SC414MLTRT Semtech, SC414MLTRT Datasheet - Page 24
SC414MLTRT
Manufacturer Part Number
SC414MLTRT
Description
IC BUCK SYNC ADJ 6A 28MLPQ
Manufacturer
Semtech
Series
SmartDrive™r
Type
Step-Down (Buck)r
Datasheet
1.SC414MLTRT.pdf
(29 pages)
Specifications of SC414MLTRT
Mfg Application Notes
SC414 Basic Design Procedure
Internal Switch(s)
Yes
Synchronous Rectifier
No
Number Of Outputs
1
Voltage - Output
0.75 ~ 5.5 V
Current - Output
6A
Frequency - Switching
200kHz ~ 1MHz
Voltage - Input
3 ~ 28 V
Operating Temperature
-40°C ~ 85°C
Mounting Type
Surface Mount
Package / Case
28-MLPQ
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
Power - Output
-
Other names
SC414MLTR
Available stocks
Company
Part Number
Manufacturer
Quantity
Price
Part Number:
SC414MLTRT
Manufacturer:
SEMTECH/美国升特
Quantity:
20 000
Applications Information (continued)
This causes the output current to move from 6A to 0A in
4.8μs, giving the minimum output capacitance require-
ment shown in the following equation.
Note that C
compared to 772μF based on a worst-case load release. To
meet the two design criteria of minimum 443μF and
maximum 15mΩ ESR, select two capacitors rated at 220μF
and 15mΩ ESR or less.
It is recommended that an additional small capacitor be
placed in parallel with C
switching noise.
Stability Considerations
Unstable operation is possible with adaptive on-time con-
trollers, and usually takes the form of double-pulsing or
ESR loop instability.
Double-pulsing occurs due to switching noise seen at the
FB input or because the FB ripple voltage is too low. This
causes the FB comparator to trigger prematurely after the
minimum off -time has expired. In extreme cases the noise
can cause three or more successive on-times. Double-
pulsing will result in higher ripple voltage at the output,
but in most applications it will not aff ect operation. This
form of instability can usually be avoided by providing the
FB pin with a smooth, clean ripple signal that is at least
10mVp-p, which may dictate the need to increase the ESR
of the output capacitors. It is also imperative to provide a
proper PCB layout as discussed in the Layout Guidelines
section.
Another way to eliminate doubling-pulsing is to add a
small (~ 10pF) capacitor across the upper feedback resis-
tor, as shown in Figure 13. This capacitor should be left
unpopulated unless it can be confirmed that double-
pulsing exists. Adding the C
ripple into FB to help eliminate the problem. An optional
connection on the PCB should be available for this
capacitor.
C
C
OUT
OUT
. 7
443
OUT
26
is much smaller in this example, 443μF
A
F
1
5 .
OUT
H
in order to fi lter high frequency
2
TOP
. 7
. 1
1
26
capacitor will couple more
05
V
A
V
. 1
1
V
6
25
A
A
1
s
ESR loop instability is caused by insufficient ESR. The
details of this stability issue are discussed in the ESR
Requirements section. The best method for checking sta-
bility is to apply a zero-to-full load transient and observe
the output voltage ripple envelope for overshoot and
ringing. Ringing for more than one cycle after the initial
step is an indication that the ESR should be increased.
One simple way to solve this problem is to add trace resis-
tance in the high current output path. A side eff ect of
adding trace resistance is a decrease in load regulation.
ESR Requirements
A minimum ESR is required for two reasons. One reason is
to generate enough output ripple voltage to provide
10mVp-p at the FB pin (after the resistor divider) to avoid
double-pulsing.
The second reason is to prevent instability due to insuffi -
cient ESR. The on-time control regulates the valley of the
output ripple voltage. This ripple voltage is the sum of the
two voltages. One is the ripple generated by the ESR, the
other is the ripple due to capacitive charging and dis-
charging during the switching cycle. For most applica-
tions, the total output ripple voltage is dominated by the
output capacitors, typically SP or POSCAP devices. For
stability the ESR zero of the output capacitor should be
lower than approximately one-third the switching fre-
quency. The formula for minimum ESR is shown by the
following equation.
E
SR
Figure 13 — Capacitor Coupling to FB Pin
MIN
V
OUT
2
C
3
OUT
f
C
sw
R1
TOP
R2
SC414/SC424
To FB pin
24
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