A Ku‐Band 5‐Bit Phase Shifter Using Compensation Resistors for Reducing the Insertion Loss Variation

This paper describes the performance of a Ku‐band 5‐bit monolithic phase shifter with metal semiconductor field effect transistor (MESFET) switches and the implementation of a ceramic packaged phase shifter for phase array antennas. Using compensation resistors reduced the insertion loss variation of the phase shifter. Measurement of the 5‐bit phase shifter with a monolithic microwave integrated circuit demonstrated a phase error of less than 7.5° root‐mean‐square (RMS) and an insertion loss variation of less than 0.9 dB RMS for 13 to 15 GHz. For all 32 states of the developed 5‐bit phase shifter, the insertion losses were 8.2 ± 1.4 dB, the input return losses were higher than 7.7 dB, and the output return losses were higher than 6.8 dB for 13 to 15 GHz. The chip size of the 5‐bit monolithic phase shifter with a digital circuit for controlling all five bits was 2.35 mm × 1.65 mm. The packaged phase shifter demonstrated a phase error of less than 11.3° RMS, measured insertion losses of 12.2 ± 2.2 dB, and an insertion loss variation of 1.0 dB RMS for 13 to 15 GHz. For all 32 states, the input return losses were higher than 5.0 dB and the output return losses were higher than 6.2 dB for 13 to 15 GHz. The size of the packaged phase shifter was 7.20 mm × 6.20 mm.     

12-18GHz宽带铁氧体移相器设计*

采用矩波导结构形式,对影响饱和差相移的主要参数进行优化,设计了一个可工作于12-18GHz,带宽40%的双环铁氧体移相器,饱和差相移370°,频散约7.8°,插入损耗优于-0.4dB。整个带宽内最少存在三个高次模,但都未被激发。用两级转换器对宽度为15.8mm的空波导进行匹配,可实现反射损耗小于-20dB。计算结果还显示,通过调整两级匹配介质的介电常数和增加一个容性台阶,可以改善移相器的宽带匹配性能。按设计制作出的移相器实测性能:饱和差相移约360°,频散约8°,整个带宽内无损耗峰出现。在12-17.5GHz内插入损耗优于0.6dB,驻波小于1.4。     

基于加载线型Ka频段的五位数字移相器

数字移相器广泛应用于相控阵雷达中,本文采用一前一后加载支线的方法设计了 11.25°,22.5°和45°移相单元,以3 dB支线耦合器的形式设计90°和180°移相单元,在Ka频段研制出五位数字移相器。该移相器在30 GHz~31 GHz工作频带内,各移相单元实测相移误差最大为6.5°,最小为0.2°;插入损耗最大为11.8 dB,最小为8.6 dB;输入驻波比小于2,整个电路尺寸为110 mm×55 mm×25 mm。     

金属陶瓷贴片封装的S波段六位数控移相器

介绍了一款自主设计采用0.25μm GaAs PHMET开关工艺制作的的S波段六位数控移相器芯片和金属陶瓷表贴管壳内的设计方法和研制结果.该移相器在工作频带2.8～3.6 GHz内64个移相态的移相精度RMS＜1.0°、插入损耗IL＜5 dB、输入输出驻波比VSWR＜1.5、幅度均衡△IL＜0.3 dB、1分贝压缩输入...     

X波段4bit MMIC数字移相器的设计与实现

基于WIN 0.25 μm GaAs赝配高电子迁移率晶体管(PHEMT)工艺,设计并制备了一款X波段4 bit单片微波集成电路(MMIC)数字移相器.22.5°和45°移相单元采用开关滤波型拓扑结构,90°和180°移相单元采用高低通滤波型拓扑结构.对拓扑结构工作原理进行分析,并采用ADS2014软件完成电路的电磁仿真及优化.测试结果表明,该4 bit MMIC数字移相器获得了优良的宽带性能,且与仿真结果吻合良好.在8～ 13 GHz频带内,移相器的均方根(RMS)相位精度误差小于6.5°,插入损耗优于-6.8 dB,RMS插入损耗波动低于0.5 dB,输入回波损耗优于-13 dB,输出回波损耗优于-9.5 dB.该4 bit MMIC数字移相器在相对带宽为47％的X频段内性能优良,适用于有源相控阵雷达等通信系统中.     

X波段GaN五位数字移相器MMIC的设计

采用0.5μm GaN HEMT工艺设计了X波段五位数字移相器的单片微波集成电路(MMIC),描述了移相器的设计过程,并进行了版图电磁仿真。该移相器采用高低通滤波器型网络和加载线型结构。利用电路匹配技术设计移相器电路的开关结构,将GaN器件的插入损耗从14 dB降至1 dB。版图仿真结果表明,在9.2 GHz~10.2 GHz频带范围内,均方根移相误差小于3.5°,插入损耗典型值为17.4 dB,回波损耗小于-12 dB,版图尺寸为5.0 mm×4.7 mm。     

Distributed 2- and 3-bit W-band MEMS phase shifters on glass substrates

This paper presents state-of-the-art RF microelectromechanical (MEMS) phase shifters at 75-110 GHz based on the distributed microelectromechanical transmission-line (DMTL) concept. A 3-bit DMTL phase shifter, fabricated on a glass substrate using MEMS switches and coplanar-waveguide lines, results in an average loss of 2.7 dB at 78 GHz (0.9 dB/bit). The measured figure-of-merit performance is 93/spl deg//dB-100/spl deg//dB (equivalent to 0.9 dB/bit) of loss at 75-110 GHz. The associated phase error is /spl plusmn/3/spl deg/ (rms phase error is 1.56/spl deg/) and the reflection loss is below -10 dB over all eight states. A 2-bit phase shifter is also demonstrated with comparable performance to the 3-bit design. It is seen that the phase shifter can be accurately modeled using a combination of full-wave electromagnetic and microwave circuit analysis, thereby making the design quite easy up to 110 GHz. These results represent the best phase-shifter performance to date using any technology at W-band frequencies. Careful analysis indicates that the 75-110-GHz figure-of-merit performance becomes 150/spl deg//dB-200/spl deg//dB, and the 3-bit average insertion loss improves to 1.8-2.1 dB if the phase shifter is fabricated on quartz substrates.     

A production ready, 6-18-GHz, 5-b phase shifter with integratedCMOS compatible digital interface circuitry

A producible, high-yield, monolithic 6-18-GHz, 5-b phase shifter with integrated standard CMOS compatible digital interface circuitry has been developed for use over the -55 to +90°C temperature range. Differential phase shift is achieved using high-pass and low-pass filter structures. The integrated digital interface circuitry produces complementary outputs that are used to bias the phase-shifter bits. The integration of the digital interface circuitry, made with microwave FETs, reduced the phase-shifter bit control bias lines by a factor of 2. The phase shifter was fabricated at both Raytheon's and Texas Instruments' GaAs foundries in production quantities using a standard microwave process. Complete on-wafer RF tests were performed to screen the phase-shifter circuits and determine electrical yield. The phase shifter has an r.m.s. phase error <10° from 6.5 to 18 GHz, maximum insertion loss of 14 dB, and an r.m.s. amplitude error <0.8 dB over the 6-18-GHz band     

一种S频段反射型可调模拟移相器的设计

设计了一种应用于S频段卫星通信相控阵系统的反射型可调模拟移相器。该移相器利用三分支线定向耦合器扩展了带宽,改善了工作频段内驻波;采用传输线和变容二极管构成的L型反射负载扩大了相移量。测试结果表明,在上行频段1.98～2.01 GHz内,相移量达到191°±1°,在下行频段2.17～2.2 GHz内,相移量达到186°±0.1°;插入损耗优于3.3 dB且插入损耗波动小于1 dB,回波损耗在整个电压调谐范围内均大于20 dB。该移相器结构简单、便于调节且价格低廉,在卫星通信领域有一定的应用价值。     

Development of multiband phase shifters in 180-nm RF CMOS technology with active loss compensation

We present the design and development of a novel integrated multiband phase shifter that has an embedded distributed amplifier for loss compensation in 0.18-/spl mu/m RF CMOS technology. The phase shifter achieves a measured 180/spl deg/ phase tuning range in a 2.4-GHz band and a measured 360/spl deg/ phase tuning range in both 3.5- and 5.8-GHz bands. The gain in the 2.4-GHz band varies from 0.14 to 6.6 dB during phase tuning. The insertion loss varies from -3.7 dB to 5.4-dB gain and -4.5 dB to 2.1-dB gain in the 3.5- and 5.8-GHz bands, respectively. The gain variation can be calibrated by adaptively tuning the bias condition of the embedded amplifier to yield a flat gain during phase tuning. The return loss is less than -10 dB at all conditions. The chip size is 1200 /spl mu/m/spl times/2300 /spl mu/m including pads.     

11.25°毫米波数字移相器的设计

设计了一种Ka波段11.25°数字移相器。采用一前一后加载支线的方式,在Ka波段内研制出11.25°数字移相器。该移相器在30～31GHz工作频带内,驻波比小于1.65,插入损耗小于3dB,固定相移11.25°,相位精度达到±3°。     

Tunable liquid crystal phase shifter for microwave frequencies

A tunable phase shifter using liquid crystal (LC) is presented. The device is fabricated in a fashion similar to LC displays which makes fabrication very simple compared, for example, to MEMS approaches. At the targeted operation frequency of 20 GHz the device offers a performance of above 60 differential phase shift per dB insertion loss and a minimum tuning speed of 340 ms.     

A Low-Loss Ku-Band Monolithic Analog Phase Shifter

A GaAs monolithic Ku-band analog phase shifter integrating 90° branch line coupler with planar varactor diodes has been fabricated for the first time. A phase shift of 109° +- 3° with an insertion loss of 1.8+-0.3 dB was measured from 16 to 18 GHz. A 360° phase shifter with 4.2+-0.9 dB insertion loss was realized in the same frequency range by connecting three phase-shifter chips in series. To our knowledge, this is the lowest insertion loss obtained by a 360° Ku-band phase shifter using monolithic circuits. In addition, hyperabrupt varactors using nonuniform doping profiles increased the phase shift by more than 30° and produced a more linear dependence of phase shift on control voltage.     

A novel MMIC X-band phase shifter

A novel configuration for monolithic phase shifters is presented. The layout and fabrication of a single chip, four-bitX-band phase shifter, measuring 3.7 × 2.3 mm, is described in some detail. The first samples to be assessed exhibited full 360 ° coverage at the design frequency, operation throughout X-band, good matches, and an insertion loss less than 5 dB.     

基于开口谐振环的毫米波差分移相器设计

该文提出了一种工作于30~32 GHz的毫米波差分移相器，其尺寸为30 mm×18 mm×0.127 mm。该移相器以微带线为基础进行设计，由中心圆环及一对开口谐振环(SRR)共同组成。通过改变中心圆环的半径大小实现在工作频段内的S参数优化。以参考线的输出相位为基准，通过改变开口谐振环半径依次实现22.5°、45°、90°的差分移相。结果表明，在所设计的频段内，该移相器的回波损耗小于-10 dB，插入损耗小于1.4 dB，仿真最大移相误差小于5°。该移相器结构简单，便于制造。通过实物样品测试，验证了其仿真结果的可靠性。     

A hybrid phase shifter circuit based on TlCaBaCuO superconductingthin films

A superconductor-semiconductor hybrid reflection-type phase shifter circuit has been designed, fabricated, and characterized for 180° phase bit with center frequency of 4 GHz and bandwidth of 0.5 GHz for operation at 77 K. All of the passive components of the phase shifter circuit such as input/output feed lines, 3 dB Lange coupler, impedance matching networks, and transmission lines consisted of thallium based superconducting TlCaBaCuO thin films of 4000 Å thickness on lanthanum aluminate substrate. Metal-Schottky field-effect-transistors (MESFET's) on GaAs semiconductor were used as active devices for switching action (on-state and off-state) in the phase shifter circuit. The phase shift and insertion losses were investigated as a function of frequency from 3.6 to 4.6 GHz at 77 K. The circuit exhibited a fairly flat response of 180° phase shift with a maximum deviation of less than 2° and a maximum insertion loss of 2 dB for on-state and 2.2 dB for off-state conditions over 0.5 GHz bandwidth at 4 GHz. The insertion losses were also fairly flat within the bandwidth. The insertion losses were constant between 50 and 80 K, giving the circuit a large range of operation at or below 77 K. The performance of this circuit as compared to a gold microstrip-semiconductor circuit designed identically was superior by a factor of 1.5, and may be due to lower conductor losses and lower surface resistance in the superconducting microstrips     

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。     

C波段GaAs单片6位移相器

叙述了一种采用单片集成方式实现的Ｃ波段６位数字移相器的设计技术和研制结果。在ＨＰ－８５１０网络分析仪上的测试结果表明：在５．２～５．８ＧＨｚ频段，移相器插损为７．５±０．５ｄＢ，输入／输出驻波比好于１．５，均方根相移精度在５．５°以内。     

An MMIC active phase shifter using a variable resonant circuit [andMESFETs]

This paper describes a monolithic-microwave integrated-circuit (MMIC) active phase shifter using a variable resonant circuit with a large amount of variable phase. We first propose a novel active phase-shifter configuration that uses a variable resonant circuit with second-order all-pass network characteristics. Phase can be changed with a constant amplitude by varying the capacitance or the inductance of the resonant circuit. Next, an experimental MMIC active phase shifter with input active matching is presented. A phase shift of over 100° and an insertion loss of 4±1 dB are obtained from 2.2 to 2.8 GHz. The chip size is less than 1.0 mm². Finally, an experimental 360° MMIC active phase shifter is presented. Over the bandwidth of 40 MHz at 2.44 GHz, the insertion gain is 2.0±0.7 dB and the phase error is within ±4° when measured in 30° steps     

宽频带L波段360°模拟信号移相器的设计

该文介绍了宽频带360°模拟移相器的设计理论。针对移相器的线性调相、平衡插入损耗波动、宽频带等进行了详细的探讨,且推导出确定移相器频带宽度的目标函数。用CAD方法迅速而准确地优化各网络设计参量。采用微波集成电路工艺制作的L波段模拟移相器在1.3～2.1GHz范围内可获得360°连续可变相移,最大调相电压18V,中心频率线性度优于±2.5％,插入损耗波动小于3dB。综合性能均优于国内报道的移相器。