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��Data� Sheet�
�APPLICATIONS� INFORMATION�
�FUNCTIONAL� DESCRIPTION�
�USB� isolation� in� the� D+/D?� lines� is� challenging� for� several�
�reasons.� First,� access� to� the� output� enable� signals� is� normally�
�required� to� control� the� transceiver.� Some� level� of� intelligence�
�ADuM3160�
�PRODUCT� USAGE�
�The� ADuM3160� is� designed� to� be� integrated� into� a� USB�
�peripheral� with� an� upstream-facing� USB� port,� as� shown� in�
�Figure� 4.� The� key� design� points� are� as� follows:�
�must� be� built� into� the� isolator� to� interpret� the� data� stream� and�
�determine� when� to� enable� and� disable� its� upstream� and� down-�
�stream� output� buffers.� Second,� the� signal� must� be� faithfully�
�reconstructed� on� the� output� side� of� the� coupler� while� retaining�
�precise� timing� and� not� passing� transient� states� such� as� invalid�
�SE0� and� SE1� states.� In� addition,� the� part� must� meet� the� low�
�power� requirements� of� the� suspend� mode.�
�The� i� Coupler� technology� is� based� on� edge� detection� and,� therefore,�
�lends� itself� well� to� the� USB� application.� The� flow� of� data� through�
�the� device� is� accomplished� by� monitoring� the� inputs� for� activity�
�and� setting� the� direction� for� data� transfer� based� on� a� transition�
�from� the� idle� state.� After� data� directionality� is� established,� data�
�is� transferred� until� either� an� end� of� packet� (EOP)� or� a� sufficiently�
�long� idle� state� is� encountered.� At� this� point,� the� coupler� disables�
�its� output� buffers� and� monitors� its� inputs� for� the� next� activity.�
�During� the� data� transfers,� the� input� side� of� the� coupler� holds� its�
�output� buffers� disabled.� The� output� side� enables� its� output� buffers�
�and� disables� edge� detection� from� the� input� buffers.� This� allows�
�the� data� to� flow� in� one� direction� without� wrapping� back� through�
�the� coupler,� causing� the� i� Coupler� to� latch.� Timing� is� based� on� the�
�differential� input� signal� transition.� Logic� is� included� to� eliminate�
�?�
�?�
�?�
�?�
�?�
�?�
�The� USB� host� provides� power� for� the� upstream� side� of� the�
�ADuM3160� through� the� cable.�
�The� peripheral� supply� provides� power� to� the� downstream�
�side� of� the� ADuM3160� .�
�The� DD+/DD?� lines� of� the� isolator� interface� with� the�
�peripheral� controller,� and� the� UD+/UD?� lines� of� the�
�isolator� connect� to� the� cable� or� host.�
�Peripheral� devices� have� a� fixed� data� rate� that� is� set� at� design�
�time.� The� ADuM3160� has� configuration� pins,� SPU� and�
�SPD,� that� are� set� by� the� user� to� match� this� speed� on� the�
�upstream� and� downstream� sides� of� the� coupler.�
�USB� enumeration� begins� when� either� the� D+� or� D?� line� is�
�pulled� high� at� the� peripheral� end� of� the� USB� cable.� Control�
�of� the� timing� of� this� event� is� provided� by� the� PIN� input� on�
�the� downstream� side� of� the� coupler.�
�Pull-up� and� pull-down� resistors� are� implemented� inside�
�the� coupler.� Only� external� series� resistors� and� bypass�
�capacitors� are� required� for� operation.�
�PERIPHERAL�
�3.3V�
�any� artifacts� due� to� different� input� thresholds� of� the� differential�
�and� single-ended� buffers.� The� input� state� is� transferred� across�
�the� isolation� barrier� as� one� of� three� valid� states,� J,� K,� or� SE0.� The�
�signal� is� reconstructed� at� the� output� side� with� a� fixed� time� delay�
�USB�
�HOST�
�V� BUS�
�D+�
�D–�
�GND� BUS�
�ADuM3160�
�D+�
�D–�
�MICRO-�
�CONTROLLER�
�POWER�
�SUPPLY�
�from� the� input� side� differential� input.�
�The� i� Coupler� does� not� have� a� special� suspend� mode,� nor� does� it�
�need� one� because� its� power� supply� current� is� below� the� suspend�
�current� limit� of� 2.5� mA� when� the� USB� bus� is� idle.�
�The� ADuM3160� is� designed� to� interface� with� an� upstream-facing�
�low/full� speed� USB� port� by� isolating� the� D+/D?� lines.� An� upstream-�
�facing� port� supports� only� one� speed� of� operation;� therefore,� the�
�speed-related� parameters,� J/K� logic� levels,� and� D+/D?� slew� rate� are�
�set� to� match� the� speed� of� the� upstream-facing� peripheral� port�
�(see� Table� 10).�
�A� control� line� on� the� downstream� side� of� the� ADuM3160�
�activates� the� idle� state� pull-up� resistor.� This� allows� the� downstream�
�port� to� control� when� the� upstream� port� attaches� to� the� USB� bus.�
�The� PIN� input� can� be� tied� to� a� 3.3� V� control� logic� signal� or� to� the�
�V� DD2� rail� depending� on� whether� enumeration� must� be� controlled�
�or� will� occur� when� power� is� first� applied.�
�Figure� 4.� Typical� ADuM3160� Application�
�Other� than� the� delayed� application� of� pull-up� resistors,� the�
�ADuM3160� is� transparent� to� USB� traffic,� and� no� modifications�
�to� the� peripheral� design� are� required� to� provide� isolation.� The�
�isolator� adds� propagation� delay� to� the� signals� comparable� to� a�
�hub� and� cable.� Isolated� peripherals� must� be� treated� as� if� there�
�were� a� built-in� hub� when� determining� the� maximum� number�
�of� hubs� in� a� data� chain.�
�Hubs� can� be� isolated� like� any� other� peripheral.� Isolated� hubs� can� be�
�created� by� placing� an� ADuM3160� on� the� upstream� port� of� a� hub�
�chip.� This� configuration� can� be� made� compliant� if� counted� as� two�
�hub� delays.� The� hub� chip� allows� the� ADuM3160� to� operate� at� full�
�speed� yet� maintain� compatibility� with� low� speed� devices.�
�Rev.� C� |� Page� 9� of� 16�
�发布紧急采购,3分钟左右您将得到回复。
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