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参数资料
| 型号: | LM2574DW-ADJR2G |
| 厂商: | ON Semiconductor |
| 文件页数: | 12/26页 |
| 文件大小: | 0K |
| 描述: | IC REG BUCK ADJ 0.5A 16SOICW |
| 标准包装: | 1,000 |
| 类型: | 降压(降压) |
| 输出类型: | 可调式 |
| 输出数: | 1 |
| 输出电压: | 1.23 V ~ 37 V |
| 输入电压: | 4.75 V ~ 40 V |
| PWM 型: | 电压模式 |
| 频率 - 开关: | 52kHz |
| 电流 - 输出: | 500mA |
| 同步整流器: | 无 |
| 工作温度: | -40°C ~ 125°C |
| 安装类型: | 表面贴装 |
| 封装/外壳: | 16-SOIC(0.295",7.50mm 宽) |
| 包装: | 带卷 (TR) |
| 供应商设备封装: | 16-SOIC W |
| 其它名称: | LM2574DW-ADJR2G-ND LM2574DW-ADJR2GOSTR |
��
�
�LM2574,� NCV2574�
�Procedure� (Adjustable� Output� Version:� LM2574?ADJ)�
�V� out�
�x� 10�
�E� x� T� +� (V�
�*� V� out)�
�V� x� m� s�
�E� x� T� +� (40� *� 24)� x� 24� x� 1000� +� 105� V� x� m� s�
�Procedure�
�4.� Inductor� Selection� (L1)�
�A.� Use� the� following� formula� to� calculate� the� inductor� Volt� x�
�microsecond� [V� x� m� s]� constant:�
�6�
�in� V� F[Hz]�
�in�
�B.� Match� the� calculated� E� x� T� value� with� the� corresponding�
�number� on� the� vertical� axis� of� the� Inductor� Value� Selection�
�Guide� shown� in� Figure� 23.� This� E� x� T� constant� is� a� measure�
�of� the� energy� handling� capability� of� an� inductor� and� is�
�dependent� upon� the� type� of� core,� the� core� area,� the� number�
�of� turns,� and� the� duty� cycle.�
�C.� Next� step� is� to� identify� the� inductance� region� intersected� by�
�the� E� x� T� value� and� the� maximum� load� current� value� on� the�
�horizontal� axis� shown� in� Figure� 27.�
�D.� From� the� inductor� code,� identify� the� inductor� value.� Then�
�select� an� appropriate� inductor� from� Table� 2.� The� inductor�
�chosen� must� be� rated� for� a� switching� frequency� of� 52� kHz�
�and� for� a� current� rating� of� 1.15� x� I� Load� .� The� inductor� current�
�rating� can� also� be� determined� by� calculating� the� inductor�
�peak� current:�
�Example�
�4.� Inductor� Selection� (L1)�
�A.� Calculate� E� x� T� V� x� m� s� constant� :�
�40� 52�
�B.� E� x� T� +� 185� V� x� m� s�
�C.� I� Load(max)� =� 0.4� A�
�Inductance� Region� =� 1000�
�D.� Proper� inductor� value� =� 1000� m� H�
�Choose� the� inductor� from� Table� 2.�
�I� p� (� max� )� +� I� Load� (� max� )� )�
�V� in� *� V� out� t� on�
�2L�
�t� on� +� out� x� 1.0�
�where� t� on� is� the� “on”� time� of� the� power� switch� and�
�V�
�V� in� f� osc�
�For� additional� information� about� the� inductor,� see� the� inductor�
�section� in� the� “External� Components”� section� of� this� data�
�sheet.�
�5.� Output� Capacitor� Selection� (C� out� )�
�5.� Output� Capacitor� Selection� (C� out� )�
�A.� Since� the� LM2574� is� a� forward?mode� switching� regulator� with�
�voltage� mode� control,� its� open� loop� 2?pole?1?zero� frequency�
�characteristic� has� the� dominant� pole?pair� determined� by� the�
�A.�
�C� out� w� 13,� 300� x�
�40�
�24� x� 1000�
�+� 22.2� m� F�
�output� capacitor� and� inductor� values.�
�To� achieve� an� acceptable� ripple� voltage,� select�
�For� stable� operation,� the� capacitor� must� satisfy� the� following�
�requirement:�
�C� out� =� 100� m� F� electrolytic� capacitor.�
�in� (� max� )�
�C� out� w� 13,� 300�
�V�
�V� out� x� L� m� H�
�m� F�
�B.� Capacitor� values� between� 10� m� F� and� 2000� m� F� will� satisfy� the�
�loop� requirements� for� stable� operation.� To� achieve� an�
�acceptable� output� ripple� voltage� and� transient� response,� the�
�output� capacitor� may� need� to� be� several� times� larger� than� the�
�above� formula� yields.�
�C.� Due� to� the� fact� that� the� higher� voltage� electrolytic� capacitors�
�generally� have� lower� ESR� (Equivalent� Series� Resistance)�
�numbers,� the� output� capacitor� ’s� voltage� rating� should� be� at�
�least� 1.5� times� greater� than� the� output� voltage.� For� a� 5.0� V�
�regulator,� a� rating� of� at� least� 8.0� V� is� appropriate,� and� a� 10� V�
�or� 16V� rating� is� recommended.�
�http://onsemi.com�
�12�
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