参数资料
| 型号: | A3938SLQTR |
| 厂商: | Allegro Microsystems Inc |
| 文件页数: | 8/11页 |
| 文件大小: | 0K |
| 描述: | IC CTRLR MOSFET 3PH 36-QSOP |
| 标准包装: | 1,500 |
| 应用: | DC 电机控制器,无刷(BLDC),3 相 |
| 输出数: | 1 |
| 电源电压: | 18 V ~ 50 V |
| 工作温度: | -20°C ~ 85°C |
| 安装类型: | 表面贴装 |
| 封装/外壳: | 36-QSOP |
| 供应商设备封装: | 36-QSOP |
| 包装: | 带卷 (TR) |
��
�
�A3938�
�Three-Phase� Power� MOSFET� Controller�
�Application� Information�
�Synchronous� Recti� ?� cation.� To� reduce� power� con-�
�sumption� in� the� external� MOSFETs,� during� the� load� current�
�recirculation� PWM-off� cycle,� the� A3938� control� logic� turns�
�on� the� appropriate� low-side� driver� only� .� The� reverse� body�
�diode� of� the� power� MOSFET� conducts� only� during� the� dead�
�time� required� at� each� PWM� transition,� as� usual.� However,�
�unlike� full� synchronous� recti� ?� cation,� the� opposite� high-side�
�FET’s� body� diode� (not� the� R� DSON� )� will� carry� the� re-circulat-�
�ing� current,� be� self-extinguishing,� and� not� force� the� motor� to�
�reverse� direction.�
�Dead� Time.� To� prevent� cross-conduction,� it� is� required� to�
�have� a� delay� between� a� high-side� or� low-side� turn-off,� and�
�the� next� turn-on� event.� The� potential� for� cross-conduction�
�occurs� with� synchronous� recti� ?� cation,� direction� changes,�
�PWM,� or� after� a� bootstrap� capacitor� charging� cycle.� This�
�dead-time� is� set� via� a� resistor� from� the� DEAD� pin� to� LCAP�
�and� can� be� varied� from� 100� ns� to� 5.5� μ� s.�
�For� a� nominal� case,� given:�
�?� 25°C� ambient� temperature,� and�
�?� 5.6� k� Ω� <� R� dead� <� 470� k� Ω� ,�
�Decoupling.� The� internal� reference� VREG� supplies�
�current� for� the� gate� drive� circuit.� As� the� gates� are� driven�
�high,� they� will� require� current� from� an� external� decoupling�
�capacitor� to� support� the� transients.� This� capacitor� should� be�
�placed� as� close� as� possible� to� the� VREG� pin.� The� value� of� the�
�capacitor� should� be� at� least� 20� times� larger� than� the� bootstrap�
�capacitor.� Additionally,� a� 1� nF� (or� larger)� ceramic� monolithic�
�capacitor� should� be� connected� between� LCAP� and� AGND,� as�
�close� to� the� device� pins� as� possible.�
�Protection� Circuitry.� The� A3938� has� several� protection�
�features:�
�?� Bootstrap� Monitor� .� The� bootstrap� capacitor� is� charged�
�whenever� a� sink-side� MOSFET� is� on,� an� Sx� output� goes� low,�
�or� load� current� recirculates.� This� happens� constantly� during�
�normal� operation.�
�Note:� The� high� side� will� not� be� allowed� to� turn� on� before� the�
�charging� has� decayed� to� less� than� approximately� 9� mA.�
�?� Undervoltage� .� VREG� supplies� the� low-side� gate� driver�
�and� the� bootstrap� charge� current.� It� is� critical� to� ensure� that�
�the� voltages� are� at� a� proper� level� before� enabling� any� of� the�
�� 10� )� � (R�
�t� dead (nom,ns)� = 37 + [(11.9�
�-3�
�dead�
�+� 500)]�
�outputs.� The� undervoltage� circuit� is� active� during� power-up�
�and� signals� a� fault,� and� also� coasts� or� brakes� (depending�
�t� dead� (min,ns)� =� 10� +� [(6.55� � 10� )� � (R� +� 350)]�
�For predicting worst-case overvoltage and temperature�
�extremes,� use� the� following� equations:�
�-3�
�dead�
�on� the� stored� BRKSEL� setting)� the� motor� during� that� time�
�period,� until� VREG� is� greater� than� approximately� 10� V.� On�
�powering� down,� a� fault� is� signaled� and� the� motor� is� coasted�
�or� braked,� depending� on� the� stored� setting� for� BRKSEL.�
�� 10� )� � (R�
�t� dead (max,ns)� = 63 + [(17.2�
�-3�
�dead�
�+� 650)]�
�?� Hall� Invalid� .� Illegal� codes� for� the� Hall� sensor� inputs� (0,0,0�
�or� 1,1,1)� force� a� fault� and� coast� the� motor.� Noisy� Hall� lines�
�For� nominal� comparison� with� I� dead� currents,� also� at� 25°C�
�ambient� temperature:�
�I� dead� =� (V� lcap� –� V� be� )� /� (R� dead� +� R� int� )�
�where� V� lcap� =� 5� V,� V� be� =� 0.7� V,� and� R� int� =� 500� Ω� .�
�Rather� than� use� R� dead� values� near� 470� k� Ω� ,� set� V� dead� =� 0� V,�
�which� activates� an� internal� (I� dead� =� 10� μ� A)� current� source.�
�The� choice� of� power� MOSFET� and� external� gate� resistance�
�determines� the� selection� of� the� dead-time� resistor.� The� dead�
�time� should� be� made� long� enough� to� cover� the� variation� of�
�the� MOSFET� capacitance� and� gate� resistor� tolerances� (both�
�external� and� internal� to� the� A3938).�
�may� cause� Hall� code� errors,� and� therefore� faults.� Additional�
�external� pull-up� loading� and� ?� ltering� may� be� required� in�
�some� systems.�
�Hint:� Use� dividers� to� the� VREG� terminal,� than� to� the� LCAP�
�terminal,� because� the� VREG� terminal� has� more� current�
�capability.�
�?� Thermal� Shutdown� .� Junction� temperatures� greater� than�
�165� ?� C� cause� the� A3938� to� signal� a� fault� and� coast� the� motor.�
�?� Motor� Lead� .� The� A3938� signals� a� fault� if� the� motor� lead�
�is� shorted� to� ground.� A� short-to-ground� is� assumed� after� a�
�high-� side� is� turned� on� and� greater� than� 2� V� is� measured�
�between� the� drain� (VBB)� and� source� (Sx)� of� the� high-side�
�power� MOSFET.� This� fault� is� cleared� at� the� beginning� of�
�Allegro� MicroSystems,� LLC�
�115� Northeast� Cutoff�
�Worcester,� Massachusetts� 01615-0036� U.S.A.�
�1.508.853.5000;� www.allegromicro.com�
�8�
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