參數(shù)資料
型號(hào): AAT2554
廠商: Advanced Analog Technology,lnc.
英文描述: Total Power Solution for Portable Applications
中文描述: 總功率便攜式應(yīng)用解決方案
文件頁(yè)數(shù): 21/33頁(yè)
文件大小: 877K
代理商: AAT2554
AAT2554
Total Power Solution for Portable Applications
2554.2007.01.1.2
21
Table 2: LED Status Indicator.
The LED should be biased with as little current as
necessary to create reasonable illumination; there-
fore, a ballast resistor should be placed between
the LED cathode and the STAT pin. LED current
consumption will add to the overall thermal power
budget for the device package, hence it is good to
keep the LED drive current to a minimum. 2mA
should be sufficient to drive most low-cost green or
red LEDs. It is not recommended to exceed 8mA
for driving an individual status LED.
The required ballast resistor values can be esti-
mated using the following formulas:
Example:
Note: Red LED forward voltage (V
F
) is typically
2.0V @ 2mA.
Thermal Considerations
The AAT2554 is offered in a TDFN34-16 package
which can provide up to 2W of power dissipation
when it is properly bonded to a printed circuit board
and has a maximum thermal resistance of 50°C/W.
Many considerations should be taken into account
when designing the printed circuit board layout, as
well as the placement of the charger IC package in
proximity to other heat generating devices in a given
application design. The ambient temperature around
the IC will also have an effect on the thermal limits of
a battery charging application. The maximum limits
that can be expected for a given ambient condition
can be estimated by the following discussion.
First, the maximum power dissipation for a given
situation should be calculated:
Where:
P
D(MAX)
= Maximum Power Dissipation (W)
θ
JA
= Package Thermal Resistance (°C/W)
T
J(MAX)
= Maximum Device Junction Temperature
(°C) [135°C]
T
A
Figure 3 shows the relationship of maximum
power dissipation and ambient temperature of the
AAT2554.
= Ambient Temperature (°C)
Figure 3: Maximum Power Dissipation.
Next, the power dissipation of the battery charger
can be calculated by the following equation:
Where:
P
D
V
ADP
= ADP/USB Voltage
V
BAT
= Battery Voltage as Seen at the BAT Pin
I
CH
= Constant Charge Current Programmed for
the Application
= Total Power Dissipation by the Device
I
OP
= Quiescent Current Consumed by the
Charger IC for Normal Operation [0.5mA]
P
D
= [(V
ADP
- V
BAT
)
·
I
CH
+ (V
ADP
·
I
OP
)]
T
A
(
°
C)
P
D
0
500
1000
1500
2000
2500
3000
0
20
40
60
80
100
120
(T
J(MAX)
-
T
A
)
θ
JA
P
D(MAX)
=
(5.5V
- 2.0
V)
2mA
R
1
=
= 1.75k
Ω
(V
ADP
-
V
F(LED)
)
I
LED
R
1
=
Event Description
Status
No battery charging activity
Battery charging via adapter
or USB port
Charging completed
OFF
ON
OFF
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