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�BD8119FM-M�
�Technical� Note�
�●� Buck-Boost� DC/DC� controller�
�?� Number� of� LEDs� in� series� connection�
�Output� voltage� of� the� DCDC� converter� is� controlled� such� that� the� forward� voltage� over� each� of� the� LEDs� on� the� output� is�
�set� to� 1.0V� (Typ.).� DCDC� operation� is� performed� only� when� the� LED� output� is� operating.� When� two� or� more� LED� outputs�
�are� operating� simultaneously,� the� LED� voltage� output� is� held� at� 1.0V� (Typ.)� per� LED� over� the� column� of� LEDs� with� the�
�highest� VF� value.� The� voltages� of� other� LED� outputs� are� increased� only� in� relation� to� the� fluctuation� of� voltage� over� this�
�column.� Consideration� should� be� given� to� the� change� in� power� dissipation� due� to� variations� in� VF� of� the� LEDs.� Please�
�determine� the� allowable� maximum� VF� variance� of� the� total� LEDs� in� series� by� using� the� description� as� shown� below:�
�VF� variation� allowable� voltage� 3.7V(Typ.)� =� short� detecting� voltage� 4.7V(Typ.)� -� LED� control� voltage� 1.0V(Typ.)�
�The� number� of� LEDs� that� can� be� connected� in� series� is� limited� due� to� the� open-circuit� protection� circuit,� which� engages� at�
�85%� of� the� set� OVP� voltage.� Therefore,� the� maximum� output� voltage� of� the� under� normal� operation� becomes�
�30.6� V� (=� 36� V� x� 0.85,� where� (30.6� V� –� 1.0� V)� /� VF� >� N� [maximum� number� of� LEDs� in� series]).�
�?� Over-voltage� protection� circuit� (OVP)�
�The� output� of� the� DCDC� converter� should� be� connected� to� the� OVP� pin� via� a� voltage� divider.� In� determining� an�
�appropriate� trigger� voltage� of� for� OVP� function,� consider� the� total� number� of� LEDs� in� series� and� the� maximum� variation� in�
�VF.� Also,� bear� in� mind� that� over-current� protection� (OCP)� is� triggered� at� 0.85� x� OVP� trigger� voltage.� If� the� OVP� function�
�engages,� it� will� not� release� unless� the� DCDC� voltage� drops� to� 72.5%� of� the� OVP� trigger� voltage.� For� example,� if� ROVP1�
�(output� voltage� side),� ROVP2� (GND� side),� and� DCDC� voltage� VOUT� are� conditions� for� OVP,� then:�
�VOUT� ≥� (ROVP1� +� ROVP2)� /� ROVP2� x� 2.0� V.�
�OVP� will� engage� when� VOUT� >� 32� V� if� ROVP1� =� 330� k� ?� and� ROVP2� =� 22� k� ?� .�
�?� Buck-boost� DC/DC� converter� oscillation� frequency� (FOSC)�
�The� regulator� ’s� internal� triangular� wave� oscillation� frequency� can� be� set� via� a� resistor� connected� to� the� RT� pin� (pin� 26).�
�This� resistor� determines� the� charge/discharge� current� to� the� internal� capacitor,� thereby� changing� the� oscillating� frequency.�
�Refer� to� the� following� theoretical� formula� when� setting� RT:�
�fosc� =�
�30� � 10� 6�
�RT� [� Ω� ]�
�x� α� [kHz]�
�30� x� 10� (V/A/S)� is� a� constant� (±16.6%)� determined� by� the� internal� circuitry,� and� α� is� a� correction� factor� that� varies� in�
�6�
�relation� to� RT:� {� RT:� α� =� 50k� ?� :� 0.98,� 60k� ?� :� 0.985,� 70k� ?� :� 0.99,� 80k� ?� :� 0.994,� 90k� ?� :� 0.996,� 100k� ?� :� 1.0,� 50k� ?� :� 1.01,� 200k� ?� :�
�1.02,� 300k� ?� :� 1.03,� 400k� ?� :� 1.04,� 500k� ?� :� 1.045� }�
�A� resistor� in� the� range� of� 62.6k� ?� ~� 523k� ?� is� recommended.� Settings� that� deviate� from� the� frequency� range� shown� below�
�may� cause� switching� to� stop,� and� proper� operation� cannot� be� guaranteed.�
�550K�
�450K�
�350K�
�250K�
�150K�
�50K�
�0�
�100�
�200�
�300�
�400�
�500�
�600�
�700�
�800�
�RT� [kΩ]�
�Fig.15� RT� versus� switching� frequency�
�?� External� DC/DC� converter� oscillating� frequency� synchronization� (FSYNC)�
�Do� not� switch� from� external� to� internal� oscillation� of� the� DC/DC� converter� if� an� external� synchronization� signal� is� present�
�on� the� SYNC� pin.� When� the� signal� on� the� SYNC� terminal� is� switched� from� high� to� low,� a� delay� of� about� 30� μS� (typ.)�
�occurs� before� the� internal� oscillation� circuitry� starts� to� operate� (only� the� rising� edge� of� the� input� clock� signal� on� the� SYNC�
�terminal� is� recognized).� Moreover,� if� external� input� frequency� is� less� than� the� internal� oscillation� frequency,� the� internal�
�oscillator� will� engage� after� the� above-mentioned� 30� μS� (typ.)� delay;� thus,� do� not� input� a� synchronization� signal� with� a�
�frequency� less� than� the� internal� oscillation� frequency.�
�www.rohm.com�
�?� 2011� ROHM� Co.,� Ltd.� All� rights� reserved.�
�7/20�
�2011.08� -� Rev.B�
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