本文簡(jiǎn)單討論并總結(jié)了VHDL、Verilog,System verilog 這三中語(yǔ)言的各自特點(diǎn)和區(qū)別As the number of enhancements to variousHardware Description Languages (HDLs) hasincreased over the past year, so too has the complexityof determining which language is best fora particular design. Many designers and organizationsare contemplating whether they shouldswitch from one HDL to another.
Abstract: This application note describes a new generation of digital-input Class D audio amplifiers that achieve high PSRRperformance, comparable to traditional analog Class D amplifiers. More importantly, these digital-input Class D amplifiersprovide additional benefits of reduced power, complexity, noise, and system cost.
Power conversion by virtue of its basic role produces harmonics due to theslicing of either voltages or currents. To a large extent the pollution in theutility supply and the deterioration of the power quality has been generatedor created by non-linear converters. It is therefore ironic that power convertersshould now be used to clean up the pollution that they helped to create inthe first place.In a utility system, it is desirable to prevent harmonic currents (which resultin EMI and resonance problems) and limit reactive power flows (whichresult in transmission losses).Traditionally, shunt passive filters, comprised of tuned LC elements andcapacitor banks, were used to filter the harmonics and to compensate forreactive current due to non-linear loads. However, in practical applicationsthese methods have many disadvantages.
簡(jiǎn)單介紹了三相SPWM逆變器的組成和工作原理,通過(guò)計(jì)算機(jī)對(duì)三相SPWM逆變器進(jìn)行Matlab/Simulink建模和仿真,研究逆變電路的輸入輸出及其特性。仿真分析經(jīng)逆變后得到的電壓電流的特性。通過(guò)運(yùn)用Matlab/Simulink和Power System Block(PSB)電力系統(tǒng)模塊集工具箱仿真環(huán)境,對(duì)電路進(jìn)行建模、計(jì)算和仿真分析。MATLAB軟件中的Simulink,是為數(shù)不多的完全滿足這些條件和要求的軟件。并且憑借他在科學(xué)計(jì)算方面的天然優(yōu)勢(shì)建立了從設(shè)計(jì)構(gòu)思到最終實(shí)現(xiàn)設(shè)計(jì)要求的可視化橋梁。被廣泛應(yīng)用于線性系統(tǒng)、非線性系統(tǒng)及數(shù)字信號(hào)處理的建模和仿真中。
Abstract: This application note illustrates an intermediate 8V switching power supply for an automotive radio and infotainment system.The design withstands the complete automotive input voltage range (including cold crank and load dump conditions), assuring a stable8V supply for common subsystems such as a CD driver, LCDs, and a radio module in modern infotainment systems. To avoiddisturbance in the AM and FM bands, the switching power supply runs at a fixed frequency of 2MHz, enabling an ideal solution forradio systems.
Abstract: Impedance mismatches in a radio-frequency (RF) electrical transmission line cause power loss andreflected energy. Voltage standing wave ratio (VSWR) is a way to measure transmission line imperfections. Thistutorial defines VSWR and explains how it is calculated. Finally, an antenna VSWR monitoring system is shown.
