SC403BEVB 查看數據表(PDF) - Semtech Corporation
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SC403BEVB Datasheet PDF : 32 Pages
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SC403B
Applications Information (continued)
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.
ESRMIN
3
2 u S u COUT u fsw
Using Ceramic Output Capacitors
For applications using ceramic output capacitors, the ESR
is normally too small to meet the above ESR criteria. In
these applications it is necessary to add a small virtual ESR
network composed of two capacitors and one resistor, as
shown in Figure 14. This network creates a ramp voltage
across CL, analogous to the ramp voltage generated across
the ESR of a standard capacitor. This ramp is then capaci-
tively coupled into the FB pin via capacitor CC.
High-
side
L
RL
CL
Low-
side
CC
Virtual
ESR
Network
FB
pin
R1
COUT
R2
Figure 14 — Virtual ESR Ramp Circuit
Dropout Performance
The output voltage adjust range for continuous-conduc-
tion operation is limited by the fixed 80ns (typical)
minimum off-time of the one-shot. When working with
low input voltages, the duty-factor limit must be calcu-
lated using worst-case values for on and off times.
The duty-factor limitation is shown by the next equation.
DUTY
t ON(MIN)
t t ON(MIN) OFF(MAX)
The inductor resistance and MOSFET on-state voltage
drops must be included when performing worst-case
dropout duty-factor calculations.
System DC Accuracy (VOUT Controller)
Three factors affect VOUT accuracy: the trip point of the FB
error comparator, the ripple voltage variation with line
and load, and the external resistor tolerance. The error
comparator offset is trimmed so that under static condi-
tions it trips when the feedback pin is within +1% of the
reference voltage.
The on-time pulse from the SC403B in the design example
is calculated to give a pseudo-fixed frequency of 300kHz.
Some frequency variation with line and load is expected.
This variation changes the output ripple voltage. Because
constant on-time converters regulate to the valley of the
output ripple, ½ of the output ripple appears as a DC regu-
lation error. For example, if the output ripple is 50mV with
VIN = 6 volts, then the measured DC output will be 25mV
above the comparator trip point. If the ripple increases to
80mV with VIN = 25V, then the measured DC output will be
40mV above the comparator trip. The best way to mini-
mize this effect is to minimize the output ripple.
To compensate for valley regulation, it may be desirable to
use passive droop. Take the feedback directly from the
output side of the inductor and place a small amount of
trace resistance between the inductor and output capaci-
tor. This trace resistance should be optimized so that at
full load the output droops to near the lower regulation
limit. Passive droop minimizes the required output capaci-
tance because the voltage excursions due to load steps
are reduced as seen at the load.
The use of 1% feedback resistors may result in up to 1%
error. If tighter DC accuracy is required, 0.1% resistors
should be used.
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