电机与控制应用
電機與控製應用
전궤여공제응용
ELECTRIC MACHINES & CONTROL APPLICATION
2014年
6期
19-23
,共5页
无刷直流电机%无位置传感器控制%线反电动势%比较中断
無刷直流電機%無位置傳感器控製%線反電動勢%比較中斷
무쇄직류전궤%무위치전감기공제%선반전동세%비교중단
brushless DC motor%position sensorless control%line back-EMF%comparator interrupt
起动控制和转子位置信号获取是无位置传感器无刷直流电机( BLDCM)正常运行的关键。提出了一种控制无刷直流电机的方法。在电机静止和低速运行时,利用定子电感线圈的磁饱和效应,采用短时脉冲检测法获得转子位置,实现无位置传感器的平稳起动。电机起动后,由电机线反电动势与换相时刻对应关系,得出反电动势过零时刻即为换相时刻的结论。针对反电动势过零点检测法的不足,将三路反电动势过零点信号进行整合,并利用C8051F单片机的比较中断克服其缺陷,在低成本条件下,实现无位置传感器的准确换相。该控制方案能保证BLDCM在位置传感器失效或无位置传感器的情况下可靠运行,简化了系统结构,降低了生产成本。
起動控製和轉子位置信號穫取是無位置傳感器無刷直流電機( BLDCM)正常運行的關鍵。提齣瞭一種控製無刷直流電機的方法。在電機靜止和低速運行時,利用定子電感線圈的磁飽和效應,採用短時脈遲檢測法穫得轉子位置,實現無位置傳感器的平穩起動。電機起動後,由電機線反電動勢與換相時刻對應關繫,得齣反電動勢過零時刻即為換相時刻的結論。針對反電動勢過零點檢測法的不足,將三路反電動勢過零點信號進行整閤,併利用C8051F單片機的比較中斷剋服其缺陷,在低成本條件下,實現無位置傳感器的準確換相。該控製方案能保證BLDCM在位置傳感器失效或無位置傳感器的情況下可靠運行,簡化瞭繫統結構,降低瞭生產成本。
기동공제화전자위치신호획취시무위치전감기무쇄직류전궤( BLDCM)정상운행적관건。제출료일충공제무쇄직류전궤적방법。재전궤정지화저속운행시,이용정자전감선권적자포화효응,채용단시맥충검측법획득전자위치,실현무위치전감기적평은기동。전궤기동후,유전궤선반전동세여환상시각대응관계,득출반전동세과령시각즉위환상시각적결론。침대반전동세과영점검측법적불족,장삼로반전동세과영점신호진행정합,병이용C8051F단편궤적비교중단극복기결함,재저성본조건하,실현무위치전감기적준학환상。해공제방안능보증BLDCM재위치전감기실효혹무위치전감기적정황하가고운행,간화료계통결구,강저료생산성본。
Starting control and rotor position signal are the key of the normal operation for sensorless brushless DC motor ( BLDCM) . A novel control strategy of BLDCM was proposed . When the motor is still or at low speed, method of short pulse test based on the magnetic saturation effect of stator core was used to get the rotor position, and to make the motor starting. Making use of the relation of line back-EMFs and the phase commutation time, a conclusion that the phase commutation should be made at the moment of zero-crossing of line back-EMFs was drawn. According to the disadvantage of zero-crossing of line back-EMFs, the three zero-crossings of line back-EMFs were integrated into one signal, C8051F’s comparator interrupt was used to avoid the disadvantage, and position sensorless accurately commutated was achived at low cost. The control scheme can guarantee that the BLDCM reliably operates in the condition of position sensor failure or without position sensor, and the system structure is simplified, and the production cost is reduced.