共查询到19条相似文献,搜索用时 515 毫秒
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采用模拟预失真技术设计一款Ku波段预失真器,使用2个MA4E2037肖特基势垒二极管和三段无源传输线产生预失真信号,通过调节偏置电压实现幅度和相位可调;同时结合平衡式结构,改善单支路非线性器件增益扩张曲线斜率不足问题,改善输入驻波比。仿真结果表明,在14 GHz处,增益补偿和相位补偿可分别达到17 dB和60°以上;在频率12~16 GHz,增益扩张和相位扩张可达到15 dB和50°以上,整个频带内预失真器S11小于-17 dB。该预失真器适用频带宽,结构简单,功能实用。 相似文献
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放大器的非线性失真特性严重影响信号的传输质量,射频预失真是一种有效改善行波管非线性度的方法。本文利用反并联肖特基二极管完成了X波段预失真线性化器的设计。仿真结果表明,在8.4GHz~8.6GHz频率范围和一定输入功率内,各个频点处增益扩张量保持在6dB左右,工作频带内增益平坦度在1dB以内,相位扩张基本保持在45°左右。 相似文献
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文章提出了一种Ka波段的射频预失真线性化器.它由一个GaAs肖特基二极管和一个电容并联构成,通过一个偏置电阻加入直流馈电,具有增益扩展和相位延迟的特性,并且其增益和相位特性具有可调性,尤其其相位特性可调性更强.将其应用于工作频率为30GHz饱和输出功率为10W的功放,输出三阶交调失真(IMD3)可以改善15dBc以上,此时功放输入的双音激励信号频率间隔为5MHz.该线性化器可调性强、结构简单、成本低廉、易于实现,有着非常大的工程应用价值. 相似文献
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Ku波段模拟预失真线性化器 总被引:1,自引:0,他引:1
提出了一种基于模拟预失真方法的线性化器设计。利用预失真技术设计行波管配用线性化器的数学模型,得出了预失真电路的功率转移特性曲线和相位特性曲线。预失真电路采用上下支路对消结构,通过二极管产生失真信号,并利用2个可调衰减器和可调移相器来调节其幅度和相位,以此补偿功率放大器的AM-AM,AM-PM失真特性,改善输出信号的线性度。此外通过改变二极管的偏压,线性化器能够提供不同种幅度和相位特性的组合方式,用于不同特性的功放。基于该模拟预失真方法设计了行波管线性化器,在给定的动态范围内幅度扩张5 dB,相位扩张40°。 相似文献
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模拟预失真技术是改善行波管放大器非线性失真的一种有效方法,但补偿精度较低的缺点是制约其进一步发展的关键因素。增益相位独立调节技术和补偿曲线形状调节技术是提升模拟预失真补偿精度的重要技术。提出了一种适用于Ka波段行波管放大器的高精度模拟预失真器,该预失真器采用双路矢量合成式结构,在29~31 GHz 范围内,通过调节二极管偏置电压可以同时实现补偿曲线形状调节和增益相位扩张量独立调节,有效提升了补偿精度。与行波管放大器的联合测试结果表明,在30 GHz 时,该预失真器可以将行波管放大器的增益压缩从5.3 dB 减小到1.2 dB,相位偏移从62°减小到6.5°。线性化后的行波管放大器的非线性失真明显降低,在输出功率回退5 dB 时,三阶互调系数提高了9.3 dB。 相似文献
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为解决传统反射式预失真电路可调性不高、对功率放大器的邻信道泄漏比(ACLR)改善量小的问题,文
中提出了一种基于肖特基二极管的反射式可调模拟预失真电路。该电路由90°电桥、肖特基二极管以及偏置电路组
成。每条支路采用两个并联肖特基二极管产生非线性信号,以抵消功放的非线性失真。每一个肖特基二极管都有独立
的偏置电路,从而可以增加电路调节的自由度。通过改变每个肖特基二极管的偏压,可实现更大动态范围的幅度和相
位的补偿。基于此原理加工的S 波段模拟预失真电路对中心频率为3. 5 GHz 的Doherty 功率放大器进行线性化测试,
实验结果证明:加上提出的模拟预失真电路后,在输出功率为-28 dBm 时被测功放的ACLR 改善了14. 6 dBc 以上。 相似文献
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一种新的用于射频功率放大器的预失真法 总被引:1,自引:1,他引:0
改善射频功率放大器非线性的方法通常有功率回退法、负反馈法、前馈法和预失真法。预失真技术与其他线性化技术相比具有电路结构简单、性能优良、成本低等优点,因而受到设计者的青睐。设计了一种利用混频器和滤波器分别产生三阶和五阶交调分量的预失真器,采用复增益调节器控制预失真器产生的IMD3,IMD5幅度和相位。并从理论上对其特性进行了分析,利用专用的微波电路仿真工具进行仿真验证,仿真结果表明双音测试在2 GHz频段,IMD3和IMD5分别改善了17 dBc和12 dBc。 相似文献
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研究了一种新的预失真线性化电路,他由2路谐波发生器组成,每个谐波发生器都由2个工作于不同偏置电压下的肖特基二极管、电容、电阻和3 dB电桥耦合器(Hybrid)构成。通过调节二极管的偏置电压,可分别产生IM3或IM5。将此预失真线性化电路用于5 W射频功率放大器中,分别独立地对消IMD3和IMD5。双音测试表明,IMD3和IMD5分别改善了14 dBc和9 dBc。 相似文献
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针对毫米波功放的线性化要求,采用反向并联肖特基二极管设计了一种毫米波线性化器,分析了其基本结构和工作原理。利用软件建立模型进行仿真优化,依据仿真数据制作实物并应用于某毫米波频段功放,使得三阶交调指标改善了8 dB以上。结果表明,该线性化器结构简单、易于集成,具有较强的应用价值。 相似文献
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A single-fed reconfigurable microstrip antenna that can provide various polarization diversities is presented in this paper. The antenna is excited by a microstrip feed line through aperture coupling. When two PIN diodes are used to respectively reconfigure the coupling slot and the open stub of the feed line, the polarization of the microstrip antenna can be switched between vertical and horizontal polarizations. For the reconfigurable antenna with the linear polarization diversity, it can be converted to a circularly-polarized antenna with switchable polarization sense by introducing a perturbation segment. Moreover, an antenna with the quadri-polarization diversity, including dual orthogonal linear polarizations and two circular polarizations, is also developed from the structure of the switchable circular polarization microstrip antenna, and only three diodes are required. Details of the antenna design are shown, and the measured results for the constructed prototype are also exhibited and discussed. 相似文献
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A circularly-polarised microstrip antenna capable of switching polarisation sense is presented. The proposed microstrip antenna has a circular radiating patch and is excited by an open-loop microstrip line through the coupling of a ring slot in the ground plane. Two ends of the open-loop microstrip line can be taken for the input ports to excite right-hand and left-hand circular polarisations, respectively. A prototype using PIN diodes to electrically switch the input ports is implemented, and the measured results show the 3 dB axial ratio bandwidth of more than 10% can be obtained at the two polarisation senses 相似文献
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A miniaturized RF predistortion linearizer for a GaAs field-effect transistor power amplifier applicable to 256 quadrature-amplitude modulation (QAM) digital microwave systems is presented. This linearizer, which is based upon the cuber linearizer technique, utilizes circulators and a pair of diodes in the distortion generator to obtain high signal component isolation, and in the variable phase shifter to compensate for temperature variations. This allows miniaturization and easy adjustment of the circuit. Results show that a distortion reduction of more than 10 dB is obtained over a 300 MHz bandwidth. It was verified that distortion reduction can be achieved over a temperature range from 0 to 50°C. The fundamental characteristics of the linearizer and its effect on the 256-QAM signal are shown. The results show an improvement of more than 6 dB in the output back-off of the amplifier 相似文献
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《Solid-State Circuits, IEEE Journal of》1972,7(1):10-15
This paper describes a new method for combining RF power from multiple high efficiency avalanche diodes. The basic circuit, called an antiparallel pair, has two avalanche diodes placed in opposite polarity to each other at the ends of an essentially one-half wavelength transmission line. A high-efficiency avalanche diode receives an incident half-sine wave and reflects an amplified half sine wave of opposite polarity. The half-sine wave travels back and forth along the transmission line with its polarity being reversed at each of the two diode positions. The antiparallel configuration has been extended to a circuit that combines RF power from four diodes. The four diodes are placed at the ends of a K-shaped microstrip line with two of the diodes being placed in opposite polarity with respect to the other two. The distance between any two diodes is approximately one-half wavelength. The K-shaped circuit has generated 620 W at 1.02 GHz. 相似文献