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AAT4674_12 Datasheet, PDF (9/12 Pages) Skyworks Solutions Inc. – Power Supply Selector Switch
Output Capacitor
A 1μF or greater capacitor is required between OUT and
GND (COUT). As with the input capacitor, there is no spe-
cific capacitor ESR requirement. If desired, COUT may be
increased to accommodate any load transient condition.
EN Input
The AAT4674-1 is enabled when VEN is ≤ 0.4V (logic ‘0’),
conversely the AAT4674-1 is disabled when VEN is ≥ 1.6V
(logic ‘1’).
SEL Input
When VSEL is ≤ 0.4V (logic ‘0’) the output voltage equals
power supply 1 input (VOUT = VIN1), and conversely when
VSEL is ≥ 1.6V (logic ‘1’) the output voltage equals power
supply 2 input (VOUT = VIN2).
Current Limit Resistor Selection
The current limits for power supply 1 and power supply 2
inputs are set by resistors connected between IIN1/IIN2
and GND. The following equation can be used to select
the appropriate resistor for a particular current limit:
ICLINX
=
⎛VIINX ⎞
⎝RIINX⎠
· 200k
ICLINX Current limit for IN1 and/or IN2 pins respectively
VIINX Internally Regulated Voltage [0.5V ± 20%] on the
IIN1 and IIN2 pins respectively
RIINX IIN1 and/or IIN2 Resistor
200k Internal Gain Factor
Design Example
A particular application requires that the current limit for
IN1 be set to 2A and the current limit for IN2 be set to
0.2A. What value of resistor is required for the IIN1 and
IIN2 pins respectively?
For IN1 (power supply 1 input):
RIIN1
=
⎛ VIIN1⎞
⎝ ICLIN1⎠
·
200k
⎛0.5V⎞
= ⎝ 2A ⎠ · 200k
= 50kΩ (49.9kΩ standard value)
DATA SHEET
AAT4674
Power Supply Selector Switch
For IN2 (power supply 2 input):
RIIN2
=
⎛ VIIN2 ⎞
⎝ ICLIN2 ⎠
· 200k
⎛0.5V⎞
= ⎝0.2A⎠ · 200k
= 500kΩ (499.9kΩ standard value)
Thermal Considerations
Since the AAT4674-1 has an internal current limit and
over-temperature protection (thermal shutdown), junc-
tion temperature is rarely a concern. However, if the
application requires large currents in a high temperature
environment, it is possible that temperature rather than
current limit will be the dominant regulating condition. In
these applications, the maximum current available with-
out risk of an over-temperature condition must be calcu-
lated. The maximum internal temperature while current
limit is not active can be calculated using Equation 1.
Eq. 1: TJ(MAX) = IMAX2 · RDS(ON)(MAX) · RθJA + TA(MAX)
In Equation 1, IMAX is the maximum current required by
the load. RDS(ON)(MAX) is the maximum rated RDS(ON) of the
AAT4674-1 at high temperatures (consult the “RDSON vs.
Temperature” performance graph in the “Typical
Characteristics” section of this datasheet). For estimat-
ing the RDS(ON)(MAX) use the data on the “RDSON vs
Temperature” performance graph and increase the value
from the performance graph by 50%. RθJA is the thermal
resistance between the AAT4674-1 and the printed cir-
cuit board (PCB) onto which it is mounted; RJA is the
thermal resistance of the TSOPJW-12 package. TA(MAX) is
the maximum ambient temperature that the PCB under
the AAT4674-1 would be if the AAT4674-1 were not dis-
sipating power. Equation 1 can be rearranged to solve for
IMAX, into Equation 2.
Eq. 2: IMAX =
TSD(MIN) - TA(MAX)
R · R DS(ON)(MAX)
ΘJA
TSD(MIN) is the minimum temperature required to activate
the AAT4674-1 over-temperature protection (thermal
shutdown). With typical specification of 140°C, 125°C is
a safe minimum value to use.
Skyworks Solutions, Inc. • Phone [781] 376-3000 • Fax [781] 376-3100 • sales@skyworksinc.com • www.skyworksinc.com
201911A • Skyworks Proprietary Information • Products and Product Information are Subject to Change Without Notice. • April 26, 2012
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