参数资料
| 型号: | ISL6263CHRZ-T |
| 厂商: | Intersil |
| 文件页数: | 15/18页 |
| 文件大小: | 0K |
| 描述: | IC VOLT REG 1PH 5BIT VID 32-QFN |
| 标准包装: | 6,000 |
| 应用: | 转换器,GPU 内核电源 |
| 输入电压: | 5 V ~ 25 V |
| 输出数: | 1 |
| 输出电压: | 0.41 V ~ 1.29 V |
| 工作温度: | -10°C ~ 100°C |
| 安装类型: | 表面贴装 |
| 封装/外壳: | 32-VFQFN 裸露焊盘 |
| 供应商设备封装: | 32-QFN(5x5) |
| 包装: | 带卷 (TR) |
��
�
�ISL6263C�
�VDD�
�OCP�
�?�
�+�
�10μA�
�↓�
�+�
�I� SENSE�
�?�
�OCSET�
�ISP�
�ISN�
�R� OCSET�
�R� S�
�+�
�ICOMP�
�+�
�?�
�VO�
�V� N�
�-�
�R� P�
�(OPTIONAL)�
�V� RSNS�
�FIGURE� 9.� EQUIVALENT� MODEL� OF� CURRENT� SENSE� USING� DISCRETE� RESISTOR� CURRENT� SENSE�
�0.00393� is� the� temperature� coefficient� of� the� copper.� To�
�make� V� ICOMP� independent� of� the� inductor� temperature,� the�
�NTC� characteristic� is� desired� to� satisfy:�
�sense.� It� is� recommended� to� start� out� using� 100� ?� for� R� S� and�
�47pF� for� C� N� .� Since� the� current� sense� resistance� changes�
�very� little� with� temperature,� the� NTC� network� is� not� needed�
�G� 1� (� T� )� ?� (� 1� +� 0.00393� ?� T� –� (� +25� °� C� )� )� ?� G� 1t� arg� et�
�(EQ.� 16)�
�for� thermal� compensation.� Discrete� resistor� sense� design�
�follows� the� same� approach� as� DCR� sense.� The� voltage� on�
�G� 1� (� T� )� =� -------------------------------------------------------------------------�
�1� +� 0.00393� ?� (� T� –� (� +25� °� C� )� )�
�V� N� =� V� RSNS� ?� ----------------------�
�V� ICOMP� =� V� O� +� V� ?� ?� ?�
�?� R� IS2� ?�
�R� IS1� ?�
�V� ICOMP� (� max� )� –� V� O� =� I� OC� ?� DCR� (� 25� °� C� )� ?� ----------------------------------------------� ?� ?� 1� +� -------------� ?�
�V� ICOMP� (� max� )� –� V� O� =� I� OC� ?� R� SNS� ?� ----------------------� ?� ?� 1� +� -------------� ?� (EQ.� 22)�
�V� ICOMP� (� max� )� –� V� O� =� I� OC� ?� R� SNS� ?� ?� 1� +� -------------� ?�
�R� IS1� ?�
�?�
�where� G� 1target� is� the� desired� ratio� of� V� N� /� V� DCR� .� Therefore,�
�the� temperature� characteristics� G� 1� ,� which� determines�
�parameters� selection,� is� described� by� Equation� 17:�
�G� 1t� arg� et�
�(EQ.� 17)�
�It� is� recommended� to� begin� the� DCR� current� sense� design�
�using� the� R� NTC� ,� R� NTCS� ,� and� R� P� component� values� of� the�
�evaluation� board� available� from� Intersil.�
�Given� the� inductor� DCR� and� the� overcurrent� set� point� I� OC� ,� the�
�maximum� voltage� of� ICOMP� pin� is� determined� by�
�Equation� 18:�
�R� N� (� +25� °� C� )� ?� R� IS2� ?�
�R� N� (� +25� °� C� )� +� R� S� ?� R� IS1� ?�
�(EQ.� 18)�
�R� N� ,� R� S� ,� R� IS1� ,� R� IS2� should� be� adjusted� to� meet� the�
�requirement� (V� ICOMP(max)� -� V� O� )� >� 25mV� and� the� time�
�constant� matching� according� to� Equation� 10.�
�The� effectiveness� of� the� R� N� network� is� sensitive� to� the�
�coupling� coefficient� between� the� NTC� thermistor� and� the�
�inductor.� The� NTC� thermistor� should� be� placed� in� the� closet�
�proximity� of� the� inductor.�
�Resistor� Current� Sense�
�Figure� 3� shows� a� detailed� schematic� using� discrete� resistor�
�sense� of� the� inductor� current.� Figure� 9� shows� the� equivalent�
�circuit.� Since� the� current� sense� resistor� voltage� represents�
�the� actual� inductor� current� information,� R� S� and� C� N� simply�
�provide� noise� filtering.� A� low� ESL� sense� resistor� is� strongly�
�recommended� for� R� SNS� because� this� parameter� is� the� most�
�significant� source� of� noise� that� affects� discrete� resistor�
�15�
�the� current� sense� resistor� is� given� by� Equation� 19:�
�V� RSNS� =� I� O� ?� R� SNS� (EQ.� 19)�
�It� is� optional� to� parallel� a� resistor� R� P� to� form� a� voltage� divider�
�with� R� S� to� obtain� more� flexibility.� Assume� the� voltage� across�
�R� P� is� V� N� ,� which� is� given� by� Equation� 20:�
�R� P�
�R� S� +� R� P� (EQ.� 20)�
�The� current� sense� amplifier� output� voltage� V� ICOMP� is� given�
�by� Equation� 21:�
�1� +� -------------�
�N� ?� (EQ.� 21)�
�Given� an� current� sense� resistor� R� SNS� and� the� overcurrent� set�
�point� I� OC� ,� the� maximum� voltage� of� ICOMP� pin� is� determined�
�by� Equation� 22:�
�R� P� ?� R� IS2� ?�
�R� S� +� R� P� ?� R� IS1� ?�
�If� R� P� is� not� used,� the� maximum� voltage� of� ICOMP� pin� is�
�determined� by� Equation� 23:�
�?� R� IS2� ?�
�(EQ.� 23)�
�R� S� ,� R� P� ,� R� IS1� ,� R� IS2� should� be� adjusted� to� meet� the�
�requirement� (V� ICOMP(max)� -� V� O� )� >� 25mV.�
�The� current� sense� traces� should� be� routed� directly� to� the�
�current� sense� resistor� pads� for� accurate� measurement.�
�However,� due� to� layout� imperfection,� the� calculated� R� IS2�
�may� still� need� slight� adjustment� to� achieve� optimum� load� line�
�slope.� It� is� recommended� to� adjust� R� IS2� after� the� system� has�
�achieved� thermal� equilibrium� at� full� load.�
�FN6745.1�
�July� 8,� 2010�
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