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参数资料
| 型号: | A3981KLPTR-T |
| 厂商: | Allegro Microsystems Inc |
| 文件页数: | 24/43页 |
| 文件大小: | 0K |
| 描述: | IC MOTOR DVR MICROSTEP 28-TSSOP |
| 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: | 28-SOIC(0.173",4.40mm 宽)裸露焊盘 |
| 供应商设备封装: | 28-TSSOP 裸露焊盘 |
| 包装: | 标准包装 |
| 其它名称: | 620-1458-6 |
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�A3981�
�Automotive,� Programmable� Stepper� Driver�
�high� when� writing� to� the� Run� register.� The� motor� step� rate� is�
�therefore� determined� by� the� timing� of� the� rising� edge� of� the� STRn�
�input.� The� clock� rate� of� the� serial� interface,� defined� by� the� fre-�
�quency� of� the� SCK� input,� has� no� effect� on� the� step� rate.�
�Using� the� Phase� Table� Load� Capability�
�Torque� Ripple� Reduction�
�The� performance� and� audible� noise� of� any� motor� drive� system� is�
�defined,� to� a� large� extent,� by� the� torque� ripple� generated� by� both�
�the� motor� and� the� load.� In� most� cases,� when� using� a� stepper� motor�
�as� the� mechanical� drive,� the� torque� ripple� of� the� load� is� not� related�
�to� the� mechanical� steps� of� the� motor� and� must� be� reduced� by�
�means� unrelated� to� the� motor� and� its� drive� system.� However,� for�
�stepper� motors� in� particular,� torque� ripple� produced� by� the� motor�
�can� be� reduced� by� improvements� in� the� mechanical� design� of� the�
�motor� and� by� improvements� in� the� phase� current� control� system.�
�Torque� ripple� will� naturally� be� high� when� driving� a� stepper� motor�
�in� full� step� mode,� due� to� the� nature� of� stepping.� However� the�
�torque� ripple� can� be� reduced� by� using� microstepping.� Increas-�
�ing� the� number� of� microsteps� per� mechanical� step� will� result� in�
�reduced� torque� ripple.� This� is� one� of� the� major� reasons� for� using�
�microstepping.�
�In� the� majority� of� cases� the� standard� sinusoidal,� microstep� current�
�profile� will� be� sufficient� to� achieve� a� good� performance� with�
�a� good� quality� motor.� In� a� few� cases,� further� improvements� in�
�torque� ripple� performance� may� be� achieved� by� modifying� the�
�microstep� current� profile� to� more� closely� match� the� motor� charac-�
�teristics.� This� is� usually� only� necessary� for� higher� quality,� higher�
�power� stepper� motors.�
�When� using� microstepping,� the� torque� ripple� is� defined� by� the�
�variation� in� torque� at� each� microstep.� In� a� hybrid� stepper� motor�
�this� is� mostly� determined� by� the� mechanical� construction� of� the�
�constant.� The� current� at� each� Step� Angle� Number� can� be� set� to� suit�
�the� microstep� current� profile� requirements� of� a� specific� motor.�
�Note:� This� is� an� advanced� feature� of� the� A3981,� which� will� not� be�
�required� for� most� applications.� In� general� the� default� sinusoidal�
�profile� will� suffice� and� therefore� the� phase� current� table� does� not�
�have� to� be� loaded.�
�Loading� the� Phase� Current� Table�
�The� full� phase� current� table� in� the� A3981� contains� one� 6-bit� value�
�for� each� phase,� at� each� microstep� position.� With� 16� microsteps�
�per� mechanical� step,� 4� mechanical� steps� per� electrical� cycle,� and�
�2� phases� this� gives� a� total� of� 128� values.� However,� due� to� symme-�
�try,� described� below,� this� reduces� to� 17� independent� values,� one�
�of� which� is� always� zero.� The� remaining� 16� values� can� be� loaded�
�sequentially� through� the� serial� interface� using� the� Phase� Table�
�Load� register.� Figure� 13� shows� the� default� phase� table� values�
�plotted� by� Step� Angle� Number.� Similar� information� is� provided� in�
�table� 7.�
�The� diagram� in� figure� 13� is� marked� with� four� quadrants,� Q1� to�
�Q4.� The� set� of� phase� table� values� is� the� same� in� each� quadrant� in�
�each� phase.� Consider� phase� A� (bottom� graph),� quadrant� 1� (Q1).�
�This� contains� Step� Angle� Numbers� 0� to� 15.� The� default� values�
�in� these� 16� positions� are� selected� to� produce� one� quarter� of� a�
�sinusoid.�
�Now� consider� the� next� quadrant� (Q2)� of� phase� A.� The� sequence�
�of� values� in� this� quadrant� form� a� mirror� image,� by� Step� Angle�
�Number,� of� the� values� in� Q1� so� the� same� values� are� used� but�
�entered� in� the� reverse� sequence.�
�The� following� table� shows� the� Step� Angle� Number� in� the� first�
�row� increasing� from� 0� to� 15,� from� left� to� right,� and� the� default�
�values� also� increasing� from� left� to� right� in� the� second� row.� These�
�first� two� rows� are� the� entries� for� Q1� of� phase� A.�
�motor,� particularly� the� shape� of� the� teeth� on� the� poles� of� the� sta-�
�tor.� The� shape� of� these� teeth� determine� the� variation� in� the� torque�
�constant� ,� the� ratio� between� current� and� torque,� as� the� motor�
�rotates.� The� variation� in� the� torque� constant� can� be� seen� by� mea-�
�suring� the� back� EMF� of� the� motor� when� being� driven� as� a� genera-�
�Step� 0�
�Value� 0�
�Step�
�Value�
�1� 2� 3� 4� 5� 6� 7� 8� 9� 10� 11� 12� 13� 14� 15�
�5� 11� 18� 23� 29� 35� 40� 44� 48� 52� 55� 58� 60� 62� 63�
�31� 30� 29� 28� 27� 26� 25� 24� 23� 22� 21� 20� 19� 18� 17� 16�
�5� 11� 18� 23� 29� 35� 40� 44� 48� 52� 55� 58� 60� 62� 63� 63�
�Q1�
�Q2�
�tor,� that� is� when� the� shaft� is� driven� by� external� means� and� the�
�phase� voltage� is� monitored.� The� back� EMF� represents� the� motor�
�constant,� which� is� essentially� proportional� to� the� torque� constant.�
�If� such� torque� ripple� reduction� measures� are� required,� the� A3981�
�provides� the� ability� to� modify� the� microstep� current� profile� by�
�programming� the� internal� phase� current� table� through� the� serial�
�interface.� The� modified� profile� is� then� used,� in� place� of� the� default�
�sinusoidal� profile,� to� compensate� for� any� variation� in� motor� torque�
�The� second� two� rows� are� the� entries� for� Q2� of� phase� A.� The� Step�
�Angle� Number� in� the� third� row� increases� from� 16� to� 31,� this� time�
�from� right� to� left,� but� the� same� default� values� still� increase� from�
�left� to� right.� A� single� value� is� therefore� placed� in� more� than� one�
�location� in� the� table.� Shown� outlined� above,� steps� 4� and� 28� both�
�contain� the� value� 23.�
�The� same� principal� can� be� applied� to� Q3� and� Q4� of� phase� A.� In�
�this� case� the� mirror� image� is� in� the� horizontal� axis,� about� the� zero�
�Allegro� MicroSystems,� LLC�
�115� Northeast� Cutoff�
�Worcester,� Massachusetts� 01615-0036� U.S.A.�
�1.508.853.5000;� www.allegromicro.com�
�24�
�相关PDF资料 |
PDF描述 |
|---|---|
| A3982SLB-T | IC MOTOR DRIVER STEPPER 24-SOIC |
| A3983SLP-T | IC MICRO STEPPING DRIVER 24-TSSO |
| A3984SLP-T | IC MICRO STEPPING DRIVER 24-TSSO |
| A3986SLDTR-T | IC DRIVER MICROSTEPPING 38-TSSOP |
| A3987SLPTR-T | IC DRIVER MICROSTEPPING 24-TSSOP |
相关代理商/技术参数 |
参数描述 |
|---|---|
| A3982 | 制造商:ALLEGRO 制造商全称:Allegro MicroSystems 功能描述:DMOS Stepper Motor Driver with Translator |
| A3982_13 | 制造商:ALLEGRO 制造商全称:Allegro MicroSystems 功能描述:DMOS Stepper Motor Driver with Translator |
| A3982SLB | 功能描述:IC MOTOR DRIVER STEPPER 24-SOIC RoHS:否 类别:集成电路 (IC) >> PMIC - 电机和风扇控制器,驱动器 系列:- 标准包装:1 系列:- 应用:直流电机驱动器,步进电机驱动器 评估套件:- 输出数:1 或 2 电流 - 输出:750mA 电压 - 负载:10 V ~ 40 V 电源电压:4.5 V ~ 5.5 V 工作温度:-20°C ~ 70°C 安装类型:表面贴装 封装/外壳:24-BFSOP(0.295",7.50mm 宽) 供应商设备封装:24-SOP 包装:Digi-Reel® 其它名称:MTS62C19A-HS105DKR |
| A3982SLB-T | 功能描述:IC MOTOR DRIVER STEPPER 24-SOIC RoHS:是 类别:集成电路 (IC) >> PMIC - 电机和风扇控制器,驱动器 系列:- 标准包装:1 系列:- 应用:直流电机驱动器,步进电机驱动器 评估套件:- 输出数:1 或 2 电流 - 输出:750mA 电压 - 负载:10 V ~ 40 V 电源电压:4.5 V ~ 5.5 V 工作温度:-20°C ~ 70°C 安装类型:表面贴装 封装/外壳:24-BFSOP(0.295",7.50mm 宽) 供应商设备封装:24-SOP 包装:Digi-Reel® 其它名称:MTS62C19A-HS105DKR |
| A3982SLB-T | 制造商:Allegro MicroSystems 功能描述:Motor Driver IC |
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