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针对L波段掺铒光纤放大器(EDFA)增益低、噪声大的缺点,提出了L 波段双级级联双程放大的放大器结构,并对优化设计结果进行了实验验证。实验中前级和后级所用的铒纤长度分别为6.5m 和32.5m,泵浦功率分别为130mW 和119mW。在小信号功率(-30dBm)输入条件下、1568~1602nm 波长范围内,放大器输出增益都大于38.84dB 同时增益平坦度优于2.04dB。其噪声指数在整个L 波段都小于5.29dB(1590nm 处噪声指数仅为3.95dB)。实验结果表明此放大器不仅完全满足预放级放大器高增益、低噪声的要求,而且具有成本低、泵浦效率高的优点。 相似文献
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<正>微波单片集成电路(MMIC)是新一代微波产品。它把有源和无源元件,采用可批量生产的集成技术制作在同一GaAs衬底上完成一定微波功能,具有成本低、产量高、可靠性高、体积小、重量轻等突出的优点。南京电子器件研究所1991年研制的MMIC产品WD64型S波段GaAs单片可变增益放大器如图1所示。其芯片尺寸为4.5mm×1.6mm×0.15mm,双栅 相似文献
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提出了一种基于有源可调衰减器的超宽带可变增益放大器,以有源可调衰减器作为可变增益放大器的核心,并与高增益放大器级联,在3.1~10.6 GHz超宽频带内实现了宽动态增益调节范围.基于Jazz 0.35 μm SiGe HBT工艺,完成了超宽带可变增益放大器的设计,利用安捷伦公司的ADS仿真软件进行仿真验证.结果表明,在3.1~10.6 GHz的超宽频带内,当电压在0.7~2.0V的范围内变化时,该放大器的动态增益变化范围大于60 dB,3dB带宽大于7 GHz,在整个电压变化范围内,S11和S22均低于-10 dB,在最大增益处,噪声系数小于5dB. 相似文献
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报道了一种新型基于环形激光腔的增益钳制掺铒光纤放大器。得到了较好的增益钳制效果和增益平坦度,利用980nm半导体激光器泵浦12m长掺铒光纤形成激光增益,观测到
30nm增益带宽。通过反馈1520nm 激光,在可变衰减器不同值测量了输入信号从- 40 ~10dBm的增益,其小信号增益被钳制在16dB。可为40个波分复用(WDM)信道波长提供增益钳制及平坦的放大功能。 相似文献
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用分析方法获取具有4个端口的双栅FET适用S参数进行设计,用微波单片集成电路技术制成增益30dB,可控增益大于65dB,二栅开关时间小于5ns的S波段单片可变增益放大器,封装后的尺寸为17.5mm×20mm×5mm。 相似文献
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针对无线接收机在对不同信号进行放大时,噪声恶化严重的问题,文中在驱动放大级采用电流复用技术,可以降低系统功耗,同时,在增益变化过程中保证了输入级增益对后级电路噪声的抑制作用,使得增益变化过程中,噪声始终低于1 dB。输入级和输出级阻抗匹配良好,在3 GHz~6.3 GHz的工作频段上可实现系统增益的连续可调范围约30 dB(19.6 dB~49.6 dB),同时通过采用两个控制电压分别控制两级放大电路,在增益变化过程中系统获得了良好的增益平坦度,版图尺寸为0.95×1.53 mm2。在常规工作状态下,系统噪声为0.56±0.02 dB,增益为49.6±0.47 dB,功耗97 mW。在4.5 GHz频率处,系统的OP1dB为10.3 dBm, OIP3达到29 dBm,具有良好的线性度。 相似文献
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星用固放在高可靠性、高效率、小体积、低重量的基础上,采用温补电路,使部件在全温范围内,功率增益基本保持不变,并维持良好的线性工作状态;部件同时增加了增益调节端口,从而应用更广泛,使用更灵活。 相似文献
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K.H. Yla-Jarkko C. Codemard J. Singleton P.W. Turner I. Godfrey S.-U. Alam J. Nilsson J.K. Sahu A.B. Grudinin 《Photonics Technology Letters, IEEE》2003,15(7):909-911
We present results on a low-cost cladding-pumped L-band amplifier based on side pumping (GTWave) fiber technology and pumped by a single 980-nm multimode diode. We show that simultaneous noise reduction and transient suppression can be achieved by using gain clamping by a seed signal (/spl lambda/=1564 nm). In the gain-clamping regime, the amplifier exhibits 30-dB gain over 1570-1605-nm spectral band with noise figure below 7 dB. The noise figure can be further reduced to below 5 dB by utilizing a low power single-mode pump at 980 nm. The erbium-doped fiber amplifier is relatively insensitive to input signal variations with power excursions below 0.15 dB for a 10-dB channel add-drop. 相似文献
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研究C—band种籽光对L—band EDFA泵浦转换效率的影响,实验表明,在L—band EDFA中注入C—band种籽光时,可以有效提高泵浦转换效率。 相似文献
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《Electronics letters》2008,44(18):1082-1083
A novel low-noise extended L-band silicate erbium-doped fibre amplifier (EDFA) is proposed, consisting of two novel gain-flattened gain blocks for wavelength-division multiplexing (WDM) signals from 1562.2 to 1619.6 nm. Each gain block consists of three isolated phosphorus/ alumina co-doped silicate EDFs, an intermediate embedded gain flattening filter (GFF), a short wavelength pump laser diode, and a pump bypass and/or a recycle path. The proposed EDFA, which uses only three pump laser diodes, has achieved noise figures as much as 6.1 dB lower than those realised by an earlier EDFA, when its intermediate optical attenuator has large signal losses and the input signal power is low. 相似文献
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对EDFA增益和自发辐射噪声的研究 总被引:1,自引:0,他引:1
时书丽 《光纤与电缆及其应用技术》2003,(5):8-9,35
阐述了掺铒光纤放大器的放大原理,给出了计算放大器增益和自发辐射噪声的公式,并且给出了增益和噪声与掺铒光纤长度、泵浦功率、输入信号功率之间的关系。 相似文献
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Cross-phase modulation in an L-band EDFA 总被引:1,自引:0,他引:1
Eiselt M. Shtaif M. Tkach R.W. Flood F.A. Ten S. Butler D. 《Photonics Technology Letters, IEEE》1999,11(12):1575-1577
We measure the cross talk in a wavelength-division-multiplexed (WDM) system arising from cross-phase modulation (XPM) in an L-band erbium-doped fiber amplifier (EDFA). This effect has the potential of becoming the dominant nonlinear crosstalk mechanism in L-band WDM systems using standard fiber. We discuss how appropriate amplifier design can reduce the XPM in the EDFA 相似文献
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文章介绍了L波段掺铒光纤放大器(EDFA)的理论模型,并根据L波段EDFA的实验结果对理论模型进行了验证,实验结果和理论分析相吻合. 相似文献
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Improvement of gain and noise figure in double-pass L-band EDFA by incorporating a fiber Bragg grating 总被引:2,自引:0,他引:2
L.L. Yi L. Zhan J.H. Ji Q.H. Ye Y.X. Xia 《Photonics Technology Letters, IEEE》2004,16(4):1005-1007
An obvious improvement on both the gain and noise figure (NF) is demonstrated in the new double-pass L-band erbium-doped fiber amplifier (EDFA) with incorporating a fiber Bragg grating (FBG). Compared with the conventional L-band EDFAs, the gain is improved by about 6 dB in the new configuration for a 1580-nm signal with an input power of -30 dBm at 60 mW of 980-nm pump power. It is important that the NF is greatly reduced in the new configuration, as the FBG greatly compresses the backward amplified spontaneous emission. For the economical utility of pump power and erbium-doped fiber length, such a configuration may be a very competitive candidate in the practical applications of L-band EDFAs. 相似文献