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| 型号: | ADP2106ACPZ-1.8-R7 |
| 厂商: | Analog Devices Inc |
| 文件页数: | 18/36页 |
| 文件大小: | 0K |
| 描述: | IC REG BUCK SYNC 1.8V 16LFCSP |
| 产品培训模块: | Powering 90nm/65nm FPGAs and Processors |
| 标准包装: | 1 |
| 类型: | 降压(降压) |
| 输出类型: | 固定 |
| 输出数: | 1 |
| 输出电压: | 1.8V |
| 输入电压: | 2.7 V ~ 5.5 V |
| PWM 型: | 电流模式 |
| 频率 - 开关: | 1.2MHz |
| 电流 - 输出: | 1.5A |
| 同步整流器: | 是 |
| 工作温度: | -40°C ~ 125°C |
| 安装类型: | 表面贴装 |
| 封装/外壳: | 16-VQFN 裸露焊盘,CSP |
| 包装: | 标准包装 |
| 供应商设备封装: | 16-LFCSP-VQ |
| 其它名称: | ADP2106ACPZ-1.8-R7DKR |
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�ADP2105/ADP2106/ADP2107�
�Table� 8.� Minimum� Inductor� Value� for� Common� Output�
�Voltage� Options� for� the� ADP2107� (2� A)�
�V� IN�
�18�
�17�
�16�
�15�
�14�
�13�
�Data� Sheet�
�V� OUT�
�1.2� V�
�1.5� V�
�1.8� V�
�2.5� V�
�3.3� V�
�2.7� V�
�0.83� μH�
�0.99� μH�
�1.19� μH�
�1.65� μH�
�2.18� μH�
�3.6� V�
�1.00� μH�
�1.09� μH�
�1.19� μH�
�1.65� μH�
�2.18� μH�
�4.2� V�
�1.07� μH�
�1.21� μH�
�1.29� μH�
�1.65� μH�
�2.18� μH�
�5.5� V�
�1.17� μH�
�1.36� μH�
�1.51� μH�
�1.70� μH�
�2.18� μH�
�12�
�11�
�10�
�9�
�8�
�7�
�6�
�5�
�4�
�3�
�?� Output� Capacitor� =�
�≈� 20� μ� F�
�Table� 9.� Inductor� Recommendations� for� the� ADP2105/�
�ADP2106/ADP2107�
�Small-Sized� Inductors� Large-Sized� Inductors�
�Vendor� (<� 5� mm� � 5� mm)� (>� 5� mm� � 5� mm)�
�Sumida� CDRH2D14,� 3D16,� CDRH4D18,� 4D22,�
�3D28� 4D28,� 5D18,� 6D12�
�Toko� 1069AS-DB3018,� D52LC,� D518LC,�
�1098AS-DE2812,� D62LCB�
�1070AS-DB3020�
�Coilcraft� LPS3015,� LPS4012,� DO1605T�
�DO3314�
�Cooper� SD3110,� SD3112,� SD10,� SD12,� SD14,� SD52�
�Bussmann� SD3114,� SD3118,�
�SD3812,� SD3814�
�OUTPUT� CAPACITOR� SELECTION�
�The� output� capacitor� selection� affects� both� the� output� voltage� ripple�
�and� the� loop� dynamics� of� the� converter.� For� a� given� loop� crossover�
�frequency� (the� frequency� at� which� the� loop� gain� drops� to� 0� dB),� the�
�maximum� voltage� transient� excursion� (overshoot)� is� inversely�
�proportional� to� the� value� of� the� output� capacitor.� Therefore,� larger�
�output� capacitors� result� in� improved� load� transient� response.� To�
�minimize� the� effects� of� the� dc-to-dc� converter� switching,� the� cross-�
�over� frequency� of� the� compensation� loop� should� be� less� than� 1/10�
�of� the� switching� frequency.� Higher� crossover� frequency� leads� to�
�faster� settling� time� for� a� load� transient� response,� but� it� can� also�
�cause� ringing� due� to� poor� phase� margin.� Lower� crossover�
�frequency� helps� to� provide� stable� operation� but� needs� large� output�
�capacitors� to� achieve� competitive� overshoot� specifications.�
�2�
�1�
�0�
�15� 20� 25� 30� 35� 40� 45� 50� 55� 60� 65� 70�
�OUTPUT� CAPACITOR� ×� OUTPUT� VOLTAGE� (μC)�
�Figure� 39.� Percentage� Overshoot� for� a� 1� A� Load� Transient� Response� vs.�
�Output� Capacitor� � Output� Voltage�
�For� example,� if� the� desired� 1� A� load� transient� response� (overshoot)�
��Output� Capacitor� ×� Output� Voltage� =� 50� μC�
�50 μ C�
�2� .� 5�
�The� ADP2105/ADP2106/ADP2107� have� been� designed� for�
�operation� with� small� ceramic� output� capacitors� that� have� low�
�ESR� and� ESL.� Therefore,� they� are� comfortably� able� to� meet� tight�
�output� voltage� ripple� specifications.� X5R� or� X7R� dielectrics� are�
�recommended� with� a� voltage� rating� of� 6.3� V� or� 10� V.� Y5V� and� Z5U�
�dielectrics� are� not� recommended,� due� to� their� poor� temperature�
�and� dc� bias� characteristics.� Table� 10� shows� a� list� of� recommended�
�MLCC� capacitors� from� Murata� and� Taiyo� Yuden.�
�When� choosing� output� capacitors,� it� is� also� important� to�
�account� for� the� loss� of� capacitance� due� to� output� voltage� dc� bias.�
��bias� for� three� X5R� MLCC� capacitors� from� Murata.�
�20�
�0�
�Therefore,� the� optimal� crossover� frequency� for� the� control� loop� of�
�ADP2105/ADP2106/ADP2107� is� 80� kHz,� 1/15� of� the� switching�
�–20�
�1�
�frequency.� For� a� crossover� frequency� of� 80� kHz,� Figure� 39� shows�
�the� maximum� output� voltage� excursion� during� a� 1� A� load� transient,�
�as� the� product� of� the� output� voltage� and� the� output� capacitor� is�
�varied.� Choose� the� output� capacitor� based� on� the� desired� load�
�transient� response� and� target� output� voltage.�
�–40�
�–60�
�–80�
�3�
�1� 4.7μF� 0805� X5R� MURATA� GRM21BR61A475K�
�2�
�2� 10μF� 0805� X5R� MURATA� GRM21BR61A106K�
�–100�
�3� 22μF� 0805� X5R� MURATA� GRM21BR60J226M�
�0�
�2�
�4�
�6�
�VOLTAGE� (V� DC� )�
�Figure� 40.� Percentage� Drop-In� Capacitance� vs.� DC� Bias� for� Ceramic�
�Capacitors� (Information� Provided� by� Murata� Corporation)�
�For� example,� to� get� 20� μF� output� capacitance� at� an� output� voltage�
�of� 2.5� V,� based� on� Figure� 40,� as� well� as� to� give� some� margin� for�
�temperature� variance,� a� 22� μF� and� a� 10� μF� capacitor� are� to� be�
�Rev.� D� |� Page� 18� of� 36�
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