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参数资料
| 型号: | ADP1111ANZ-12 |
| 厂商: | Analog Devices Inc |
| 文件页数: | 10/15页 |
| 文件大小: | 0K |
| 描述: | IC REG BUCK BST INV 12V .2A 8DIP |
| 标准包装: | 50 |
| 类型: | 降压(降压),升压(升压),反相 |
| 输出类型: | 固定 |
| 输出数: | 1 |
| 输出电压: | 12V |
| 输入电压: | 2 V ~ 30 V |
| 频率 - 开关: | 72kHz |
| 电流 - 输出: | 200mA |
| 同步整流器: | 无 |
| 工作温度: | -40°C ~ 85°C |
| 安装类型: | 通孔 |
| 封装/外壳: | 8-DIP(0.300",7.62mm) |
| 包装: | 管件 |
| 供应商设备封装: | 8-PDIP |
��
�
�ADP1111�
�CIRCUIT� OPERATION,� STEP� DOWN� (BUCK)� MODE)�
�The� ADP1111’s� step� down� mode� is� used� to� produce� an� output�
�V� IN�
�C� 2�
�+�
�R� 3�
�voltage� that� is� lower� than� the� input� voltage.� For� example,� the�
�1�
�2�
�3�
�ADP1111�
�output� of� four� NiCd� cells� (+4.8� V)� can� be� converted� to� a� +3� V�
�logic� supply.�
�A� typical� configuration� for� step� down� operation� of� the� ADP1111�
�is� shown� in� Figure� 19.� In� this� case,� the� collector� of� the� internal�
�I� LIM� V� IN� SW1�
�FB� 8�
�SW2� 4�
�GND�
�5�
�D2�
�D1�
�L1�
�C� 1�
�+�
�R2�
�R1�
�V� OUT�
�power� switch� is� connected� to� V� IN� and� the� emitter� drives� the�
�inductor.� When� the� switch� turns� on,� SW2� is� pulled� up� towards�
�V� IN� .� This� forces� a� voltage� across� L1� equal� to� V� IN� –� V� CE� –� V� OUT�
�and� causes� current� to� flow� in� L1.� This� current� reaches� a� final�
�value� of:�
�D1,� D2� =� 1N5818� SCHOTTKY� DIODES�
�Figure� 20.� Step-Down� Model,� V� OUT� >� 6.2� V�
�I� PEAK� ?�
�V� IN� ?� V� CE� ?� V� OUT�
�L�
�?� 7� μ� s�
�If� the� input� voltage� to� the� ADP1111� varies� over� a� wide� range,� a�
�current� limiting� resistor� at� Pin� 1� may� be� required.� If� a� particular�
�where� 7� μ� s� is� the� ADP1111� switch’s� “on”� time.�
�circuit� requires� high� peak� inductor� current� with� minimum� input�
�supply� voltage,� the� peak� current� may� exceed� the� switch� maxi-�
�V� IN�
�C� 2�
�+�
�R� LIM�
�100� Ω�
�mum� rating� and/or� saturate� the� inductor� when� the� supply�
�voltage� is� at� the� maximum� value.� See� the� “Limiting� the� Switch�
�1�
�2�
�3�
�Current”� section� of� this� data� sheet� for� specific� recommendations.�
�I� LIM� V� IN� SW1�
�FB� 8�
�ADP1111�
�SW2� 4�
�AO� SET� GND�
�6� 7� 5�
�NC� NC�
�L1�
�D1�
�1N5818�
�+�
�R2�
�R1�
�C� L�
�V� OUT�
�INCREASING� OUTPUT� CURRENT� IN� THE� STEP-DOWN�
�REGULATOR�
�Unlike� the� boost� configuration,� the� ADP1111’s� internal� power�
�switch� is� not� saturated� when� operating� in� step-down� mode.� A�
�conservative� value� for� the� voltage� across� the� switch� in� step-down�
�mode� is� 1.5� V.� This� results� in� high� power� dissipation� within� the�
�ADP1111� when� high� peak� current� is� required.� To� increase� the�
�Figure� 19.� Step-Down� Mode� Operation�
�When� the� switch� turns� off,� the� magnetic� field� collapses.� The�
�polarity� across� the� inductor� changes,� and� the� switch� side� of� the�
�inductor� is� driven� below� ground.� Schottky� diode� D1� then� turns�
�on,� and� current� flows� into� the� load.� Notice� that� the� Absolute�
�Maximum� Rating� for� the� ADP1111’s� SW2� pin� is� 0.5� V� below�
�ground.� To� avoid� exceeding� this� limit,� D1� must� be� a� Schottky�
�diode.� If� a� silicon� diode� is� used� for� D1,� Pin� SW2� can� go� to�
�–0.8� V,� which� will� cause� potentially� damaging� power� dissipation�
�within� the� ADP1111.�
�The� output� voltage� of� the� buck� regulator� is� fed� back� to� the�
�output� current,� an� external� PNP� switch� can� be� added� (Figure�
�21).� In� this� circuit,� the� ADP1111� provides� base� drive� to� Q1�
�through� R3,� while� R4� ensures� that� Q1� turns� off� rapidly.� Because�
�the� ADP1111’s� internal� current� limiting� function� will� not� work�
�in� this� circuit,� R5� is� provided� for� this� purpose.� With� the� value�
�shown,� R5� limits� current� to� 2� A.� In� addition� to� reducing� power�
�dissipation� on� the� ADP1111,� this� circuit� also� reduces� the� switch�
�voltage.� When� selecting� an� inductor� value� for� the� circuit� of�
�Figure� 21,� the� switch� voltage� can� be� calculated� from� the�
�formula:�
�V� SW� =� V� R5� +� V� Q1(SAT)� ?� 0.6� V� +� 0.4� V� ?� 1� V�
�=� 1.25� V� ?� ?� 1� +�
�R� 1� ?� ?�
�?�
�ADP1111’s FB pin by resistors R1 and R2. When the voltage at�
�pin� FB� falls� below� 1.25� V,� the� internal� power� switch� turns� “on”�
�again,� and� the� cycle� repeats.� The� output� voltage� is� set� by� the�
�formula:�
�?� R� 2� ?�
�V� OUT�
�When� operating� the� ADP1111� in� step-down� mode,� the� output�
�voltage� is� impressed� across� the� internal� power� switch’s� emitter-�
�base� junction� when� the� switch� is� off.� To� protect� the� switch,� the�
�INPUT�
�+�
�C� INPUT�
�R5�
�0.3� Ω�
�1�
�I� LIM� SW1� 3�
�2� V� IN� ADP1111�
�FB� 8�
�AO� SET� GND� SW2�
�6� 7� 5� 4�
�NC� NC�
�R4�
�220� Ω�
�R3�
�330� Ω�
�D1�
�1N5821�
�Q1�
�MJE210�
�L1�
�R2�
�R1�
�+�
�C� L�
�OUTPUT�
�output� voltage� should� be� limited� to� 6.2� V� or� less.� If� a� higher�
�output� voltage� is� required,� a� Schottky� diode� should� be� placed� in�
�series� with� SW2� as� shown� in� Figure� 20.�
�–10� –�
�Figure� 21.� High� Current� Step-Down� Operation�
�0�
�REV.� A�
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