参数资料
| 型号: | BD9139MUV-E2 |
| 厂商: | Rohm Semiconductor |
| 文件页数: | 18/22页 |
| 文件大小: | 0K |
| 描述: | IC REG BUCK SYNC ADJ 3A 16VQFN |
| 标准包装: | 1 |
| 类型: | 降压(降压) |
| 输出类型: | 可调式 |
| 输出数: | 1 |
| 输出电压: | 0.8 V ~ 3.3 V |
| 输入电压: | 2.7 V ~ 5.5 V |
| PWM 型: | 电流模式 |
| 频率 - 开关: | 1MHz |
| 电流 - 输出: | 3A |
| 同步整流器: | 是 |
| 工作温度: | -40°C ~ 105°C |
| 安装类型: | 表面贴装 |
| 封装/外壳: | 16-VFQFN 裸露焊盘 |
| 包装: | 标准包装 |
| 供应商设备封装: | 16-VQFN(3x3) |
| 其它名称: | BD9139MUV-E2DKR |
��
�
�BD9139MUV�
�Datasheet�
�6.� Input� to� IC� terminals�
�This� is� a� monolithic� IC� with� P� isolation� between� P-substrate� and� each� element� as� illustrated� below.� This� P-layer� and� the�
�parasitic� elements.�
�●� Operational� Notes�
�1.� Absolute� Maximum� Ratings�
�While� utmost� care� is� taken� to� quality� control� of� this� product,� any� application� that� may� exceed� some� of� the� absolute�
�maximum� ratings� including� the� voltage� applied� and� the� operating� temperature� range� may� result� in� breakage.� If� broken,�
�short-mode� or� open-mode� may� not� be� identified.� So� if� it� is� expected� to� encounter� with� special� mode� that� may� exceed� the�
�absolute� maximum� ratings,� it� is� requested� to� take� necessary� safety� measures� physically� including� insertion� of� fuses.�
�2.� Electrical� potential� at� GND�
�GND� must� be� designed� to� have� the� lowest� electrical� potential� in� any� operating� conditions.�
�3.� Short-circuiting� between� terminals,� and� mismounting�
�When� mounting� to� pc� board,� care� must� be� taken� to� avoid� mistake� in� its� orientation� and� alignment.� Failure� to� do� so� may�
�result� in� IC� breakdown.� Short-circuiting� due� to� foreign� matters� entered� between� output� terminals,� or� between� output� and�
�power� supply� or� GND� may� also� cause� breakdown.�
�4.� Thermal� shutdown� protection� circuit�
�Thermal� shutdown� protection� circuit� is� the� circuit� designed� to� isolate� the� IC� from� thermal� runaway,� and� not� intended� to�
�protect� and� guarantee� the� IC.� So,� the� IC� the� thermal� shutdown� protection� circuit� of� which� is� once� activated� should� not� be�
�used� thereafter� for� any� operation� originally� intended.�
�5.� Inspection� with� the� IC� set� to� a� pc� board�
�If� a� capacitor� must� be� connected� to� the� pin� of� lower� impedance� during� inspection� with� the� IC� set� to� a� pc� board,� the� capacitor�
�must� be� discharged� after� each� process� to� avoid� stress� to� the� IC.� For� electrostatic� protection,� provide� proper� grounding� to�
�assembling� processes� with� special� care� taken� in� handling� and� storage.� When� connecting� to� jigs� in� the� inspection� process,�
�be� sure� to� turn� OFF� the� power� supply� before� it� is� connected� and� removed.�
�+�
�N-layer� of� each� element� form� a� P-N� junction,� and� various� parasitic� element� are� formed.�
�If� a� resistor� is� joined� to� a� transistor� terminal� as� shown� in� Fig� 38.�
�○� P-N� junction� works� as� a� parasitic� diode� if� the� following� relationship� is� satisfied;� GND>Terminal� A� (at� resistor� side),� or�
�GND>Terminal� B� (at� transistor� side);� and�
�○� if� GND>Terminal� B� (at� NPN� transistor� side),�
�a� parasitic� NPN� transistor� is� activated� by� N-layer� of� other� element� adjacent� to� the� above-mentioned� parasitic� diode.�
�The� structure� of� the� IC� inevitably� forms� parasitic� elements,� the� activation� of� which� may� cause� interference� among� circuits,�
�and/or� malfunctions� contributing� to� breakdown.� It� is� therefore� requested� to� take� care� not� to� use� the� device� in� such� manner�
�that� the� voltage� lower� than� GND� (at� P-substrate)� may� be� applied� to� the� input� terminal,� which� may� result� in� activation� of�
�Resistor� Transistor� (NPN)�
�Pin� A�
�Pin� B�
�C�
�B�
�Pin� B�
�Pin� A�
�E�
�P� +�
�P� P� +�
�P� +�
�P� P� +�
�N�
�N�
�Parasitic� element�
�N�
�P� substrate�
�GND�
�Parasitic�
�element�
�N�
�Parasitic� element�
�N�
�N�
�P� substrate�
�GND� GND�
�B� C�
�E�
�Parasitic�
�element�
�GND�
�Other� adjacent� elements�
�Fig.38� Simplified� structure� of� monorisic� IC�
�7.� Ground� wiring� pattern�
�If� small-signal� GND� and� large-current� GND� are� provided,� It� will� be� recommended� to� separate� the� large-current� GND� pattern� from�
�the� small-signal� GND� pattern� and� establish� a� single� ground� at� the� reference� point� of� the� set� PCB� so� that� resistance� to� the� wiring�
�pattern� and� voltage� fluctuations� due� to� a� large� current� will� cause� no� fluctuations� in� voltages� of� the� small-signal� GND.� Pay� attention�
�not� to� cause� fluctuations� in� the� GND� wiring� pattern� of� external� parts� as� well.�
�8.� Selection� of� inductor�
�It� is� recommended� to� use� an� inductor� with� a� series� resistance� element� (DCR)� 0.1� Ω� or� less.� Especially,� in� case� output�
�voltage� is� set� 1.6V� or� more,� note� that� use� of� a� high� DCR� inductor� will� cause� an� inductor� loss,� resulting� in� decreased� output�
�voltage.� Should� this� condition� continue� for� a� specified� period� (soft� start� time� +� timer� latch� time),� output� short� circuit�
�protection� will� be� activated� and� output� will� be� latched� OFF.� When� using� an� inductor� over� 0.1� Ω� ,� be� careful� to� ensure�
�adequate� margins� for� variation� between� external� devices� and� this� IC,� including� transient� as� well� as� static� characteristics.�
�Furthermore,� in� any� case,� it� is� recommended� to� start� up� the� output� with� EN� after� supply� voltage� is� within� operation� range.�
�Status� of� this� document�
�The� Japanese� version� of� this� document� is� formal� specification.� A� customer� may� use� this� translation� version� only� for� a� reference�
�to� help� reading� the� formal� version.�
�If� there� are� any� differences� in� translation� version� of� this� document� formal� version� takes� priority.�
�www.rohm.com�
�?2012� ROHM� Co.,� Ltd.� All� rights� reserved.�
�TSZ22111� ?� 15� ?� 001�
�18/20�
�TSZ02201-0J3J0AJ00170-1-2�
�02.MAR.2012� Rev.001�
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