Improved Protein Transfer Efficiency and Signal Intensity in BlotMan Using Pulse Width Modulation

BlotMan is a protein blotting device that allows generating multiple membranes from a single polyacrylamide gel. To transfer all proteins uniformly with the same efficiency regardless of protein size, BlotMan employs pulse-width-modulated (PWM) voltage that applies a higher average voltage to a larger protein species. BlotMan can be controlled not only by its custom-made interface but also by a smart phone via Bluetooth technology. In this study, we examined effects of PWM signals (50%, 60%, and 80% duty cycle) on transfer efficiency and signal intensity in comparison to a constant voltage signal (100% duty cycle). The result revealed that in response to the same average voltage of 150 V, a lower duty cycle with a higher maximum voltage increased transfer efficiency as well as sharpness of transferred proteins. We validated BlotMan’s capability using a chondrosarcoma cell line (SW1353 cells) and a breast cancer cell line (MDA-MB231 cells) in response to antitumor chemical agents. BlotMan successfully generated 5 membranes from a single gel and detected 5 protein species such as c-Src, eukaryotic translation initiation factor 2 alpha (eIF2), phosphorylated eIF2, lamin B, and actin. Collectively, we demonstrated herein that BlotMan reduces an amount of protein samples by generating multiple membranes from a single gel and improving signal intensity with PWM voltage signals.

Spectral Calculation of the Output Voltage of an Inverter with Bipolar Pulse Width Modulation

Converters with pulse width modulation are used for connections between the direct current （DC） and alternating current （AC） networks, e.g., in uninterrupted power supply systems, AC electromotor drives, for powering induction furnaces, in audio technique. Spectrum of signals sampled by pulse amplitude modulation and output voltage spectrum of the converter with pulse width modulation have similar properties. Spectrum of signals sampled by pulse amplitude modulation contains a harmonic of frequency equal to the frequency of the modulating signal and the harmonics of frequencies equal to the sum of frequency of the modulating signal and multiples of the sampling frequency. The output voltage spectrum of the converter with bipolar pulse width modulation contains harmonic of frequency equal to the frequency of the modulating signal and harmonics of frequencies equal to sum of the frequency of the modulating signal and multiples of the frequency of the carrier signal. It also contains harmonics of frequencies equal to the sum of the multiples of the frequency of the modulating signal and the multiples of the carrier signal. The comparison analysis was carried out for the harmonics of the output voltage of the converter with bipolar pulse width modulation in time domain. The dependency of the amplitudes and frequency spectrum on the wave forms of the carrier signal and modulating signal was shown. Similarity of the output voltage spectrum of the converter and signal spectrum sampled by the pulse width modulation was also shown. Key words： Output voltage converter with bipolar pulse width modulation, spectral analysis, Fourier series, carrier signal, reference signal.

抑制级联H 桥变换器共模电压的简化SVPWM 策略

为解决传统空间矢量调制策略难以拓展至高电平数级联H桥多电平变换器,以及抑制级联H桥多电平变换器调制策略实现过程中产生的共模电压的问题,本文提出一种简化空间矢量调制策略。该策略基于α'β'坐标系,通过判断空间矢量所处区域,得出其边界开关状态,再引入修正参数K对边界开关状态进行修正,以此提高策略的快速性并完成共模电压抑制。仿真和实验结果表明该策略实现简单,可以将级联H桥多电平变换器共模电压抑制在最小变化范围内。

Research of the Unity Theory Between Three-level Space Vector and Carrier-based PWM Modulation Strategy

两电平空间矢量脉宽调制（space vector pulse widthmodulation,SVPWM）与正弦脉宽调制（sinusoidal pulse widthmodulation,SPWM）存有一定的本质关系,对于三电平,在常见的8段式SVPWM序列中可以证明,SVPWM与SPWM本质上也存在某种统一。实际的SVPWM调制中,由于要考虑中点电压平衡、减少谐波等其它性能问题,一般会利用开关冗余状态得到8段以上的开关调制序列。目前的文献中还未曾有对这些情况进行统一性地验证,因此三电平SVPWM与SPWM的统一理论存在一定的不足。研究发现,可通过严格地理论推导将传统意义上的调制波分解为2个子调制波,再进行SPWM调制,可以得到与SVPWM完全吻合的序列。该文在此方法基础上深入研究了8段以上（10、12、14段）的SVPWM调制序列与SPWM的统一。经过严格地理论推导,成功实现了含任意段数的SVPWM序列与SPWM的统一。仿真结果证明了该理论的正确性。

直流偏置型游标磁阻电机系统低开关频率交替箝位PWM策略

提出一种具有零序电流调节能力的直流偏置型游标磁阻电机(DC-biased vernier reluctance machine,DC-biased-VRM)系统低开关频率交替箝位脉宽调制(pulse width modulation,PWM)策略。DC-biased-VRM利用电枢绕组中附加的直流偏置电流来构建转子磁链,为调节直流偏置电流,采用开绕组逆变器提供零序电流通路。相比于传统三相逆变器,开关动作的次数增加了1倍,在调整直流偏置电流、降低开关损耗方面存在一定优化空间。针对以上改进需求,引入交替箝位控制方式,并提出重新配置的零电压矢量实现零序电压的实时调节,保证零序电流的调节能力。最后,通过样机实验验证提出策略的有效性。提出策略可以减少开关动作次数,保证逆变器的低开关损耗,为提高DC-biased-VRM驱动系统效率提供有效的解决方案。

Carrier dynamic overlapping switching frequency optimal pulse width modulation method for modular multilevel converters

Modular multilevel converters(MMCs) operate in the low modulation index region in many applications.However, when utilized at the low modulation index region, large harmonics appear in the output voltage, which degrade the performance of the MMC. To improve the harmonic characteristic in the low modulation index, the carrier dynamic overlapping switching frequency optimal pulse width modulation(CDOSFOPWM) method is proposed for the MMC here. The whole modulation index region is divided into three regions: high modulation index region, middle modulation index region, and low modulation index region. The carrier amplitude, carrier overlap ratio, and frequency of triangular carriers are chosen dynamically according to the modulation index region of the modulation signals, to achieve the optimal harmonic characteristic in the whole modulation index region and maintain the switching loss. The number of on-state submodules(SMs) can be calculated by CDOSFOPWM, and the selection of SMs is performed by a reducing switching frequency voltage balancing algorithm. Finally, the proposed method is verified by simulation and experimental results.

基于动态DPWM的三电平损耗及结温研究

降低功率器件损耗对中点箝位型(NPC)三电平变流器的热可靠性以及使用寿命等方面至关重要。变流器常用的脉宽调制策略可分为连续脉宽调制(SCPWM)与断续脉宽调制(DPWM)策略。SCPWM存在开关损耗大和结温高等缺点;传统DPWM可降低损耗但只能在特定的功率因数角下才可发挥最大效果,为了在宽功率因数范围内都具有最低的损耗,提出一种动态的DPWM策略。通过检测瞬时功率因数角,实时修正参考调制波,使得相电压箝位区域与对应相电流峰值尽可能重合,从而有效降低开关损耗以及抑制器件结温。最后,仿真和实验验证了该方法的有效性。

三相PWM变换器电流切换预测控制仿真及实验研究

由于功率开关器件的作用,三相脉冲宽度调制(PWM)变换器呈现典型切换系统特征。相较于广泛使用的变换器线性化建模及控制方法,三相PWM变换器切换系统建模及控制方法能够精确描述变换器工作过程,且具有控制参数少和响应速度快的优势。已有成果存在开关频率不固定和需求高采样频率的问题。针对上述问题,提出一种三相PWM变换器电流切换预测控制方法。所提方法降低了系统采样频率需求并实现了变换器定频切换控制。仿真和实验结果证明了所提方法的有效性。

基于PWM占空比优化的PMSM预测直接转矩控制

针对永磁同步电机PMSM(permanent magnet synchronous motors)传统直接转矩控制DTC(direct torque control)存在开关频率不规则、开关噪声的频率范围太宽和死区补偿算法复杂等问题,提出了一种基于优化脉宽调制PWM(pulse width modulation)和死区补偿的PMSM预测DTC方法。该方法首先在已知零电压矢量的基础上,根据预测转矩和磁通误差来选择2个其他有效电压矢量,与此同时,也考虑反电动势和磁通-转矩耦合器;接着,利用1个零电压矢量和2个其他有效电压矢量预测每个采样周期的转矩和磁通变化量,其中,3个电压矢量的开关周期由转矩和磁通误差以及上一步计算出的预测转矩和磁通变化量共同决定;然后,采用死区补偿算法和改进的PWM来减小死区效应,以提高预测效果;最后,通过仿真和实验验证了所提方法的有效性和优越性。研究结果表明,所提方法在转矩控制和磁通控制效果要明显优于其他方法,且极大地降低了开关损耗。

一种APWM结合PFM降频的CLLC谐振变换器软启动策略

为减小CLLC谐振变换器在启动阶段的谐振冲击电流,提出一种不对称脉冲宽度调制(APWM)和脉冲频率调制(PFM)降频相结合的CLLC谐振变换器软启动策略。该策略由半桥APWM、全桥APWM和PFM降频等三个阶段组成。在半桥APWM阶段,开关管S1逐步增大占空比但保持最大开关频率;在全桥APWM阶段,开关管S4逐步减小占空比但保持最大开关频率;在PFM降频阶段,各个开关管固定占空比但逐步降低开关频率至谐振频率。在CLLC谐振变换器原理样机上验证了所提方案的可行性,同时与现有的软启动方案进行对比分析,仿真和实验结果表明,所提出的软启动策略能进一步减小启动阶段谐振电流。

三相PWM变换器的共模电压抑制方法综述

脉宽调制(pulse width modulation,PWM)技术是电力电子变换器中最常用的控制技术之一,但不可避免地会产生共模电压。共模电压及其感应产生的轴电压、轴承电流等会严重危害电机甚至整个系统的安全运行,因此必须从源头上对它进行有效地抑制。首先分析共模电压的产生及作用于电机的基本原理,随后分别总结空间矢量PWM和载波PWM两种调制策略下进行共模电压抑制的控制自由度及相应控制方法,并对不同方法的性能进行对比,最后对其后续的发展方向进行展望。

并网换流器采样和PWM边带次生谐波特性研究

在高比例新能源接入电力系统背景下,配电网中部署的并网换流器数量日益庞大,并网换流器自身非线性特性产生的次生谐波逐渐成为电网谐波污染的重要的来源之一。为此,针对并网换流器A/D采样和脉宽调制(pulsewidth modulation,PWM)过程产生的边带次生谐波分量开展研究,分析采样和PWM调制边带次生谐波产生机理以及频率耦合机理,提出不同采样方式下PWM边带谐波分析方法,建立并网换流器采样和PWM边带次生谐波定量分析模型,分析影响边带次生谐波含量的主要因素,揭示边带次生谐波耦合效应对并网换流器端口谐波阻抗特性的影响规律。通过半实物仿真平台的测试结果验证理论分析的正确性。

一种改进的CHB多电平变换器PWM调制策略

级联H桥CHB(cascaded H-bridge)多电平变换器是中压大功率电机驱动系统最广泛采用的拓扑,传统LS-PWM和PS-PWM不能很好地兼顾输入、输出电流的谐波性能,对比了CHB多电平变换器在这两种调制策略下的输入和输出THD,分析了两种方法下输入、输出波形产生区别的本质原因,进而探讨了一种局部载波移相PWM调制方法。该方法吸收了两种调制方法的优点,发挥PS-PWM调制时模块功率均衡和网侧输入电流谐波低的特点以及LS-PWM输出电能质量好的特点。最后,搭建了三相七电平CHB变换器实验平台,对局部载波移相PWM调制策略进行了验证。

Arduino中PWM调制在电子技术实验中的应用研究

基于开源控制平台Arduino控制器的开放性与易用性,在原有的电子技术综合实验中新增了以Arduino单片机为核心的实验教学模块。利用Arduino单片机中的脉冲宽度调制技术(PWM技术),单片机根据接收到的红外信号对应调节两个直流电机的输入电压,从而控制其转速比,进而控制由电机上的两个偏心镜反射后的点状激光的运动轨迹,利用视觉残留效果形成图案,并通过MATLAB设计了仿真实验验证了激光图案的正确性。新增教学模块扩展了传统的电子技术综合设计实验教学中焊接控制电路的内容,丰富了实验教学内容,加强对学生的编程能力和电子技术综合设计能力的培养,激发学生的学习兴趣。

三相电压型PWM整流器新型开关表直接功率控制

该文以三相电压型脉宽调制(pulse width modulation,PWM)整流器为研究对象,提出一种基于新型开关表的直接功率控制(direct power control,DPC)策略。首先,根据两相旋转dq坐标系下整流器数学模型计算开关矢量对有功功率和无功功率的控制幅度,并归一化处理进行定量分析,以此为基础将传统DPC的12扇区重新划分为24扇区。然后,设计有功功率差值区间判断器,根据其输出值Cp和有功功率与无功功率滞环比较器的输出值Sp、Sq,选择当前扇区最佳开关矢量构造新型开关表,实现对有功功率的精确控制。仿真对比表明,该新型开关表不仅克服传统开关表对无功功率控制能力差的缺点,而且改善网侧电流总谐波失真,降低输出直流电压波动和有功功率与无功功率脉动。最后,搭建一台800W三相电压型PWM整流器样机,通过对比实验验证所提控制策略的正确性和有效性。

A NEW MODULATION SCHEME FOR IR-UWB COMMUNICATION SYSTEMS

Since the poor performance of orthogonal binary Pulse Position Modulation (PPM) compared with binary Pulse Amplitude Modulation (PAM), this paper presents a new modulation scheme named Pulse Width Modulation (PWM) for Impulse Radio Ultra-WideBand (IR-UWB) communication systems. This modulation scheme uses pulses with equal amplitude and different widths to carry different information. The receiver employs differences between similarity coefficients among these pulses to distinguish different information. Both theoretical analysis and simulation results verify that this novel scheme has a Signal to Noise Ratio (SNR) gain of about 1.75 dB compared with or- thogonal binary PPM, and has an SNR loss of about 1.4 dB compared with binary PAM. Although both the theoretical analysis and simulations are based on time-hopping multiple access, this modulation scheme can also be applied to other accessing techniques of UWB communication systems.

High Performance Control of Matrix Converter Fed Induction Motor Drive System

Matrix converter fed motor drive is superior to pulse width modulation inverter drives since it not only provides bi-directional power flow,sinusoidal input/output currents,unity input power factor,but also allows a compact design due to the lack of DC-link capacitors for energy storage.In this paper,model and control of matrix converter fed induction motor drive system are analyzed.A combined control strategy is simplified and improved,which realizes space vector pulse width modulation of matrix converter and rotor flux oriented vector control technique for induction motor drive simultaneously.This control strategy combines the advantages of matrix converter with the good drive performance of vector control technique.Experimental results demonstrate the feasibility and effectiveness of the proposed control strategy.

Application of chaotic modulation to AC motors for electro magnetic interference suppression

Instead of avoiding occurrence of chaos in motor drives, chaos is positively utilized in this paper. A new chaotic pulse width modulation （PWM） scheme is proposed and implemented for AC motors, which functions to significantly suppress harmonic peaks and hence acoustic noise. The key is to employ the Chua＇s circuit for generating a desired chaotic sequence. By using a practical induction motor, computer simulation and experimental results verify that the chaotic PWM has advantages of harmonic peak suppression and simple hardware implementation over the conventional PWM and random PWM.

五电平有源钳位型变换器SVPWM死区效应分析与补偿方法研究

针对五电平有源钳位型变换器SVPWM调制的死区时间会导致跨电平跳变电压尖峰,产生过高的dv/dt影响系统稳定性的问题,提出一种不影响SVPWM调制效果的死区跨电平跳变补偿方法。首先对死区寄生模态导致电压误差的产生原理进行分析,列举了所有跳变过程中寄生电流的导通路径,采用在特定参考电压限定开关模态、筛选开关序列和脉冲调整等方法,重新规划电流导通过程,分类消除了跨电平跳变现象。最后搭建了实验样机,通过仿真和实验的手段对补偿方法进行了验证,对相同条件下的实验结果进行快速傅里叶对比分析,证明提出的死区补偿方法对输出电压谐波含量只产生了0.51%的微弱影响,且能有效消除跨电平跳变电压尖峰,表明该方法能维持五电平SVPWM良好的调制效果的同时,消除跨电平跳变隐患。

The Usage of the Digital Controller in Regulating Boost Converter

This paper proposes the modeling and simulation technique to analyze and design a Boost converter using generalized minimum variance method with discrete-time quasi-sliding mode to adjust the converter switch through a pulse width modulation (PWM), so as to enhance a stable output voltage. The control objective is to maintain the sensed output voltage stable, constant and equal to some constant reference voltage (8 volt) in the load resistance variation (24, 48, 240) Ω and input voltage variation (20, 24, 28) volt circumstances. This control strategy is very appropriate for the digitally controlled power converter and for the system requirement accomplishment, resulting high output voltage accuracy. The performance degradation in practical implementation can be expected due to noise, PWM nonlinearities, and components imperfection. The digital simulation using MATHLAB/Simulink is performed to validate the functionality of the system.