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| 型号: | A4979GLPTR-T |
| 厂商: | Allegro Microsystems Inc |
| 文件页数: | 35/44页 |
| 文件大小: | 0K |
| 描述: | IC MOTOR DRVR MICRO STEP 28TSSOP |
| 特色产品: | A4979 Series |
| 标准包装: | 1 |
| 应用: | 直流电机驱动器,PWM 电机驱动器,步进电机驱动器 |
| 评估套件: | 可供 |
| 输出数: | 1 |
| 电流 - 输出: | 1.5A |
| 电压 - 负载: | 7 V ~ 50 V |
| 电源电压: | 3 V ~ 5.5 V |
| 工作温度: | -40°C ~ 105°C |
| 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: | 620-1463-6 |
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�A4979�
�Microstepping� Programmable� Stepper� Motor� Driver�
�With� Stall� Detect� and� Short� Circuit� Protection�
�Appendix� A.� Driving� a� Stepper� Motor�
�A� stepper� motor� is� a� particular� form� of� brushless� DC� motor.� As�
�for� any� electric� motor,� motion� is� created� by� magnetic� interaction�
�between� the� stationary� part� of� the� motor,� known� as� the� stator,� and�
�the� moving� part� of� the� motor,� known� as� the� rotor.� The� information�
�presented� here� concentrates� on� a� specific� type� of� motor� known� as�
�a� hybrid� stepper� motor.� This� is� the� most� common� type� of� small�
�stepper� motor.� It� uses� permanent� magnets� in� the� rotor� to� produce�
�one� set� of� constant� magnetic� fields� and� electromagnets� in� the�
�stator� to� produce� another� set� of� varying� magnetic� fields.� The� term�
�hybrid� relates� to� the� use� of� both� electromagnets� and� permanent�
�magnets.�
�Comparing� Bipolar� and� Unipolar� Motors�
�There� are� two� options� in� small� hybrid� stepper� motor� construction.�
�In� the� first,� known� as� a� unipolar� stepper� motor,� there� are� indepen-�
�dent� electromagnets� to� generate� each� magnetic� polarity,� so� two�
�electromagnets� are� required� per� phase.� Each� of� these� is� energized�
�with� current� in� only� one� direction,� producing� a� single� magnetic�
�field� direction� (unipolar).� Because� the� current� in� each� electromag-�
�net� only� flows� in� a� single� fixed� direction,� the� control� circuit� can�
�be� very� simple.� The� drawback� is� that� only� one� electromagnet� per�
�phase� can� be� energized� at� any� time� so,� at� most,� only� half� of� the�
�motor� volume� is� ever� used� to� create� torque� on� the� rotor.�
�A� bipolar� motor,� in� contrast,� uses� each� electromagnet� to� pro-�
�duce� two� opposing� fields� (bipolar)� at� different� times,� by� allow-�
�ing� the� current� to� flow� in� both� directions.� This� means� that� the�
�motor� volume� required� for� a� bipolar� motor� is� half� of� the� volume�
�required� for� a� unipolar� motor� for� the� same� torque� output.� The�
�minor� drawback� is� that� a� bipolar� motor� requires� a� more� complex�
�drive� circuit� in� order� to� reverse� the� forcing� voltage� across� the� coil�
�of� the� electromagnet.� However,� if� the� drive� circuit� is� integrated�
�into� a� single� IC� then� the� drive� becomes� cost� effective.� This,� along�
�with� the� improvement� in� torque� output� makes� the� bipolar� motor�
�a� better� solution� for� applications� where� the� volume� available� is�
�restricted.� For� this� reason� the� following� information� will� relate�
�only� to� bipolar� motors.�
�In� order� to� create� continuous� motion� in� one� direction� it� is� neces-�
�sary� to� have� two� or� more� sets� of� electromagnets,� that� is,� two� or�
�more� phases.� The� simplest� and� most� cost� effective� configuration�
�for� a� stepper� motor� is� to� have� two� phases.� For� some� applications�
�that� require� an� extremely� low� torque� ripple,� 3� phase,� 5� phase,� and�
�even� 9� phase� stepper� motors� are� sometimes� used.� However,� the�
�remainder� of� the� information� presented� here� relates� specifically� to�
�2-phase� bipolar� motors.�
�Moving� a� 2-Phase� Bipolar� Stepper� Motor�
�Figure� A1� shows� the� four� possible� current� combinations� in� two�
�phase� windings,� A� and� B,� and� the� effect� on� a� simplified� repre-�
�sentation� of� part� of� a� stepper� motor.� In� each� case� the� stator� with�
�the� electromagnets� is� shown� at� the� top� of� the� diagram� and� the�
�rotor� with� the� permanent� magnets� is� shown� at� the� bottom� of� the�
�diagram.�
�In� figure� A1� the� stator� consists� of� alternate� phase� A� and� phase�
�B� electromagnets.� The� winding� direction� of� the� electromagnet�
�changes� for� each� sequential� electromagnet� in� each� phase� as� indi-�
�cated� by� the� overbar� above� the� phase� letter� and� identified� below�
�as� A-bar� and� B-bar� .� The� result� is� that� the� magnetic� poles� will�
�alternate� for� each� sequential� electromagnet� of� each� phase.� That�
�means,� for� example,� when� the� A� electromagnet� produces� a� north�
�(N)� magnetic� pole� at� the� end� nearest� to� the� rotor,� then� the� A-bar�
�electromagnet� will� produce� a� south� (S)� magnetic� pole� at� the� end�
�nearest� to� the� rotor.�
�The� windings� for� all� the� A� and� A-bar� electromagnets� are� con-�
�nected� in� series� and� driven� by� a� single� full� bridge.� Similarly� the�
�windings� for� all� the� B� and� B-bar� electromagnets� are� connected�
�in� series� and� driven� by� another� single� full� bridge.� So� a� 2-phase�
�bipolar� stepper� motor� requires� two� full� bridges� for� full� control.�
�The� rotor� is� much� simpler� than� the� stator,� and� consists� of� a� solid�
�base� holding� permanent� magnets� with� alternating� pole� directions.�
�There� are� no� windings� on� the� rotor,� so� there� is� no� requirement� to�
�conduct� current� to� the� moving� part� of� the� motor.� In� addition� the�
�lack� of� current� and� windings� means� that� there� is� no� heat� generated�
�in� the� rotor,� making� cooling� of� the� moving� parts� much� simpler.�
�The� diagrams� in� figure� A1� provide� a� representation� of� a� small�
�section� of� the� mechanics� of� the� motor.� In� practice� the� motor� struc-�
�ture� is� a� little� different� from� this,� but� the� principle� of� operation� is�
�the� same.�
�Allegro� MicroSystems,� LLC�
�115� Northeast� Cutoff�
�Worcester,� Massachusetts� 01615-0036� U.S.A.�
�1.508.853.5000;� www.allegromicro.com�
�A-1�
�相关PDF资料 |
PDF描述 |
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| A4983SETTR-T | IC MOTOR DRIVER MICROSTEP 28-QFN |
| A4984SLPTR-T | IC STEPPER MOTOR DRIVER 24TSSOP |
| A4985SETTR-T | IC STEPPER MOTOR DRIVER 32QFN |
相关代理商/技术参数 |
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| A4980KLP-T | 制造商:Allegro MicroSystems LLC 功能描述: |
| A4980KLPTR-T | 功能描述:IC STEPPER DVR PROGR 28-TSSOP 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:步进电机驱动器,1-2 相,2 相 评估套件:- 输出数:1 电流 - 输出:800mA 电压 - 负载:10 V ~ 28 V 电源电压:4.75 V ~ 5.25 V 工作温度:-20°C ~ 90°C 安装类型:表面贴装 封装/外壳:28-SOP + 2 翼片裸露焊盘 供应商设备封装:28-HSOPHC(15.2x7.9) 包装:剪切带 (CT) 其它名称:869-1268-1 |
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