施耐德模块BMXFCC501
两种永磁无刷电动机比较而言,方波无刷直流电动机具有控制简单、成本低、检测装置简单、系统实现起来相对容易等优点。但是方波无刷直流电动机原理上存在固有缺陷,因电枢中电流和电枢磁势移动的不连续性而存在电磁脉动,而这种脉动在高速运转时产生噪声
施耐德模块BMXFCC501
在中低速又是平稳的力矩驱动的主要障碍。转矩脉动又使得电机速度控制特性恶化,从而限制了由其构成的方波无刷直流电动机伺服系统在高精度、高性能要求的伺服驱动场合下的应用(尤其是在低速直接驱动场合)。因此,对于一般性能的电伺服驱动控制系统,选用方波无刷直流电动机及相应的控制方式。而PM、SM伺服系统要求定子输入三相正弦波电流,可以获得更好的平稳性
施耐德模块BMXFCC501
BMXFTB4000
BMXFTB4020
BMXXTSHSC20
BMXFTW301
BMXFTW501
BMXFTW1001
BMXFTW305
BMXFTW505
BMXFCW301
BMXFCW501
BMXFCW1001
BMXFCC051
BMXFCC101
BMXFCC201
BMXFCC301
BMXFCC501
BMXFCC1001
BMXFCW303
BMXFCW503
BMXFCW1003
BMXFCC053
BMXFCC103
BMXFCC203
BMXFCC303
BMXFCC503
BMXFCC1003
BMXFTW301S
BMXFTW501S
BMXFTW308S
BMXFTW508S
BMXFCW301S
BMXFCW501S
BMXFCA150
BMXFCA300
BMXFCA500
ABE7CPA410
BMXFCA152
BMXFCA302
BMXFCA502
ABE7CPA412
BMXFTA150
BMXFTA300
ABE7CPA03
ABE7CPA31
ABE7CPA31E
BMXFTA152
BMXFTA302
BMXFTA1522
BMXFTA3022
BMXXSP0400
BMXXSP0600
BMXXSP0800
BMXXSP1200
BMXXTSCPS10
BMXXTSCPS20
BMEP581020H
BMEP582020H
BMEP582040H
BMEP585040C
BMEP586040C
BMEH582040C
BMEH584040C
BMEH586040C
BMEP582040S
BMEP584040S
BMEH582040S
BMEH584040S
BMEH586040S
BMEP58CPROS3
BMENOS0300C
BMENOC0301C
BMENOC0311C
BMENOC0321C
BMECXM0100H
BMENOP0300C
PMEPXM0100H
BMXP341000H
BMXP342020H
BMXP3420302H
BMXNOE0100H
BMXNOE0110H
BMXNOM0200H
BMXNOR0200H
BMXETM0200H
BMXNRP0200C
BMXNRP0201C
BMXCRA31210C
BMECRA31210C
BMXXBP0400H
BMXXBP0600H
BMXXBP0800H
BMXXBP1200H
BMEXBP0400H
BMEXBP0800H