BD4156MUV_09 ROHM [Rohm], BD4156MUV_09 Datasheet - Page 21
BD4156MUV_09
Manufacturer Part Number
BD4156MUV_09
Description
Power Switch for ExpressCardTM
Manufacturer
ROHM [Rohm]
Datasheet
1.BD4156MUV_09.pdf
(24 pages)
○
BD4156MUV
c
www.rohm.com
13. Not of a radiation-resistant design.
14. Allowable loss (Pd)
9. GND wiring pattern
10. Electrical characteristics
11. Capacitors applied to input terminals
12. Capacitors applied to output terminals
15. Operating range
16. The applied circuit example diagrams presented here are recommended configurations. However, actual design depends
17. Wiring to the input terminals (V3 IN, V3AUX IN, and V15 IN) and output terminals (V3, V3AUX and V15) of the built-in FET
18. Heatsink
2009 ROHM Co., Ltd. All rights reserved.
If both a small signal GND and a high current GND are present, it is recommended that the patterns for the high current
GND and the small signal GND be separated. Proper grounding to the reference point of the set should also be provided.
In this way, the small signal GND voltage will by unaffected by the change in voltage stemming from the pattern wiring
resistance and the high current.
externally connected GND component.
The electrical characteristics in the Specifications may vary, depending on ambient temperature, power supply voltage,
circuit(s) externally applied, and/or other conditions.
characteristics, that could affect the electrical characteristics.
The capacitors applied to the input terminals (V3_IN, V3AUX_IN and V15_IN) are used to lower the output impedance of
the connected power supply. An increase in the output impedance of the power supply may result in destabilization of
input voltages (V3_IN, V3AUX_IN and V15_IN). It is recommended that a low-ESR capacitor be used, with a lower
temperature coefficient (change in capacitance vs. change in temperature), Recommended capacitors are on the order of
0.1 μF for V3AUX_IN, and1 μF for V3_IN and V15_IN. However, they must be thoroughly checked at the temperature and
with the load range expected in actual use, because capacitor selection depends to a significant degree on the
characteristics of the input power supply to be used and the conductor pattern of the PC board.
Capacitors for the output terminals (V3, V3_AUX, and V15), should be connected between each of the output terminals and
GND. A low-ESR, low temperature coefficient output capacitor is recommended-on the order of 1 μF for V3 and V15
terminals, and 1μF less for V3_AUX. However, they must be thoroughly checked at the temperature and with the load
range expected in actual use, because capacitor selection depends to a significant degree on the temperature and the load
conditions.
With respect to the allowable loss, please refer to the thermal derating characteristics shown in the Exhibit, which serves as
a rule of thumb. When the system design causes the IC to operate in excess of the allowable loss, chip temperature will
rise, reducing the current capacity and decreasing other basic IC functionality. Therefore, design should always enable IC
operation within the allowable loss only.
Basic circuit functions and operations are warranted within the specified operating range the working ambient temperature
range. Although reference values for electrical characteristics are not warranted, no rapid or extraordinary changes in
these characteristics are expected, provided operation is within the normal operating and temperature range.
on IC characteristics, which should be confirmed before operation. Also, note that modifying external circuits may impact
static, noise and other IC characteristics, including transient characteristics. Be sure to allow sufficient margin in the
design to accommodate these factors.
should be carried out with special care. Using unnecessarily long and/or thin conductors may decrease output voltage
and degrade other characteristics.
The heatsink is connected to the SUB, which should be short-circuited to the GND. Proper heatsink soldering to the PC
board should enable lower thermal resistance.
Also, pay special attention to avoid undesirable wiring pattern fluctuations in any
21/23
Therefore, please check all such factors, including transient
Technical Note
2009.05 - Rev.A
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