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�FDS_6533_6534_004�
�71M6533/G/H� and� 71M6534/H� Data� Sheet�
�2.3.1�
�BROWNOUT� Mode�
�In� BROWNOUT� mode,� most� non-metering� digital� functions� are� active� (as� shown� in� Table� 50� )� including�
�ICE,� UART,� EEPROM,� LCD� and� RTC.� In� BROWNOUT� mode,� a� low-bias� current� regulator� will� provide�
�2.5� Volts� to� V2P5� and� V2P5NV.� The� regulator� has� an� output� called� BAT_OK� to� indicate� that� it� has� sufficient�
�overhead.� When� BAT_OK� =� 0,� the� part� will� enter� SLEEP� mode.� From� BROWNOUT� mode,� the� processor�
�can� voluntarily� enter� LCD� or� SLEEP� modes.� When� system� power� is� restored,� the� part� will� automatically�
�transition� from� any� of� the� battery� modes� to� MISSION� mode,� once� the� PLL� has� settled.�
�The� MPU� will� run� at� 7/8� of� the� crystal� clock� rate� in� BROWNOUT� mode.� This� permits� the� UARTs� to� be�
�operated� at� 300� bd.� In� this� mode,� the� MPU� clock� has� substantial� short-term� jitter.�
�The� value� of� MPU_DIV[2:0]� will� be� remembered� (not� changed)� as� the� part� enters� and� exits� BROWNOUT.�
�MPU_DIV[2:0]� will� be� ignored� during� BROWNOUT.�
�While� PLL_OK� =� 0,� the� I/O� RAM� bits� ADC_E� and� CE_E� are� held� in� the� zero� state� disabling� both� the� ADC� and�
�the� CE.� When� PLL_OK� falls,� the� CE� program� counter� is� cleared� immediately� and� all� FIR� processing� halts.�
�Figure� 25� shows� the� functional� blocks� active� in� BROWNOUT� mode.�
�2.3.2�
�LCD� Mode�
�In� LCD� mode,� the� data� contained� in� the� LCD_SEGn[3:0]� fields� is� displayed.� Up� to� four� LCD� segments�
�connected� to� the� pin� SEG18� can� be� made� to� blink� without� the� involvement� of� the� MPU,� which� is� disabled�
�in� LCD� mode.� To� minimize� power,� only� segments� that� might� be� used� should� be� enabled.�
�LCD� mode� can� be� exited� only� by� system� power� up,� a� timeout� of� the� wake-up� timer,� or� a� push� button.�
�When� the� IC� exits� LCD� mode,� the� MPU� can� discover� the� event� that� caused� the� exit� by� reading� the� interrupt�
�flags� and� interpret� them� as� follows:�
�?�
�?�
�?�
�?�
�IE_WAKE� =� 1� indicates� that� the� wake� timer� has� expired.�
�IE_PB� =1� indicates� that� the� pushbutton� input� (PB)� was� activated.�
�COMPSTAT� =� 0� indicates� that� a� reset� occurred� but� that� main� power� is� not� yet� available.�
�If� none� of� the� above� conditions� applies,� system� power� (V3P3SYS)� must� have� been� restored�
�After� the� transition� from� LCD� mode� to� MISSION� or� BROWNOUT� mode,� the� PC� will� be� at� 0x0000,� the�
�XRAM� is� in� an� undefined� state,� and� the� I/O� RAM� is� only� partially� preserved� (see� the� description� of� I/O�
�RAM� states� in� Section� 5.2)� .� GP0[7:0]� through� GP7[7:0]� are� preserved� unless� a� hardware� reset� occurs�
�(RESET� pin� is� pulled� high� or� power� to� the� part� is� cycled� without� a� battery� being� present).� Figure� 26�
�shows� the� functional� blocks� active� in� LCD� mode.�
�2.3.3�
�SLEEP� Mode�
�In� SLEEP� mode,� the� battery� current� is� minimized� and� only� the� Oscillator� and� RTC� functions� are� active.�
�This� mode� can� be� exited� only� by� system� power-up,� a� timeout� of� the� wake-up� timer,� or� a� push� button� event.�
�When� the� IC� exits� SLEEP� mode,� the� MPU� can� discover� the� event� that� caused� the� exit� by� reading� the�
�interrupt� flags� and� interpret� them� as� follows:�
�?�
�?�
�?�
�?�
�IE_WAKE� =� 1� indicates� that� the� wake� timer� has� expired.�
�IE_PB� =1� indicates� that� the� pushbutton� input� (PB)� was� activated.�
�COMPSTAT� =� 0� indicates� that� a� reset� occurred� but� that� main� power� is� not� yet� available.�
�If� none� of� the� above� conditions� applies,� system� power� (V3P3SYS)� must� have� been� restored�
�After� the� transition� from� SLEEP� mode� to� MISSION� or� BROWNOUT� mode� the� PC� will� be� at� 0x0000,� the�
�XRAM� is� in� an� undefined� state,� and� the� I/O� RAM� is� only� partially� preserved� (see� the� description� of� I/O�
�RAM� states� in� Section� 5.2� ).� GP0[7:0]� through� GP7[7:0]� are� preserved� unless� the� a� hardware� reset� occurs�
�(RESET� pin� is� pulled� high� or� power� to� the� part� is� cycled� without� a� battery� being� present).� Figure� 27�
�shows� the� functional� blocks� active� in� SLEEP� mode.�
�Rev� 2�
�59�
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