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参数资料
| 型号: | ISL6142CB-T |
| 厂商: | Intersil |
| 文件页数: | 4/23页 |
| 文件大小: | 0K |
| 描述: | IC CONTROLLER HOT PLUG 14-SOIC |
| 标准包装: | 2,500 |
| 类型: | 热交换控制器 |
| 应用: | 通用型 VoIP |
| 内部开关: | 无 |
| 电源电压: | 36 V ~ 72 V |
| 工作温度: | 0°C ~ 70°C |
| 安装类型: | 表面贴装 |
| 封装/外壳: | 14-SOIC(0.154",3.90mm 宽) |
| 供应商设备封装: | 14-SOICN |
| 包装: | 带卷 (TR) |
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�ISL6142,� ISL6152�
�Pin� Descriptions�
�PWRGD� (ISL6142;� L� Version)� Pin� 1� -� This� digital� output� is�
�an� open-drain� pull-down� device� and� can� be� used� to� directly�
�enable� an� external� module.� During� start-up� the� DRAIN� and�
�GATE� voltages� are� monitored� with� two� separate� comparators.�
�The� first� comparator� looks� at� the� DRAIN� pin� voltage� compared�
�to� the� internal� V� PG� reference� (1.3V);� this� measures� the�
�voltage� drop� across� the� external� FET� and� sense� resistor.�
�When� the� DRAIN� to� V� EE� voltage� drop� is� less� than� 1.3V,� the�
�first� of� two� conditions� required� for� the� power� to� be� considered�
�good� are� met.� In� addition,� the� GATE� voltage� monitored� by� the�
�second� comparator� must� be� within� approximately� 2.5V� of� its�
�normal� operating� voltage� (13.6V).� When� both� criteria� are� met�
�the� PWRGD� output� will� transition� low� and� be� latched� in� the�
�active� state,� enabling� the� external� module.� When� this� occurs�
�the� two� comparators� discussed� above� no� longer� control� the�
�output.� However� a� third� comparator� continues� to� monitor� the�
�DRAIN� voltage,� and� will� drive� the� PWRGD� output� inactive� if�
�the� DRAIN� voltage� raises� more� than� 8V� above� V� EE� .� In�
�addition,� any� of� the� signals� that� shut� off� the� GATE�
�(Over-Voltage,� Under-Voltage,� Under-Voltage� Lock-Out,�
�Over-Current� time-out,� pulling� the� DIS� pin high,� or� powering�
�down)� will� reset� the� latch� and� drive� the� PWRGD� output� high� to�
�disable� the� module.� In� this� case,� the� output� pull-down� device�
�shuts� off,� and� the� pin� becomes� high� impedance.� Typically� an�
�external� pull-up� of� some� kind� is� used� to� pull� the� pin� high�
�(many� brick� regulators� have� a� pull-up� function� built� in).�
�PWRGD� (ISL6152;� H� Version)� Pin� 1� -� This� digital� output� is�
�used� to� provide� an� active� high� signal� to� enable� an� external�
�module.� The� Power� Good� comparators� are� the� same� as�
�described� above,� but� the� active� state� of� the� output� is�
�reversed� (reference� Figure� 37).�
�When� power� is� considered� good� (both� DRAIN� and� GATE� are�
�normal)� the� output� is� latched� in� the� active� high� state,� the�
�DMOS� device� (Q3)� turns� on� and� sinks� current� to� V� EE� through�
�a� 6.2k� ?� resistor.� The� base� of� Q2� is� clamped� to� V� EE� to� turn� it�
�off.� If� the� external� pull-up� current� is� high� enough� (>1mA,� for�
�example),� the� voltage� drop� across� the� resistor� will� be� large�
�enough� to� produce� a� logic� high� output� and� enable� the� external�
�module� (in� this� example,� 1mA� x� 6.2k� ?� =� 6.2V).�
�Note� that� for� all� H� versions,� although� this� is� a� digital� pin�
�functionally,� the� logic� high� level� is� determined� by� the� external�
�pull-up� device,� and� the� power� supply� to� which� it� is�
�connected;� the� IC� will� not� clamp� it� below� the� V� DD� voltage.�
�Therefore,� if� the� external� device� does� not� have� its� own�
�clamp,� or� if� it� would� be� damaged� by� a� high� voltage,� an�
�external� clamp� might� be� necessary.�
�If� the� power� good� latch� is� reset� (GATE� turns� off),� the� internal�
�DMOS� device� (Q3)� is� turned� off,� and� Q2� (NPN)� turns� on� to�
�clamp� the� output� one� diode� drop� above� the� DRAIN� voltage�
�to� produce� a� logic� low,� indicating� power� is� no� longer� good.�
�4�
�FAULT� Pin� 2� -� This� digital� output� is� an� open-drain,� pull-down�
�device,� referenced� to� V� EE� .� It� is� pulled� active� low� whenever�
�the� Over-Current� latch� is� set.� It� goes� to� a� high� impedance�
�state� when� the� fault� latch� is� reset� by� toggling� the� UV� or� DIS�
�pins.� An� external� pull-up� resistor� to� a� logic� supply� (5V� or�
�less)� is� required;� the� fault� outputs� of� multiple� IC’s� can� be�
�wire-OR’d� together.� If� the� pin� is� not� used� it� should� be� left�
�open.�
�DIS� Pin� 3� -� This� digital� input� disables� the� FET� when� driven� to�
�a� logic� high� state.� It� has� a� weak� internal� pull-up� device� to� an�
�internal� 5V� rail� (10� μ� A),� so� an� open� pin� will� also� act� as� a� logic�
�high.� The� input� has� a� nominal� trip� point� of� 1.6V� while� rising,�
�and� a� hysteresis� of� 1.0V.� The� threshold� voltage� is� referenced�
�to� V� EE� ,� and� is� compatible� with� CMOS� logic� levels.� A� logic�
�low� will� allow� the� GATE� to� turn� on� (assuming� the� 4� other�
�conditions� described� in� the� GATE� section� are� also� true).� The�
�DIS� pin� can� also� be� used� to� reset� the� Over-Current� latch�
�when� toggled� high� to� low.� If� not� used� the� pin� should� be� tied�
�to� the� negative� supply� rail� (-V� IN� ).�
�OV� (Over-Voltage)� Pin� 4� -� This� analog� input� compares� the�
�voltage� on� the� pin� to� an� internal� voltage� reference� of� 1.255V�
�(nominal).� When� the� input� goes� above� the� reference� the�
�GATE� pin� is� immediately� pulled� low� to� shut� off� the� external�
�FET.� The� built� in� 25mV� hysteresis� will� keep� the� GATE� off�
�until� the� OV� pin� drops� below� 1.230V� (the� nominal� high� to� low�
�threshold).� A� typical� application� will� use� an� external� resistor�
�divider� from� V� DD� to� -V� IN� to� set� the� OV� trip� level.� A�
�three-resistor� divider� can� be� used� to� set� both� OV� and� UV� trip�
�points� to� reduce� component� count.�
�UV� (Under-Voltage)� Pin� 5� -� This� analog� input� compares� the�
�voltage� on� the� pin� to� an� internal� comparator� with� a� built� in�
�hysteresis� of� 135mV.� When� the� UV� input� goes� below� the�
�nominal� reference� voltage� of� 1.120V,� the� GATE� pin� is�
�immediately� pulled� low� to� shut� off� the� external� FET.� The�
�GATE� will� remain� off� until� the� UV� pin� rises� above� a� 1.255V�
�low� to� high� threshold.� A� typical� application� will� use� an�
�external� resistor� divider� from� V� DD� to� -V� IN� to� set� the� UV� level�
�as� desired.� A� three-resistor� divider� can� be� used� to� set� both�
�OV� and� UV� trip� points� to� reduce� component� count.�
�The� UV� pin� is� also� used� to� reset� the� Over-Current� latch.� The�
�pin� must� be� cycled� below� 1.120V� (nominal)� and� then� above�
�1.255V� (nominal)� to� clear� the� latch� and� initiate� a� normal�
�start-up� sequence.�
�IS-� Pin� 6� -� This� analog� pin� is� the� negative� input� of� the� current�
�sense� circuit.� A� sensing� resistor� (R7)� is� connected� between�
�this� pin� and� the� V� EE� side� of� resistor� R1.� The� ratio� of� R1/R7�
�defines� the� I� SENSE� to� IS� OUT� current� scaling� factor.� If� current�
�sensing� is� not� used� in� the� application,� the� IS-� pin� should� be�
�tied� directly� to� the� IS+� pin� and� the� node� should� be� left�
�floating.�
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