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�
�Advanced-control� timers� (TIM1&TIM8)�
�RM0008�
�must� insert� a� delay� (dummy� instruction)� before� reading� it� correctly.� This� is� because� you� write�
�the� asynchronous� signal� and� read� the� synchronous� signal.�
�When� a� break� occurs� (selected� level� on� the� break� input):�
�●�
�●�
�●�
�The� MOE� bit� is� cleared� asynchronously,� putting� the� outputs� in� inactive� state,� idle� state�
�or� in� reset� state� (selected� by� the� OSSI� bit).� This� feature� functions� even� if� the� MCU�
�oscillator� is� off.�
�Each� output� channel� is� driven� with� the� level� programmed� in� the� OISx� bit� in� the�
�TIMx_CR2� register� as� soon� as� MOE=0.� If� OSSI=0� then� the� timer� releases� the� enable�
�output� else� the� enable� output� remains� high.�
�When� complementary� outputs� are� used:�
�–�
�–�
�–�
�The� outputs� are� first� put� in� reset� state� inactive� state� (depending� on� the� polarity).�
�This� is� done� asynchronously� so� that� it� works� even� if� no� clock� is� provided� to� the�
�timer.�
�If� the� timer� clock� is� still� present,� then� the� dead-time� generator� is� reactivated� in�
�order� to� drive� the� outputs� with� the� level� programmed� in� the� OISx� and� OISxN� bits�
�after� a� dead-time.� Even� in� this� case,� OCx� and� OCxN� cannot� be� driven� to� their�
�active� level� together.� Note� that� because� of� the� resynchronization� on� MOE,� the�
�dead-time� duration� is� a� bit� longer� than� usual� (around� 2� ck_tim� clock� cycles).�
�If� OSSI=0� then� the� timer� releases� the� enable� outputs� else� the� enable� outputs�
�remain� or� become� high� as� soon� as� one� of� the� CCxE� or� CCxNE� bits� is� high.�
�●�
�●�
�The� break� status� flag� (BIF� bit� in� the� TIMx_SR� register)� is� set.� An� interrupt� can� be�
�generated� if� the� BIE� bit� in� the� TIMx_DIER� register� is� set.� A� DMA� request� can� be� sent� if�
�the� BDE� bit� in� the� TIMx_DIER� register� is� set.�
�If� the� AOE� bit� in� the� TIMx_BDTR� register� is� set,� the� MOE� bit� is� automatically� set� again�
�at� the� next� update� event� UEV.� This� can� be� used� to� perform� a� regulation,� for� instance.�
�Else,� MOE� remains� low� until� you� write� it� to� ‘1’� again.� In� this� case,� it� can� be� used� for�
�security� and� you� can� connect� the� break� input� to� an� alarm� from� power� drivers,� thermal�
�sensors� or� any� security� components.�
�Note:�
�280/995�
�The� break� inputs� is� acting� on� level.� Thus,� the� MOE� cannot� be� set� while� the� break� input� is�
�active� (neither� automatically� nor� by� software).� In� the� meantime,� the� status� flag� BIF� cannot� be�
�cleared.�
�The� break� can� be� generated� by� the� BRK� input� which� has� a� programmable� polarity� and� an�
�enable� bit� BKE� in� the� TIMx_BDTR� Register.�
�In� addition� to� the� break� input� and� the� output� management,� a� write� protection� has� been�
�implemented� inside� the� break� circuit� to� safeguard� the� application.� It� allows� you� to� freeze� the�
�configuration� of� several� parameters� (dead-time� duration,� OCx/OCxN� polarities� and� state�
�when� disabled,� OCxM� configurations,� break� enable� and� polarity).� You� can� choose� from� 3�
�levels� of� protection� selected� by� the� LOCK� bits� in� the� TIMx_BDTR� register.� Refer� to�
��LOCK� bits� can� be� written� only� once� after� an� MCU� reset.�
�The� Figure� 88� shows� an� example� of� behavior� of� the� outputs� in� response� to� a� break.�
�Doc� ID� 13902� Rev� 9�
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