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| 型号: | ADP171-EVALZ |
| 厂商: | Analog Devices Inc |
| 文件页数: | 12/20页 |
| 文件大小: | 0K |
| 描述: | BOARD EVAL ADP171 1V |
| 标准包装: | 1 |
| 每 IC 通道数: | 1 - 单 |
| 输出电压: | 1V |
| 电流 - 输出: | 300mA |
| 输入电压: | 1.6 ~ 3.6V |
| 稳压器类型: | 正,可调式 |
| 工作温度: | -40°C ~ 125°C |
| 板类型: | 完全填充 |
| 已供物品: | 板 |
| 已用 IC / 零件: | ADP171 |
| 其它名称: | ADP171EVALZ ADP171EVALZ-ND |
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��ADP170/ADP171�
�APPLICATIONS� INFORMATION�
�CAPACITOR� SELECTION�
�Output� Capacitor�
�The� ADP170� /� ADP171� are� designed� for� operation� with� small,�
�space-saving� ceramic� capacitors� but� will� function� with� most�
�commonly� used� capacitors� as� long� as� care� is� taken� with� regard�
�to� the� effective� series� resistance� (ESR)� value.� The� ESR� of� the�
�output� capacitor� affects� the� stability� of� the� LDO� control� loop.�
�A� minimum� of� 1� μF� capacitance� with� an� ESR� of� 1� Ω� or� less� is�
�recommended� to� ensure� stability� of� the� ADP170� /� ADP171� .� The�
�transient� response� to� changes� in� load� current� is� also� affected� by�
�output� capacitance.� Using� a� larger� value� of� output� capacitance�
�improves� the� transient� response� of� the� ADP170� /� ADP171� to�
�large� changes� in� load� current.� Figure� 27� and� Figure� 28� show� the�
�transient� responses� for� output� capacitance� values� of� 1� μF� and�
�4.7� μF,� respectively.�
�I� LOAD�
�1mA� TO� 300mA� LOAD� STEP,�
�2.5A/μs�
�1�
�2�
�Data� Sheet�
�Input� Bypass� Capacitor�
�Connecting� a� 1� μF� capacitor� from� VIN� to� GND� reduces� the�
�circuit� sensitivity� to� the� printed� circuit� board� (PCB)� layout,�
�especially� when� long� input� traces� or� high� source� impedance�
�are� encountered.� If� greater� than� 1� μF� of� output� capacitance� is�
�required,� the� input� capacitor� should� be� increased� to� match� it.�
�Input� and� Output� Capacitor� Properties�
�Any� good� quality� ceramic� capacitor� can� be� used� with� the�
��and� maximum� ESR� requirements.� Ceramic� capacitors� are� manu-�
�factured� with� a� variety� of� dielectrics,� each� with� different� behavior�
�over� temperature� and� applied� voltage.� Capacitors� must� have� a�
�dielectric� adequate� to� ensure� the� minimum� capacitance� over� the�
�necessary� temperature� range� and� dc� bias� conditions.� A� X5R� or� X7R�
�dielectric� with� a� voltage� rating� of� 6.3� V� or� 10� V� is� recommended.�
�The� Y5V� and� Z5U� dielectrics� are� not� recommended,� due� to� their�
�poor� temperature� and� dc� bias� characteristics.�
��of� a� 0402,� 1� μF,� 10� V� X5R� capacitor.� The� variance� of� a� capacitor�
�is� strongly� influenced� by� the� capacitor� size� and� voltage� rating.� In�
�general,� a� capacitor� in� a� larger� package� or� higher� voltage� rating�
�will� exhibit� less� capacitance� variance� over� bias� voltage.� The�
�temperature� variation� of� the� X5R� dielectric� is� about� ±15%� over�
�V� OUT�
�V� OUT� =� 1.8V�
�C� IN� =� C� OUT� =� 1μF�
�the� ?40°C� to� +85°C� temperature� range� and� is� not� a� function� of�
�package� or� voltage� rating.�
�1.2�
�W�
�CH1� 200mA� ?� CH2� 50.0mV�
�B�
�M200ns� A� CH1�
�T� 500.000ns�
�112mA�
�1.0�
�Figure� 27.� Output� Transient� Response,� C� OUT� =� 1� μF�
�0.8�
�1�
�I� LOAD�
�1mA� TO� 300mA� LOAD� STEP,�
�2.5A/μs�
�0.6�
�0.4�
�0.2�
�2�
�V� OUT�
�0�
�0�
�2�
�4� 6�
�BIAS� VOLTAGE� (V)�
�8�
�10�
�CH1� 200mA� ?� CH2� 50.0mV�
�M200ns� A� CH1�
�108mA�
�W�
�V� OUT� =� 1.8V�
�C� IN� =� C� OUT� =� 4.7μF�
�B�
�T� 500.000ns�
�Figure� 28.� Output� Transient� Response,� C� OUT� =� 4.7� μF�
�Figure� 29.� Capacitance� vs.� Bias� Voltage� Characteristics�
�Use� Equation� 1� to� determine� the� worst-case� capacitance�
�accounting� for� capacitor� variation� over� temperature,�
�component� tolerance,� and� voltage.�
�C� EFF� =� C� BIAS� � (1� ?� TEMPCO� )� � (1� ?� TOL� )�
�where:�
�C� BIAS� is� the� effective� capacitance� at� the� operating� voltage.�
�TEMPCO� is� the� worst-case� capacitor� temperature� coefficient.�
�TOL� is� the� worst-case� component� tolerance.�
�Rev.� C� |� Page� 12� of� 20�
�(1)�
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