低转换损耗的50-62 GHz紧凑型亚谐波无源混频器MMIC

Q2 Social Sciences

Advances in Engineering Education Pub Date : 2017-11-01 DOI:10.1109/PIERS-FALL.2017.8293188

Changzi Xie, Kaixue Ma, Shouxian Mou, F. Meng

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引用次数: 2

摘要

提出了一种采用0.15 μm GaAs pHEMT铸造工艺的50-62 GHz单片无源次谐波泵浦阻式混频器(SHPRM)。与基本泵浦混合器相比，所提出的混合器只需要LO频率的一半，并且采用电阻结构设计，具有无漏极偏置和低直流电流的优点。混频器包括一个中频滤波器和一个带电容负载的按比例缩小的可调式平衡器。为了减少转换损耗，在LO频率处的四分之一波长短段与LO输入线平行，它作为LO频率的开路，也为RF信号提供返回路径。当本端频率固定在25 GHz，射频频率范围为50-58 GHz时，该混频器的下变频损耗为6.55±1 dB，当本端频率固定在28 GHz，射频频率范围为56-62 GHz时，下变频损耗为4.6±0.6 dB。此外，所提出的混频器在射频(RF)端口和中频(IF)端口分别对LO信号的二次谐波具有超过18 dB和30 dB的隔离。芯片尺寸仅为0.85 × 1.41 mm2。直流总功耗为~ 0mW。

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A 50–62 GHz compact subharmonic passive mixer MMIC with low conversion loss

This paper presents a compact 50–62 GHz monolithic passive subharmonic pumped resistive mixer (SHPRM) using a 0.15-μm GaAs pHEMT foundry process. The proposed mixer requires only a half of the LO frequency compared to a fundamentally pumped and is designed in a resistive structure advantages for no drain bias and low DC currents. The mixer includes an IF filter and a scale-down marchand balun with capacitance load. To reduce conversion loss, a quarter-wavelength shorted stub at LO frequency is in parallel with LO input line, it appearing as an open circuit to the LO frequency and also provide the return paths for the RF signals. This mixer achieve a down-conversion loss of 6.55 ± 1 dB when fix LO frequency at 25 GHz and RF frequencies range 50–58 GHz, a down-conversion loss of 4.6 ± 0.6 dB when fix LO frequency at 28 GHz and RF frequencies range 56–62 GHz. In addition, the proposed mixer exhibits more than 18 dB and 30 dB of isolation for the second harmonic of the LO signal at the radio frequency (RF) ports and at the intermediate frequency (IF) ports, respectively. The chip size is 0.85 × 1.41 mm2 only. The total dc power consumption is ∼ 0mW.

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来源期刊

Advances in Engineering Education Social Sciences-Education

CiteScore

2.90

自引率

0.00%

发文量

期刊介绍： The journal publishes articles on a wide variety of topics related to documented advances in engineering education practice. Topics may include but are not limited to innovations in course and curriculum design, teaching, and assessment both within and outside of the classroom that have led to improved student learning.