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�Philips� Semiconductors�
�Octal� Low� Side� Driver� (OLSD)�
�FUNCTIONAL� DESCRIPTION� (see� Figs� 1,� 3� and� 4)�
�This� octal� low� side� driver� is� intended� to� drive� relays� in�
�automotive� applications.� It� is� optimized� to� withstand� the�
�wide� temperature� and� supply� voltage� range� that� is� typical�
�for� this� application� area.� It� consists� of� 8� protected� outputs,�
�including� diagnostic� functions,� controlled� by� a� serial�
�interface.� These� outputs� can� be� used� in� parallel� without� the�
�need� for� additional� components.�
�Serial� control� interface�
�Serial� control� of� the� drivers� is� provided� by� an� 8-bit� shift�
�register� with� parallel� outputs� and� an� 8-bit� latch� which�
�controls� the� DMOS� output� stages.� Using� this� configuration�
�the� number� of� pins� needed� for� control� of� the� eight� drivers�
�is� reduced� to� three;� Serial� Input� (SI),� Serial� CLock� (SCL)�
�and� Serial� Input� Enable� (SIE).� When� pin� SIE� is� LOW,� serial�
�data� at� pin� SI� is� shifted� into� the� shift� register� at� each�
�HIGH-to-LOW� transition� at� the� SCL� pin� and� serial� data� is�
�shifted� out� at� the� Serial� Output� (SO)� pin� at� a� LOW-to-HIGH�
�transition� on� the� SCL� pin.� The� last� bit� read� in� before� a�
�LOW-to-HIGH� transition� at� the� SIE� pin� is� bit� D8.� A� HIGH�
�level� at� the� SI� pin� causes� a� driver� to� switch-on.� With� a�
�LOW-to-HIGH� transition� at� the� SIE� pin,� parallel� output� data�
�in� the� shift� register� is� written� to� the� 8-bit� latch,� which�
�controls� the� DMOS� outputs.� When� SIE� is� HIGH,� signals� at�
�pins� SI,� SCL� and� SO� are� disabled.� For� pin� SO� this� results�
�in� a� HIGH� level� because� pin� SO� is� an� open-collector�
�output.�
�Diagnostic� interface�
�The� OLSD� detects� open� loads� and� short-circuited� loads� at�
�each� driver� stage� by� comparing� its� output� voltages� (V� o� )� to�
�a� reference� voltage� (V� ref� ).� To� allow� distinction� between�
�short-circuit� and� open� load� conditions,� a� short-circuit� is�
�detected� for� V� o� >� V� ref� in� the� on-state,� while� an� open� load� is�
�detected� for� V� o� <� V� ref� in� the� off-state� of� a� driver� stage.�
�In� both� cases� the� corresponding� status� pin� is� set� to� a� LOW�
�level� and� the� respective� bit� in� the� shift� register� will� be�
�inverted.�
�With� a� HIGH-to-LOW� transition� at� the� SIE� pin,� the� status� of�
�the� eight� outputs� is� written� into� the� shift� register.� The� actual�
�contents� (the� control� byte� eventually� modified� by� errors)�
�can� be� read� out� via� pin� SO.� Comparing� this� byte� with� the�
�original� control� byte� previously� written,� faults� can� be�
�localized� and� identified� (e.g.� open� load� at� driver� stage�
�number� 5).�
�2000� Dec� 18�
�5�
�Product� speci?cation�
�TJA1010�
�Protection� of� DMOS� outputs�
�Each� driver� contains� a� DMOS� power� FET.� The� drivers� are�
�protected� against� overvoltage,� short-circuit� and�
�overtemperature� conditions.�
�An� overvoltage� clamp� circuit� at� each� driver� causes� the�
�respective� DMOS� power� FET� to� turn� partially� on,� if� its�
�drain-to-source� voltage� level� exceeds� the� clamp� level�
�[V� o(clamp)� ].� Consequently� each� driver� can� withstand�
�voltage� peaks� caused� by� turning� off� inductive� loads,� such�
�as� relays� coils� without� freewheel� diodes.� It� should� be� noted�
�that� if� outputs� are� used� in� parallel� the� amount� of� inductive�
�energy� which� can� be� handled� will� not� increase� but� will�
�remain� equal� to� that� of� a� single� output.�
�Each� driver� is� protected� against� a� short-circuited� load� by�
�current� limiting.� In� the� event� of� a� short-circuited� load� at� a�
�driver� stage,� the� current� will� be� limited� and� the� HIGH� level�
�of� its� drain-to-source� voltage� will� force� the� comparator�
�output� to� go� LOW.� This� in� turn� will� set� the� STATSC� pin� to�
�a� LOW� level.�
�A� two-stage� temperature� protection� circuit� is� included� to�
�protect� the� device� against� overheating� caused� by� high�
�dissipation� in� the� output� transistors.�
�When� the� temperature� exceeds� the� overtemperature�
�threshold� level,� it� will� switch-off� those� outputs� with� a�
�short-circuit� condition� for� the� duration� of� the�
�overtemperature� condition.� The� status� and� diagnostic�
�function� will� not� be� influenced.�
�If� the� chip� temperature� still� rises� and� exceeds� the�
�emergency� threshold� level,� the� emergency� shutdown� will�
�become� active� and� shut� down� all� of� the� outputs� until� the�
�temperature� drops� below� the� overtemperature� threshold.�
�The� outputs� are� fully� protected� against� short-circuit� to�
�battery� conditions� for� the� whole� supply� voltage� range.�
�To� protect� the� outputs� against� device� threatening�
�dissipation� peaks,� the� overtemperature� control� is� extended�
�with� local� power� dissipation� sensors.� If� one� or� more�
�outputs� dissipate� too� much� power� all� outputs� with� a�
�short-circuit� condition� will� be� switched� off� for� the� duration�
�of� the� local� overtemperature� condition.�
�To� protect� the� outputs� against� high� dissipation� during� load�
�dump,� an� overvoltage� protection� is� included.� This� will�
�switch-off� those� outputs� with� a� short-circuit� condition� if� the�
�supply� voltage� exceeds� the� overvoltage� threshold� V� DD(0� V)�
�for� the� duration� of� the� overvoltage� condition.�
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