LTC4055EUF#TRPBF Linear Technology, LTC4055EUF#TRPBF Datasheet - Page 19
LTC4055EUF#TRPBF
Manufacturer Part Number
LTC4055EUF#TRPBF
Description
IC USB PWR MNGR BATT CHRGR 16QFN
Manufacturer
Linear Technology
Datasheet
1.LTC4055EUFPBF.pdf
(24 pages)
Specifications of LTC4055EUF#TRPBF
Function
Charge Management
Battery Type
Lithium-Ion (Li-Ion)
Voltage - Supply
4.35 V ~ 5.5 V
Operating Temperature
-40°C ~ 85°C
Mounting Type
Surface Mount
Package / Case
16-WQFN Exposed Pad
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
Available stocks
Company
Part Number
Manufacturer
Quantity
Price
OPERATION
Selecting WALL Input Resistors
The WALL input pin identifi es the presence of a wall adapter.
This information is used to disconnect the inputs IN1/IN2
from the OUT pin in order to prevent back conduction to
whatever may be connected to the inputs. It also forces the
ACPR pin low when the voltage at the WALL pin exceeds
the input threshold. The WALL pin has a 1V rising threshold
and approximately 30mV of hysteresis.
It needs to be noted that this function is disabled when
the only power applied to the part is from the battery.
Therefore the 1V threshold only applies when the voltage
on either IN1/IN2 or OUT is 100mV greater than the volt-
age on BAT and the voltage on IN1/IN2 or OUT is greater
than the V
The wall adapter detection threshold is set by the follow-
ing equation:
where V
V
is the resistor from the wall adapter input to WALL and
R2 is the resistor from WALL to GND.
Consider an example where the V
somewhere around 4.5V. Resistance on the WALL pin
should be kept relatively low (~10k) in order to prevent false
tripping of the wall comparator due to leakages associated
with the switching element used to connect the adapter
to OUT. Pick R2 to be 10k and solve for R1.
WALL
R
R
V
V
HYST
TH
1
1 10
=
=
is the WALL pin rising threshold (typically 1V), R1
(
R
TH
Adapter
(
2
(Adapter) is the wall adapter detection threshold,
k
UVLO
Adapte
•
•
⎛
⎜ ⎜
⎝
⎛
⎜
⎝
V
4 5
TH
(3.8V typ) threshold.
1 1
.
)
V
=
r r
(
)
Adapter
WALL
–
V
=
1 10
WALL
⎞
⎟ =
⎠
V
WALL HYST
•
)
k
⎛
⎜
⎝
−
−
1
• .
1
+
3 5 35
⎞
⎟ ⎟
⎠
R
R
2
TH
1
=
•
⎞
⎟
⎠
⎛
⎜
⎝
(Adapter) is to be set
1
+
k
R
R
2
1
⎞
⎟
⎠
The nearest 1% resistor is 34.8k. Therefore R1 = 34.8k
and the rising trip point should be 4.48V.
The hysteresis is going to be approximately 134mV for
this example.
Power Dissipation
The conditions that cause the LTC4055/LTC4055-1 to
reduce charge current due to the thermal protection
feedback can be approximated by considering the power
dissipated in the part. For high charge currents and a wall
adapter applied to V
dissipation is approximately:
where P
voltage, V
charge current. It is not necessary to perform any worst-
case power dissipation scenarios because the LTC4055/
LTC4055-1 will automatically reduce the charge current
to maintain the die temperature at approximately 105°C.
However, the approximate ambient temperature at which
the thermal feedback begins to protect the IC is:
Example: An LTC4055/LTC4055-1 operating from a wall
adapter with 5V at V
battery. The ambient temperature above, which the
LTC4055/LTC4055-1 will begin to reduce the 0.8A charge
current, is approximately:
P
T
T
T
T
V
A
A
A
A
D
HYST
= 105°C – P
= 105°C – (V
= 105°C – (5V – 3V) • 0.8A • 37°C/W
= 105°C – 1.6W • 37°C/W = 105°C – 59°C = 46°C
= (V
D
(
BAT
Adapter
OUT
is the power dissipated, V
is the battery voltage and I
– V
LTC4055/LTC4055-1
BAT
D
)
OUT
≈
• θ
OUT
) • I
30
OUT
JA
– V
mV
, the LTC4055/LTC4055-1 power
BAT
providing 0.8A to a 3V Li-Ion
BAT
•
⎛
⎜
⎝
) • I
1
+
BAT
34 8
10
.
• θ
⎞
⎟ ≈
⎠
OUT
JA
BAT
134
is the supply
is the battery
mV
19
4055fb
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