BD4154FV-E2 查看數據表(PDF) - ROHM Semiconductor
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BD4154FV-E2 Datasheet PDF : 16 Pages
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BD4154FV
●Application Circuit (Circuit for ExpressCardTM Compliance Checklist)
CPPE#(1)
CPUSB#(2)
3.3V(3)
3.3Vaux(4)
1.5V(5)
PERST#(6)
CPPE#(12pin)
RCLKEN(19pin)
CPUSB#(11pin)
V3_IN(4,5pin)
V3(6,7pin)
V3AUX_IN(18pin)
BD4154FV
V3AUX(17pin)
V15_IN(15,16pin)
V15(13,14pin)
PERST_IN#(1pin)
PERST#(8pin)
EN(2pin)
SYSR(3pin)
GND(10pin)
Technical Note
3.3V(7)
3.3Vaux(8)
1.5V(9)
SysReset#(10)
●Heat loss
Thermal design should allow the device to operate within the following conditions. Note that the temperatures listed are the
allowed temperature limits. Thermal design should allow sufficient margin from these limits.
1. Ambient temperature Ta can be no higher than 100°C.
2. Chip junction temperature Tj can be no higher more than 150°C.
Chip junction temperature Tj can be determined as follows:
①Chip junction temperature Tj is calculated from IC surface temperature TC under actual application conditions:
Tj=TC+θj-cxW
<Reference value>
θj-c:SSOP-B20
35 /W
②Chip junction temperature Tj is calculated from ambient temperature Ta:
Tj=TC+θj-axW
<Reference value>
θj-a:SSOP-B20
250℃/W (IC only)
153.8℃/W Single-layer substrate
(substrate surface copper foil area: less than 3%)
Most of heat loss in the BD4154FV occurs at the output switch. The power lost is determined by multiplying the
on-resistance by the square of output current of each switch.
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11/15
2010.04 - Rev.B
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