摘要
该文设计了一种基于低温共烧陶瓷(LTCC)技术的小型化超宽带巴伦(Balun)滤波器。该巴伦滤波器由一个五阶带通滤波器和基于Marchand巴伦改进型巴伦级联组成,带通滤波器采用耦合谐振式的设计方法,设计成宽带高抑制巴伦滤波器,在二阶、三阶和四阶谐振之间创新采用电感级联的拓扑结构,使相对带宽在48%以上。巴伦输入与输出之间的耦合采用一种并联堆叠式耦合螺旋传输线,增强了传输线之间的耦合,并拓宽了巴伦的带宽。结果表明,该巴伦滤波器通带为1.71~2.76 GHz,插损均小于2.3 dB;在50~669 MHz,抑制大于35 dB;在669~1 245 MHz,抑制大于17 dB;在3 205~3 400 MHz,抑制大于27 dB;在3 400~6 000 MHz,抑制均大于30 dB。两个输出端口信号的相位差和幅度差分别为180°±15°(1 710~2 340 MHz)、180°±10°(2 500~2 760 MHz)和±1.0 dB,具有较高的通用性和良好的应用市场。
This paper designs a miniaturized ultra-wideband Balun filter based on the low-temperature co-fired ceramic(LTCC) technology. The Balun filter consists of a fifth-order bandpass filter and a Marchand Barron-based modified Barron cascade. The bandpass filter is designed as a wideband high rejection Barron filter using a coupled resonant design method, and an innovative inductive cascade topology is used between the second, third and fourth order resonance, thus the relative bandwidth of 48% or even wider has been realized. The coupling between the Balun input and output uses a parallel stacked coupling spiral transmission line, which greatly enhances the coupling between transmission lines and widens the bandwidth of the Balun. The Balun filter passband is 1.71~2.76 GHz, and the insertion loss is less than 2.3 dB.At 50~669 MHz, the rejection is greater than 35 dB,at 669~1 245 MHz, the rejection is greater than 17 dB,at 3 205~3 400 MHz, the rejection is greater than 27 dB,and at 3 400~6 000 MHz, the rejection is greater than 30 dB. The phase difference and amplitude difference of the signals of the two output ports are 180°±15°(1 710~2 340 MHz), 180°±10°(2 500~2 760 MHz) and ±1.0 dB, respectively. The proposed filter has high versatility and good market application prospects.
作者
于聪
叶强
罗昌桅
YU Cong;YE Qiang;LUO Changwei(College of Information Engineering,China Jiliang University,Hangzhou 310018,China)
出处
《压电与声光》
CAS
北大核心
2022年第6期837-840,共4页
Piezoelectrics & Acoustooptics
关键词
低温共烧陶瓷
超宽带
带通滤波器
Marchand巴伦
小型化
low temperature co-fired ceramics(LTCC)
ultra-wideband(UWB)
bandpass filter
Marchand Balun
miniaturization
