ltc3400es6-1 Linear Technology Corporation, ltc3400es6-1 Datasheet - Page 6

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ltc3400es6-1

Manufacturer Part Number
ltc3400es6-1
Description
600ma, 1.2mhz Micropower Synchronous Boost Converter In Thinsot
Manufacturer
Linear Technology Corporation
Datasheet

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OPERATIO
APPLICATIO S I FOR ATIO
LTC3400-1
above the burst threshold, the LTC3400-1 will resume
continuous PWM operation seamlessly. Referring to the
Block Diagram, an optional capacitor (C
and FB in some circumstances can reduce the peak-to-
PCB LAYOUT GUIDELINES
The high speed operation of the LTC3400-1 demands
careful attention to board layout. You will not get adver-
tised performance with careless layout. Figure 1 shows
the recommended component placement. A large ground
pin copper area will help to lower the chip temperature. A
multilayer board with a separate ground plane is ideal, but
not absolutely necessary.
COMPONENT SELECTION
Inductor Selection
The LTC3400-1 can utilize small surface mount and chip
inductors due to its fast 1.2MHz switching frequency. A
minimum inductance value of 3.3µH is necessary for 3.6V
and lower voltage applications and 4.7µH for output
voltages greater than 3.6V. Larger values of inductance
6
Figure 1. Recommended Component Placement
for Single Layer Board
RECOMMENDED COMPONENT PLACEMENT. TRACES
CARRYING HIGH CURRENT ARE DIRECT. TRACE AREA AT
FB PIN IS SMALL. LEAD LENGTH TO BATTERY IS SHORT
V
IN
U
U
U
1
2
3
SW
GND
FB
SHDN
34001 F02
V
OUT
V
W
IN
V
OUT
6
5
4
FF
(OPTIONAL)
) between V
SHDN
U
OUT
peak V
Mode operation. Typical values for C
220pF.
will allow greater output current capability by reducing the
inductor ripple current. Increasing the inductance above
10µH will increase size while providing little improvement
in output current capability.
The approximate output current capability of the LTC3400-1
versus inductance value is given in the equation below and
illustrated graphically in Figure 2.
where:
η = estimated efficiency
I
V
D = steady-state duty ratio = (V
f = switching frequency (1.2MHz typical)
L = inductance value
I
P
OUT MAX
IN
= peak current limit value (0.6A)
OUT
= input (battery) voltage
(
180
160
140
120
110
ripple and input quiescent current during Burst
80
60
Figure 2. Maximum Output Current vs
Inductance Based On 90% Efficiency
)
3
=
V
IN
η
5
=1.2V
7
I
P
9
INDUCTANCE (µH)
11 13
f L
V
• •
IN
D
15 17 19
2
• –
OUT
V
V
V
V
(
OUT
OUT
FF
1
OUT
OUT
range from 15pF to
= 3.3V
= 3.6V
– V
= 3V
= 5V
34001 F03
D
21
)
IN
23
)/V
OUT
34001f

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