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�9-Output� LED� Driver� with� Intensity� Control�
�and� Hot-Insertion� Protection�
�Operation� with� Multiple� Masters�
�If� the� MAX6965� is� operated� on� a� 2-wire� interface� with�
�multiple� masters,� a� master� reading� the� MAX6965� should�
�use� a� repeated� start� between� the� write,� which� sets� the�
�MAX6965’s� address� pointer,� and� the� read(s)� that� takes�
�the� data� from� the� location(s)� (Table� 2).� This� is� because� it�
�is� possible� for� master� 2� to� take� over� the� bus� after� master�
�1� has� set� up� the� MAX6965’s� address� pointer� but� before�
�master� 1� has� read� the� data.� If� master� 2� subsequently�
�changes� the� MAX6965’s� address� pointer,� then� master�
�1’s� delayed� read� can� be� from� an� unexpected� location.�
�Command� Address� Autoincrementing�
�The� command� address� stored� in� the� MAX6965� circu-�
�lates� around� grouped� register� functions� after� each� data�
�byte� is� written� or� read� (Table� 2).�
�Device� Reset�
�The� reset� input� RST� is� an� active-low� input.� When� taken�
�low,� RST� clears� any� transaction� to� or� from� the� MAX6965�
�on� the� serial� interface� and� configures� the� internal� regis-�
�ters� to� the� same� state� as� a� power-up� reset� (Table� 3).�
�The� MAX6965� then� waits� for� a� START� condition� on� the�
�serial� interface.�
�Detailed� Description�
�Initial� Power-Up�
�On� power-up,� and� whenever� the� RST� input� is� pulled�
�low,� all� control� registers� are� reset� and� the� MAX6965�
�enters� standby� mode� (Table� 3).� Power-up� status� makes�
�all� outputs� logic� high� (high� impedance� if� external� pullup�
�resistors� are� not� fitted)� and� disables� both� the� PWM�
�oscillator� and� blink� functionality.� The� RST� input� can� be�
�used� as� a� hardware� shutdown� input,� which� effectively�
�turns� off� any� LED� (or� other)� loads� and� puts� the� device�
�into� its� lowest� power� condition.�
�Configuration� Register�
�The� configuration� register� is� used� to� configure� the� PWM�
�intensity� mode� and� blink� behavior,� operate� the� O8� out-�
�put,� and� read� back� the� BLINK� input� logic� level� (Table� 4).�
�Blink� Mode�
�In� blink� mode,� the� outputs� can� be� flipped� between�
�using� either� the� blink� phase� 0� register� or� the� blink�
�phase� 1� register.� Flip� control� is� both� hardware� (the�
�BLINK� input)� and� software� control� (the� blink� flip� flag� B�
�in� the� configuration� register)� (Table� 4).�
�The� blink� function� can� be� used� for� LED� effects� by� pro-�
�gramming� different� display� patterns� in� the� two� sets� of�
�output� port� registers,� and� using� the� software� or� hard-�
�ware� controls� to� flip� between� the� patterns.�
�If� the� blink� phase� 1� register� is� written� with� 0xFF,� then�
�the� BLINK� input� can� be� used� as� a� hardware� disable� to,�
�for� example,� instantly� turn� off� an� LED� pattern� pro-�
�grammed� into� the� blink� phase� 0� register.� This� tech-�
�nique� can� be� further� extended� by� driving� the� BLINK�
�input� with� a� PWM� signal� to� modulate� the� LED� current� to�
�provide� fading� effects.�
�The� blink� mode� is� enabled� by� setting� the� blink� enable�
�flag� E� in� the� configuration� register� (Table� 4).� When� blink�
�mode� is� enabled,� the� state� of� the� blink� flip� flag� and�
�BLINK� input� are� EXOR’ed� to� set� the� phase,� and� the� out-�
�puts� are� set� by� either� the� blink� phase� 0� registers� or� the�
�blink� phase� 1� registers� (Figure� 11,� Table� 5).�
�The� blink� mode� is� disabled� by� clearing� the� blink� enable�
�flag� E� in� the� configuration� register� (Table� 4).� When� blink�
�mode� is� disabled,� the� state� of� the� blink� flip� flag� is�
�ignored,� and� the� blink� phase� 0� registers� alone� control�
�the� outputs.�
�The� logic� status� of� BLINK� is� made� available� as� the� read-�
�only� blink� status� flag� blink� in� the� configuration� register�
�(Table� 4).� This� flag� allows� BLINK� to� be� used� as� an� extra�
�general-purpose� input� (GPI)� in� applications� not� using� the�
�blink� function.� When� BLINK� is� going� to� be� used� as� a� GPI,�
�blink� mode� should� be� disabled� by� clearing� the� blink�
�enable� flag� E� in� the� configuration� register� (Table� 4).�
�Blink� Phase� Register�
�When� the� blink� function� is� disabled,� the� blink� phase�
�0� register� sets� the� logic� levels� of� the� eight� outputs�
�(O0� through� O7)� (Table� 6).� A� duplicate� register� called�
�the� blink� phase� 1� register� is� also� used� if� the� blink� func-�
�tion� is� enabled� (Table� 7).� A� logic� high� sets� the� appro-�
�priate� output� high� impedance,� while� a� logic� low� makes�
�the� port� go� low.�
�Reading� a� blink� phase� register� reads� the� value� stored�
�in� the� register,� not� the� actual� port� condition.� The� port�
�output� itself� may� or� may� not� be� at� a� valid� logic� level,�
�depending� on� the� external� load� connected.�
�The� 9th� output,� O8,� is� controlled� through� 2� bits� in� the�
�configuration� register,� which� provide� the� same� static� or�
�blink� control� as� the� other� eight� output� ports.�
�10�
�______________________________________________________________________________________�
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