LTC3557EUF#PBF Linear Technology, LTC3557EUF#PBF Datasheet - Page 25
LTC3557EUF#PBF
Manufacturer Part Number
LTC3557EUF#PBF
Description
IC USB POWER MANAGE 28-QFN
Manufacturer
Linear Technology
Datasheet
1.LTC3557EUFPBF.pdf
(28 pages)
Specifications of LTC3557EUF#PBF
Applications
Handheld/Mobile Devices
Voltage - Supply
4.35 V ~ 5.5 V
Operating Temperature
-40°C ~ 85°C
Mounting Type
Surface Mount
Package / Case
28-QFN
Operating Temperature (max)
85C
Operating Temperature (min)
-40C
Pin Count
28
Mounting
Surface Mount
Package Type
QFN EP
Case Length
4mm
Screening Level
Industrial
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
Current - Supply
-
Lead Free Status / Rohs Status
Compliant
Available stocks
Company
Part Number
Manufacturer
Quantity
Price
APPLICATIONS INFORMATION
no additional capacitance on the PROG pin, the battery
charger is stable with program resistor values as high
as 25k. However, additional capacitance on this node
reduces the maximum allowed program resistor. The pole
frequency at the PROG pin should be kept above 100kHz.
Therefore, if the PROG pin has a parasitic capacitance,
C
the maximum resistance value for R
Printed Circuit Board Power Dissipation
Considerations
In order to be able to deliver maximum charge current
under all conditions, it is critical that the Exposed Pad on
the backside of the LTC3557/LTC3557-1 package is soldered
to a ground plane on the board. Correctly soldered to a
2500mm
board, the LTC3557/LTC3557-1 has a thermal resistance
(θ
thermal contact between the Exposed Pad on the backside
of the package and an adequately sized ground plane will
result in thermal resistances far greater than 37°C/W.
The conditions that cause the LTC3557/LTC3557-1 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:
P
where, P
voltage, BAT is the battery voltage and I
charge current. P
switching regulators. The power loss for a step-down
switching regulator can be calculated as follows:
where OUTx is the programmed output voltage, I
the load current and Eff is the % effi ciency which can be
measured or looked up on an effi ciency graph for the
programmed output voltage.
PROG
D
JA
P
R
= (V
D(SWx)
) of approximately 37°C/W. Failure to make good
PROG
, the following equation should be used to calculate
OUT
D
2
is the total power dissipated, V
≤
ground plane on a double-sided 1oz copper
= (OUTx • I
– BAT) • I
2π • 100kHz • C
D(SWx)
OUT
BAT
OUT
1
is the power loss by the step-down
, the LTC3557/LTC3557-1 power
+ P
) • (100 – Eff)/100
D(SW1)
PROG
+ P
PROG
D(SW2)
BAT
OUT
:
is the battery
is the supply
+ P
D(SW3)
OUT
is
It is not necessary to perform any worst-case power
dissipation scenarios because the LTC3557/LTC3557-1
will automatically reduce the charge current to maintain
the die temperature at approximately 110°C. However, the
approximate ambient temperature at which the thermal
feedback begins to protect the IC is:
Example: Consider the LTC3557/LTC3557-1 operating
from a wall adapter with 5V (V
to charge a Li-Ion battery at 3.3V (BAT). Also assume
P
dissipation is:
The ambient temperature above which the LTC3557/
LTC3557-1 will begin to reduce the 1A charge current, is
approximately:
The LTC3557/LTC3557-1 can be used above 42°C, but the
charge current will be reduced below 1A. The charge current
at a given ambient temperature can be approximated by:
thus:
Consider the above example with an ambient temperature of
55°C. The charge current will be reduced to approximately:
P
D(SW1)
D
T
P
T
I
I
= V
=
BAT
BAT
A
A
D
(
= 110°C – P
= 110°C – 1.85W • 37°C/W = 42°C
110°C – T
= (5V – 3.3V) • 1A + 0.15W = 1.85W
=
OUT
=
=
= P
θ
1.49W – 0.15W
110°C – T
110°C – 55°C
JA
D(SW2)
– BAT
37°C/W
θ
JA
1.7V
A
LTC3557/LTC3557-1
5V – 3.3V
D
)
= P
• I
• θ
A
BAT
D(SW3)
JA
− P
− 0.15W
+ P
V
D(SW1)
OUT
= 786mA
D(SW1)
= 0.05W, so the total power
– BAT
OUT
– P
+ P
) providing 1A (I
D(SW2)
D(SW2)
– P
+ P
D(SW3)
D(SW3)
25
35571fc
BAT
)
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