LTC3407A-2 Linear Technology, LTC3407A-2 Datasheet - Page 10
LTC3407A-2
Manufacturer Part Number
LTC3407A-2
Description
Dual Synchronous 800mA2.25MHz Step-Down DC/DC Regulator
Manufacturer
Linear Technology
Datasheet
1.LTC3407A-2.pdf
(16 pages)
LTC3407A-2
APPLICATIO S I FOR ATIO
At worst, the ringing at the input can be large enough to
damage the part.
Since the ESR of a ceramic capacitor is so low, the input
and output capacitor must instead fulfill a charge storage
requirement. During a load step, the output capacitor must
instantaneously supply the current to support the load
until the feedback loop raises the switch current enough to
support the load. The time required for the feedback loop
to respond is dependent on the compensation and the
output capacitor size. Typically, 3-4 cycles are required to
respond to a load step, but only in the first cycle does the
output drop linearly. The output droop, V
about 3 times the linear drop of the first cycle. Thus, a good
place to start is with the output capacitor size of approxi-
mately:
More capacitance may be required depending on the duty
cycle and load step requirements.
In most applications, the input capacitor is merely re-
quired to supply high frequency bypassing, since the
impedance to the supply is very low. A 10μF ceramic
capacitor is usually enough for these conditions.
Setting the Output Voltage
The LTC3407A-2 develops a 0.6V reference voltage be-
tween the feedback pin, V
Figure 1. The output voltage is set by a resistive divider
according to the following formula:
Keeping the current small (<5μA) in these resistors maxi-
mizes efficiency, but making them too small may allow
stray capacitance to cause noise problems and reduce the
phase margin of the error amp loop.
To improve the frequency response, a feed-forward ca-
pacitor C
route the V
inductor or the SW line.
10
C
OUT
V
≈
F
OUT
may also be used. Great care should be taken to
3
FB
f
O
line away from noise sources, such as the
=
•
Δ
0 6
V
I
OUT
.
DROOP
V
U
⎛
⎝ ⎜
1
+
R
U
R
FB
2
1
⎞
⎠ ⎟
, and ground as shown in
W
DROOP
, is usually
U
Power-On Reset
The POR pin is an open-drain output which pulls low when
either regulator is out of regulation. When both output
voltages are within ±8.5% of regulation, a timer is started
which releases POR after 2
pulse skipping mode). This delay can be significantly
longer in Burst Mode operation with low load currents,
since the clock cycles only occur during a burst and there
could be milliseconds of time between bursts. This can be
bypassed by tying the POR output to the MODE/SYNC
input, to force pulse skipping mode during a reset. In
addition, if the output voltage faults during Burst Mode
sleep, POR could have a slight delay for an undervoltage
output condition and may not respond to an overvoltage
output. This can be avoided by using pulse skipping mode
instead. When either channel is shut down, the POR
output is pulled low, since one or both of the channels are
not in regulation.
Mode Selection & Frequency Synchronization
The MODE/SYNC pin is a multipurpose pin which provides
mode selection and frequency synchronization. Connect-
ing this pin to V
provides the best low current efficiency at the cost of a
higher output voltage ripple. When this pin is connected to
ground, pulse skipping operation is selected which pro-
vides the lowest output ripple, at the cost of low current
efficiency.
The LTC3407A-2 can also be synchronized to another
LTC3407A-2 by the MODE/SYNC pin. During synchroni-
zation, the mode is set to pulse skipping and the top switch
turn-on is synchronized to the rising edge of the external
clock.
Checking Transient Response
The regulator loop response can be checked by looking at
the load transient response. Switching regulators take
several cycles to respond to a step in load current. When
a load step occurs, V
equal to ΔI
resistance of C
discharge C
the regulator to return V
LOAD
OUT
generating a feedback error signal used by
OUT
IN
• ESR, where ESR is the effective series
enables Burst Mode operation, which
. ΔI
OUT
OUT
LOAD
immediately shifts by an amount
to its steady-state value. During
16
clock cycles (about 29ms in
also begins to charge or
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