isl62391 Intersil Corporation, isl62391 Datasheet - Page 13
isl62391
Manufacturer Part Number
isl62391
Description
High-efficiency, Triple-output System Power Supply Controller For Notebook Computers
Manufacturer
Intersil Corporation
Datasheet
1.ISL62391.pdf
(20 pages)
The PGOOD pin indicates when the converter is capable of
supplying regulated voltage. It is an undefined impedance if
V
falling threshold. When a fault is detected, the ISL62391,
ISL62392 will turn on the open-drain NMOS, which will pull
PGOOD low with a nominal impedance of 32Ω. This will flag
the system that one of the output voltages is out of regulation.
Separate enable pins allow for full soft-start sequencing.
Because low shutdown quiescent current is necessary to
prolong battery life in notebook applications, the PVCC 5V
LDO is held off until any of the three enable signals (EN1,
EN2 or LDO3EN) are pulled high. Soft-start of all outputs will
only start until after PVCC is above the 4.2V POR threshold.
In addition to user-programmable sequencing, the ISL62391,
ISL62392 includes a pre-programmed sequential SMPS
soft-start feature. Table 1 shows the SMPS enable truth table.
MOSFET Gate-Drive Outputs LGATE and UGATE
The ISL62391, ISL62392 has internal gate-drivers for the
high-side and low-side N-Channel MOSFETs. The low-side
gate-drivers are optimized for low duty-cycle applications
where the low-side MOSFET conduction losses are
dominant, requiring a low r
pull-down resistance is small in order to clamp the gate of
the MOSFET below the V
transient through the gate at turn-off can be considerable
IN
FLOAT
FLOAT
FLOAT
EN1
FIGURE 24. SOFT-START SEQUENCE FOR ONE SMPS
is not above the rising POR threshold or below the POR
0
0
0
1
1
1
TABLE 1. SMPS ENABLE SEQUENCE LOGIC
FLOAT
FLOAT
FLOAT
EN2
0
1
0
1
0
1
PGOOD DELAY
t
SOFTSTART
1.5ms
All SMPS outputs OFF
All SMPS outputs OFF
SMPS1 OFF, SMPS2 ON
All SMPS outputs OFF
All SMPS outputs OFF
SMPS1 enables after SMPS2 is in regulation
SMPS1 ON, SMPS2 OFF
SMPS2 enables after SMPS1 is in regulation
All SMPS outputs ON simultaneously
2.75ms
GS(th)
DS(ON)
13
START-UP SEQUENCE
at turn-off. The current
MOSFET. The LGATE
VO
EN
FB
PGOOD
VCC AND PVCC
ISL62391, ISL62392
because the gate charge of a low r
large. Adaptive shoot-through protection prevents a gate-driver
output from turning on until the opposite gate-driver output has
fallen below approximately 1V. The dead-time shown in Figure
25 is extended by the additional period that the falling gate
voltage stays above the 1V threshold. The typical dead-time is
21ns. The high-side gate-driver output voltage is measured
across the UGATE and PHASE pins while the low-side gate-
driver output voltage is measured across the LGATE and
PGND pins. The power for the LGATE gate-driver is sourced
directly from the PVCC pin. The power for the UGATE gate-
driver is sourced from a “boot” capacitor connected across the
BOOT and PHASE pins. The boot capacitor is charged from
the 5V PVCC supply through a “boot diode” each time the low-
side MOSFET turns on, pulling the PHASE pin low. The
ISL62391, ISL62392 has integrated boot diodes connected
from the PVCC pins to BOOT pins.
Diode Emulation
FCCM is a logic input that controls the power state of the
ISL62391, ISL62392. If forced high, the ISL62391, ISL62392
will operate in forced continuous-conduction-mode (CCM)
over the entire load range. This will produce the best transient
response to all load conditions, but will have increased
light-load power loss. If FCCM is forced low, the ISL62391,
ISL62392 will automatically operate in Diode Emulation Mode
(DEM) at light load to optimize efficiency in the entire load
range. The transition is automatically achieved by detecting
the load current and turning off LGATE when the inductor
current reaches 0A.
Positive-going inductor current flows from either the source
of the high-side MOSFET, or the drain of the low-side
MOSFET. Negative-going inductor current flows into the
drain of the low-side MOSFET. When the low-side MOSFET
conducts positive inductor current, the phase voltage will be
negative with respect to the GND and PGND pins.
Conversely, when the low-side MOSFET conducts negative
inductor current, the phase voltage will be positive with
respect to the GND and PGND pins. The ISL62391,
UGATE
LGATE
FIGURE 25. LGATE AND UGATE DEAD-TIME
t
LGFUGR
50%
50%
DS(ON)
MOSFET can be
t
UGFLGR
December 22, 2008
FN6666.4
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