针对配电网节点电压方均根值(root mean square value,RMS)数据规律性差,难以预测的特点,文中提出了一种将自回归移动平均模型(auto-regressive and moving average model,ARMA)应用到电压RMS值预测中的方法。该方法主要包括数据预处理...针对配电网节点电压方均根值(root mean square value,RMS)数据规律性差,难以预测的特点,文中提出了一种将自回归移动平均模型(auto-regressive and moving average model,ARMA)应用到电压RMS值预测中的方法。该方法主要包括数据预处理、ARMA模型拟合训练、ARMA模型拟合评价、ARMA模型预测应用4个步骤。运用Python编程语言实现该方法,随机选取两条10 k V等级的电压RMS值监测序列进行ARMA模型拟合训练,并利用训练完成后的模型进行预测分析,结果表明,两条预测序列与实际值的方均根误差分别为9.57和5.05,本文所提方法能够对电压RMS值进行较为有效的预测,具有较好的有效性和实用性。展开更多
随着双有源全桥(dual active bridge,DAB)变换器开关频率的提升,半导体器件的开关损耗占比越来越大,基于回流功率、电感电流峰值或有效值的单目标效率优化策略的优势逐渐丧失。为提升DAB变换器的高频工况运行效率,文中对DAB最优模态与...随着双有源全桥(dual active bridge,DAB)变换器开关频率的提升,半导体器件的开关损耗占比越来越大,基于回流功率、电感电流峰值或有效值的单目标效率优化策略的优势逐渐丧失。为提升DAB变换器的高频工况运行效率,文中对DAB最优模态与优化目标进行定量分析与选择,提出一种可同时实现电感电流有效值准最优、宽范围软开通的移相策略,在该策略下轻重载工况所有开关管均可实现软开通,中载仅有两个开关管丢失软开通。为保证软开通的有效实现,根据电荷交换和死区时长两个条件推导实现软开通所需电流的统一表达式。再者,将软开通谐振过程线性化处理,所得简化表达式可与本文移相模态相结合,可实现任意开关管在任意模态下的软开通。最后,搭建6.6 k W/150 k Hz的碳化硅实验平台进行验证。实验结果表明,所研究的多目标优化策略可同时减小开通损耗与导通损耗,有效提升DAB变换器在高频工况下的运行效率。展开更多
A new precision full-wave rectifier employing only two differential difference current conveyors, which is very suitable for CMOS technology implementation, is presented. The proposed rectifier is the voltage-mode cir...A new precision full-wave rectifier employing only two differential difference current conveyors, which is very suitable for CMOS technology implementation, is presented. The proposed rectifier is the voltage-mode circuit, which offers high-input and low-output impedance hence it can be directly connected to load without using any buffer circuits. PSPICE is used to verify the circuit performance. Simulated rectifier results based-on a 0.5 μm CMOS technology with ±2.5 V supply voltage demonstrates high precision rectification and excellent temperature stability. In addition, the application of proposed rectifier to pseudo RMS-to-DC conversion is also introduced.展开更多
文摘针对配电网节点电压方均根值(root mean square value,RMS)数据规律性差,难以预测的特点,文中提出了一种将自回归移动平均模型(auto-regressive and moving average model,ARMA)应用到电压RMS值预测中的方法。该方法主要包括数据预处理、ARMA模型拟合训练、ARMA模型拟合评价、ARMA模型预测应用4个步骤。运用Python编程语言实现该方法,随机选取两条10 k V等级的电压RMS值监测序列进行ARMA模型拟合训练,并利用训练完成后的模型进行预测分析,结果表明,两条预测序列与实际值的方均根误差分别为9.57和5.05,本文所提方法能够对电压RMS值进行较为有效的预测,具有较好的有效性和实用性。
文摘随着双有源全桥(dual active bridge,DAB)变换器开关频率的提升,半导体器件的开关损耗占比越来越大,基于回流功率、电感电流峰值或有效值的单目标效率优化策略的优势逐渐丧失。为提升DAB变换器的高频工况运行效率,文中对DAB最优模态与优化目标进行定量分析与选择,提出一种可同时实现电感电流有效值准最优、宽范围软开通的移相策略,在该策略下轻重载工况所有开关管均可实现软开通,中载仅有两个开关管丢失软开通。为保证软开通的有效实现,根据电荷交换和死区时长两个条件推导实现软开通所需电流的统一表达式。再者,将软开通谐振过程线性化处理,所得简化表达式可与本文移相模态相结合,可实现任意开关管在任意模态下的软开通。最后,搭建6.6 k W/150 k Hz的碳化硅实验平台进行验证。实验结果表明,所研究的多目标优化策略可同时减小开通损耗与导通损耗,有效提升DAB变换器在高频工况下的运行效率。
文摘A new precision full-wave rectifier employing only two differential difference current conveyors, which is very suitable for CMOS technology implementation, is presented. The proposed rectifier is the voltage-mode circuit, which offers high-input and low-output impedance hence it can be directly connected to load without using any buffer circuits. PSPICE is used to verify the circuit performance. Simulated rectifier results based-on a 0.5 μm CMOS technology with ±2.5 V supply voltage demonstrates high precision rectification and excellent temperature stability. In addition, the application of proposed rectifier to pseudo RMS-to-DC conversion is also introduced.
