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��2� The� SB100� Hardware�
�The� SB100� consists� of� two� main� areas;� the� circuitry� required� for� the� smart� battery�
�implementation� and� a� simulator� circuit� for� demonstrating� the� ATmega406� smart�
�battery� designs� capabilities.� Figure� 2-1� shows� the� areas� on� the� SB100� board.�
�Figure� 2-1.� SB100� with� smart� battery� and� simulator� circuits� highlighted�
�A� –� Individual� cell� voltage� simulation�
�B� –� Total� cell� stack� voltage� simulation�
�C� –� smart� battery� implementation�
�D� –� Charge/discharge� current� simulation�
�In� addition� to� the� circuits� that� demonstrate� the� smart� Battery� features,� a� number� of�
�connectors� are� available� for� in-system� programming,� on-chip� debugging,� SMBus�
�communication,� connection� of� battery� cells� and� more.�
�The� hardware� schematic,� assembly� drawings� and� Bill� of� Materials� are� found� last� in�
�this� document.� A� Table� of� Contents� is� found� on� page� 19.�
�The� ATmega406� comes� preprogrammed� with� the� evaluation� software� described� in�
�the� AVR453� Application� Note.� It� is� however� recommended� to� download� the� latest�
�revision� of� the� firmware� from� the� Atmel� website.�
�WARNING:�
�Li-Ion� batteries� must� be� handled� with� care� as� they� may� pose� a� safety� hazard� if�
�treated� incorrectly.� It� is� important� that� the� development� of� smart� Battery�
�applications� are� done� by� people� that� are� skilled� and� knowledgeable� of� correct�
�use� and� handling� of� Li-Ion� batteries.�
�2.1� Connecting� the� SB100�
�To� use� the� SB100� it� needs� to� be� connected� to� an� SMBus� host/charger,� a� battery� pack�
�(or� a� simulated� battery� pack)� and� a� number� of� jumpers� need� to� be� configured�
�correctly.� Further,� for� programming� and� debugging� it� is� required� to� hook� up� an� Atmel�
�JTAGICE� mkII.� Note� that� ATmega406� does� not� support� in-system� serial�
�programming.� Figure� 2-2� shows� the� SB100� board� with� all� connectors� highlighted.� The�
�various� connectors� and� jumper� blocks� and� are� described� in� detail� in� the� following�
�sections.�
�2�
�AVR454�
�2598C-AVR-06/06�
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