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�RM0008�
�Universal� serial� bus� full-speed� device� interface� (USB)�
�second� IN� transaction� addressed� to� the� same� endpoint� immediately� following� the� one� which�
�triggered� the� CTR� interrupt.�
�OUT� and� SETUP� packets� (data� reception)�
�These� two� tokens� are� handled� by� the� USB� peripheral� more� or� less� in� the� same� way;� the�
�differences� in� the� handling� of� SETUP� packets� are� detailed� in� the� following� paragraph� about�
�control� transfers.� When� receiving� an� OUT/SETUP� PID,� if� the� address� matches� a� valid�
�endpoint,� the� USB� peripheral� accesses� the� contents� of� the� ADDRn_RX� and� COUNTn_RX�
�locations� inside� the� buffer� descriptor� table� entry� related� to� the� addressed� endpoint.� The�
�content� of� the� ADDRn_RX� is� stored� directly� in� its� internal� register� ADDR.� While� COUNT� is�
�now� reset� and� the� values� of� BL_SIZE� and� NUM_BLOCK� bit� fields,� which� are� read� within�
�COUNTn_RX� content� are� used� to� initialize� BUF_COUNT,� an� internal� 16� bit� counter,� which� is�
�used� to� check� the� buffer� overrun� condition� (all� these� internal� registers� are� not� accessible� by�
�software).� Data� bytes� subsequently� received� by� the� USB� peripheral� are� packed� in� words�
�(the� first� byte� received� is� stored� as� least� significant� byte)� and� then� transferred� to� the� packet�
�buffer� starting� from� the� address� contained� in� the� internal� ADDR� register� while� BUF_COUNT�
�is� decremented� and� COUNT� is� incremented� at� each� byte� transfer.� When� the� end� of� DATA�
�packet� is� detected,� the� correctness� of� the� received� CRC� is� tested� and� only� if� no� errors�
�occurred� during� the� reception,� an� ACK� handshake� packet� is� sent� back� to� the� transmitting�
�host.� In� case� of� wrong� CRC� or� other� kinds� of� errors� (bit-stuff� violations,� frame� errors,� etc.),�
�data� bytes� are� still� copied� in� the� packet� memory� buffer,� at� least� until� the� error� detection� point,�
�but� ACK� packet� is� not� sent� and� the� ERR� bit� in� USB_ISTR� register� is� set.� However,� there� is�
�usually� no� software� action� required� in� this� case:� the� USB� peripheral� recovers� from� reception�
�errors� and� remains� ready� for� the� next� transaction� to� come.� If� the� addressed� endpoint� is� not�
�valid,� a� NAK� or� STALL� handshake� packet� is� sent� instead� of� the� ACK,� according� to� bits�
�STAT_RX� in� the� USB_EPnR� register� and� no� data� is� written� in� the� reception� memory� buffers.�
�Reception� memory� buffer� locations� are� written� starting� from� the� address� contained� in� the�
�ADDRn_RX� for� a� number� of� bytes� corresponding� to� the� received� data� packet� length,� CRC�
�included� (i.e.� data� payload� length� +� 2),� or� up� to� the� last� allocated� memory� location,� as�
�defined� by� BL_SIZE� and� NUM_BLOCK,� whichever� comes� first.� In� this� way,� the� USB�
�peripheral� never� writes� beyond� the� end� of� the� allocated� reception� memory� buffer� area.� If� the�
�length� of� the� data� packet� payload� (actual� number� of� bytes� used� by� the� application)� is� greater�
�than� the� allocated� buffer,� the� USB� peripheral� detects� a� buffer� overrun� condition.� in� this� case,�
�a� STALL� handshake� is� sent� instead� of� the� usual� ACK� to� notify� the� problem� to� the� host,� no�
�interrupt� is� generated� and� the� transaction� is� considered� failed.�
�When� the� transaction� is� completed� correctly,� by� sending� the� ACK� handshake� packet,� the�
�internal� COUNT� register� is� copied� back� in� the� COUNTn_RX� location� inside� the� buffer�
�description� table� entry,� leaving� unaffected� BL_SIZE� and� NUM_BLOCK� fields,� which�
�normally� do� not� require� to� be� re-written,� and� the� USB_EPnR� register� is� updated� in� the�
�following� way:� DTOG_RX� bit� is� toggled,� the� endpoint� is� made� invalid� by� setting� STAT_RX� =�
�‘10’� (NAK)� and� bit� CTR_RX� is� set.� If� the� transaction� has� failed� due� to� errors� or� buffer� overrun�
�condition,� none� of� the� previously� listed� actions� take� place.� The� application� software� must�
�first� identify� the� endpoint,� which� is� requesting� microcontroller� attention� by� examining� the�
�EP_ID� and� DIR� bits� in� the� USB_ISTR� register.� The� CTR_RX� event� is� serviced� by� first�
�determining� the� transaction� type� (SETUP� bit� in� the� USB_EPnR� register);� the� application�
�software� must� clear� the� interrupt� flag� bit� and� get� the� number� of� received� bytes� reading� the�
�COUNTn_RX� location� inside� the� buffer� description� table� entry� related� to� the� endpoint� being�
�processed.� After� the� received� data� is� processed,� the� application� software� should� set� the�
�STAT_RX� bits� to� ‘11’� (Valid)� in� the� USB_EPnR,� enabling� further� transactions.� While� the�
�STAT_RX� bits� are� equal� to� ‘10’� (NAK),� any� OUT� request� addressed� to� that� endpoint� is�
�NAKed,� indicating� a� flow� control� condition:� the� USB� host� will� retry� the� transaction� until� it�
�Doc� ID� 13902� Rev� 9�
�519/995�
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