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参数资料
| 型号: | MAX1524EUT-T |
| 厂商: | Maxim Integrated Products |
| 文件页数: | 7/14页 |
| 文件大小: | 0K |
| 描述: | IC REG CTRLR BST FLYBK SOT23-6 |
| 产品培训模块: | Lead (SnPb) Finish for COTS Obsolescence Mitigation Program |
| 标准包装: | 2,500 |
| PWM 型: | 电压模式 |
| 输出数: | 1 |
| 频率 - 最大: | 1MHz |
| 占空比: | 90% |
| 电源电压: | 1.5 V ~ 5.5 V |
| 降压: | 无 |
| 升压: | 是 |
| 回扫: | 是 |
| 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: | SOT-6 |
| 包装: | 带卷 (TR) |
��
�
�Simple� SOT23� Boost� Controllers�
�� OUT� D� IN�
�?� SWITCHING� =�
�DutyCycle� (� MAX� )� =�
�+� V�
�?� SWITCHING� (� LIGHT� ?� LOAD� )� ≈�
��
�V� OUT� +� V� D� ?� V� IN� I� LOAD�
�+� V�
�0� .� 18� � I� LOAD� (� MAX� )�
�I� PEAK� =� 1� .� 15� � OUT� D� � I� LOAD� (� MAX� )�
�under light loads. The selection of 30% ripple current�
�causes� this� to� happen� at� loads� less� than� approximately�
�1/6th� of� maximum� load.�
�There� are� two� common� reasons� not� to� run� in� CCM:�
�1)� High� output� voltage.� In� this� case,� the� output-to-�
�input� voltage� ratio� exceeds� the� level� obtainable�
�by� the� MAX1522/MAX1523/MAX1524s’� maximum� duty�
�factor.� Calculate� the� application’s� maximum� duty� cycle�
�using� the� equation� in� the� Calculate� the� Maximum� Duty�
�Cycle� section.� If� this� number� exceeds� 80%,� you� will�
�have� to� design� for� DCM.�
�2)� Small� output� current.� If� the� maximum� output� current�
�is� very� small,� the� inductor� required� for� CCM� may� be�
�disproportionally� large� and� expensive.� Since� I� 2� R� losses�
�are� not� a� concern,� it� may� make� sense� to� use� a� smaller�
�inductor� and� run� in� DCM.� This� typically� occurs� when�
�the� load� current� times� the� output-to-input� voltage� ratio�
�drops� below� a� few� hundred� milliamps,� although� this�
�also� depends� on� the� external� components.�
�Calculate� the� Maximum� Duty� Cycle�
�The� maximum� duty� cycle� of� the� application� is� given� by:�
�V� OUT� +� V� D� ?� V� IN(MIN)�
�� 100� %�
�V� OUT� D�
�where� V� D� is� the� forward� voltage� drop� of� the� Schottky�
�diode� (about� 0.5V).�
�Design� Procedure� for� CCM�
�On-Time� Selection�
�For� CCM� to� occur,� the� MAX1522/MAX1523/MAX1524�
�must� be� able� to� exceed� the� application’s� maximum�
�duty� cycle.� For� applications� up� to� 45%� duty� cycle,� con-�
�INPUT�
�2.7V� TO� 4.2V�
�C1�
�10� μ� F�
�6.3V�
�nect� SET� to� GND� for� 0.5μs� on-time� to� get� fast� switching�
�and� a� smaller� inductor.� For� applications� up� to� 80%� duty�
�cycle,� it� is� necessary� to� connect� SET� to� V� CC� for� 3.0μs�
�on-time.� For� applications� greater� than� 80%� duty� cycle,�
�CCM� operation� is� not� guaranteed;� see� the� Design�
�Procedure� for� DCM� section.�
�Switching� Frequency�
�A� benefit� of� CCM� is� that� the� switching� frequency�
�remains� high� as� the� load� is� reduced,� whereas� in� DCM�
�the� switching� frequency� varies� directly� with� load.� This� is�
�important� in� applications� where� switching� noise� needs�
�to� stay� above� the� audio� band.� The� medium-� and� heavy-�
�load� switching� frequency� in� CCM� circuits� is� given� by:�
�1� V� +� V� ?� V�
�t� ON� V� OUT� +� V� D�
�Note� that� f� SWITCHING� is� not� a� function� of� load� and�
�varies� primarily� with� input� voltage.� However,� when� the�
�load� is� reduced,� a� CCM� circuit� drops� into� DCM,� and�
�the� frequency� becomes� load� dependent:�
�1�
�t� ON�
��
�V� OUT� D�
�Calculate� the� Peak� Inductor� Current�
�For� CCM,� the� peak� inductor� current� is� given� by:�
�V� +� V�
�V� IN� (� MIN� )�
�L1�
�33� μ� H�
�CDR74B-330�
�OUTPUT�
�130k� ?�
�C3�
�0.1� μ� F�
�6�
�V� CC�
�EXT�
�5�
�D1�
�MBR0530T3�
�Q1� R1�
�FDC633N�
�1%�
�C� FF�
�220pF�
�12V�
�C2�
�33� μ� F�
�TPSD336M020R0200�
�3�
�SET�
�MAX1522�
�MAX1523�
�FB�
�2�
�C� FB�
�OFF�
�ON�
�4�
�SHDN�
�GND�
�1�
�R1�
�220pF� 15.0k� ?�
�1%�
�Figure� 1.� MAX1522/MAX1523� Standard� Operating� Circuit�
�_______________________________________________________________________________________�
�7�
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