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本文对如何提高国产1.55μmInGraAspDFB-LD组件直接高速调制速率以及国产PIN-FET组件的频响带宽进行了理论与实验研究。在实验测量的基础上建立了国产LD组件小信号等效电路模型,对其调制响应速率的主要限制因素进行了分析,研制了高速DFB-LD组件,将其调制速率提高到3.2GHz。同时,在对谐振式PIN-FET光接收机进行噪声分析的基础上,采用微波混合集成工艺研制了一个串联谐振式PIN-FET光接收组件,有效地提高了PIN-FET的频响带宽。 相似文献
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报道了8~16GHzGaAs单片宽带分布放大器的设计与制作。单级MMIC电路采用三个栅宽为280μm的GaAsMESFET作为有源器件,芯片尺寸为1.1mm×1.6mm。在8~16GHz频率范围,用管壳封装的两级级联放大器增益G_a,为11.3±1dB,噪声系数F_n<6dB,输出功率P_(1dB)>16dBm。 相似文献
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文章介绍了用于光纤通信及SDH/SONET系统中具有25dB动态范围和IGHz带宽的跨阻抗前置运算放大器。 相似文献
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描述了2-4GHz、8-12GHz的SPDT和8-12GHz的SP3T大功率PIN开关的设计方法、实现过程和测试结果。其连续波功率最大可承受80W,插入损耗小于1.8dB,,隔离度大于25dB,驻波比小于1.8,开关时间小于1us具有功率容量大,工作频带宽、可靠性高,成本低,调试简单等特点。 相似文献
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Ka波段AlGaAs/InGaAs低噪声PHEMT异质材料结构的计算机优化与实验结果 总被引:2,自引:0,他引:2
讨论了毫米波低噪声PHEMT的设计要点,藕助Schroedinger/Poisson方程及器件方程,进行了Ka波段AlGa/InGaAs低噪声PHEMT用异质层数值计算及CAD优化,确定出分子束外延MBE时诸层的最佳组分、浓度、与厚度、上述优化分析的结果用于器件的实验研制,取得了34.4GHz下噪声系数(NF)1.92dB、相关增益Ga6.5dB的国内最好结果。 相似文献
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介绍了X波段1.5W GaAs MMIC的设计,制作和性能测试,包括MESFET大信号模型的建立,电路CAD优化,DOE灵敏度分析及T型栅工艺研究等。微波测试结果为:在频率9.4 ̄10.2GHz下,输出功率大于32dBm,增益大于10dB。 相似文献
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描述了以PHEMT为有源器件的8 ̄12GHz宽带低噪声单片电路的设计及制造,获得了满意的结果。其性能为f=8 ̄12GHz,Ga=17.4 ̄19.5dB,Fn=1.84 ̄2.20dB;f=8 ̄14GHz,Ga=17.4 ̄19.9dB,Fn=1.84 ̄1.5dB。 相似文献
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The authors discuss the development of ICs (integrated circuits) for a preamplifier, a gain-controllable amplifier, and main amplifiers with and without a three-way divider for multigigabit-per-second optical receivers using a single-ended parallel feedback circuit, two (inductor and capacitor) peaking techniques, and advanced GaAs process technology. An optical front-end circuit consisting of a GaAs preamplifier and an InGaAs p-i-n photodiode achieves a 3-dB bandwidth of 7 GHz and -12-dBm sensitivity at 10 Gb/s. Moreover, a gain-controllable amplifier obtains a maximum gain of 15 dB, a gain dynamic range of 25 dB, and a 3-dB bandwidth of 6.1 GHz by controlling the source bias of the common-source circuit. Gain, 3-dB bandwidth, and output power of the main amplifier with the three-way divider are 17.4 dB, 5.2 GHz, and 5 dBm, respectively. These ICs can be applied to optical receivers transmitting NRZ signals in excess of 7 Gb/s 相似文献
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基于南京电子器件研究所0.5μm GaAs PHEMT工艺,研制了一种高增益级联式光接收机前置放大器.作为前级的跨阻抗放大器的-3dB带宽为10GHz,小信号增益为9dB;作为后级的分布式放大器的-3dB带宽接近20GHz,小信号增益为12dB;级联前置放大器小信号增益达21.3dB,跨阻增益为55.3dBΩ,在输入10Gb/s非归零伪随机二进制序列下,放大器输出眼图清晰、对称、信噪比优于跨阻放大器,分布放大器不能校正的输入波形失真也得到显著改善. 相似文献
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采用0.5 μ m GaAs PHEMT工艺研制了一种单电源偏置光接收机跨阻抗前置放大器.放大器-3dB带宽约为9.5GHz;在50MHz~7.5GHz范围内,跨阻增益为43.5±1.5dB Ω ,输入输出回波损耗均小于-10dB;带内噪声系数在4dB~6.5dB之间,由此得到的最小等效输入噪声电流密度约为17.6pA/ Hz ;输入12Gb/s NRI伪随机序列时,放大器输出眼图清晰,眼开良好. 相似文献
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An ultrawide-bandwidth, low-noise optical receiver has been designed for use in both multigigabit direct-detection or coherent heterodyne systems at 1.3 and 1.55 ?m wavelengths. The receiver consists of a low-capacitance InGaAs PIN photodiode connected to a high-impedance three-stage GaAs FET preamplifier. Inductive peaking at the front end is used to reduce the receiver noise at high frequencies. The receiver has an equivalent input RMS noise current of < 12 pA/?Hz from 4 to 7 GHz. The measured 3 dB bandwidth of 8 GHz is the widest receiver bandwidth reported to date. 相似文献
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直接调制和外调制的半导体激光光源在现代光纤通信系统中有着重要的应用。首先介绍了应用于10 Gb/s接入网系统的直接调制AlGaInAs多量子阱DFB激光器。由于AlGaInAs量子阱的导带不连续性较大,因此基于该材料的半导体激光器具有良好的温度特性,其特征温度达到了88 K。同时,该直接调制激光器的3 dB小信号调制响应带宽超过15 GHz。随后介绍面向40 Gb/s干线传输系统的高速DFB激光器/EA调制器集成光源。该集成光源采用同一外延层集成方案,并采用Al2O3高速微波热沉进行了管芯级封装,在3 V反向偏压下获得大于13 dB的静态消光比,3 dB小信号调制带宽超过40 GHz。 相似文献
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设计了一种的低成本、低功耗的10 Gb/s光接收机全差跨阻前置放大电路。该电路由跨阻放大器、限幅放大器和输出缓冲电路组成,其可将微弱的光电流信号转换为摆幅为400 mVpp的差分电压信号。该全差分前置放大电路采用0.18 m CMOS工艺进行设计,当光电二极管电容为250 fF时,该光接收机前置放大电路的跨阻增益为92 dB,-3 dB带宽为7.9 GHz,平均等效输入噪声电流谱密度约为23 pA/(0~8 GHz)。该电路采用电源电压为1.8 V时,跨阻放大器功耗为28 mW,限幅放大器功耗为80 mW,输出缓冲器功耗为40 mW,其芯片面积为800 m1 700 m。 相似文献
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An optical transimpedance receiver front-end that is adaptable to a wide range of bit-rates up to 3 Gb/s has been realized by monolithically integrating high efficiency p-i-n photodiodes with low noise InGaAs junction field effect transistors. The transimpedance-bandwidth product of the receiver is 2.8 THz Ω. The average equivalent input noise current for full circuit bandwidth is 4.0 pA/√Hz. The preamplifier for nonreturn to zero data transmission without equalization of the frequency response at 1.55 μm offers a sensitivity of -41.5 dBm and -29.5 dBm at 140 Mb/s and 2.4 Gb/s, respectively. The dynamic range is 17 dB at 2.4 Gb/s and exceeds 30 dB at 500 Mb/s 相似文献
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Optical preamplifier using optical modulation of amplified spontaneous emission in saturated semiconductor optical amplifier 总被引:1,自引:0,他引:1
This paper demonstrates a novel optical preamplifier using optical modulation of amplified spontaneous emission (ASE) emitted from a saturated semiconductor optical amplifier (SOA). Requirements on optical alignments and antireflection coating for SOAs can be relaxed and the elimination of an optical filter gives us a large tolerance of an input light wavelength in the proposed optical preamplifier. A small-signal gain of a fabricated preamplifier was over 13.5 dB for an input power of below -20 dBm. An optical gain bandwidth was over 60 nm. We measured the small-signal response of the optically modulated ASE. The 3 dB bandwidths at SOA bias currents of 200, 300, and 400 mA were 5.8, 12.6, and 16.5 GHz, respectively. We also investigated improvements in receiver sensitivities with the proposed optical preamplifier. Our calculation shows a possibility of 10 dB improvement in receiver sensitivities by using the optical preamplifier at 10 Gb/s. The measured receiver sensitivity was -22.7 dBm at 10 Gb/s with the optical preamplifier, which is corresponding to an improvement of 2.5 dB in the receiver sensitivity. Further improvements of the receiver sensitivity can be expected by optimizing the structure of SOAs for saturating ASE. 相似文献
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Soda M. Tezuka H. Sato F. Hashimoto T. Nakamura S. Tatsumi T. Suzaki T. Tashiro T. 《Solid-State Circuits, IEEE Journal of》1994,29(12):1577-1582
Two Si-Analog IC's, a preamplifier IC and a decision IC, for a 20 Gb/s optical receiver have been developed using SiGe-base bipolar transistors having a 60 GHz maximum cutoff frequency. The preamplifier employing a dual feedback loop increases the -3 dB bandwidth up to 19 GHz. A decision IC, composed of a gain controllable amplifier with a bias stabilization circuit and D-F/F, operated at up to 20 Gb/s with a 200-mVp-p input sensitivity 相似文献