參數(shù)資料
型號: LTC3554EUD#PBF
廠商: LINEAR TECHNOLOGY CORP
元件分類: 穩(wěn)壓器
英文描述: 0.6 A BATTERY CHARGE CONTROLLER, 2590 kHz SWITCHING FREQ-MAX, PQCC20
封裝: 3 X 3 MM, 0.75 MM HEIGHT, LEAD FREE, PLASTIC, QFN-20
文件頁數(shù): 26/36頁
文件大?。?/td> 418K
代理商: LTC3554EUD#PBF
LTC3554/LTC3554-2
32
35542fb
OPERATION
The power dissipated by a step-down switching regulator
can be estimated as follows:
PD(SWx) = (BOUTx IOUT) (100 - Eff)/100
Where BOUTx is the programmed output voltage, IOUT is
the load current and Eff is the % efciency which can
be measured or looked up on an efciency table for the
programmed output voltage.
Thus the power dissipated by all regulators is:
PD(REGS) = PD(SW1) + PD(SW2)
It is not necessary to perform any worst-case power dis-
sipation scenarios because the LTC3554 will automatically
reduce the charge current to maintain the die temperature
at approximately 110°C. However, the approximate ambi-
ent temperature at which the thermal feedback begins to
protect the IC is:
TA = 110°C – PD θJA
Example: Consider the LTC3554 operating from a wall
adapter with 5V (VBUS) providing 400mA (IBAT) to charge a
Li-Ion battery at 3.3V (BAT). Also assume PD(REGS) = 0.3W,
so the total power dissipation is:
PD = (5V – 3.3V) 400mA + 0.3W = 0.98W
The ambient temperature above which the LTC3554 will
begin to reduce the 400mA charge current, is approxi-
mately:
TA = 110°C – 0.98W 70°C/W = 41.4°C
The LTC3554 can be used above 41.4°C, but the charge
current will be reduced below 400mA. The charge current at
a given ambient temperature can be approximated by:
PD = (110°C – TA) / θJA = (VBUS – BAT) IBAT + PD(REGS)
Thus:
IBAT = [(110°C – TA) / θJA - PD(REGS)]
(VBUS – BAT)
Consider the above example with an ambient tempera-
ture of 60°C. The charge current will be reduced to
approximately:
IBAT = [(110°C - 60°C) / 70°C/W - 0.3W]/(5V – 3.3V)
IBAT = (0.71W - 0.3W) / 1.7V = 241mA
Printed Circuit Board Layout
When laying out the printed circuit board, the following
list should be followed to ensure proper operation of the
LTC3554:
1. The Exposed Pad of the package (Pin 21) should con-
nect directly to a large ground plane to minimize thermal
and electrical impedance.
2. The trace to the step-down switching regulator input
supply pin (BVIN) and its decoupling capacitor should be
kept as short as possible. The GND side of this capacitor
should connect directly to the ground plane of the part.
This capacitor provides the AC current to the internal
power MOSFETs and their drivers. It is important to
minimize inductance from this capacitor to the pin of
the LTC3554. Connect BVIN to VOUT through a short
low impedance trace.
3. The switching power traces connecting SW1 and SW2
to their respective inductors should be minimized to
reduce radiated EMI and parasitic coupling. Due to the
large voltage swing of the switching nodes, sensitive
nodes such as the feedback nodes (FB1 and FB2) should
be kept far away or shielded from the switching nodes
or poor performance could result.
4. Connections between the step-down switching regu-
lator inductors and their respective output capacitors
should be kept as short as possible. The GND side of
the output capacitors should connect directly to the
thermal ground plane of the part.
5. Keep the buck feedback pin traces (FB1 and FB2) as
short as possible. Minimize any parasitic capacitance
between the feedback traces and any switching node
(i.e., SW1, SW2 and logic signals). If necessary, shield
the feedback nodes with a GND trace.
6. Connections between the LTC3554 PowerPath pins
(VBUS and VOUT) and their respective decoupling ca-
pacitors should be kept as short as possible. The GND
side of these capacitors should connect directly to the
ground plane of the part.
相關(guān)PDF資料
PDF描述
LTC3565EDD#PBF 2.5 A SWITCHING REGULATOR, 4000 kHz SWITCHING FREQ-MAX, PDSO10
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LTC3565EMSE#TRPBF 2.5 A SWITCHING REGULATOR, 4000 kHz SWITCHING FREQ-MAX, PDSO10
LTC3565IMSE#PBF 2.5 A SWITCHING REGULATOR, 4000 kHz SWITCHING FREQ-MAX, PDSO10
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參數(shù)描述
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