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参数资料
| 型号: | EL7156CNZ |
| 厂商: | Intersil |
| 文件页数: | 8/10页 |
| 文件大小: | 0K |
| 描述: | IC PIN DRIVER 40MHZ 3ST 8-DIP |
| 标准包装: | 50 |
| 配置: | 高端或低端 |
| 输入类型: | 非反相 |
| 延迟时间: | 10ns |
| 电流 - 峰: | 3.5A |
| 配置数: | 1 |
| 输出数: | 1 |
| 电源电压: | 4.5 V ~ 16.5 V |
| 工作温度: | -40°C ~ 85°C |
| 安装类型: | 通孔 |
| 封装/外壳: | 8-DIP(0.300",7.62mm) |
| 供应商设备封装: | 8-PDIP |
| 包装: | 管件 |
��
�
�EL7156�
�PD� =� (� V� S� � I� S� )� +� (� C� VS� � V� S� � f� )� +� [� (� C� INT� +� C� L� )� � V� OUT� � f� ]�
�Applications� Information�
�Product� Description�
�The� EL7156� is� a� high� performance� 40MHz� pin� driver.� It�
�contains� two� analog� switches� connecting� VH� and� VL� to� OUT.�
�Depending� on� the� value� of� the� IN� pin,� one� of� the� two�
�switches� will� be� closed� and� the� other� switch� open.� An� output�
�enable� (OE)� is� also� supplied� which� opens� both� switches�
�simultaneously.�
�Due� to� the� topology� of� the� EL7156,� both� the� VH� and� VL� pins�
�can� be� connected� to� any� voltage� between� the� VS+� and� VS-�
�pins,� but� VH� must� be� greater� than� VL� in� order� to� prevent�
�turning� on� the� body� diode� at� the� output� stage.�
�The� EL7156� is� available� in� both� the� 8� Ld� SOIC� and� the� 8� Ld�
�PDIP� packages.� The� relevant� package� should� be� chosen�
�depending� on� the� calculated� power� dissipation.�
�Power� dissipation� may� be� calculated:�
�2� 2�
�(EQ.� 1)�
�where:�
�V� S� is� the� total� power� supply� to� the� EL7156� (from� V� S� +� to�
�GND)�
�V� OUT� is� the� swing� on� the� output� (V� H� to� V� L� )�
�C� VS� is� the� integral� capacitance� due� to� V� S� +�
�C� INT� is� the� integral� load� capacitance� due� to� V� H�
�I� S� is� the� quiescent� supply� current� (3mA� max)�
�f� is� frequency�
�TABLE� 1.� INTEGRAL� CAPACITANCE�
�Three-state� Operation�
�When� the� OE� pin� is� low,� the� output� is� three-state� (floating).�
�The� output� voltage� is� the� parasitic� capacitance’s� voltage.� It�
�can� be� any� voltage� between� VH� and� VL,� depending� on� the�
�previous� state.� At� three-state,� the� output� voltage� can� be�
�V� S� +� =� V� H� (V)�
�5�
�10�
�15�
�C� VS� (pF)�
�80�
�85�
�90�
�C� INT� (pF)�
�120�
�145�
�180�
�pushed� to� any� voltage� between� VH� and� VL.� The� output�
�voltage� can’t� be� pushed� higher� than� VH� or� lower� than� VL�
�since� the� body� diode� at� the� output� stage� will� turn� on.�
�Supply� Voltage� Range� and� Input� Compatibility�
�Having� obtained� the� application’s� power� dissipation,� a�
�maximum� package� thermal� coefficient� may� be� determined,�
�to� maintain� the� internal� die� temperature� below� T� JMAX� :�
�θ� JA� =� -----------------------------------------�
�The� EL7156� is� designed� for� operation� on� supplies� from� 5V� to�
�15V� (4.5V� to� 16.5V� maximum).� “Operating� Voltage� Range”�
�T� JMAX� –� T� MAX�
�PD�
�(EQ.� 2)�
�on� page� 6� shows� the� specifications� for� the� relationship�
�between� the� VS+,� VS-,� VH,� VL,� and� GND� pins.�
�All� input� pins� are� compatible� with� both� 3V� and� 5V� CMOS�
�signals.� With� a� positive� supply� (V� S� +)� of� 5V,� the� EL7156� is�
�also� compatible� with� TTL� inputs.�
�Power� Supply� Bypassing�
�When� using� the� EL7156,� it� is� very� important� to� use� adequate�
�power� supply� bypassing.� The� high� switching� currents�
�developed� by� the� EL7156� necessitate� the� use� of� a� bypass�
�capacitor� between� the� supplies� (VS+� and� VS-)� and� GND�
�pins.� It� is� recommended� that� a� 2.2μF� tantalum� capacitor� be�
�used� in� parallel� with� a� 0.1μF� low-inductance� ceramic� MLC�
�capacitor.� These� should� be� placed� as� close� to� the� supply�
�pins� as� possible.� It� is� also� recommended� that� the� VH� and� VL�
�pins� have� some� level� of� bypassing,� especially� if� the� EL7156�
�is� driving� highly� capacitive� loads.�
�Power� Dissipation� Calculation�
�When� switching� at� high� speeds,� or� driving� heavy� loads,� the�
�EL7156� drive� capability� is� limited� by� the� rise� in� die�
�temperature� brought� about� by� internal� power� dissipation.� For�
�reliable� operation,� die� temperature� must� be� kept� below�
�T� JMAX� (+125°C).� It� is� necessary� to� calculate� the� power�
�dissipation� for� a� given� application� prior� to� selecting� the�
�package� type.�
�8�
�where:�
�T� JMAX� is� the� maximum� junction� temperature� (+125°C)�
�T� MAX� is� the� maximum� operating� temperature�
�PD� is� the� power� dissipation� calculated� above�
�θ� JA� thermal� resistance� on� junction� to� ambient�
�θ� JA� is� 160°C/W� for� the� SOIC8� package� and� 100°C/W� for� the�
�PDIP8� package� when� using� a� standard� JEDEC� JESD51-3�
�single-layer� test� board.� If� T� JMAX� is� greater� than� +125°C�
�when� calculated� using� Equation� 2,� then� one� of� the� following�
�actions� must� be� taken:�
�Reduce� θ� JA� the� system� by� designing� more� heat-sinking�
�into� the� PCB� (as� compared� to� the� standard� JEDEC�
�JESD51-3).�
�Use� the� PDIP8� instead� of� the� SOIC8� package.�
�De-rate� the� application� either� by� reducing� the� switching�
�frequency,� the� capacitive� load,� or� the� maximum� operating�
�(ambient)� temperature� (T� MAX� ).�
�FN7280.3�
�May� 2,� 2007�
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