双平衡混频器设计与研究

在射频电路的前端,混频器是实现频谱搬移的重要器件,是十分重要的模块。采用Win公司砷化镓工艺,设计了一款二极管双平衡混频器,其中巴伦采用平面螺旋式结构,用ADS软件进行各部分电路设计、仿真,从功能仿真图中看到输出信号的频谱中有需要的中频频率成分,验证了混频器频谱搬移的功能,在所设计的频段耦合度和隔离度能够满足要求。其中射频端口和本振端口的频率为0.8~1.2 GHz,中频频率DC~300 MHz,变频损耗8~10 dB,噪声系数9 dB左右,芯片面积0.9 mm×1 mm。     

A 28-GHz SiGe up-conversion mixer using a series-connected triplet for higher dynamic range and improved IF port return loss

This work presents a fully integrated SiGe microwave up-conversion mixer, utilizing a new circuit topology consisting of a common-base, series-connected triplet at the IF port to achieve a significant improvement in dynamic range. This circuit functions with an IF signal of 1.25 GHz, and has an input 1-dB compression point (IP/sub 1dB/) of -6.8 dBm, for an RF output at 28 GHz. The circuit operates over a frequency range from 19 to 31 GHz, with a maximum conversion gain of 1 dB. The mixer can operate over an IF range from 1 to 10 GHz, while maintaining an IF port return loss greater than 10 dB.     

InAlAs/InGaAs HBT X-band double-balanced upconverter

We report on an InAlAs/InGaAs HBT Gilbert cell double-balanced mixer which upconverts a 3 GHz IF signal to an RF frequency of 5-12 GHz. The mixer cell achieves a conversion loss of between 0.8 dB and 2.6 dB from 5 to 12 GHz. The LO-RF and IF-RF isolations are better than 30 dB at an LO drive of +5 dBm across the RF band. A pre-distortion circuit is used to increase the linear input power range of the LO port to above +5 dBm. Discrete amplifiers designed for the IF and RF frequency ports make up the complete upconverter architecture which achieves a conversion gain of 40 dB for an RF output bandwidth of 10 GHz. The upconverter chip set fabricated with InAlAs/InGaAs HBT's demonstrates the widest gain-bandwidth performance of a Gilbert cell based upconverter compared to previous GaAs and InP HBT or Si-bipolar IC's     

20GHz镜频抑制谐波混频器

镜频抑制混频器能有效地抑制镜像频率,提高雷达和通信系统的抗干扰能力。介绍了一个20 GHz二次谐波镜频抑制混频器的设计与制作,该镜频抑制混频器采用两个相同的二次谐波混频器做为两路混频单元,两路射频输入和中频输出分别用90°的功分器/合路器与两路混频器相连,本征用威尔金森功分器等幅同相输入两路混频。借助于90°的功分器,两路混频器的镜频产物在中频90°合路器的输出端口反相抵消,有用中频在90°合路器的输出端口同相叠加。利用ADS和HFSS对该混频器进行了仿真设计,并对实际电路进行了加工测试。经测试,当中频固定在400 MHz时,射频在20～21 GHz内变频损耗小于10 dB,镜频抑制大于20 dB。     

0.1 THz鳍线单平衡式基波混频电路研究

研究了一种基于石英基片的0.1 THz频段的鳍线单平衡混频电路,混频电路的射频和本振信号分别从WR10标准波导端口通过波导单面鳍线微带过渡和波导微带探针过渡输入,中频信号通过本振中频双工器输出。这是一种新型的混频电路形式,与传统的W波段混频器相比,混频电路可以省略一个复杂的W波段滤波器,具有电路设计简单、安装方便的特点。该电路使用两只肖特基二极管通过倒装焊工艺粘结在厚度为75 m的石英基片上,石英基片相对传统基板,可以极大提高电路加工精度。在固定50 MHz中频信号时,射频90~110 GHz范围内,0.1 THz混频器单边带变频损耗小于9 dB。     

一款集成驱动放大器的低变频损耗混频器设计

采用0.5μm GaAs工艺设计并制造了一款单片集成驱动放大器的低变频损耗混频器.电路主要包括混频部分、巴伦和驱动放大器3个模块.混频器的射频(RF)、本振(LO)频率为4～7 GHz,中频(IF)带宽为DC～2.5 GHz,芯片变频损耗小于7 dB,本振到射频隔离度大于35 dB,本振到中频隔离度大于27 dB.1 dB压缩点输入功率大于11 dBm,输入三阶交调点大于20 dBm.该混频器单片集成一款驱动放大器,解决了无源混频器要求大本振功率的问题,变频功能由串联二极管环实现,巴伦采用螺旋式结构,在实现超低变频损耗和良好隔离度的同时,保持了较小的芯片面积.整体芯片面积为1.1 mm×1.2 mm.     

A low-voltage ultra-wideband down-conversion mixer with improved power conversion gain

This article presents a wideband mixer using a TSMC 0.18?µm complementary metal-oxide semiconductor technology process for ultra-wideband (UWB) system applications. The measured 3-dB radio frequency (RF) bandwidth is from 3 to 8.4?GHz with an intermediate frequency of 10?MHz. The measurement results of the proposed mixer achieve 8.1?dB average power conversion gain ?5?dBm input third-order intercept point (IIP3) at 7.4?GHz and 12.4–13.3?dB double side band noise figure. The total dc power consumption of this mixer including output buffers is 3.18?mW from a 1?V supply voltage. The output current buffer consumption is about 2.26?mW with an excellent local oscillator-RF isolation of up to 40?dB at 5?GHz. The article presents a mixer topology that is greatly suitable for low-power operation in UWB system applications.     

A 0.5–7.5 GHz Ultra Low-Voltage Low-Power Mixer Using Bulk-Injection Method by 0.18- μm CMOS Technology

A fully differential low-voltage low-power downconversion mixer using a TSMC 0.18-mum CMOS logic process is presented in this letter. The mixer was designed with a four-terminal MOS transistor, the radio-frequency (RF) and local-oscillator signals apply to the gate and bulk of the device, respectively while the intermediate frequency (IF) signals output was from the drain. The mixer features a maximum conversion gain of 5.7dB at 2.4 GHz, an ultra low dc power consumption of 0.48 mW, a noise figure of 15 dB, and an input IP of 5.7 dBm. Moreover, the chip area of the mixer core is only 0.18 times 0.2 mm². The measured 3-dB RF frequency bandwidth is from 0.5 to 7.5 GHz with an IF of 100 MHz, and it is greatly suitable for low-power in wireless communication.     

A 60-GHz uniplanar MMIC 4/spl times/ subharmonic mixer

A uniplanar GaAs monolithic microwave integrated circuit /spl times/4 subharmonic mixer (SHM) has been fabricated for 60-GHz-band applications using an antiparallel diode pair in finite ground coplanar (FGC) waveguide technology. This mixer is designed to operate at an RF of 58.5-60.5 GHz, an IF of 1.5-2.5 GHz, and an LO frequency of 14-14.5 GHz. FGC transmission-line structures used in the mixer implementation were fully characterized using full-wave electromagnetic simulations and on-wafer measurements. Of several mixer configurations tested, the best results show a maximum conversion loss of 13.2 dB over the specified frequency range with a minimum local-oscillator power of 3 dBm. The minimum upper sideband conversion loss is 11.3 dB at an RF of 58.5 GHz and an IF of 2.5 GHz. This represents excellent performance for a 4/spl times/ SHM operating at 60 GHz.     

A Planar Quasi-Optical Subharmonically Pumped Mixer Characterized by Isotropic Conversion Loss

By using a subharmonically pumped circuit in a quasi-optical planar mixer, we have found it possible to use an LO frequency of one-half the normaf value with little added circuit complexity. This circuit shows conversion loss as low as 8.6dB +- 2 dB at 14 GHz. Through the means of a newly defined quasi-optical mixer parameter called isotiopic conversion loss (L/sub iso/), we find that performance of the mixer system degrades less than 10 dB from an RF input of 14 GHz to 35 GHz, which is more than twice the designed RF frequency.     

A 23–37 GHz Miniature MMIC Subharmonic Mixer

A novel configuration of subharmonic mixer using an anti-parallel diode pair is presented for operating over the 23-37 GHz band. The monolithic microwave integrated circuit is implemented by GaAs 0.15 mum PHEMT technology with the compact size of 0.85 times 0.85 mm². This mixer employs a directional coupler, LC low-pass filter, and a short stub for isolating three ports corresponding to radio frequency (RF), local oscillation (LO) input, and intermediate frequency (IF) output ports. The directional coupler also provides impedance transformation between the diode pair, RF, and LO ports. This makes the subharmonic mixer more compact and flexible. The best conversion loss of the subharmonic mixer is 9.4 dB, and the LO-to-RF and LO-to-IF isolations are better than 22 and 31 dB, respectively.     

A high-performance W-band uniplanar subharmonic mixer

A uniplanar subharmonic mixer has been implemented in coplanar waveguide (CPW) technology. The circuit is designed to operate at RF frequencies of 92-96 GHz, IF frequencies of 2-4 GHz, and LO frequencies of 45-46 GHz. Total circuit size excluding probe pads and transitions is less than 0.8 mm ×1.5 mm. The measured minimum single-sideband (SSB) conversion loss is 7.0 dB at an RF of 94 GHz, and represents state-of-the-art performance for a planar W-band subharmonic mixer. The mixer is broad-band with a SSB conversion loss of less than 10 dB over the 83-97-GHz measurement band. The measured LO-RF isolation is better than -40 dB for LO frequencies of 45-46 GHz. The double-sideband (DSB) noise temperature measured using the Y-factor method is 725 K at an LO frequency of 45.5 GHz and an IF frequency of 1.4 GHz. The measured data agrees well with the predicted performance using harmonic-balance analysis (HBA). Potential applications are millimeter-wave receivers for smart munition seekers and automotive-collision-avoidance radars     

新型四次谐波混频电路

本文介绍了一种适用于高次谐波混频的电路原理图,基于空闲频率相位抵消理论,该混频电路结构可以避免复杂的空闲频率回收电路设计,同时能获得很高的端口隔离度。基于该结构,设计了新型的Ka波段四次谐波混频器,该混频器在38.4 GHz测得最小变频损耗 8.3 dB,在34-39 GHz 变频损耗小于10.3dB, LO-IF、RF-LO、 RF-IF 端口隔离度分别优于30.7 dB、 22.9dB、46.5dB。     

Monolithic SiGe Up‐/Down‐Conversion Mixers with Active Baluns

The purpose of this paper is to describe the implementation of monolithically matching circuits, interface circuits, and RF core circuits to the same substrate. We designed and fabricated on‐chip 1 to 6 GHz up‐conversion and 1 to 8 GHz down‐conversion mixers using a 0.8 µm SiGe hetero‐junction bipolar transistor (HBT) process technology. To fabricate a SiGe HBT, we used a reduced pressure chemical vapor deposition (RPCVD) system to grow a base epitaxial layer, and we adopted local oxidation of silicon (LOCOS) isolation to separate the device terminals. An up‐conversion mixer was implemented on‐chip using an intermediate frequency (IF) matching circuit, local oscillator (LO)/radio frequency (RF) wideband matching circuits, LO/IF input balun circuits, and an RF output balun circuit. The measured results of the fabricated up‐conversion mixer show a positive power conversion gain from 1 to 6 GHz and a bandwidth of about 4.5 GHz. Also, the down‐conversion mixer was implemented on‐chip using LO/RF wideband matching circuits, LO/RF input balun circuits, and an IF output balun circuit. The measured results of the fabricated down‐conversion mixer show a positive power conversion gain from 1 to 8 GHz and a bandwidth of about 4.5 GHz.     

X波段低变频损耗混频器设计

采用商用肖特基势垒二极管HSMS-2822,研制了低变频损耗、高隔离度X波段单平衡混频器。为实现所需要的混频带宽,本振信号和射频信号采用三分支定向耦合器耦合输入,仿真研究表明其能有效地改善工作频率带宽,提高本振端口与射频端口间的隔离度。通过设计合理的空闲频率回收电路,回收利用空闲频率能量,能有效地降低混频器变频损耗,提高本振信号、射频信号及空闲频率信号到中频端口的隔离度。在10.6GHz,测得最小变频损耗5.67dB;在10～11.5GHz,混频器变频损耗为6.4±0.7dB,变频损耗平坦度好,RF-IF隔离度优于27dB,LO-IF隔离度高于24dB,LO-RF隔离度优于14dB。     

W-band broadband integrated circuit mixers

Broadband integrated circuit mixers using a crossbar stripline configuration and a finline configuration have been developed. For the crossbar stripline balanced mixer, less than 7.5 dB conversion loss for 15 GHz instantaneous IF bandwidth has been achieved with the LO at 75 GHz and the RF swept from 76 to 91 GHz. For the finline balanced mixer, a conversion loss of 9 to 12 dB over a 19 GHz instantaneous IF bandwidth has been achieved as the RF is swept from 91 to 110GHz.     

26-34 GHz CMOS mixer

A 26-34 GHz fully integrated CMOS down mixer is presented. At 30 GHz RF frequency and 2.5 GHz IF frequency, 50 /spl Omega/ terminations, 5 dBm LO and 1.2 V/spl times/17 mA supply power, the circuit yields a conversion loss of 2.6 dB, an SSB NF of 13.5 dB and an IIP3 of 0.5 dBm.     

A 10–35 GHz Low Power Bulk-DrivenMixer Using 0.13 $mu$m CMOS Process

10-35 GHz doubly balanced mixer using a 0.13-mum CMOS foundry process is presented in this letter. Using the bulk-driven topology, the number of transistors of the doubly balanced mixer is reduced; thus the mixer can achieve a low supply voltage and low power consumption. This bulk-driven mixer exhibits a measured conversion gain of -1 plusmn 2 dB from 10 to 35 GHz of radio frequency (RF) with a fixed intermediate frequency (IF) of 100 MHz. The measured local oscillation (LO) to IF and RF-IF isolations are better than 30 dB. The chip area of the mixer is 0.6 times 0.4 mm². The total power consumption included output buffer is only 6 mW.     

带有小型化Balun的C波段单片GaAs pHEMT单平衡电阻性混频器

 本文介绍了一种带有小型化无源Balun的C波段单片GaAs pHEMT单平衡电阻性混频器.Balun 采用集总—分布式结构,使其长度与常用λ/4耦合线Balun相比缩小了11倍,大大降低了将无源Balun应用于C波段单片集成电路中所需的芯片尺寸.混频器采用单平衡电阻性结构,在零功耗的情况下实现了良好的线性和口间隔离性能.测试结果显示,在固定中频160MHz,本振输入功率0dBm条件下,在3.5~5GHz RF频带内,最小变频损耗为8.3dB,1dB压缩点功率为8.0dBm,LO至IF之间的隔离度为38dB.     

一种新型的基于GSM1900标准的1.9GHz CMOS混频器

介绍了一种0.18μm CMOS工艺基于GSM1900(PCS1900)标准低中频接收机中的混频器.该混频器采用了一种新型的折叠式吉尔伯特单元结构.在3.3V电源电压、中频频率为100kHz的情况下,该混频器达到了6dB的转换增益,18.5dB的噪声系数(1MHz中频)和11.5dBm IIP3的高线性度,同时仅消耗7mA电流.