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�
�+5� V� +15� V�
�(19)� V� B(W� )�
�VB�
�P� (27)�
�Gating� WH�
�R� S�
�C� PS�
�C� BS�
�C� BSC�
�(18)� V� CC(H)�
�(17)� IN� (WH)�
�(20)� V� S(W� )�
�VCC�
�COM�
�IN�
�OUT�
�VS�
�W� (26)�
�(15)� V� B(V)�
�VB�
�Gating� VH�
�R� S�
�C� PS�
�C� BS�
�C� BSC�
�(14)� V� CC(H)�
�(13)� IN� (VH)�
�(16)� V� S(V)�
�VCC�
�COM�
�IN�
�OUT�
�VS�
�V� (25)�
�M�
�M�
�C�
�U�
�Gating� UH�
�R� S�
�C� PS�
�R� F�
�C� BS�
�C� BSC�
�(11)� V� B(U)�
�(10)� V� CC(H)�
�(9)� IN� (UH)�
�(12)� V� S(U)�
�VB�
�VCC�
�COM�
�IN�
�OUT�
�VS�
�U� (24)�
�C� DCS�
�Vdc�
�R� PF�
�C� SC�
�(8)� C� SC�
�C(SC)�
�OUT(WL)�
�Fault�
�Gating� WL�
�Gating� VL�
�R� S�
�R� S�
�R� S�
�R� S�
�C� FOD�
�(7)� C� FOD�
�(6)� V� FO�
�(5)� IN� (WL)�
�(4)� IN� (VL)�
�(3)� IN� (UL)�
�C(FOD)�
�VFO�
�IN(WL)� OUT(VL)�
�IN(VL)�
�N� W� (23)�
�N� V� (22)�
�R� SW�
�R� SV�
�Gating� UL�
�(2)� COM�
�IN(UL)�
�C� BPF�
�C� PS� C� PS� C� PS�
�C� PF�
�(1)� V� CC(L)�
�COM�
�VCC�
�OUT(UL)�
�V� SL�
�N� U� (21)�
�R� SU�
�C� SP15�
�C� SPC15�
�Input� Signal� for�
�Short-Circuit� Protection�
�W-Phase� Current�
�V-Phase� Current�
�U-Phase� Current�
�R� FW�
�R� FV�
�R� FU�
�C� FW�
�C� FV�
�C� FU�
�Figure� 13.� Typical� Application� Circuit�
�4th� Notes:�
�1.� To� avoid� malfunction,� the� wiring� of� each� input� should� be� as� short� as� possible� (less� than� 2� -� 3cm).�
�2.� By� virtue� of� integrating� an� application-specific� type� of� HVIC� inside� the� Motion� SPM� ?� 3� product,� direct� coupling� to� MCU� terminals� without� any� optocoupler� or� transformer� isola-�
�tion� is� possible.�
�3.� V� FO� output� is� open-collector� type.� This� signal� line� should� be� pulled� up� to� the� positive� side� of� the� 5� V� power� supply� with� approximately� 4.7� k� ?� resistance� (please� refer� to�
�Figure11).�
�4.� C� SP15� of� around� seven� times� larger� than� bootstrap� capacitor� C� BS� is� recommended.�
�5.� V� FO� output� pulse� width� should� be� determined� by� connecting� an� external� capacitor� (C� FOD� )� between� C� FOD� (pin� 7)� and� COM� (pin� 2).� (Example:� if� C� FOD� =� 33� nF,� then� t� FO� =� 1.8� ms�
�(typ.))� Please� refer� to� the� 2nd� note� 5� for� calculation� method.�
�6.� Input� signal� is� active-HIGH� type.� There� is� a� 5� k� ?� resistor� inside� the� IC� to� pull� down� each� input� signal� line� to� GND.� RC� coupling� circuits� should� be� used� to� prevent� input� signal�
�oscillation.� R� S� C� PS� time� constant� should� be� selected� in� the� range� 50� ~� 150� ns� .� C� PS� should� not� be� less� than� 1� nF� (� recommended� R� S� =� 100� ?� ,� C� PS� =� 1� nF).�
�7.� To� prevent� errors� of� the� protection� function,� the� wiring� around� R� F� and� C� SC� should� be� as� short� as� possible.�
�8.� In� the� short-circuit� protection� circuit,� please� select� the� R� F� C� SC� time� constant� in� the� range� 1.5� ~� 2.0� ?� s.�
�9.� Each� capacitor� should� be� mounted� as� close� to� the� pins� of� the� Motion� SPM� 3� product� as� possible.�
�10.� To� prevent� surge� destruction,� the� wiring� between� the� smoothing� capacitor� and� the� P� &� GND� pins� should� be� as� short� as� possible.� The� use� of� a� high-frequency� non-inductive�
�capacitor� of� around� 0.1� ~� 0.22� ?� F� between� the� P� &� GND� pins� is� recommended.�
�11.� Relays� are� used� in� almost� every� systems� of� electrical� equipment� in� home� appliances.� In� these� cases,� there� should� be� sufficient� distance� between� the� MCU� and� the� relays.�
�12.� C� SPC15� should� be� over� 1� ?� F� and� mounted� as� close� to� the� pins� of� the� Motion� SPM� 3� product� as� possible.�
�?2007� Fairchild� Semiconductor� Corporation�
�FSBF10CH60BTL� Rev.� C2�
�13�
�www.fairchildsemi.com�
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