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介绍了用CPLD HDL的EDA技术作为开发手段,实现对16通道脉冲信号计数的脉冲计数器的设计。该方法具有设计周期短,内部电路模块可移植的特点,解决了以往数字电路小规模多器件组合的设计瓶颈,经实际电路测试,该系统性能可靠。 相似文献
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本文简要介绍了脉冲宽度调制(Pulse Width Modulation,简称PWM)控制技术的发展和应用,然后详细阐述了基于单片机和CPLD实现数字PWM控制的方法,并给出仿真结果。基于此方法产生的PWM具有开关频率、死区时间可调,接口简单,易于实现等特点,并在某直流伺服系统中得到了应用。 相似文献
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详细介绍了分数分频锁相环的工作原理和特性,以及抑制分数分频锁相环相位调制边带的方法,给出了一个L波段分数分频锁相合成器的实验结果。 相似文献
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在电子系统的设计中经常需要对输入时钟信号进行分频,以满足不同系统设计模块的需要。分频方法很多,但设计方法简单且具有一定通用性的较少,而在基于CPLD(复杂可编程逻辑器件)的系统设计中,利用时钟的上升沿和下降沿控制计数器产生两路输出波形,对这两路波形进行逻辑或操作,进而可简易实现对输入时钟信号进行任意整数和半整数分频,其中整数分频为等占空比,半整数分频的高低电平只差半个输入时钟周期。 相似文献
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基于雪崩二极管的光正交频分复用系统接收机 总被引:1,自引:1,他引:0
提出了一个完整的高灵敏度光正交频分复用(OOFDM)系统,以实现高速长距离传输。实验中,将10Gbit/s的4QAM调制OOFDM信号在光纤中传输了50km,直接探测后得到的星座图和误码率都达到了良好的效果。在此基础上,对比了采用雪崩二极管(APD)和传统的光电二极管(PIN)两种不同的探测方式,结果发现,使用APD探测使得OOFDM系统接收的灵敏度提升了5.2dB。 相似文献
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在OFDM系统中,为了能达到系统需要的解码要求,必须进行准确的信道估计.首先介绍了OFDM系统基本原理,对基于叠加训练序列的OFDM系统信道估计算法进行了仿真分析,并比较了在不同ρ值情况下的性能,从而存在一个最优的ρ值取得最好的估计性能. 相似文献
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相干光正交频分复用系统(Coherent Optical Orthogonal Frequency Division Multiplexing, CO-OFDM)作为未来高速光通信的重要解决方案,是近年来光传输领域的研究热点。高速CO-OFDM系统需要较高带宽的模数/数模转换器(DAC/ADC),目前技术水平难以达到。文章改进了正交频带复用技术(Orthogonal Band Multiplexing , OBM)的光域实现方案;结合偏振复用技术和偏振分集接收,提出了基于OBM的100Gb/s高速CO-OFDM系统;并对系统传输性能进行数字仿真。结果表明:基于OBM技术的MIMO CO-OFDM系统可有效降低对DAC/ADC的处理速度要求,在不需任何在线色散补偿和偏振控制器件条件下,通过单模光纤传输800km,系统Q值保持在13dB以上。 相似文献
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相干光正交频分复用系统(Coherent Optical Orthogonal Frequency Division Multiplexing,CO-OFDM)以其较好的色散抑制性能和简单有效的信号处理技术,是近年来光传输领域的研究热点。对于高速CO-OFDM传输系统,偏振模色散(Polarization-mode-dispersion,PMD)带来OFDM信号展宽及输出偏振态的不同,严重影响系统传输性能。文章对一阶PDM影响下CO-OFDM系统(PMD-CO-OFDM)的数学模型和作用机理进行分析,并通过仿真加以验证。结果表明,一阶PMD效应对OFDM信号附加与子载波频率相关的余弦因子,降低系统传输性能,通过信道均衡可有效去除此影响;另外,PMD效应一定程度上减弱子载波相关性,可抑制系统光纤非线性效应,在不考虑色散条件下PMD-CO-OFDM系统以10Gb/s的速率在单模光纤传输240km,差分群时延为50ps时较30ps系统Q值提高约0.2dB。 相似文献
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光正交频分复用技术是一种将电域正交频分复用与光纤通信技术相结合的新型光通信技术,具有高频谱利用率、有效抵抗光纤链路中的色度色散、偏振模色散和非线性效应等优点,在大容量、长距离光纤通信系统和光接入网中有着广阔的应用前景。介绍了光正交频分复用(O-OFDM)系统的工作原理、结构及其关键技术的国内外研究现状,讨论了O-OFDM应用有待深入研究的技术和问题,展望了O-OFDM技术的发展趋势和应用前景。 相似文献
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In order to alleviate the influence of atmospheric turbulence on the performance of satellite-to-ground laser communication system,based on the M-distribution atmospheric channel model,a multi-carrier coherent orthogonal frequency division multiplexing (OFDM) modulation system was proposed for uplink and downlink in the satellite-to-ground laser communication.The closed-form expression of bit error rate (BER) of coherent OFDM modulation system was derived.The relationship between the zenith angle,receiving aperture,signal-to-noise ratio (SNR),optimal beam divergence angle,and optimal transmission radius and the BER were studied under weak,and strong atmosphere turbulence,and compared with binary coherent differential phase shift keying (DPSK) modulation.Both the theory and the simulation results show that compared with coherent DPSK modulation,the bit error performance of the coherent OFDM modulation system in the satellite-to-ground laser communication system is better. 相似文献
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Resource allocation in orthogonal frequency division multiple access‐based cognitive radio systems with minimum rate constraints 下载免费PDF全文
Li Li Changqing Xu Pingzhi Fan Jian He 《International Journal of Communication Systems》2014,27(8):1147-1159
In this paper, resource allocation problem in orthogonal frequency division multiple access‐based cognitive radio (CR) systems to maintain minimum transmission rate constraints of CR users (CRUs) with the specified interference thresholds is investigated. Firstly, a single primary user (PU) CR system is considered, and a suboptimal resource allocation algorithm to maximize the sum transmission rate of all CRUs is proposed. Secondly, the single‐PU scenario is extended to multiple‐PU case, and an asymptotically optimal resource allocation algorithm is proposed using dual methods subject to constraints on both interference thresholds of PUs and total transmit power of all CRUs. Analysis and numerical results show that, in contrast to classical resource allocation algorithms, the proposed algorithm can achieve higher transmission rate and guarantee each CRU's minimum transmission rate in both scenarios. Copyright © 2012 John Wiley & Sons, Ltd. 相似文献
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P. L. Katsis G. D. Papadopoulos F.‐N. Pavlidou 《International Journal of Communication Systems》2004,17(9):889-909
Orthogonal frequency division multiplexing (OFDM) and multicarrier code division multiple access (MC‐CDMA) systems are comparatively evaluated for power line communications (PLC) in a frequency‐selective fading environment with additive coloured Gaussian noise which is used to model the actual in‐home power line channel. OFDM serves as a benchmark in order to measure the performance of various MC‐CDMA systems, since multicarrier modulation systems are considered the best candidate for this kind of channel. Both single‐user and multi‐user cases are taken into account, making use of the appropriate combiner schemes to take full advantage of each case. System efficiency is enhanced by the application of different coding techniques, a fact which shows that powerful coding can make the difference under such a hostile medium. The impact of block interleaving is investigated, while the simulation examines how different modulation schemes fair under the imposed channel conditions as well. The performance of the system is assessed by the commonly used bit error rate vs signal‐to‐noise ratio diagrams and there is also a comparison regarding throughput efficiency among all the tested systems. As stated in Section 4, a promising PLC application is attained. Copyright © 2004 John Wiley & Sons, Ltd. 相似文献