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| 型号: | IRU3007CWTR |
| 厂商: | International Rectifier |
| 文件页数: | 11/17页 |
| 文件大小: | 0K |
| 描述: | IC CTRL/REG SYNC BUCK 28-SOIC |
| 标准包装: | 1,000 |
| 应用: | 控制器,Intel Pentium? II |
| 输入电压: | 5V,12V |
| 输出数: | 4 |
| 输出电压: | 1.3 V ~ 3.5 V |
| 工作温度: | 0°C ~ 70°C |
| 安装类型: | 表面贴装 |
| 封装/外壳: | 28-SOIC(0.295",7.50mm 宽) |
| 供应商设备封装: | 28-SOIC W |
| 包装: | 带卷 (TR) |
��
�
�IRU3007�
�APPLICATION� INFORMATION�
�An� example� of� how� to� calculate� the� components� for� the�
�application� circuit� is� given� below.�
�Assuming,� two� set� of� output� conditions� that� this� regula-�
�tor� must� meet� for� Vcore:�
�a)� Vo=2.8V� ,� Io=14.2A,� D� Vo=185mV,� D� Io=14.2A�
�b)� Vo=2V� ,� Io=14.2A,� D� Vo=140mV,� D� Io=14.2A�
�Also,� the� on-board� 3.3V� supply� must� be� able� to� provide�
�10A� load� current� and� maintain� less� than� ±� 5%� total� out-�
�put� voltage� variation.�
�The� regulator� design� will� be� done� such� that� it� meets� the�
�worst� case� requirement� of� each� condition.�
�Output� Capacitor� Selection�
�Vcore�
�The� first� step� is� to� select� the� output� capacitor.� This� is�
�done� primarily� by� selecting� the� maximum� ESR� value�
�that� meets� the� transient� voltage� budget� of� the� total� D� Vo�
�light� load� to� full� load.� For� example,� if� the� total� resistance�
�from� the� output� capacitors� to� the� Slot� 1� and� back� to� the�
�Gnd� pin� of� the� IRU3007� is� 5m� V� and� if� the� total� D� I,� the�
�change� from� light� load� to� full� load� is� 14A,� then� the� output�
�voltage� measured� at� the� top� of� the� resistor� divider� which�
�is� also� connected� to� the� output� capacitors� in� this� case,�
�must� be� set� at� half� of� the� 70mV� or� 35mV� higher� than� the�
�DAC� voltage� setting.� This� intentional� voltage� level� shift-�
�ing� during� the� load� transient� eases� the� requirement� for�
�the� output� capacitor� ESR� at� the� cost� of� load� regulation.�
�One� can� show� that� the� new� ESR� requirement� eases� up�
�by� half� the� total� trace� resistance.� For� example,� if� the�
�ESR� requirement� of� the� output� capacitors� without� volt-�
�age� level� shifting� must� be� 7m� V� then� after� level� shifting�
�the� new� ESR� will� only� need� to� be� 8.5m� V� if� the� trace�
�resistance� is� 5m� V� (7+5/2=9.5).� However,� one� must� be�
�careful� that� the� combined� “voltage� level� shifting”� and� the�
�transient� response� is� still� within� the� maximum� tolerance�
�of� the� Intel� specification.� To� insure� this,� the� maximum�
�trace� resistance� must� be� less� than:�
�specification.� Assuming� that� the� regulators� DC� initial�
�accuracy� plus� the� output� ripple� is� 2%� of� the� output� volt-�
�age,� then� the� maximum� ESR� of� the� output� capacitor� is�
�Rs� [� 2� 3�
�Where� :�
�(Vspec - 0.02� 3� Vo -� D� Vo� )�
�D� I�
�calculated� as:�
�Rs� =� Total� maximum� trace� resistance� allowed�
�ESR� [�
�100�
�14.2�
�=� 7m� V�
�Vspec� =� Intel� total� voltage� spec�
�Vo� =� Output� voltage�
�D� Vo� =� Output� ripple� voltage�
�The� Sanyo� MVGX� series� is� a� good� choice� to� achieve�
�both� the� price� and� performance� goals.� The� 6MV1500GX,�
�1500� m� F,� 6.3V� has� an� ESR� of� less� than� 36m� V� typical.�
�Selecting� 6� of� these� capacitors� in� parallel� has� an� ESR�
�of� ≈� 6m� V� which� achieves� our� low� ESR� goal.�
�Other� type� of� Electrolytic� capacitors� from� other� manu-�
�facturers� to� consider� are� the� Panasonic� FA� series� or� the�
�Nichicon� PL� series.�
�D� I� =� load� current� step�
�For� example,� assuming:�
�Vspec� =� ±� 140mV� =� ±� 0.1V� for� 2V� output�
�Vo� =� 2V�
�D� Vo� =� assume� 10mV� =� 0.01V�
�D� I� =� 14.2A�
�Then� the� Rs� is� calculated� to� be:�
�3.3V supply�
�For� the� 3.3V� supply,� since� there� is� not� a� fast� transient�
�Rs� ≤� 2� 3�
�(0.140 - 0.02� 3� 2 - 0.01)�
�14.2�
�=� 12.6m� V�
�requirement,� 2� of� the� 1500� m� F� capacitors� is� sufficient.�
�Reducing� the� Output� Capacitors� Using� Voltage� Level�
�Shifting� Technique�
�The� trace� resistance� or� an� external� resistor� from� the� output�
�of� the� switching� regulator� to� the� Slot� 1� can� be� used� to�
�the� circuit� advantage� and� possibly� reduce� the� number� of�
�output� capacitors,� by� level� shifting� the� DC� regulation� point�
�when� transitioning� from� light� load� to� full� load� and� vice�
�versa.� To� accomplish� this,� the� output� of� the� regulator� is�
�typically� set� about� half� the� DC� drop� that� results� from�
�However,� if� a� resistor� of� this� value� is� used,� the� maximum�
�power� dissipated� in� the� trace� (or� if� an� external� resistor� is�
�being� used)� must� also� be� considered.� For� example� if�
�Rs=12.6m� V� ,� the� power� dissipated� is:�
�Io� 2� 3� Rs� =� 14.2� 2� 3� 12.6� =� 2.54W�
�This� is� a� lot� of� power� to� be� dissipated� in� a� system.� So,� if�
�the� Rs=5m� V� ,� then� the� power� dissipated� is� about� 1W,�
�which� is� much� more� acceptable.� If� level� shifting� is� not�
�implemented,� then� the� maximum� output� capacitor� ESR�
�was� shown� previously� to� be� 7m� V� which� translated� to� ≈� 6�
�Rev.� 2.1�
�08/20/02�
�www.irf.com�
�11�
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