基于GaAs PHEMT工艺的60~90GHz功率放大器MMIC

研制了一款60~90 GHz功率放大器单片微波集成电路(MMIC),该MMIC采用平衡式放大结构,在较宽的频带内获得了平坦的增益、较高的输出功率及良好的输入输出驻波比(VSWR)。采用GaAs赝配高电子迁移率晶体管(PHEMT)标准工艺进行了流片,在片测试结果表明,在栅极电压为-0.3 V、漏极电压为+3 V、频率为60~90 GHz时,功率放大器MMIC的小信号增益大于13 dB,在71~76 GHz和81~86 GHz典型应用频段,功率放大器的小信号增益均大于15 dB。载体测试结果表明,栅极电压为-0.3 V、漏极电压为+3 V、频率为60~90 GHz时,该功率放大器MMIC饱和输出功率大于17.5 dBm,在71~76 GHz和81~86 GHz典型应用频段,其饱和输出功率可达到20 dBm。该功率放大器MMIC尺寸为5.25 mm×2.10 mm。     

用于W-LAN的5.8GHz InGaP/GaAs HBT MMIC线性功率放大器

介绍了一种应用于W-LAN系统的5.8 GHz InGaP/GaAs HBT MMIC功率放大器。该功率放大器采用了自适应线性化偏置电路来改善线性度和效率,同时偏置电路中的温度补偿电路可以抑制直流工作点随温度的变化,采用RC稳定网络使放大器在较宽频带内具有绝对稳定性。在单独供电3.6 V电压情况下,功率放大器的增益为26 dB,1 dB压缩点处输出功率为26.4 dBm,功率附加效率(PAE)为25%。三阶交调系数(IMD3)在输出功率为26.4 dBm时为-19 dBc,输出功率为20 dBm时低于-38 dBc,在1 dB压缩点处偏移频率为20 MHz时邻道功率比(ACPR)值为-31 dBc。     

A 77 GHz mHEMT MMIC Chip Set for Automotive Radar Systems

A monolithic microwave integrated circuit (MMIC) chip set consisting of a power amplifier, a driver amplifier, and a frequency doubler has been developed for automotive radar systems at 77 GHz. The chip set was fabricated using a 0.15 µm gate‐length InGaAs/InAlAs/GaAs metamorphic high electron mobility transistor (mHEMT) process based on a 4‐inch substrate. The power amplifier demonstrated a measured small signal gain of over 20 dB from 76 to 77 GHz with 15.5 dBm output power. The chip size is 2 mm × 2 mm. The driver amplifier exhibited a gain of 23 dB over a 76 to 77 GHz band with an output power of 13 dBm. The chip size is 2.1 mm × 2 mm. The frequency doubler achieved an output power of –6 dBm at 76.5 GHz with a conversion gain of ?16 dB for an input power of 10 dBm and a 38.25 GHz input frequency. The chip size is 1.2 mm × 1.2 mm. This MMIC chip set is suitable for the 77 GHz automotive radar systems and related applications in a W‐band.     

5W ISM波段InGaP/GaAs HBT功率放大器MMIC

通过分析InGaP/GsAsHBT器件的热学和电学特点,结合HBT大功率放大器芯片在技术性能、稳定性、可靠性及尺寸等方面的要求,通过优化设计HBT功率器件单元和匹配电路,开发了一个大功率、高效率、小尺寸的ISM波段功率放大器单片集成电路。该三级放大器的各级器件单元的发射极面积分别为320μm2,1280μm2,5760μm2,芯片内部包括了输入、输出50Ω匹配电路,面积仅为1.9mm×2.1mm。放大器采用5V单电源供电,在2.4～2.5GHz频率范围内线性增益为27dB,2dB增益压缩点输出饱和功率达到37dBm,功率附加效率为46%。     

An X-Band High-Power and High-PAE PHEMT MMIC Power Amplifier for Pulse and CW Operation

An X-band high-power and high power added efficiency (PAE), two-stage AlGaAs/InGaAs/GaAs psuedomorphic high electronic mobility transistor (PHEMT) monolithic microwave integrated circuit (MMIC) power amplifier is presented. The amplifier is designed to fully match a 50 Omega input and output impedance. Based on a 0.35 mum gate-length power PHEMT technology, the MMIC is fabricated on a 3 mil thick wafer. Under an 8 V DC bias condition, the characteristics of 17.5 dB small-signal gain, 10 W continuous wave mode saturation output power of 42% PAE, and 12.6 W pulse saturation output power of 52.6% PAE at 9.4 GHz can be achieved.     

A 4 W K-band GaAs MMIC power amplifier with 22 dB gain

A 4 W K-band AlGaAs/InGaAs/GaAs pseudomorphic high electron mobility transistor (PHEMT) mono-lithic microwave integrated circuit (MMIC) high power amplifier (PA) is reported. This amplifier is designed to fully match for a 50 Ω input and output impedance based on the 0.15 μm power PHEMT process. Under the condition of 5.6 V and 2.6 A DC bias, the amplifier has achieved a 22 dB small-signal gain, better than a 13 dB input return loss,and 36 dBm saturation power with 25% PAE from 19 to 22 GHz.     

High linearity 5.2-GHz power amplifier MMIC using CPW structure technology with a linearizer circuit

A built-in linearizer was applied to improve the linearity in a 5.2-GHz power amplifier microwave monolithic integrated circuit (MMIC), which was undertaken with 0.15-μm AlGaAs/InGaAs D-mode PHEMT technology.The power amplifier (PA) was studied taking into account the linearizer circuit and the coplanar waveguide (CPW) structures. Based on these technologies, the power amplifier, which has a chip size of 1.44 × 1.10 mm~2, obtained an output power of 13.3 dBm and a power gain of 14 dB in the saturation region. An input third-order intercept point (IIP_3) of-3 dBm, an output third-order intercept point (OIP_3) of 21.1 dBm and a power added efficiency (PAE) of 22% were attained, respectively. Finally, the overall power characterization exhibited high gain and high linearity, which illustrates that the power amplifier has a compact circuit size and exhibits favorable RF characteristics. This power circuit demonstrated high RF characterization and could be used for microwave power circuit applications at 5.2 GHz.     

Linearised InGaP/GaAs HBT MMIC power amplifier with active biascircuit for W-CDMA application

A high linearity InGaP/GaAs heterojunction bipolar transistor (HBT) monolithic microwave integrated circuit (MMIC) power amplifier is demonstrated using a new structure for a bias circuit for wideband-code division multiple access (W-CDMA) application. A one shunt capacitor is added to a novel active bias circuit and acts as a lineariser improving input P_{1 dB} of 16 dB and phase distortion of 5.1° for the hybrid phase shift keying (HPSK) modulated signal at the 28 dBm output power; the lineariser showing no significant increase of signal loss and chip area. The two-stage HBT MMIC amplifier exhibits a power-added efficiency (PAE) of 37%, a linear power gain of 24.5 dB, and an output power of 28 dBm with an adjacent channel power ratio (ACPR) of -45 dBc, under a 3 V operation voltage     

19WC-波段MMIC多芯片合成功率放大器

报告了一个两级 C-波段功率单片电路的设计、制作和性能 ,该单片电路包括完全的输入端和级间匹配 ,输出端的匹配在芯片外实现 ,该放大器在 5.2～ 5.8GHz带内连续波工作 ,输出功率大于 36.6d Bm,功率增益大于 18.6d B,功率附加效率 34 % ,4芯片合成的功率放大器在 4 .7～ 5.3GHz带内 ,输出功率大于 4 2 .8d Bm( 19.0 W) ,功率增益大于 18.8d B,典型的功率附加效率为 34 %。     

一种自适应线性化偏置的单片集成功率放大器

提出一种自适应线性化偏置的电路结构,通过调节控制电压改变偏置管的工作状态,提高功率放大电路的线性度,降低偏置电流对参考电压和环境温度的敏感度.利用双反馈环结构抑制输入阻抗随频率的变化,实现了宽带匹配,拓展了放大器的带宽.采用微波电路仿真软件AWR进行仿真,验证了带宽范围内的相位偏离度在2°以内.基于2μm InGaP/GaAs HBT工艺,设计了集成电路版图并成功流片.测试结果表明:在3.5V电压供电下,该放大器在1～2.5 GHz频带范围内,输入反射系数均在-10 dB以下,功率增益为23 dB,输出功率大于30 dBm,误差向量幅度在2.412 GHz时为.2.7％@24 dBm,最大功率附加效率达40％.     

Ka波段5W GaAs PHMET功率MMIC

报道了一款采用0.15μm GaAs功率MMIC工艺研制的Ka波段功率放大器芯片。芯片采用四级放大拓扑结构,在29～32GHz频带范围内6V工作条件下线性增益25dB,线性增益平坦度小于±0.75dB;饱和输出功率大于5W,饱和效率大于20%,功率增益大于22dB;1dB压缩点输出功率大于36.5dBm,效率大于18%。     

A 4-W X-band compact coplanar high-power amplifier MMIC with 18-dB gain and 25% PAE

The performance of a compact coplanar microwave monolithic integrated circuit (MMIC) amplifier with high output power in the X-band is presented. Based on our 0.3-/spl mu/m gate-length GaAs power pseudomorphic high electron mobility transistor (PHEMT) process on 4-in wafer, this two-stage amplifier, having a chip size of 16 mm/sup 2/, averages 4-W continuous-wave (CW) and 25% mean power-added efficiency (PAE) in the X-band, with more than 18-dB linear gain. Peak output powers of P/sub -1dB/=36.3dBm (4.3 W) and P/sub sat/ of 36.9 dBm (4.9 W) at 10 GHz with a PAE of 50% were also measured. Compared to previously reported X-band coplanar high-power amplifiers, this represents a chip size reduction of 20%, comparable to the size of compact state-of-the-art microstrip power amplifiers.     

A Compact 6.5-W PHEMT MMIC Power Amplifier for Ku-Band Applications

A compact 6.5-W AlGaAs/InGaAs/GaAs PHEMT monolithic microwave integrated circuit (MMIC) power amplifier (PA) for Ku-band applications is proposed. This two-stage amplifier with chip size of 8.554mm² (3.64mmtimes2.35mm) is designed to fully match 50-Omega input and output impedance. Under 8V and 2000mA dc bias condition, the PA deliver 38.1dBm (6.5W) saturated output power, 10.5-dB small signal gain and peak power added efficiency of 24.6% from 13.6 to 14.2GHz. This MMIC also achieved the best power densities (760mW/mm²) at Ku band reported to date     

6‐GHz‐to‐18‐GHz AlGaN/GaN Cascaded Nonuniform Distributed Power Amplifier MMIC Using Load Modulation of Increased Series Gate Capacitance

A 6‐GHz‐to‐18‐GHz monolithic nonuniform distributed power amplifier has been designed using the load modulation of increased series gate capacitance. This amplifier was implemented using a 0.25‐μm AlGaN/GaN HEMT process on a SiC substrate. With the proposed load modulation, we enhanced the amplifier's simulated performance by 4.8 dB in output power, and by 13.1% in power‐added efficiency (PAE) at the upper limit of the bandwidth, compared with an amplifier with uniform gate coupling capacitors. Under the pulse‐mode condition of a 100‐μs pulse period and a 10% duty cycle, the fabricated power amplifier showed a saturated output power of 39.5 dBm (9 W) to 40.4 dBm (11 W) with an associated PAE of 17% to 22%, and input/output return losses of more than 10 dB within 6 GHz to 18 GHz.     

5~6GHz自适应线性化偏置的InGaP/GaAs HBT功率放大器

针对高质量无线局域网的传输需求,设计了一款工作在5~6 GHz的宽带磷化镓铟/砷化镓异质结双极型晶体管(InGaP/GaAs HBT)功率放大器芯片。针对HBT晶体管自热效应产生的非线性和电流不稳定现象,采用自适应线性化偏置技术,有效地解决了上述问题。针对射频系统的功耗问题,设计了改进的射频功率检测电路,以实现射频系统的自动增益控制,降低功耗。通过InGaP/GaAs HBT单片微波集成电路(MMIC)技术实现该功率放大器芯片。仿真结果表明,功放芯片的小信号增益达到32 dB;1 dB压缩点功率为28.5 dBm@5.5 GHz,功率附加效率PAE超过32%@5.5 GHz;输出功率为20 dBm时,IMD3低于-32 dBc。     

A Ku band four-stage PHEMT 1W MMIC power amplifier

A successful development of a very high performance and reliable power PHEMT MMIC technology is reported. In this paper, a Ku-Band 1 W AlGaAs/InGaAs/GaAs PHEMT MMIC power amplifier for VSAT ODU application is demonstrated. This four-stage amplifier is designed to fully match for a 50 Ω input and output impedance. With 7 V and 700 mA DC bias condition, the amplifier has achieved 30 dB small-signal gain, 30.8 dBm 1-dB gain compression power with 24.5% power-added efficiency (PAE) and 31.3 dBm saturation power with 27.5% PAE from 14 to 17 GHz.     

6-18 GHz高效率功率MMIC设计与测试

A three-stage monolithic microwave integrated circuit （MMIC） power amplifier from 6-18 GHz, which achieves high output power with excellent efficiency, is designed, fabricated and tested. Measured results show that the saturated output power and the small signal gain are about 32 dBm and 23 dB, respectively. Thus, the power added efficiency of about 28% indicates that it is useful in various communication systems.     

Design of 35 GHz 1 Watt GaAs pHEMT Power Amplifier MMIC

By using 0.15μm GaAs pHEMT (pseudomorphic high electron mobility transistor)technology,a design of millimeter wave power amplifier microwave monolithic integrated circuit(MMIC)is presented.With careful optimization on circuit structure,this two-stage power amplifier achieves a simulated gain of 15.5dB with fluctuation of 1 dB from 33 GHz to 37GHz.A simulated output power of more than 30dBm in saturation can be drawn from 3 W DC supply with maximum power added efficiency(PAE)of 26%.Rigorous electromagnetic simulation is performed to make sure the simulation results are credible.The whole chip area is 3.99mm2 including all bond pads.     

9～15GHz GaAs E-PHEMT高性能线性功率放大器

基于0.15 μm GaAs增强型赝配高电子迁移率晶体管(E-PHEMT)工艺,研制了一款用于5G通信和点对点传输的高性能线性功率放大器单片微波集成电路(MMIC).采用栅宽比为1:4.4的两级放大结构保证了电路的增益和功率指标满足要求;基于大信号模型实现了最优输入输出阻抗匹配:采用电磁场仿真技术优化设计的MMIC芯片尺寸为2.5 mm×1.1 mm.芯片的在片测试结果表明,静态直流工作点为最大饱和电流的35％、漏压为5V的条件下,在9 ～15 GHz频率内,MMIC功率放大器小信号增益大于20 dB,1 dB压缩点输出功率不小于27 dBm,功率附加效率不小于35％,功率回退至19 dBm时三阶交调不大于-37 dBc.     

A Ka-band 22 dBm GaN amplifier MMIC

A Ka-band GaN amplifier MMIC has been designed in CPW technology,and fabricated with a domestic GaN epitaxial wafer and process.This is,to the best of our knowledge,the first demonstration of domestic Kaband GaN amplifier MMICs.The single stage CPW MMIC utilizes an AlGaN/GaN HEMT with a gate-length of 0.25μm and a gate-width of 2×75μm.Under V_ds=10 V,continuous-wave operating conditions,the amplifier has a 1.5 GHz operating bandwidth.It exhibits a linear gain of 6.3 dB,a maximum output power of 22 dBm and a peak PAE of 9.5%at 26.5 GHz.The output power density of the AlGaN/GaN HEMT in the MMIC reaches 1 W/mm at Ka-band under the condition of V_ds=10 V.