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MAX8934G�
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Dual-Input� Linear� Charger,� Smart� Power� Selector�
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with� Advanced� Battery� Temperature� Monitoring�
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Smart� Power� Selector�
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The� MAX8934G� Smart� Power� Selector� seamlessly� dis-�
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tributes� power� among� the� external� inputs,� the� battery,�
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and� the� system� load� (see� the� Typical� Operating� Circuit� ).�
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The� basic� functions� performed� are:�
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U� With� both� an� external� power� supply� (USB� or� adapter)�
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and� battery� connected:�
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U� When� the� system� load� requirements� are� less� than�
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the� input� current� limit,� the� battery� is� charged� with�
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residual� power� from� the� input.�
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U� When� the� system� load� requirements� exceed� the�
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input� current� limit,� the� battery� supplies� supplemen-�
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tal� current� to� the� load.�
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U� When� the� battery� is� connected� and� there� is� no� external�
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power� input,� the� system� is� powered� from� the� battery.�
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U� When� an� external� power� input� is� connected� and� there�
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is� no� battery,� the� system� is� powered� from� the� external�
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power� input.�
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System� Load� Switch�
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An� internal� 40m� I� MOSFET� connects� SYS� to� BATT� (Q3�
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in� the� Typical� Operating� Circuit� )� when� no� voltage� source�
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is� available� at� DC� or� USB.� When� an� external� source� is�
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detected� at� DC� or� USB,� this� switch� is� opened� and� SYS�
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is� powered� from� the� valid� input� source� through� the� input�
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limiter.�
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The� SYS-BATT� switch� also� holds� up� SYS� when� the� system�
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load� exceeds� the� input� current� limit.� If� that� should� happen,�
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the� SYS-BATT� switch� turns� on� so� that� the� battery� supplies�
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additional� SYS� load� current.� If� the� system� load� continu-�
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ously� exceeds� the� input� current� limit,� the� battery� does� not�
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charge,� even� though� external� power� is� connected.� This� is�
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not� expected� to� occur� in� most� cases,� since� high� loads� usu-�
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ally� occur� only� in� short� peaks.� During� these� peaks,� battery�
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energy� is� used,� but� at� all� other� times� the� battery� charges.�
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Input� Limiter�
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The� input� voltage� limiter� is� essentially� an� LDO� regula-�
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tor.� While� in� dropout,� the� regulator� dissipates� a� small�
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I� 2� R� loss� through� the� 0.2� I� MOSFET� (Q1� in� the� Typical�
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Operating� Circuit� )� between� DC� and� SYS.� With� an� AC�
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adapter� or� USB� source� connected,� the� input� limiter�
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distributes� power� from� the� external� power� source� to� the�
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system� load� and� battery� charger.� In� addition� to� the� input�
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limiter’s� primary� function� of� passing� power� to� the� system�
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and� charger� loads� at� SYS,� it� performs� several� additional�
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functions� to� optimize� use� of� available� power.�
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18�
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Input� Voltage� Limiting�
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If� an� input� voltage� is� above� the� overvoltage� threshold�
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(6.9V� typ),� the� MAX8934G� enters� overvoltage� lockout�
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(OVLO).� OVLO� protects� the� MAX8934G� and� downstream�
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circuitry� from� high-voltage� stress� up� to� 14V� at� DC� and�
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8V� at� USB.� In� OVLO,� V� L� remains� on,� the� input� switch� that�
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sees� overvoltage� (Q1,� Q2,� Typical� Operating� Circuit� )�
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opens,� the� appropriate� power-monitor� output� (� DOK� ,�
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UOK� )� is� high� impedance,� and� CHG� is� high� impedance.�
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If� both� DC� and� USB� see� overvoltage,� both� input� switches�
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(Q1� and� Q2,� Typical� Operating� Circuit� )� open� and� the�
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charger� turns� off.� The� BATT-to-SYS� switch� (Q3,� Typical�
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Operating� Circuit� )� closes,� allowing� the� battery� to� power�
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SYS.� An� input� is� also� invalid� if� it� is� less� than� BATT,� or� less�
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than� the� DC� undervoltage� threshold� of� 3.5V� (falling).� With�
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an� invalid� input� voltage,� SYS� connects� to� BATT� through� a�
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40m� I� switch� (Q3,� Typical� Operating� Circuit� ).�
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Input� Overcurrent� Protection�
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The� current� at� DC� and� USB� is� limited� to� prevent� input�
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overload.� This� current� limit� can� be� selected� to� match� the�
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capabilities� of� the� source,� whether� it� is� a� 100mA� or� 500mA�
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USB� source,� or� an� AC� adapter.� When� the� load� exceeds�
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the� input� current� limit,� SYS� drops� to� 75mV� below� BATT�
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and� the� battery� supplies� supplemental� load� current.�
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Thermal� Limiting�
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The� MAX8934G� reduces� input� limiter� current� by� 5%/� N� C�
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when� its� die� temperature� exceeds� +100� N� C.� The� system�
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load� (SYS)� has� priority� over� the� charger� current,� so� low-�
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ering� the� charge� current� first� reduces� the� input� current.� If�
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the� junction� temperature� still� reaches� +120� N� C� in� spite� of�
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charge� current� reduction,� no� input� (DC� or� USB)� current�
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is� drawn,� the� battery� supplies� the� entire� system� load,�
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and� SYS� is� regulated� at� 75mV� below� BATT.� Note� that�
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this� on-chip� thermal-limiting� circuitry� is� not� related� to� and�
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operates� independently� from� the� thermistor� input.�
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Adaptive� Battery� Charging�
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While� the� system� is� powered� from� DC,� the� charger� draws�
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power� from� SYS� to� charge� the� battery.� If� the� charger�
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load� plus� system� load� exceeds� the� input� current� limit,� an�
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adaptive� charger� control� loop� reduces� charge� current�
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to� prevent� the� SYS� voltage� from� collapsing.� Maintaining�
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a� higher� SYS� voltage� improves� efficiency� and� reduces�
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power� dissipation� in� the� input� limiter.� The� total� current�
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through� the� switch� (Q1� or� Q2� in� the� Typical� Operating�
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Circuit� )� is� the� sum� of� the� load� current� at� SYS� and� the� bat-�
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tery� charging� current.� The� MAX8934G� limiter� clamps� at�
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4.35V,� so� input� voltages� greater� than� 4.35V� can� increase�
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power� dissipation� in� the� limiter.� The� MAX8934G� input�
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Maxim� Integrated�
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