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参数资料
| 型号: | BD6069GUT-E2 |
| 厂商: | Rohm Semiconductor |
| 文件页数: | 12/17页 |
| 文件大小: | 0K |
| 描述: | IC LED DRIVR WHITE BCKLGT 8-VCSP |
| 标准包装: | 1 |
| 恒定电流: | 是 |
| 拓扑: | PWM,升压(升压) |
| 输出数: | 1 |
| 内部驱动器: | 是 |
| 类型 - 主要: | 背光 |
| 类型 - 次要: | 白色 LED |
| 频率: | 800kHz ~ 1.2MHz |
| 电源电压: | 2.7 V ~ 5.5 V |
| 输出电压: | 18V |
| 安装类型: | 表面贴装 |
| 封装/外壳: | 8-VCSP |
| 供应商设备封装: | VCSP60N1 |
| 包装: | 标准包装 |
| 工作温度: | -30°C ~ 85°C |
| 产品目录页面: | 1371 (CN2011-ZH PDF) |
| 其它名称: | BD6069GUT-E2DKR |
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�BD6067GU�
�Datasheet�
�●� Operational� Notes�
�1)� Absolute� Maximum� Ratings�
�An� excess� in� the� absolute� maximum� ratings,� such� as� supply� voltage,� temperature� range� of� operating� conditions,� etc.,� can�
�break� down� devices,� thus� making� impossible� to� identify� breaking� mode� such� as� a� short� circuit� or� an� open� circuit.� If� any�
�special� mode� exceeding� the� absolute� maximum� ratings� is� assumed,� consideration� should� be� given� to� take� physical� safety�
�measures� including� the� use� of� fuses,� etc.�
�2)� Operating� conditions�
�These� conditions� represent� a� range� within� which� characteristics� can� be� provided� approximately� as� expected.� The�
�electrical� characteristics� are� guaranteed� under� the� conditions� of� each� parameter.�
�3)� Reverse� connection� of� power� supply� connector�
�The� reverse� connection� of� power� supply� connector� can� break� down� ICs.� Take� protective� measures� against� the�
�breakdown� due� to� the� reverse� connection,� such� as� mounting� an� external� diode� between� the� power� supply� and� the� IC’s�
�power� supply� terminal.�
�4)� Power� supply� line�
�Design� PCB� pattern� to� provide� low� impedance� for� the� wiring� between� the� power� supply� and� the� GND� lines.� In� this� regard,�
�for� the� digital� block� power� supply� and� the� analog� block� power� supply,� even� though� these� power� supplies� has� the� same�
�level� of� potential,� separate� the� power� supply� pattern� for� the� digital� block� from� that� for� the� analog� block,� thus� suppressing�
�the� diffraction� of� digital� noises� to� the� analog� block� power� supply� resulting� from� impedance� common� to� the� wiring� patterns.�
�For� the� GND� line,� give� consideration� to� design� the� patterns� in� a� similar� manner.� Furthermore,� for� all� power� supply�
�terminals� to� ICs,� mount� a� capacitor� between� the� power� supply� and� the� GND� terminal.� At� the� same� time,� in� order� to� use� an�
�electrolytic� capacitor,� thoroughly� check� to� be� sure� the� characteristics� of� the� capacitor� to� be� used� present� no� problem�
�including� the� occurrence� of� capacity� dropout� at� a� low� temperature,� thus� determining� the� constant.�
�5)� GND� voltage�
�Make� setting� of� the� potential� of� the� GND� terminal� so� that� it� will� be� maintained� at� the� minimum� in� any� operating� state.�
�Furthermore,� check� to� be� sure� no� terminals� are� at� a� potential� lower� than� the� GND� voltage� including� an� actual� electric�
�transient.�
�6)� Short� circuit� between� terminals� and� erroneous� mounting�
�In� order� to� mount� ICs� on� a� set� PCB,� pay� thorough� attention� to� the� direction� and� offset� of� the� ICs.� Erroneous� mounting� can�
�break� down� the� ICs.� Furthermore,� if� a� short� circuit� occurs� due� to� foreign� matters� entering� between� terminals� or� between�
�the� terminal� and� the� power� supply� or� the� GND� terminal,� the� ICs� can� break� down.�
�7)� Operation� in� strong� electromagnetic� field�
�Be� noted� that� using� ICs� in� the� strong� electromagnetic� field� can� malfunction� them.�
�8)� Inspection� with� set� PCB�
�On� the� inspection� with� the� set� PCB,� if� a� capacitor� is� connected� to� a� low-impedance� IC� terminal,� the� IC� can� suffer� stress.�
�Therefore,� be� sure� to� discharge� from� the� set� PCB� by� each� process.� Furthermore,� in� order� to� mount� or� dismount� the� set�
�PCB� to/from� the� jig� for� the� inspection� process,� be� sure� to� turn� OFF� the� power� supply� and� then� mount� the� set� PCB� to� the�
�jig.� After� the� completion� of� the� inspection,� be� sure� to� turn� OFF� the� power� supply� and� then� dismount� it� from� the� jig.� In�
�addition,� for� protection� against� static� electricity,� establish� a� ground� for� the� assembly� process� and� pay� thorough� attention�
�to� the� transportation� and� the� storage� of� the� set� PCB.�
�9)� Input� terminals�
�In� terms� of� the� construction� of� IC,� parasitic� elements� are� inevitably� formed� in� relation� to� potential.� The� operation� of� the�
�parasitic� element� can� cause� interference� with� circuit� operation,� thus� resulting� in� a� malfunction� and� then� breakdown� of� the�
�input� terminal.� Therefore,� pay� thorough� attention� not� to� handle� the� input� terminals,� such� as� to� apply� to� the� input� terminals�
�a� voltage� lower� than� the� GND� respectively,� so� that� any� parasitic� element� will� operate.� Furthermore,� do� not� apply� a� voltage�
�to� the� input� terminals� when� no� power� supply� voltage� is� applied� to� the� IC.� In� addition,� even� if� the� power� supply� voltage� is�
�applied,� apply� to� the� input� terminals� a� voltage� lower� than� the� power� supply� voltage� or� within� the� guaranteed� value� of�
�electrical� characteristics.�
�10)� 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.�
�11)� External� capacitor�
�In� order� to� use� a� ceramic� capacitor� as� the� external� capacitor,� determine� the� constant� with� consideration� given� to� a�
�degradation� in� the� nominal� capacitance� due� to� DC� bias� and� changes� in� the� capacitance� due� to� temperature,� etc.�
�12)� Thermal� shutdown� circuit� (TSD)�
�When� junction� temperatures� become� 175°C� (Typ.)� or� higher,� the� thermal� shutdown� circuit� operates� and� turns� a� switch�
�OFF.� The� thermal� shutdown� circuit,� which� is� aimed� at� isolating� the� LSI� from� thermal� runaway� as� much� as� possible,� is� not�
�aimed� at� the� protection� or� guarantee� of� the� LSI.� Therefore,� do� not� continuously� use� the� LSI� with� this� circuit� operating� or�
�use� the� LSI� assuming� its� operation.�
�13)� Thermal� design�
�Perform� thermal� design� in� which� there� are� adequate� margins� by� taking� into� account� the� permissible� dissipation� (Pd)� in�
�actual� states� of� use.�
�14)� Selection� of� coil�
�Select� the� low� DCR� inductors� to� decrease� power� loss� for� DC/DC� converter.�
�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�
�12/14�
�TSZ02201-0G3G0C200080-1-2�
�5.OCT.2012� Rev.001�
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