3BHL00391P0101模块,5SHX1445H0001配置教程S2是该磁隔离驱动器的输出波形假设稳态时该驱动器的输出信号S1的周期为T,占空比为D,幅值为VS1,同时假设变压器T1的输入输出匝比为1,则稳态时输入端直流隔离电容C1上的电压为D.VS1。在S1为高电平时,S3也为高电平,其幅值为(VS1-VC1),即(1-D).VS1。而在S1为低电平时,S3为负电平,其幅值为(-VC1),即D.VS1。这种隔离驱动电路线路简单,而且被驱动的MOS管有负向的驱动电压,抗干扰能力强。但其有待改进之处在于,在占空比D较大时,S3的高电平幅值(1-D).VS1就较小,可能导致QM驱动电压不足。
3BHL00391P0101模块,5SHX1445H0001配置教程这样,这种驱动器电路不适合应用在占空比变化较大的场合,即输入比范围大的应用条件下,图1所示的驱动电路将不再适用。相对图1的磁隔离驱动电路而言,添加了次级的直流隔直电容C2和开关二极管DR。稳态时输入端隔直电容C1上的电压VC1=D.VS1,输出端隔直电容C2上的VC2=D.VS1。其电压参考方向如图3所示。图3电路的工作波形如图4所示。可知,稳态后QM的电压V3不随占空比变化而改变,适合更宽范围输入条件的驱动设计。电路在某些特殊状态下,比如输入端突然断电或者负载突变过程中脉冲宽度调制驱动器的输出信号会突然消失,即驱动信号S1将为0。随后变压器T1在输入端隔直电容电压(-DVS1)作用下逐渐进入饱和,同时C2上的电压仍为DVS1,T1上的输入输出电压幅值从DV1逐渐减小,此时QM上的电压将从0开始逐渐增加,直到与C2上的电压相等。其中添加了原边检测电路和次级隔直电容放电电路,该电路为我司自主发明专利电路。通过高速光耦做信号隔离,有效解决主功率开关管误导通的问题,改进后的驱动波形如图7中2通道PWM波形所示,可以看出在驱动异常关闭状态下,C2上的电压迅速放电完成,开关管不会出现异常开通状态。为我司超高超宽压输入系列产品提供高可靠的驱动,提升产品综合竞争力。采用变压器做的磁隔离驱动电路,如果只有原边有隔直电容时,在占空比较大的条件下次级输出电压会降低,无法满足开关管驱动的要求。当次级添加隔直电容后可以解决大占空比的问题,但是在异常条件下次级隔直电容放电会导致开关管异常导通,进而出现原边饱和导致产品炸机。我司针对上述问题重点突破,添加次级隔直电容放电电路,使得磁隔离驱动电路不受占空比影响的同时完美解决异常条件下开关管异常导通的现象。该放电电路设计简单、可靠,大幅提升产品可靠性。RECOM推出了具有超高输出功率的新型内置电源。
and the front end has two USB interfaces
◆ the front panel provides power supply and hard disk indicator
◆ special arc pressing beam design, and the height of arc pressing strip is adjustable
Full length industrial CPU card
◆ socket 478 interface supporting hyper threading technology and a full range of intelpentium 4 processors
◆ Intel 865GV ICH5 chipset
◆ two 184pin DDR DIMM sockets, supporting dual channels, DDR 266/333/400mhz, up to 2GB
◆ Beiqiao integrated graphics card, the maximum dynamic shared 96MB system memory is video memory
◆ AC '97 codec provides speak out, line in, Mic-In, cd-in functions
◆ rtl8100c controller, 1 10/100mbps RJ45 interface
◆ LAN/2IDE/2SATA/4USB/LPT/2COM/ FDD
Industrial base plate: pbp-15p12
Power supply: pw-300 hard disk: the core of 80g embedded system is embedded microprocessor and embedded operating system. The early embedded system hardware core is various types of 8-bit and 16 bit microcontrollers; In recent years, 32-bit processors have been widely used because of their high performance and low price. In recent years, another kind of data intensive processing chip DSP has appeared. Because of its special structure,
