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| 型号: | ADUM1301CRWZ |
| 厂商: | Analog Devices Inc |
| 文件页数: | 25/32页 |
| 文件大小: | 0K |
| 描述: | IC DIGITAL ISOLATOR 3CH 16-SOIC |
| 其它图纸: | ADUMx301 Series Diagram |
| 标准包装: | 47 |
| 系列: | iCoupler® |
| 输入 - 1 侧/2 侧: | 2/1 |
| 通道数: | 3 |
| 电源电压: | 2.7 V ~ 5.5 V |
| 电压 - 隔离: | 2500Vrms |
| 数据速率: | 120Mbps |
| 传输延迟: | 27ns |
| 输出类型: | 逻辑 |
| 封装/外壳: | 16-SOIC(0.295",7.50mm 宽) |
| 供应商设备封装: | 16-SOIC W |
| 包装: | 管件 |
| 工作温度: | -40°C ~ 105°C |
| 产品目录页面: | 2766 (CN2011-ZH PDF) |
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��Data� Sheet�
�APPLICATIONS� INFORMATION�
�PC� BOARD� LAYOUT�
�The� ADuM130x� digital� isolator� requires� no� external� interface�
�circuitry� for� the� logic� interfaces.� Power� supply� bypassing� is�
�strongly� recommended� at� the� input� and� output� supply� pins� (see�
�Figure� 14).� Bypass� capacitors� are� most� conveniently� connected�
�between� Pin� 1� and� Pin� 2� for� V� DD1� and� between� Pin� 15� and�
�Pin� 16� for� V� DD2� .� The� capacitor� value� should� be� between� 0.01� μF�
�and� 0.1� μF.� The� total� lead� length� between� both� ends� of� the�
�capacitor� and� the� input� power� supply� pin� should� not� exceed�
�20� mm.� Bypassing� between� Pin� 1� and� Pin� 8� and� between� Pin� 9�
�and� Pin� 16� should� also� be� considered� unless� the� ground� pair� on�
�each� package� side� is� connected� close� to� the� package.�
�ADuM1300/ADuM1301�
�DC� CORRECTNESS� AND� MAGNETIC� FIELD� IMMUNITY�
�Positive� and� negative� logic� transitions� at� the� isolator� input�
�cause� narrow� (~1� ns)� pulses� to� be� sent� to� the� decoder� via� the�
�transformer.� The� decoder� is� bistable� and� is� therefore� either� set�
�or� reset� by� the� pulses,� indicating� input� logic� transitions.� In� the�
�absence� of� logic� transitions� at� the� input� for� more� than� ~1� μs,� a�
�periodic� set� of� refresh� pulses� indicative� of� the� correct� input� state�
�are� sent� to� ensure� dc� correctness� at� the� output.� If� the� decoder�
�receives� no� internal� pulses� for� more� than� about� 5� μs,� the� input�
�side� is� assumed� to� be� unpowered� or� nonfunctional,� in� which�
�case� the� isolator� output� is� forced� to� a� default� state� (see� Table� 15)�
�by� the� watchdog� timer� circuit.�
�V� DD1�
�GND� 1�
�V� IA�
�V� IB�
�V� IC/� V� OC�
�NC�
�NC/V� E1�
�GND� 1�
�V� DD2�
�GND� 2�
�V� OA�
�V� OB�
�V� OC/� V� IC�
�NC�
�V� E2�
�GND� 2�
�The� ADuM130x� is� extremely� immune� to� external� magnetic�
�fields.� The� limitation� on� the� magnetic� field� immunity� of� the�
�ADuM130x� is� set� by� the� condition� in� which� induced� voltage� in�
�the� receiving� coil� of� the� transformer� is� sufficiently� large� enough�
�to� either� falsely� set� or� reset� the� decoder.� The� following� analysis�
�defines� the� conditions� under� which� this� may� occur.� The� 3� V�
�Figure� 14.� Recommended� Printed� Circuit� Board� Layout�
�In� applications� involving� high� common-mode� transients,�
�care� should� be� taken� to� ensure� that� board� coupling� across� the�
�isolation� barrier� is� minimized.� Furthermore,� the� board� layout�
�should� be� designed� such� that� any� coupling� that� does� occur�
�equally� affects� all� pins� on� a� given� component� side.� Failure� to�
�ensure� this� could� cause� voltage� differentials� between� pins�
�exceeding� the� absolute� maximum� ratings� of� the� device,�
�thereby� leading� to� latch-up� or� permanent� damage.�
�See� the� AN-1109� Application� Note� for� board� layout� guidelines.�
�PROPAGATION� DELAY-RELATED� PARAMETERS�
�Propagation� delay� is� a� parameter� that� describes� the� time� it� takes�
�a� logic� signal� to� propagate� through� a� component.� The� propagation�
�delay� to� a� logic� low� output� may� differ� from� the� propagation�
�delay� to� a� logic� high� output.�
�operating� condition� of� the� ADuM130x� is� examined� because� it�
�represents� the� most� susceptible� mode� of� operation.�
�The� pulses� at� the� transformer� output� have� an� amplitude� greater�
�than� 1.0� V.� The� decoder� has� a� sensing� threshold� at� about� 0.5� V,�
�thus� establishing� a� 0.5� V� margin� in� which� induced� voltages� can� be�
�tolerated.� The� voltage� induced� across� the� receiving� coil� is� given� by�
�V� =� (� ?dβ/dt� )∑∏� r� n2� ;� n� =� 1,� 2,� …� ,� N�
�where:�
�β� is� magnetic� flux� density� (gauss).�
�N� is� the� number� of� turns� in� the� receiving� coil.�
�r� n� is� the� radius� of� the� n� th� turn� in� the� receiving� coil� (cm).�
�Given� the� geometry� of� the� receiving� coil� in� the� ADuM130x� and�
�an� imposed� requirement� that� the� induced� voltage� be� 50%� at�
�most� of� the� 0.5� V� margin� at� the� decoder,� a� maximum� allowable�
�magnetic� field� is� calculated� as� shown� in� Figure� 16.�
�INPUT� (V� Ix� )�
�OUTPUT� (V� Ox� )�
�t� PLH�
�t� PHL�
�50%�
�50%�
�100�
�10�
�Figure� 15.� Propagation� Delay� Parameters�
�Pulse� width� distortion� is� the� maximum� difference� between�
�these� two� propagation� delay� values� and� is� an� indication� of�
�how� accurately� the� timing� of� the� input� signal� is� preserved.�
�Channel-to-channel� matching� refers� to� the� maximum� amount�
�that� the� propagation� delay� differs� between� channels� within� a�
�single� ADuM130x� component.�
�1�
�0.1�
�0.01�
�0.001�
�Propagation� delay� skew� refers� to� the� maximum� amount� that�
�1k�
�10k� 100k� 1M� 10M�
�MAGNETIC� FIELD� FREQUENCY� (Hz)�
�100M�
�the� propagation� delay� differs� between� multiple� ADuM130x�
�components� operating� under� the� same� conditions.�
�Rev.� I� |� Page� 25� of� 32�
�Figure� 16.� Maximum� Allowable� External� Magnetic� Flux� Density�
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