一种L波段300W GaN脉冲功率模块

随着第三代半导体GaN器件技术的不断发展,GaN高电子迁移率晶体管(HEMT)在电子系统中逐步得到了广泛应用。研制了一款小型化L波段300 W GaN脉冲功率模块。研发了满足高压脉冲工作条件的GaN HEMT芯片,采用负载牵引技术进行了器件大信号阻抗参数提取,并以此为基础设计了小型化匹配网络进行阻抗变换。基于高压驱动芯片和开关器件芯片设计了小型化高压脉冲调制电路。测试结果表明,在工作频率990~1130 MHz、工作电压50 V、脉冲宽度100μs、占空比10%下,功率模块脉冲输出功率大于300 W,功率附加效率大于53%,功率增益大于38 dB。功率模块尺寸为30 mm×30 mm×8 mm。

0.2~2.0GHz100W超宽带GaN功率放大器

设计并实现了一款基于0.25μm GaN高电子迁移率晶体管(HEMT)工艺的100 W超宽带功率放大器。基于SiC无源工艺设计了集成无源器件(IPD)输入预匹配电路芯片;设计了基于陶瓷基片的T型集成输出预匹配电路;基于建立的传输线变压器(TLT)的精确模型,设计了宽带阻抗变换器,在超宽频带内将50Ω的端口阻抗变换至约12.5Ω,再通过多节微带电路与预匹配后的GaN HEMT芯片实现阻抗匹配。最终,以较小的电路尺寸实现了功率放大器的超宽带性能指标。测试结果表明,功率放大器在0.2~2.0 GHz频带内,在漏极电压36 V、输入功率9 W、连续波的工作条件下,输出功率大于103 W,漏极效率大于50%,输入电压驻波比(VSWR)≤2.5。

新型连续B/J类功率放大器设计

为满足无线通信技术对高性能功率放大器的需求,提出一种新型宽带高效率B/J类功率放大器的设计方法。区别于传统连续B/J模式,设计中引入变量因子重塑其时域电压波形表达式,推导出扩展的阻抗设计空间。扩展的阻抗设计空间增加了阻抗匹配的灵活度,拓展了带宽,同时仿真表明可获得与传统连续B/J类功率放大器相同的功率和效率。基于此新型阻抗匹配技术,设计了一款工作频段为1.5~2.5 GHz的GaN HEMT宽带功率放大器。测试结果表明,在该频率范围内,输出功率大于40.6 dBm,漏极效率为72.4%~79.1%,增益为10.6~11.9 dB表明,所提出方法具有有效性.

数字功放电路设计中的效率优化策略分析

阐述基于分析功率放大电路的原理和现有的效率优化策略,提出一种提高数字功放的设计方案,并进行性能评估和效果验证。结果表明,新方案在提高功率放大电路效率方面具有良好的效果。

D类音频功放的双声道转单声道电路设计

本文设计了一种适用于D类音频功放的双声道转单声道电路,可有效将立体声放大器转换为单声放大器。该电路有效降低了功放的输出阻抗,减小了输出功率管的耗散功率,提升了效率;同时,因其并行工作的原理,单声道模式的总承载电流增大,相同总谐波失真下单声道模式的最大输出功率得到提升。

A Hybrid Integrated and Low-Cost Multi-Chip Broadband Doherty Power Amplifier Module for 5G Massive MIMO Application

In this paper,a hybrid integrated broadband Doherty power amplifier(DPA)based on a multi-chip module(MCM),whose active devices are fabricated using the gallium nitride(GaN)process and whose passive circuits are fabricated using the gallium arsenide(GaAs)integrated passive device(IPD)process,is proposed for 5G massive multiple-input multiple-output(MIMO)application.An inverted DPA structure with a low-Q output network is proposed to achieve better bandwidth performance,and a single-driver architecture is adopted for a chip with high gain and small area.The proposed DPA has a bandwidth of 4.4-5.0 GHz that can achieve a saturation of more than 45.0 dBm.The gain compression from 37 dBm to saturation power is less than 4 dB,and the average power-added efficiency(PAE)is 36.3%with an 8.5 dB peak-to-average power ratio(PAPR)in 4.5-5.0 GHz.The measured adjacent channel power ratio(ACPR)is better than50 dBc after digital predistortion(DPD),exhibiting satisfactory linearity.

Channel estimation in integrated radar and communication systems with power amplifier distortion

To reduce the negative impact of the power amplifier(PA)nonlinear distortion caused by the orthogonal frequency division multiplexing(OFDM)waveform with high peak-to-average power ratio(PAPR)in integrated radar and communication(RadCom)systems is studied,the channel estimation in passive sensing scenarios.Adaptive channel estimation methods are proposed based on different pilot patterns,considering nonlinear distortion and channel sparsity.The proposed methods achieve sparse channel results by manipulating the least squares(LS)frequency-domain channel estimation results to preserve the most significant taps.The decision-aided method is used to optimize the sparse channel results to reduce the effect of nonlinear distortion.Numerical results show that the channel estimation performance of the proposed methods is better than that of the conventional methods under different pilot patterns.In addition,the bit error rate performance in communication and passive radar detection performance show that the proposed methods have good comprehensive performance.

A 24−30 GHz 8-element dual-polarized 5G FR2 phased-array transceiver IC with 20.8-dBm TX OP1dB and 4.1-dB RX NF in 65-nm CMOS

This article presents an 8-element dual-polarized phased-array transceiver(TRX)front-end IC for millimeter-wave(mm-Wave)5G new radio(NR).Power enhancement technologies for power amplifiers(PA)in mm-Wave 5G phased-array TRX are discussed.A four-stage wideband high-power class-AB PA with distributed-active-transformer(DAT)power combining and multi-stage second-harmonic traps is proposed,ensuring the mitigated amplitude-to-phase(AM-PM)distortions across wide carrier frequencies without degrading transmitting(TX)power,gain and efficiency.TX and receiving(RX)switching is achieved by a matching network co-designed on-chip T/R switch.In each TRX element,6-bit 360°phase shifting and 6-bit 31.5-dB gain tuning are respectively achieved by the digital-controlled vector-modulated phase shifter(VMPS)and differential attenuator(ATT).Fabricated in 65-nm bulk complementary metal oxide semiconductor(CMOS),the proposed TRX demonstrates the measured peak TX/RX gains of 25.5/21.3 dB,covering the 24−29.5 GHz band.The measured peak TX OP1dB and power-added efficiency(PAE)are 20.8 dBm and 21.1%,respectively.The measured minimum RX NF is 4.1 dB.The TRX achieves an output power of 11.0−12.4 dBm and error vector magnitude(EVM)of 5%with 400-MHz 5G NR FR2 OFDM 64-QAM signals across 24−29.5 GHz,covering 3GPP 5G NR FR2 operating bands of n257,n258,and n261.

Broadband Dual-Input Doherty Power Amplifier Design Based on a Simple Adaptive Power Dividing Ratio Function

In this paper,a simple adaptive power dividing function for the design of a dual-input Doherty power amplifier(DPA)is presented.In the presented approaches,the signal separation function(SSF)at different frequency points can be characterized by a polynomial.And in the practical test,the coefficients of SSF can be determined by measuring a small number of data points of input power.Same as other dualinput DPAs,the proposed approach can also achieve high output power and back-off efficiency in a broadband operation band by adjusting the power distribution ratio flexibly.Finally,a 1.5-2.5 GHz highefficiency dual-input Doherty power amplifier is implemented according to this approach.The test results show that the peak power is 48.6-49.7d Bm,and the 6-d B back-off efficiency is 51.0-67.0%,and the saturation efficiency is 52.4-74.6%.The digital predistortion correction is carried out at the frequency points of 1.8/2.1GHz,and the adjacent channel power ratio is lower than-54.5d Bc.Simulation and experiment results can verify the effectiveness and correctness of the proposed method.

GaN功率放大器及电磁干扰专题征稿通知

5G频段,信号衰减大,基站数量大大增加,能耗问题突出,已成为影响通信行业碳排放的关键问题之一。基站耗能最主要部件是功率放大器,占比达到44%,提升功放效率是解决能耗问题的关键,提升效率需要使其工作在饱和区,会导致其线性度下降。5G带宽大,调制方式复杂,峰均比高,对功放线性度要求高,功放工作在非线性区会导致输出信号失真,产生谐波和互调等电磁干扰信号。落在带内引起信噪比降低,误码率上升,甚至无法解调;落在带外引起邻道抑制比恶化,干扰其他通信频段,造成严重的电磁兼容问题。提升功率放大器的效率并抑制非线性是解决5G能耗的难点问题,目前GaN功率放大器已成为主流,具备重要的理论研究和工程应用价值。

GaN功率放大器及电磁干扰专题征稿通知

5G频段,信号衰减大,基站数量大大增加,能耗问题突出,已成为影响通信行业碳排放的关键问题之一。基站耗能最主要部件是功率放大器,占比达到44%,提升功放效率是解决能耗问题的关键,提升效率需要使其工作在饱和区,会导致其线性度下降。5G带宽大,调制方式复杂,峰均比高,对功放线性度要求高,功放工作在非线性区会导致输出信号失真,产生谐波和互调等电磁干扰信号。落在带内引起信噪比降低,误码率上升,甚至无法解调;落在带外引起邻道抑制比恶化,干扰其他通信频段,造成严重的电磁兼容问题。提升功率放大器的效率并抑制非线性是解决5G能耗的难点问题,目前GaN功率放大器已成为主流,具备重要的理论研究和工程应用价值。

Millimeter-wave PA design techniques in ISSCC 2024

Millimeter-wave systems with high integration level have been rapidly developed to enable modern wireless communication,sensing,and imaging.The millimeter-wave power amplifier(PA)is one of the most challenging and critical components in a millimeter-wave transceiver,it is the last active stage in a transmitter amplifying spectrally efficient complex modulation signal for radiation with high output power.

一种小型无线Mesh监测终端中的功率放大器设计

为解决矿井下通用型无线Mesh监测终端中的射频收发前端尺寸过大的问题,提出一种矿井下小型无线Mesh监测终端的射频收发前端设计方案.对该射频收发前端的发射链路中的驱动功率放大器和末级功率放大器采用微带线与集总元件混合的匹配电路设计方式,大大减小了电路尺寸,研制的射频收发前端样机尺寸仅为98mm×72mm×17mm.测试结果表明,样机的发射性能达到设计指标,实现了射频收发前端的小型化;本文提出的混合匹配电路设计方法是有效的.

Ka频段160 W固态功率放大器的研制

针对Ka频段固态功率放大器合成芯片数量多及产品体积大等问题,介绍了一种八路合成的Ka频段160 W固态功率放大器。功放采用波导-微带双探针和基于微带-魔T的波导功率分配/合成器,将8个GaN功放芯片加以合成,最终实现在27.0 GHz~31.0 GHz工作频带内,连续波输出160 W以上的功率信号,利用模拟预失真器使整机三阶互调指标优于-31 dBc,指标优良。功放输出波导采用标准WR-28接口,具有完善的监控和保护措施,可靠性高,适用于卫星通信等发射系统。

高功率放大器线性化技术研究

综述了目前国内外关于高功率线性放大器(High Power Amplifier,HPA)线性化技术的研究状况,分析了HPA非线性对OFDM信号的影响;总结分析了一些常用、典型线性化技术的优、缺点及适用范围;展望了HPA线性化技术的发展前景,系统地指出了关于HPA线性化技术进一步研究应注意的问题。

试论舞台音响设备的调试技巧

舞台音响作为舞台艺术的关键一环,不仅承担着放大声音、确保观众清晰聆听舞台声音的重要任务,还在塑造舞台情境、营造氛围方面发挥着重要作用,为演员的表演增添魅力。为给观众带来更加卓越的视听体验,讲述了舞台音响的重要性及注意事项,并从基础调试、效果调试及音量调试3个方面分析了舞台音响的调试技巧,为舞台音响调试技术的持续进步与发展提供有益的参考。

一种基带预失真RF功率放大器线性化技术的模型仿真与实验

提出了一种基于相关函数计算的自适应环路延迟补偿法 ,用于功率放大器的数字式基带预失真线性化技术。对采用这种软件延时补偿方法的预失真系统特性进行了仿真 ,并采用通用的数字信号处理器在硬件上实现了一个功放预失真线性化模型。仿真和实验结果表明 ,在功率放大器的基带预失真技术中采用这种方法可以获得至少 2 0dB的线性度改善。

一种新颖的D类音频功率放大器驱动电路

在D类功率放大器的设计中,为了提高驱动效率,需要一个高电平驱动H桥的高端LDNMOS管.文中设计了一种新颖的适用于D类功放的驱动电路,在芯片内部采用一个电荷泵电路.当芯片正常工作时,H桥低端LDN-MOS管的驱动电平通过较大的电荷泵电容稳定在5.5V左右,H桥高端LDNMOS管的驱动电平通过自举电容高达18.8V,从而实现对D类功放H桥高端的驱动,这样既提高了驱动效率,又减少了对外部多个电源的需求.采用此电路的一款3-W的立体声D类功放已在TSMC06BCD工艺线投片,芯片效率高达89.67%,H桥高端和低端的导通电阻为320mΩ,电源抑制比(PSRR)为-62dB,THD低至0.1%,测量结果表明该驱动电路工作良好.

基于改进型径向基函数神经网络的功放线性化

提出了一种基于改进型径向基函数神经网络(MRBFNN)的数字预失真线性化模型,用于更为精确地矫正宽带射频功率放大器的动态非线性。该神经网络模型的输入层使用传统的延时抽头以补偿功放的线性记忆效应,同时对每个抽头进行级数展开用于补偿功放的非线性记忆效应,从而更好地抑制功放的动态非线性失真。文中使用WCDMA三载波信号对一个460MHz的Doherty功率放大器进行数字预失真线性化实验。实验结果表明,与传统数字预失真线性化模型相比,基于改进型径向基神经网络的数字预失真线性化模型能更好地抑制宽带功放动态非线性引起的带外频谱再生,其三阶互调(IMD3)失真最多可以抑制23d B,大大提高了功放的线性度,验证了所提出的数字预失真线性化模型的有效性。

采用二极管的模拟预失真毫米波功放线性化器

研制了一款用于毫米波频段的线性化器,采用模拟预失真技术,基于90°电桥和两个肖特基二极管,在外加直流偏置的情况下,产生预失真信号,通过矢量网络分析仪测试表明,当工作频率为30GHz时,其增益扩展了3～4dB,相位延迟了20°左右。将该线性化器与毫米波功率放大器级联,双音测试结果表明,当功放的输出功率为1dB压缩点回退3dB时,三阶交调指标在工作频率30GHz和31GHz时均改善了10dB左右。该线性化器结构简单、成本较低、实用性强。