低输入驱动功率和高输出功率的高性能20-42 GHz MMIC倍频器

S. Kumar, H. Morkner
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引用次数: 12

摘要

开发了一种输出频率为20-42GHz的GaAs MMIC倍频芯片,该芯片无需任何外部滤波器,只需低输入驱动功率,即可产生高输出功率,具有高基频和谐波抑制能力。该芯片集成了带阻抗逆变器的宽带单端差分有源平衡器和宽带波形整形电路。开发的Balun的独特拓扑结构有助于在低输入驱动功率下在差分输出处产生高电压摆幅,并具有出色的频带幅度和相位平衡。有源Balun的差分输出连接到平衡的共源fet,并以推推配置驱动平衡fet产生二次谐波,并抑制基频和高(奇)阶谐波。这创建了一个宽带倍频器,具有重叠的输入和输出频率,高转换效率,良好的基频和更高的奇谐波抑制,无需任何外部滤波器。倍频器工作范围为-9 ~ + 7dbm。在引脚=+3dBm时,倍频器在大部分频带的输出功率为+17 ~ +18dBm。基波抑制优于50dBc至34GHz,整个频带内最小30dBc。在大多数频带中,三次和四次谐波抑制也优于25dBc。倍频器的相位噪声为-137dBc/Hz,偏移量为100 kHz (4 =24GHz)。倍频器的输入回波损耗在大部分频带内都优于20dB,输出回波损耗在整个频带内变化在10-15dB之间。工作在Vd =4.5V, Id=100-225mA
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A High Performance 20-42 GHz MMIC Frequency Multiplier with Low Input Drive Power and High Output Power
A 20-42GHz output frequency GaAs MMIC frequency doubler chip has been developed that requires low input drive power and produces high output power with high fundamental & harmonic suppression without any external filter. This developed chip has an integrated broadband single ended-in to differential-out active Balun with impedance inverter and a broadband waveform shaping circuit. The unique topology of developed Balun helps to produce high voltage swing at differential outputs at low input drive power with excellent amplitude and phase balance over the band. The differential outputs of active Balun are connected to balanced common source FETs and drive the balanced FETs in push-push configuration to generate second harmonics and reject fundamental and higher (odd) order harmonics. This creates a broadband frequency doubler with overlapping input and output frequencies, high conversion efficiency with good fundamental and higher odd harmonic rejection without any external Filter. The doubler work from -9 to +7 dBm. The output power of doubler is +17 to +18dBm in most of the band at Pin=+3dBm. Fundamental suppression is better than 50dBc to 34GHz and minimum 30dBc in the entire band. 3rd and 4th harmonic rejections are also better than 25dBc in most of the band. The phase noise of doubler is -137dBc/Hz at 100 kHz offset (fout=24GHz). The input return loss of doubler is better than 20dB in most of the band and output return loss varies from 10-15dB over the band. It works at Vd =4.5V, Id=100-225mA
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