8～-0.4dB。这种射频MEMS移相器具有小型化、低功耗和高隔离度的优点。     

RF MEMS开关的设计分析

针对具有低损耗、高隔离度性能的微机电系统(Micro-Electro-Mechanical System,MEMS)开关,介绍了串联DC式和并联电容式的开关结构模型,并对并联电容式MEMS开关的工作原理、等效电路模型和制造工艺流程进行了描述,利用其模型研究了开关的微波传输性能,设计了一款电容耦合式开关并进行了仿真。由仿真结果可得,开关"开态"时的插入损耗在40 GHz以内优于-0.3 dB;开关"关态"时的隔离度在20～40 GHz相对较宽的频带内优于-20 dB。     

一种雪花型MEMS单刀五掷开关的研究与设计

针对MEMS单刀多掷(SPMT)开关插入损耗及隔离度较差的问题,设计了一种基于雪花型功分器的单刀五掷(SP5T)MEMS开关,通过雪花型功分器实现信号的均衡分配和低损耗传输.通过设计H形上电极结构,有效减小开关弱接触,增强开关接触稳定性,实现信号的高隔离.采用HFSS仿真软件,对开关的插入损耗、隔离、驱动电压和应力分布...     

Inline capacitive and DC-contact MEMS shunt switches

This paper presents inline capacitive MEMS shunt switches suitable for X/K-band and Ka/V-band applications. The inline switch allows for a low- or high-inductance connection to the ground plane without changing the mechanical characteristics of the MEMS bridge. Excellent isolation and loss are achieved with this design, and the performance is very similar to the standard capacitive MEMS shunt switch. Also, a new metal-to-metal contact MEMS shunt switch is presented. A novel pull-down electrode is used which applies the electrostatic force at the same location as the metal-to-metal contact area. A contact resistance of 0.15-0.35 Ω is repeatable, and results in an isolation of -40 dB at 0.1-3 GHz. The measured isolation is still better than -20 dB at 40 GHz. The application areas are in high-isolation/low-loss switches for telecommunication and radar systems     

横向接触式RF MEMS开关

提出了一种横向接触式RF MEMS开关,采用金属叉指结构进行驱动。通过结构建模和性能仿真,对叉指结构进行了优化,提高了机械性能,减小开关的尺寸。通过加大横向接触面积,降低接触电阻,减小开关导通态的插损,提高了开关的射频性能。利用低温表面牺牲层工艺在砷化镓衬底上进行了开关的流片,通过工艺的改进最终得到满意的流片结果。测试结果表明:在DC-20GHz频率范围内,开关的插入损耗小于0.3dB,隔离度大于20dB。     

RF MEMS开关工艺技术研究

RFMEMS开关是用MEMS技术形成的新型电路元件,与传统的半导体开关器件相比具有插入损耗低、隔离度大等优点,将对现有雷达和通信中RF结构产生重大影响。文章介绍了RFMEMS开关的基本工艺流程设计,工艺制作技术的研究。实验解决了种子层技术、聚酰亚胺牺牲层技术、微电镀技术的工艺难题,制作出了RFMEMS开关样品,基本掌握了RFMEMS器件的制作工艺技术。RFMEMS开关样品测试的技术指标为:膜桥高度2μm～3μm、驱动电压<30V、频率范围0～40GHz、插入损耗≤1dB、隔离度≥20dB,样品参数性能达到了设计要求。     

驱动与信号隔离的单刀双掷RF MEMS开关

设计了一种基于横向金属接触的DC-5 GHz单刀双掷RF MEMS开关,该开关包括一套有限地共面波导(FGCPW)传输线和左右摆动的悬臂梁。利用绝缘的介质层实现了驱动信号与射频信号的隔离,提高了开关的性能。根据开关的拓扑结构,提出相应的等效电路,并据此实现开关射频性能的优化设计。开关利用MetalMUMPs工艺实现,测试结果显示,该开关在5GHz的插入损耗为0.8dB,回波损耗大于20dB,隔离度为40dB。测得开关的开启电压为59V。     

RF MEMS单刀四掷矩阵开关的研究

介绍了一个RF MEMS单刀四掷矩阵开关的设计，用四个串联式、电阻接触型、悬臂梁RF MEMS开关制作在微带电路板上完成。在频带1～5GHz内，单刀四掷矩阵开关的插入损耗〈0．8dB，开关隔离度〉38dB，驻波系数〈1．2。悬臂梁开关的激励电压为直流电压35～45V。     

Low-voltage high-isolation DC-to-RF MEMS switch based on an S-shaped film actuator

This paper presents a new electrostatically actuated microelectromechanical series switch for switching dc to radio frequency (RF) signals. The device is based on a flexible S-shaped film moving between a top and a bottom electrode in touch-mode actuation. This concept, in contrast to most other microelectrochemical systems (MEMS) switches, allows a design with a low actuation voltage independent of the off-state gap height. This makes larger nominal switching contact areas for lower insertion loss possible, by obtaining high isolation in the off-state. The actuation voltages of the first prototype switches are 12 V to open, and 15.8 V to close the metal contact. The RF isolation with a gap distance of 14.2 /spl mu/m is better than -45 dB up to 2 GHz and -30 dB at 15 GHz despite a large nominal switching contact area of 3500 /spl mu/m/sup 2/.     

Low-voltage small-size double-arm MEMS actuator

The fabrication and characterisation of a double-arm cantilever-type metallic DC-contact MEMS actuator with low pull-down voltage are reported. Bi-layer TiW cantilevers with an internal stress gradient were fabricated using a microwave-compatible fabrication process. Owing to its small size, cantilever length (L = 5-50 mum) and width (W = 2-40 mum), i.e. ~10-100 times smaller in lateral dimensions than a standard MEMS actuator, this actuator showed actuation voltages lower than 10 V. RP measurements of the 10 mum-wide actuators yielded an average insertion loss less than 1 dB and isolation higher than 40 dB up to 25 GHz. The developed actuator is well suited for integration in reconfigurable microwave circuits and systems such as reconfigurable antennas and arrays.