- 您现在的位置:买卖IC网 > PDF目录1773 > A4960KJPTR-T (Allegro Microsystems Inc)IC BLDC CTLR BRUSHLESS 32LQFP PDF资料下载
参数资料
| 型号: | A4960KJPTR-T |
| 厂商: | Allegro Microsystems Inc |
| 文件页数: | 15/35页 |
| 文件大小: | 0K |
| 描述: | IC BLDC CTLR BRUSHLESS 32LQFP |
| 标准包装: | 1 |
| 系列: | * |
| 应用: | * |
| 输出数: | * |
| 电流 - 输出: | * |
| 电压 - 负载: | * |
| 电源电压: | * |
| 工作温度: | * |
| 安装类型: | 表面贴装 |
| 封装/外壳: | 32-LQFP 裸露焊盘 |
| 供应商设备封装: | 32-LQFP(7x7) |
| 包装: | 标准包装 |
| 其它名称: | 620-1452-6 |
第1页第2页第3页第4页第5页第6页第7页第8页第9页第10页第11页第12页第13页第14页当前第15页第16页第17页第18页第19页第20页第21页第22页第23页第24页第25页第26页第27页第28页第29页第30页第31页第32页第33页第34页第35页
��
�
�A4960�
�Automotive,� Sensorless� BLDC� Controller�
�or� high-to-low)� zero� crossing� and� latches� it� until� the� next� state�
�change.� This� latching� action,� combined� with� precise� comparator�
�hysteresis,� provides� a� robust� sensing� system.�
�There� are� three� variables� that� effect� the� BEMF� sensing,� these� are:�
�?� Commutation� Blank� Time,� t� CB�
�?� BEMF� Hysteresis,� V� BHYS�
�?� BEMF� Window,� t� BW�
�Commutation� Blank� Time�
�The� BEMF� detectors� are� inhibited� for� t� CB� following� a� commuta-�
�tion� event.� This� prevents� any� commutation� transients� and� winding�
�demagnetization� periods� from� disturbing� the� BEMF� sensing�
�system.� The� commutation� blank� time� is� shown� in� figure� 5� and� is�
�selected� by� CB[1:0]� (Config0� bits� 11:10� ).�
�BEMF� Window�
�The� BEMF� window� is� the� length� of� time� after� any� PWM� change,�
�low-to-high� or� high-to-low,� during� which� the� phase� voltage� and�
�the� output� of� the� BEMF� comparator� is� ignored,� as� shown� in�
�figure� 6.� It� is� selected� using� BW[2:0]� (Run� bits� 9:7).� The� BEMF�
�window� is� effectively� the� BEMF� comparator� blank� time.�
�If� the� PWM-on� time� is� less� than� the� BEMF� window,� then� the�
�phase� voltage� is� ignored� for� the� whole� PWM-on� time.� If� the�
�PWM-off� time� is� less� than� the� BEMF� window,� then� the� phase�
�voltage� is� ignored� for� the� whole� PWM-off� time.�
�BEMF� Hysteresis�
�The� BEMF� hysteresis� is� the� amount� by� which� the� BEMF� voltage,�
�measured� on� the� undriven� phase,� must� exceed� the� normal� zero-�
�crossing� value� before� zero� crossing� is� detected� and� TACHO� goes�
�high.� This� is� illustrated� in� figures� 7� and� 8.�
�If� the� BEMF� is� falling,� then� the� zero� crossing� will� be� detected�
�when� the� BEMF� voltage� is� lower� than� the� normal� zero-crossing�
�value� minus� the� BEMF� hysteresis� (figure� 7).�
�If� the� BEMF� is� rising,� then� the� zero� crossing� will� be� detected�
�when� the� BEMF� voltage� is� higher� than� the� normal� zero-crossing�
�value� plus� BEMF� hysteresis� (figure� 8).�
�The� BEMF� hysteresis� is� selected� using� BH[1:0]� (Run� bits�
�11:10).� It� can� be� set� to� zero,� low� (typically� 60� mV),� high� (typi-�
�cally� 240� mV)� or� Auto.� Auto� sets� the� hysteresis� to� the� high� level�
�during� start-up� and� reduces� it� to� the� low� level� during� running.�
�This� provides� added� security� during� start-up� in� achieving� a� stable�
�BEMF� detection� but� permits� the� motor� to� run� slower� or� at� a� lower�
�voltage� when� BEMF� detection� is� achieved.�
�Start-up�
�In� order� to� correctly� detect� the� zero� crossing,� the� changing� motor�
�BEMF� on� any� phase� must� be� detectable� when� that� phase� is� not�
�being� driven.� When� the� motor� is� running� at� a� relatively� constant�
�speed,� this� is� ensured� by� the� adaptive� commutation� scheme� used.�
�However,� during� start-up,� particularly� when� the� motor� load� has� a�
�high� friction� component,� the� motor� must� be� accelerated� from� rest�
�in� such� a� way� that� the� BEMF� zero� crossing� can� be� detected.� Ini-�
�tially,� as� the� motor� is� started,� there� is� no� rotor� position� informa-�
�tion� from� the� BEMF� sensor� circuits� and� the� motor� must� be� driven�
�in� an� open� loop� 3-phase� stepper� mode.� Unlike� a� true� stepper�
�motor,� which� is� designed� for� open� loop� operation,� most� 3-phase�
�BLDC� motors� are� unstable� when� driven� in� this� way� and� will�
�overshoot� the� intended� step� point� by� a� large� margin.� To� overcome�
�this� limitation� the� motor� must� be� accelerated� such� that� the� motor�
�movement� and� the� phase� step� sequence� can� synchronize� to� allow�
�correct� BEMF� zero� crossing� detection.�
�The� initial� start� speed,� the� acceleration� rate,� and� the� accelerat-�
�ing� torque� must� be� adjusted� for� each� combination� of� motor� and�
�mechanical� load.� These� parameters� can� be� programmed� in� the�
�A4960� through� the� serial� interface.� Configuration� registers� Con-�
�fig4� and� Config5� provide� the� following� programmable� param-�
�eters:�
�?� Config4� bits� SC[3:0]� –� set� the� start� of� ramp� speed�
�?� Config4� bits� EC[3:0]� –� set� the� end� of� ramp� speed�
�?� Config5� bits� RR[3:0]� –� set� the� ramp� rate�
�?� Config5� bits� RQ[3:0]� –� set� the� acceleration� torque�
�To� ensure� that� the� motor� start-up� and� sensorless� BEMF� capture�
�is� consistent,� the� start� sequencer� always� forces� the� motor� to� a�
�known� start� position.� The� time� during� which� the� motor� is� forced�
�into� the� start� position� can� be� programmed� through� the� serial� inter-�
�face� using� the� four� hold� time� bits,� HT[3:0]� (Config3� bits� 3:0).�
�The� torque� applied� during� this� hold� time� is� programmed� using�
�the� four� hold� torque� bits,� HQ[3:0],� (Config3� bits� 7:4).� These� two�
�variables� allow� a� stable� start� condition� to� be� achieved� for� differ-�
�ent� motor� and� attached� mechanical� loads.�
�As� soon� as� a� valid� BEMF� zero� crossing� is� detected� during� the�
�start� sequence,� the� A4960� will� transition� to� full� BEMF� commuta-�
�tion� and� the� start� sequencer� will� be� reset.� The� TACHO� output�
�Allegro� MicroSystems,� LLC�
�115� Northeast� Cutoff�
�Worcester,� Massachusetts� 01615-0036� U.S.A.�
�1.508.853.5000;� www.allegromicro.com�
�14�
�相关PDF资料 |
PDF描述 |
|---|---|
| A4970SLBTR-T | IC PWM MOTOR DVR FULL 24-SOICW |
| A4973SLBTR-T | IC PWM MOTOR DVR FULL 16SOIC |
| A4975SB-T | IC PWM MICROSTEP DVR FULL 16DIP |
| A4979GLPTR-T | IC MOTOR DRVR MICRO STEP 28TSSOP |
| A4980KLPTR-T | IC STEPPER DVR PROGR 28-TSSOP |
相关代理商/技术参数 |
参数描述 |
|---|---|
| A4960SJPTR-T | 制造商:Allegro MicroSystems LLC 功能描述: |
| A496-2 | 制造商:APEM 功能描述:Switch Access Push Button Switch Round Cap |
| A4962KLPTR-T | 功能描述:IC MOTOR CONTROLLER 制造商:allegro microsystems, llc 系列:* 零件状态:有效 标准包装:4,000 |
| A496-3 | 制造商:APEM 功能描述: |
| A4963GLPTR-T | 功能描述:Motor Driver Power MOSFET SPI 20-TSSOP-EP 制造商:allegro microsystems, llc 系列:- 包装:剪切带(CT) 零件状态:有效 电机类型 - 步进:- 电机类型 - AC,DC:无刷 DC(BLDC) 功能:控制器 - 换向,方向管理 输出配置:前置驱动器 - 半桥(3) 接口:SPI 技术:功率 MOSFET 步进分辨率:- 应用:通用 电流 - 输出:- 电压 - 电源:4.2 V ~ 50 V 电压 - 负载:- 工作温度:-25°C ~ 150°C(TA) 安装类型:表面贴装 封装/外壳:20-TSSOP(0.173",4.40mm 宽)裸焊盘 供应商器件封装:20-TSSOP-EP 标准包装:1 |
发布紧急采购,3分钟左右您将得到回复。