参数资料
| 型号: | BD9853AFV-E2 |
| 厂商: | Rohm Semiconductor |
| 文件页数: | 10/17页 |
| 文件大小: | 0K |
| 描述: | IC REG CTRLR BUCK PWM 16-SSOP |
| 标准包装: | 1 |
| PWM 型: | 控制器 |
| 输出数: | 2 |
| 频率 - 最大: | 2MHz |
| 电源电压: | 4.5 V ~ 16 V |
| 降压: | 是 |
| 升压: | 无 |
| 回扫: | 无 |
| 反相: | 无 |
| 倍增器: | 无 |
| 除法器: | 无 |
| Cuk: | 无 |
| 隔离: | 无 |
| 工作温度: | -40°C ~ 85°C |
| 封装/外壳: | 16-TSSOP(0.173",4.40mm 宽) |
| 包装: | 标准包装 |
| 产品目录页面: | 1373 (CN2011-ZH PDF) |
| 其它名称: | BD9853AFV-E2DKR |
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�BD9853AFV�
�Technical� Note�
�(V� IN� -� V� OUT� )� V� OUT�
�L=� ⊿� I� L� =� (0.2� to� 0.5)×I� OUT�
�Selecting the synchronous diode�
�An� extremely� low� forward� voltage� Schottky� barrier� diode� should� be� employed� as� the� synchronous� diode.�
�Selection� of� the� specific� diode� to� be� used� should� be� made� in� conformance� with� the� following� relative� configurations� for�
�maximum� forward� current,� reverse� voltage� and� diode� power� dissipation.�
�?� The� maximum� current� rating� is� higher� than� the� combined� maximum� load� current� and� coil� ripple� current� (� ⊿� I� L� ).�
�?� The� reverse� voltage� rating� is� higher� than� the� VIN� value.�
�?� Power� dissipation� for� the� selected� diode� must� be� within� the� rated� level.�
�Synchronous� diode� power� dissipation� (Pdi)� is� expressed� in� the� following� formula:�
�Pdi=Iout(MAX)×tdt×fosc×Vf�
�Iout(MAX)� :� maximum� load� current,� tdt� :� dead� time� 60ns� typ,fosc� :� oscillation� frequency,� Vf� :� forward� voltage�
�Selecting the output/input coil�
�The� output� coil� and� the� output� capacitor� together� form� a� second-order� smoothing� filter� for� the� switch� waveform� and� provide�
�the� DC� output� voltage.�
�If� a� coil’s� inductor� value� is� low,� its� physical� size� is� minimized,� but� the� penalty� is� higher� ripple� current,� with� lowered� efficiency�
�and� an� increase� in� output� noise.� Conversely,� a� higher� inductor� value� increases� the� size� of� the� coil,� but� lowers� the� ripple�
�current� and,� consequently.� the� output� ripple� current.�
�Generally� speaking,� ripple� current� should� be� between� 20%� and� 50%� of� output� load� current.� The� following� equation� is� used�
�to� calculate� the� inductor� value� that� corresponds� to� the� ripple� current� value� being� employed.�
�1�
�� �
�⊿� I� L� V� IN� f� OSC�
�,�
�L� :� inductor� value,� V� IN� :� maximum� input� voltage,� V� OUT� :� output� voltage,� ⊿� I� L� :� coil� ripple� current� value�
�fosc� :� oscillation� frequency,� I� OUT� :� output� load� current�
�Note� that� the� current� rating� for� the� coil� should� be� higher� than� I� OUT� (MAX)� +� ⊿� I� L.�
�Selecting the input capacitor�
�The� input� capacitor� is� the� source� of� current� that� flows� to� the� coil� via� the� FET� whenever� the� high� side� MOSFET� is� ON.� In�
�selecting� an� input� capacitor,� sufficient� margin� must� be� provided� to� accommodate� capacitor� pressure� and� the� permissible�
�ripple� current.�
�The� expression� below� defines� the� effective� value� of� the� ripple� current� to� the� input� capacitor.� It� should� be� used� in�
�determining� the� suitability� of� the� capacitor� in� providing� sufficient� margin� for� the� permissible� ripple� current.�
�I� RMS� =� I� OUT� ×√� (1� -� V� OUT� /V� IN� )� ×� V� OUT� /V� IN�
�I� RMS� :� effective� value� of� the� ripple� current� to� the� input� capacitor�
�I� OUT� :� output� load� current�
�Selecting the output capacitor�
�The� output� capacitor� should� confine� ESR� and� permissible� ripple� current� within� a� stable� region.�
�Although� incorporating� a� low-ESR� capacitor� will� limit� ripple� voltage� and� load� fluctuation,� it� can� also� hurt� the� stability� of� the�
�feedback� network.� Therefore,� in� order� to� maintain� a� stable� feedback� loop� when� ceramic� or� other� low-ESR� capacitors� are�
�employed,� special� attention� must� be� paid� to� providing� an� appropriate� phase� compensation� scheme.�
�A� suitable� output� capacitor� will� satisfy� the� following� formula� for� ESR.�
�ESR� ≦⊿� V� L� /� ⊿� I� L�
�⊿� V� L� :� permissible� ripple� voltage,� ⊿� I� L� :� coil� ripple� current�
�In� addition,� use� the� following� formula� to� determine� the� effective� value� of� the� output� capacitance� permissible� ripple� current,�
�and� select� a� capacitor� that� allows� sufficient� margin� to� accommodate� this� value.�
�I� RMS� =� ⊿� I� L� /2� √� 3�
�I� RMS� :� effective� value� of� ripple� current� to� the� output� condenser,� ⊿� I� L� :� coil� ripple� current�
�Setting the soft start time�
�To� prevent� output� voltage� startup� overshoot� on� either� channel,� the� capacitors� connected� to� the� SCP/SOFT� 1,� 2� pins� –� in� a�
�discharged� state� at� power-on� –� are� gradually� charged� during� a� delay� interval,� thus� providing� a� soft� start.� The� soft� start�
�period� is� the� time� from� when� the� standby� pins� go� from� LOW� to� HIGH,� starting� the� charge,� to� the� time� that� the� output�
�voltage� reaches� the� programmed� setting.� The� soft� start� time� is� calculated� in� the� following� equation:�
�tsoft� =�
�0.8[V]� (typ)×Cscp/soft� [� F� ]�
�Isosoft� (typ:� 2.3� μ� A)[A]�
�tsoft� :� soft� start� time,� Cscp/soft� :� SCP/SOFT� pin� connection� capacitance,� Isosoft� :� charge� current�
�www.rohm.com�
�?� 2009� ROHM� Co.,� Ltd.� All� rights� reserved.�
�10/16�
�2009.05� -� Rev.A�
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