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参数资料
| 型号: | NCP1587ADR2G |
| 厂商: | ON Semiconductor |
| 文件页数: | 10/16页 |
| 文件大小: | 0K |
| 描述: | IC REG CTRLR BUCK PWM VM 8-SOIC |
| 标准包装: | 2,500 |
| PWM 型: | 电压模式 |
| 输出数: | 1 |
| 频率 - 最大: | 220kHz |
| 占空比: | 80% |
| 电源电压: | 4.5 V ~ 13.2 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: | 0°C ~ 70°C |
| 封装/外壳: | 8-SOIC(0.154",3.90mm 宽) |
| 包装: | 带卷 (TR) |
��
�
�NCP1587,� NCP1587A�
�P� IC� =� control� IC� power� dissipation,�
�I� CC� =� IC� measured� supply� current,�
�V� CC� =� IC� supply� voltage,�
�P� TG� =� top� gate� driver� losses,�
�P� BG� =� bottom� gate� driver� losses.�
�The� upper� (switching)� MOSFET� gate� driver� losses� are:�
�P� TG� +� Q� TG�
�f� SW�
�V� BST�
�F� co� +� 1� F� sw� +� 55� KHz�
�F� LC� +�
�+� 2.65� KHz�
�F� ESR� +�
�1� F� co�
�t�
�C� O�
�R� ESR�
�F� ESR� +�
�+� 2� KHz�
�(1800� m� F�
�2)�
�2�
�p�
�R� C� +�
�+� 600.6� W�
�+�
�Where:�
�Q� TG� =� total� upper� MOSFET� gate� charge� at� VBST,�
�f� SW� =� the� switching� frequency,�
�V� BST� =� the� BST� pin� voltage.�
�The� lower� (synchronous)� MOSFET� gate� driver� losses� are:�
�P� BG� +� Q� BG� f� SW� V� CC�
�Where:�
�Q� BG� =� total� lower� MOSFET� gate� charge� at� V� CC� .�
�The� junction� temperature� of� the� control� IC� can� then� be�
�calculated� as:�
�T� J� +� T� A� )� P� IC� q� JA�
�Where:�
�T� J� =� the� junction� temperature� of� the� IC,�
�T� A� =� the� ambient� temperature,�
�θ� JA� =� the� junction� ?� to� ?� ambient� thermal� resistance� of� the�
�IC� package.�
�The� package� thermal� resistance� can� be� obtained� from� the�
�specifications� section� of� this� data� sheet� and� a� calculation� can�
�be� made� to� determine� the� IC� junction� temperature.� However,�
�it� should� be� noted� that� the� physical� layout� of� the� board,� the�
�proximity� of� other� heat� sources� such� as� MOSFETs� and�
�inductors,� and� the� amount� of� metal� connected� to� the� IC,�
�impact� the� temperature� of� the� device.� Use� these� calculations�
�as� a� guide,� but� measurements� should� be� taken� in� the� actual�
�application.�
�Layout� Considerations�
�As� in� any� high� frequency� switching� converter,� layout� is�
�very� important.� Switching� current� from� one� power� device� to�
�another� can� generate� voltage� transients� across� the�
�impedances� of� the� interconnecting� bond� wires� and� circuit�
�traces.� These� interconnecting� impedances� should� be�
�minimized� by� using� wide,� short� printed� circuit� traces.� The�
�critical� components� should� be� located� as� close� together� as�
�possible� using� ground� plane� construction� or� single� point�
�grounding.� The� figure� below� shows� the� critical� power�
�components� of� the� converter.� To� minimize� the� voltage�
�overshoot� the� interconnecting� wires� indicated� by� heavy� lines�
�should� be� part� of� ground� or� power� plane� in� a� printed� circuit�
�board.� The� components� shown� in� the� figure� below� should� be�
�Figure� 12.� Components� to� be� Considered� for�
�Layout� Specifications�
�DESIGN� EXAMPLE� I:� Type� II� Compensation�
�(Electrolytic� Cap.� with� large� ESR)�
�Switching� Frequency� F� SW� =� 275� KHz�
�Output� Capacitance� R� ESR� =� 45� m� W� /Each�
�Output� Capacitance� C� out� =� 2� � 1800� m� F�
�Output� Inductance� L� out� =� 1� m� H�
�Input� Voltage� V� in� =� 12� V�
�Output� Voltage� V� out� =� 1.6� V�
�Choose the loop gain crossover frequency;�
�5�
�The corner frequency of the output filter is calculated below;�
�1�
�2� p� 1� m� H� 3600� m� F�
�Check that the ESR zero frequency is not too high;�
�2� p� 10�
�1�
�45 m� W�
�2�
�If� ESR� zero� is� larger� than� F� co� /10,� Type� III� compensation�
�is� necessary.�
�Choose� C� C� for the crossover frequency and the soft start�
�C� C� +� 100� nF�
�The� compensation� capacitor� (C� C� )� is� related� to� the� loop�
�gain� magnitude,� zero� position� and� the� soft� start.� By� adjusting�
�the� value� of� this� compensation� capacitor,� the� crossover�
�frequency� and� the� soft� start� time� can� be� adjusted.�
�Zero of the compensation network is calculated as follows;�
�F� Z� +� F� LC� +� 2.65� KHz�
�1�
�2� p� F� z� C� C�
�1�
�2� p� 2.65� kHz� 100� nF�
�Pole of the compensation network is calculated as follows;�
�C� p� +�
�+�
�located� as� close� together� as� possible.� Please� note� that� the�
�capacitors� C� IN� and� C� OUT� each� represent� numerous� physical�
�capacitors.� It� is� desirable� to� locate� the� NCP1587� within� 1�
�inch� of� the� MOSFETs,� Q1� and� Q2.� The� circuit� traces� for� the�
�MOSFETs’� gate� and� source� connections� from� the� NCP1587�
�F� p� +� F� sw� +� 275� KHz�
�1�
�2� p� F� p� R� C�
�1�
�2� p� 275� kHz�
�600.6�
�+� 963.6� pF�
�must� be� sized� to� handle� up� to� 2� A� peak� current.�
�The� recommended� compensation� values� are;� R� C� =� 604,�
�C� C� =� 100� nF,� C� P� =� 1000� pF�
�http://onsemi.com�
�10�
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