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参数资料
| 型号: | ISL6622IRZ |
| 厂商: | Intersil |
| 文件页数: | 8/12页 |
| 文件大小: | 0K |
| 描述: | IC MOSFET DRVR SYNC BUCK 10-DFN |
| 标准包装: | 100 |
| 配置: | 高端和低端,同步 |
| 输入类型: | PWM |
| 延迟时间: | 20ns |
| 电流 - 峰: | 1.25A |
| 配置数: | 1 |
| 输出数: | 2 |
| 高端电压 - 最大(自引导启动): | 36V |
| 电源电压: | 6.8 V ~ 13.2 V |
| 工作温度: | -40°C ~ 85°C |
| 安装类型: | 表面贴装 |
| 封装/外壳: | 10-VFDFN 裸露焊盘 |
| 供应商设备封装: | 10-DFN(3x3) |
| 包装: | 管件 |
��
�
�ISL6622�
�Pre-POR� Overvoltage� Protection�
�While� VCC� is� below� its� POR� level,� the� upper� gate� is� held� low�
�and� LGATE� is� connected� to� the� PHASE� pin� via� an� internal�
�10k� Ω� (typically)� resistor.� By� connecting� the� PHASE� node� to�
�the� gate� of� the� low� side� MOSFET,� the� driver� offers� some�
�passive� protection� to� the� load� if� the� upper� MOSFET(s)� is� or�
�becomes� shorted.� If� the� PHASE� node� goes� higher� than� the�
�gate� threshold� of� the� lower� MOSFET,� it� results� in� the�
�progressive� turn-on� of� the� device� and� the� effective� clamping�
�of� the� PHASE� node’s� rise.� The� actual� PHASE� node� clamping�
�.�
�1.6�
�1.4�
�1.2�
�1.0�
�0.8�
�0.6�
�level� depends� on� the� lower� MOSFET’s� electrical�
�characteristics,� as� well� as� the� characteristics� of� the� input�
�supply� and� the� path� connecting� it� to� the� respective� PHASE�
�node.�
�0.4�
�0.2�
�20nC�
�Q� UGATE� = 100nC�
�50nC�
�Internal� Bootstrap� Device�
�0.0�
�0.0�
�0.1�
�0.2�
�0.3�
�0.4�
�0.5�
�0.6�
�0.7�
�0.8�
�0.9�
�1.0�
�The� ISL6622� features� an� internal� bootstrap� Schottky� diode.�
�Simply� adding� an� external� capacitor� across� the� BOOT� and�
�PHASE� pins� completes� the� bootstrap� circuit.� The� bootstrap�
�function� is� also� designed� to� prevent� the� bootstrap� capacitor�
�from� overcharging� due� to� the� large� negative� swing� at� the�
�trailing-edge� of� the� PHASE� node.� This� reduces� the� voltage�
�stress� on� the� BOOT� to� PHASE� pins.�
�The� bootstrap� capacitor� must� have� a� maximum� voltage�
�rating� well� above� the� maximum� voltage� intended� for� UVCC.�
�Its� minimum� capacitance� value� can� be� estimated� from�
�Equation� 1:�
�Δ� V� BOOT_CAP� (V)�
�FIGURE� 5.� BOOTSTRAP� CAPACITANCE� vs� BOOT� RIPPLE�
�VOLTAGE�
�Power� Dissipation�
�Package� power� dissipation� is� mainly� a� function� of� the�
�switching� frequency� (F� SW� ),� the� output� drive� impedance,� the�
�layout� resistance,� and� the� selected� MOSFET’s� internal� gate�
�resistance� and� total� gate� charge� (Q� G� ).� Calculating� the� power�
�dissipation� in� the� driver� for� a� desired� application� is� critical� to�
�ensure� safe� operation.� Exceeding� the� maximum� allowable�
�power� dissipation� level� may� push� the� IC� beyond� the� maximum�
�C� BOOT_CAP� ≥� --------------------------------------�
�Q� UGATE� =� ------------------------------------� ?� N� Q1�
�Q� UGATE�
�Δ� V� BOOT_CAP�
�Q� G1� ?� UVCC�
�V� GS1�
�(EQ.� 1)�
�recommended� operating� junction� temperature.� The� DFN�
�package� is� more� suitable� for� high� frequency� applications.� See�
�“� Layout� Considerations� ”� on� page� 9� for� thermal� impedance�
�improvement� suggestions.� The� total� gate� drive� power� losses�
�due� to� the� gate� charge� of� MOSFETs� and� the� driver’s� internal�
�circuitry� and� their� corresponding� average� driver� current� can�
�be� estimated� using� Equations� 2� and� 3,� respectively:�
�P� Qg_Q1� =� ---------------------------------------� ?� F� SW� ?� N� Q1�
�where� Q� G1� is� the� amount� of� gate� charge� per� upper� MOSFET�
�at� V� GS1� gate-source� voltage� and� N� Q1� is� the� number� of�
�control� MOSFETs.� The� Δ� V� BOOT_CAP� term� is� defined� as� the�
�allowable� droop� in� the� rail� of� the� upper� gate� drive.� Select�
�results� are� exemplified� in� Figure� 5.�
�P� Qg_TOT� =� P� Qg_Q1� +� P� Qg_Q2� +� I� Q� ?� VCC�
�Q� G1� ?� UVCC� 2�
�V� GS1�
�(EQ.� 2)�
�P� Qg_Q2� =� --------------------------------------� ?� F� SW� ?� N� Q2�
�?� Q� G1� ?� UVCC� ?� N� Q1� Q� G2� ?� LVCC� ?� N� Q2� ?�
�I� DR� =� ?� ?� ?� F� SW� +� I� Q�
�Q� G2� ?� LVCC� 2�
�V� GS2�
�------------------------------------------------------� +� -----------------------------------------------------�
�?� V� GS1� V� GS2� ?�
�(EQ.� 3)�
�where� the� gate� charge� (Q� G1� and� Q� G2� )� is� defined� at� a�
�particular� gate� to� source� voltage� (V� GS1� and� V� GS2� )� in� the�
�corresponding� MOSFET� datasheet;� I� Q� is� the� driver� ’s� total�
�quiescent� current� with� no� load� at� both� drive� outputs;� N� Q1�
�and� N� Q2� are� number� of� upper� and� lower� MOSFETs,�
�respectively;� UVCC� and� LVCC� are� the� drive� voltages� for�
�both� upper� and� lower� FETs,� respectively.� The� I� Q*� VCC�
�product� is� the� quiescent� power� of� the� driver� without� a� load.�
�8�
�FN6470.2�
�October� 30,� 2008�
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