SS6610G Ver la hoja de datos (PDF) - Silicon Standard Corp.
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SS6610G Datasheet PDF : 16 Pages
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Shutdown
The whole circuit is shutdown when VSHDN is low. In
shutdown mode, the current can flow from the battery
to the output due to the body diode of the P-MOSFET.
VOUTfalls to approximately (Vin - 0.6V) and LX remains
high impedance. The capacitance and load at OUT de-
termine the rate at which VOUT decays. Shutdown
can be pulled as high as 6V. Regardless of the volt-
age at OUT.
Selecting the Output Voltage
VOUT can be simply set to 3.3V/5.0V by connecting the
FB pin to OUT/GND due to the use of an internal resis-
tor divider in the IC (Fig.32 and Fig.33). In order to
adjust output voltage, a resistor divider is connected
to VOUT, FB, GND (Fig.34). Vout can be calculated
by the following equation:
R5=R6 [(VOUT / VREF )-1] .....................................(1)
where V REF =1.23V and VOUT ranges from 1.8V to
5.5V. The recommended R6 is 240kΩ.
Low-Battery Detection
The SS6610 series contains an on-chip comparator with
50mV internal hysteresis (REF, REF+50mV) for low
battery detection. If the voltage at LBI falls below the
internal reference voltage, LBO ( an open-drain out-
put) sinks current to GND.
Component Selection
1. Inductor Selection
An inductor value of 22µH performs well in most
applications. The SS6610 series also work with
inductors in the 10µH to 47µH range. An inductor
with higher peak inductor current creates a higher
output voltage ripple (IPEAK X output filter capaci-
tor ESR). The inductor’s DC resistance signifi-
cantly affects efficiency. We can calculate the
maximum output current as follows:
IOUT(MAX)
=
VIN
VOUT
ILIM
−
t
OFF
VOUT − VIN
2×L
η
SS6610/11G
……………………………………………………(2)
where IOUT(MAX)=maximum output current in
amps
VIN=input voltage
L=inductor value in µH
η =efficiency (typically 0.9)
tOFF=LX switch’ off-time in µs
ILIM=1.0A or 0.65A
2. Capacitor Selection
The output ripple voltage is related to the peak
inductor current and the output capacitor ESR.
Besides output ripple voltage, the output ripple
current may also be of concern. A filter capacitor
with low ESR is helpful to the efficiency and the
steady state output current of the SS6610 series.
Therefore a NIPPON MCM Series tantalum
capacitor of 100µF/6V is recommended. A smaller
capacitor (down to 47μF with higher ESR) is ac-
ceptable for light loads or in applications that can
tolerate higher output ripple.
3. PCB Layout and Grounding
Since the SS6610/11’s switching frequency can
range up to 500kHz, the SS6610/11 can be very
sensitive. Careful printed circuit layout is im-
portant for minimizing ground bounce and noise.
The OUT pin should be as clear as possible,
and the GND pin should be placed close to the
ground plane. Keep the IC’s GND pin and the
ground leads of the input and output filter capaci-
tors less than 0.2in (5mm) apart. In addition,
keep all connections to the FB and LX pins as
short as possible. In particular, when using ex-
ternal feedback resistors, locate them as close
to the FB pin as possible. To maximize output power
and efficiency, and minimize output ripple voltage,
use a ground plane and solder the IC’s GND di-
rectly to the ground plane. Fig. 35 to 37 are the
recommended layout diagrams.
4/21/2006 Rev.3.01
www.SiliconStandard.com
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