基于功放、功分技術的微波信號源擴展方法研究
2022年電子技術應用第7期
張 愷,許云鵬,陳秋菊,李 秦,柴熙源,吳叢鳳,唐運蓋
中國科學技術大學,安徽 合肥230026
摘要: 量子超導計算芯片的測試需要幾十甚至上百路高頻微波信號輸入,普通微波信號源一般只有1~2個通道,遠遠不能滿足測試需求;若集成多個信號源以擴展信號通道,不但體積龐大,成本昂貴,信號源的同步控制也是一個難題。針對上述問題,基于功放及功分技術,提出了對微波信號源的一路輸出進行等功率擴展的方法,設計了集成了衰減器、功放和功分模塊的信號源等幅擴展裝置。利用微波信號源、頻譜儀、網分等測量儀器搭建實驗平臺,對所設計信號源擴展裝置的性能開展實驗研究,同時驗證基于功放、功分技術的微波信號源擴展方法。實驗結果表明,所提出的方法能保證所擴展信號的中心頻率、功率與源信號高度一致,各擴展通道的信號相位穩定性好,相位長期漂移控制在±1°以內,滿足了量子超導計算芯片測試的需求。
中圖分類號: TN62
文獻標識碼: A
DOI:10.16157/j.issn.0258-7998.222865
中文引用格式: 張愷,許云鵬,陳秋菊,等. 基于功放、功分技術的微波信號源擴展方法研究[J].電子技術應用,2022,48(7):100-104.
英文引用格式: Zhang Kai,Xu Yunpeng,Chen Qiuju,et al. Research on microwave signal source expansion method based on power amplifer and power division techenology[J]. Application of Electronic Technique,2022,48(7):100-104.
文獻標識碼: A
DOI:10.16157/j.issn.0258-7998.222865
中文引用格式: 張愷,許云鵬,陳秋菊,等. 基于功放、功分技術的微波信號源擴展方法研究[J].電子技術應用,2022,48(7):100-104.
英文引用格式: Zhang Kai,Xu Yunpeng,Chen Qiuju,et al. Research on microwave signal source expansion method based on power amplifer and power division techenology[J]. Application of Electronic Technique,2022,48(7):100-104.
Research on microwave signal source expansion method based on power amplifer and power division techenology
Zhang Kai,Xu Yunpeng,Chen Qiuju,Li Qin,Chai Xiyuan,Wu Congfeng,Tang Yungai
University of Science and Technology of China,Hefei 230026,China
Abstract: The test of the superconducting quantum computing chip requires dozens or even hundreds of high-frequency microwave signal inputs. The ordinary microwave signal source generally only has 1~2 channels, which is far from meeting the test requirements. If multiple signal sources are integrated to expand the signal channel, it will be not only bulky and expensive, but the synchronization control of the signal source will be also a difficult problem. Aiming at the above problems, based on the power amplifier and power division technology, in this paper,a method of equal-amplitude expansion of one output of the microwave signal source has been proposed, and a signal source equal-amplitude expansion device integrating attenuator, power amplifier and power division module has been designed. Then an experimental platform has been built with microwave signal source, spectrum analyzer, network analyzer and other measuring instruments to carry out experimental research on the performance of the designed signal source expansion device and verify the microwave signal source expansion method based on power amplifier and power division technology. The experimental results show that the proposed method can ensure that the amplitude and frequency of the extended signal are highly consistent with the source signal, and the signal phase of each extended channel can be kept stable for a long time, which meets the requirements of superconducting quantum computing chip testing.
Key words : quantum computing;chip testing;RF signal source;channel expansion;power amplifier
0 引言
量子計算是一種遵循量子力學規律調控量子信息單元進行計算的新型計算模式[1]。量子計算機的理論模型是用量子力學規律重新詮釋的通用圖靈機[2]。從計算的效率上,由于量子力學疊加性的存在,某些已知的量子算法在處理問題時速度要大大快于傳統的電子計算機[3-4]。量子計算芯片本身的物理架構是多輸入多輸出,在芯片測試過程中,需要幾十甚至上百路高頻微波信號作為輸入[5-6]。量子超導計算芯片的測試需要幾十甚至上百路高頻微波信號輸入,普通微波信號源一般只有1~2個通道,遠遠不能滿足測試需求;若集成多個信號源以擴展信號通道,不但體積龐大,成本昂貴,信號源的同步控制也是一個難題。
本文針對上述問題,基于功放及功分技術,提出了對微波信號源的一路輸出進行等功率擴展的方法,設計了集成了衰減器、功放和功分模塊的信號源等幅擴展裝置。利用微波信號源、頻譜儀、網分等測量儀器搭建實驗平臺,對所設計信號源擴展裝置的性能開展實驗研究,同時驗證基于功放、功分技術的微波信號源擴展方法,并對實驗結果進行了分析。
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作者信息:
張 愷,許云鵬,陳秋菊,李 秦,柴熙源,吳叢鳳,唐運蓋
(中國科學技術大學,安徽 合肥230026)
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