SI9140CQ VISHAY [Vishay Siliconix], SI9140CQ Datasheet - Page 12
SI9140CQ
Manufacturer Part Number
SI9140CQ
Description
SMP Controller For High Performance Process Power Supplies
Manufacturer
VISHAY [Vishay Siliconix]
Datasheet
1.SI9140CQ.pdf
(15 pages)
Si9140
Vishay Siliconix
S-58034—Rev. G, 15-Mar-99
12
The Si9140 achieves the 5-µS transient response by
generating a 100-kHz closed-loop bandwidth. This is possible
only by switching above 400 kHz and utilizing an error
amplifier with at least a 10-MHz bandwidth. The Si9140
controller has a 25-MHz unity gain bandwidth error amplifier.
The switching frequency must be at least four times greater
than the desired closed-loop bandwidth to prevent oscillation.
To respond to the stimuli, the error amplifier bandwidth needs
to be at least 10 times larger than the desired bandwidth.
The Si9140 solution requires only three 330-µF OS-CON
capacitors on the output of power supply to meet the 10-A
transient requirement. Other converter solutions on the
market with 20- to 50-kHz closed loop bandwidths typically
require two to five times the output capacitance specified
above to match the Si9140’s performance.
The theoretical issues and analytical steps involved in
compensating a feedback network are beyond the scope of
this application note. However, to ease the converter design
for
component values for the feedback network are provided in
Table 1 for various combinations of output capacitance.
Figure 6 shows the Bode plot (frequency domain) of the 2.9-V
converter shown schematically in Figure 1.
TABLE 1. Feedback Network Component Values
Notes:
a. Power supply output capacitance.
b.
3 x 330 µF
6 x 100 µF
25 x 1 µF
2 x 330 µF
4 x 100 µF
25 x 1 µF
3 x 330 µF
4 x 100 µF
25 x 1 µF
µ
Decoupling Capacitance
processor decoupling capacitance.
FIGURE 6. 100-kHz BW Synchronous Buck Converter
today’s
Total Output and
b
b
b
a
b
a
b
a
b
. . . . . . . . . . . .Ceramic
. . . . . . . . . . . .Ceramic
. . . . . . . . . . . .Ceramic
. . . . . . . . . . .Os-con
. . . . . . . . . . .Tantalum
. . . . . . . . . . .Os-con
. . . . . . . . . . .Tantalum
. . . . . . . . . . .Tantalum
. . . . . . . . . . .Tantalum
high-performance
5.6 pF
10 pF
10 pF
microprocessors,
C4
180 pF
220 pF
100 pF
C5
240 k
200 k
100 k
typical
R5
Figure 7 is the measured transient response (time domain) for
the 10-A step response. The measured transient response
shows the processor voltage regulating to 70 mV, well within
the 0.145-V regulation.
The Si9140’s switching frequency is determined by the
external R
switching frequency of their choice. For applications where
space is the main constraint, the switching frequency can be
set as high as 2 MHz to minimize inductor and output
capacitor size. In applications where efficiency is the main
concern, the switching frequency can be set low to maximize
battery life. The switching frequency for high-performance
processors applications circuits are set for 400 kHz.
equation for switching frequency is:
The precision reference is set at 1.5 V ± 1.5%. The reference
is capable of sourcing up to 1 mA. The combination of 1.5%
reference and 3.5% transient load regulation safely complies
with the ±5% regulation requirement. If additional margin is
desired, an external precision reference can be used in place
of the internal 1.5-V reference.
SWITCHING AND SYNCHRONOUS
RECTIFICATION MOSFETS
The synchronous gate drive outputs of Si9140 PWM controller
drive the high-side p-channel switch MOSFET and the
low-side n-channel synchronous rectifier MOSFET. The
physical
synchronous rectification requires an additional MOSFET
across the free-wheeling diode (D1). The inductor current will
reach 0 A if the peak-to-peak inductor current equals twice the
output current. In synchronous rectification mode, current is
allowed to flow backwards from the inductor (L1) through the
synchronous MOSFET (Q3) and to the output capacitors (C2)
once the current reaches 0 A.
Figure 1.
prevents the current from flowing in the reverse direction. This
minor difference has a drastic affect on the performance of a
power supply. By allowing the current to flow in the reverse
direction, it preserves the continuous inductor current mode,
maintaining the wide converter bandwidth and improving
efficiency.
during light load to full load guarantees consistent transient
response throughout a wide range of load conditions.
f
OSC
----------------------------------- -
R
OSC
difference
OSC
In non-synchronous rectification, the diode (D1)
Also, maintaining the continuous current mode
0.75
and C
C
OSC
OSC
between
values, allowing designers to set the
FaxBack 408-970-5600, request 70026
(at V
DD
the
=
5.0 V)
Refer to schematic on
non-synchronous
www.siliconix.com
The
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