参数资料
| 型号: | BA33E00WHFP-TR |
| 厂商: | Rohm Semiconductor |
| 文件页数: | 11/19页 |
| 文件大小: | 0K |
| 描述: | IC REG LDO 3.3V/ADJ .6A HRP7 |
| 标准包装: | 2,000 |
| 稳压器拓扑结构: | 正,固定式和可调式 |
| 输出电压: | 3.3V,0.8 V ~ 3.3 V |
| 输入电压: | 2.8 V ~ 16 V |
| 电压 - 压降(标准): | 0.3V @ 300mA |
| 稳压器数量: | 2 |
| 电流 - 输出: | 600mA(最小值) |
| 工作温度: | -25°C ~ 105°C |
| 安装类型: | 表面贴装 |
| 封装/外壳: | 7-SMD |
| 供应商设备封装: | HRP7 |
| 包装: | 带卷 (TR) |
��
�
�BA3259HFP�
�BA30E00WHFP�
�Datasheet�
�Application� Information�
�●� Setting� the� Output� Voltage� Vo2�
�The� following� output� voltage� setting� method� applies� to� the� variable� output� pin.�
�Vo2=V� ADJ� � (� 1� +�
�R2�
�R1�
�)� -� R2� � I� ADJ�
�V� ADJ� :� Output� feedback� reference� voltage� (0.8� V� typ.)�
�I� ADJ� :� ADJ� pin� source� current� (0.05μA� typ.:� BA3259HFP)�
�(0.2μA� typ.:� BA30E00WHFP)�
�Vo2�
�R1�
�ADJ�
�I� ADJ�
�R2�
�V� ADJ�
�BA3259HFP:� 1� k� Ω� to� 10� k� Ω�
�BA30E00HFP:� 1� k� Ω� to� 5� k� Ω�
�The� above� is� recommended.�
�R1�
�Note:Connect� R1� and� R2� to� make� output� voltage� settings� as� shown� in� Fig.1and� Fig.2.� Keep� in� mind� that� the� offset�
�voltage� caused� by� the� current� (I� ADJ� )� flowing� out� of� the� ADJ� pin� will� become� high� if� higher� resistance� is� used.�
�●� Function� Explanation�
�1)� Two-input� power� supply� (BA30E00WHFP)�
�The� input� voltages� (Vcc1� and� Vcc2)� supply� power� to� two� outputs� (Vo1� and� Vo2,� respectively).� The� power� dissipation�
�between� the� input� and� output� pins� can� be� suppressed� for� each� output� according� to� usage.�
�Efficiency� comparison:�
�5V� single� input� vs.� 5V/3V� two� inputs�
�?� Regulator� with� single� input� and� two� outputs�
�?� Regulator� with� two� inputs� and� two� outputs�
�(Vo2=1.8V,� Io1=Io2=0.3A)�
�Conventional�
�Power� loss� between� input� and� output�
�Current�
�Power� loss� between� input� and� output�
�5V�
�Vcc�
�REG1�
�Vo1�
�3.3� V/0.3� A�
�(Vcc� ?� Vo1)� � Io1� +� (Vcc� ?� Vo2)� � Io2�
�=� (5� ?� 3.3)� � 0.3� +� (5� ?� 1.8)� � 0.3�
�=� 0.51W� +� 0.96W�
�5V�
�Vcc�
�REG1�
�Vo1�
�3.3� V/0.3� A�
�(Vcc1� ?� Vo1)� � Io1� +� (Vcc2� ?� Vo2)� � Io2�
�=� (5� ?� 3.3)� � 0.3� +� (5� ?� 1.8)� � 0.3�
�=� 0.51W� +� 0.36W�
�=� 1.47W�
�=� 0.87W� Reduced power loss by�
�REG2�
�Vo2�
�1.8� V/0.3� A�
�→� Single� 5V� input� results� in� decreased�
�efficiency�
�3V�
�REG2�
�Vo2�
�1.8� V/0.3� A�
�0.6W.�
�→� Additional� 3V� input� improves� efficiency�
�2)� Standby� function� (BA30E00WHFP)�
�The� standby� function� is� operated� through� the� EN� pin.� Output� is� turned� on� at� 2.0� V� or� higher� and� turned� off� at� 0.8� V� or�
�lower.�
�●� Power� Dissipation�
�If� the� IC� is� used� under� the� conditions� of� excess� of� the� power� dissipation,� the� chip� temperature� will� rise,� which� will� have� an�
�adverse� effect� on� the� electrical� characteristics� of� the� IC,� such� as� a� reduction� in� current� capability.� Furthermore,� if� the�
�temperature� exceeds� T� jmax� ,� element� deterioration� or� damage� may� occur.� Implement� proper� thermal� designs� to� ensure� that�
�the� power� dissipation� is� within� the� permissible� range� in� order� to� prevent� instantaneous� IC� damage� resulting� from� heat� and�
�maintain� the� reliability� of� the� IC� for� long-term� operation.� Refer� to� the� power� derating� characteristics� curves� in� Fig.27.�
�?� Power� Consumption� Pc� (W)� Calculation� Method:�
�○� BA3259HFP�
�?� Power� consumption� of� 3.3� V� power�
�○� BA30E00WHFP�
�?� Power� consumption� of� power� transistor� on�
�Vcc�
�I� P�
�Vcc�
�transistor�
�Pc1=(Vcc� ?� 3.3)� � Io1�
�?� Power� consumption� of� Vo2� power�
�Vcc1�
�Vo1� (3.3� V� output)�
�Pc1=(Vcc1� ?� Vo1)� � Io1�
�?� Power� consumption� of� power� transistor� on�
�Controller�
�Icc�
�Power�
�Tr�
�Vcc�
�Power�
�Tr�
�Vo1�
�Vo2�
�3.3� V�
�output�
�Io1�
�0.8� V� to�
�3.3� V�
�output�
�Io2�
�transistor�
�Pc2=(Vcc� ?� Vo2)� � Io2�
�?� Power� consumption� by� circuit� current�
�Pc3=Vcc� � Icc�
�Pc=Pc1� +� Pc2� +� Pc3�
�*� Vcc:� Applied� voltage�
�Io1:� Load� current� on� Vo1� side�
�Io2:� Load� current� on� Vo2� side�
�Vcc1�
�Vcc2�
�I� B� 1�
�Controller�
�I� B� 2�
�Icc1+Icc2�
�Power�
�Tr�
�Vcc2�
�Power�
�Tr�
�3.3� V�
�output�
�Io1�
�Io1�
�0.8� V� to�
�3.3� V�
�Io2� output�
�Io2�
�Vo2� (variable� output� )�
�Pc2=(Vcc2� ?� Vo2)� � Io2�
�?� Power� consumption� by� circuit� current�
�Pc3=Vcc1� � Icc1� +� Vcc2� � Icc2�
�Pc=Pc1� +� Pc2� +� Pc3�
�*� Vcc1,� Vcc2:� Applied� voltage�
�Io1:� Load� current� on� 3.3� V� output� side�
�Io2:� Load� current� on� variable� output� side�
�GND�
�www.rohm.com�
�?� 2012� ROHM� Co.,� Ltd.� All� rights� reserved.�
�TSZ22111� ?� 15� ?� 001�
�Icc:� Circuit� current�
�11/16�
�GND�
�Icc1,� Icc2:� Circuit� currents�
�TSZ02201-0R6R0A600100-1-2�
�26.Jun.2012� Rev.001�
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