ISL6532CCR Intersil, ISL6532CCR Datasheet - Page 10
ISL6532CCR
Manufacturer Part Number
ISL6532CCR
Description
IC REG/CTRLR ACPI DUAL DDR 28QFN
Manufacturer
Intersil
Datasheet
1.ISL6532CCRZ.pdf
(16 pages)
Specifications of ISL6532CCR
Applications
Memory, DDR/DDR2 Regulator
Current - Supply
5.25mA
Operating Temperature
0°C ~ 70°C
Mounting Type
Surface Mount
Package / Case
28-QFN
Lead Free Status / RoHS Status
Contains lead / RoHS non-compliant
Voltage - Supply
-
Had the cause of the over current still been present after the
delay interval, the over current condition would be sensed
and the regulator would be shut down again for another
delay interval of three soft start cycles. The resulting hiccup
mode style of protection would continue to repeat indefinitely.
The over-current function will trip at a peak inductor current
(I
where I
typical). The OC trip point varies mainly due to the MOSFET
r
normal operating load range, find the R
the equation above with:
the output inductor ripple current.
For an equation for the ripple current see the section under
component guidelines titled ‘Output Inductor Selection’.
A small ceramic capacitor should be placed in parallel with
R
presence of switching noise on the input voltage.
I
DS(ON)
1. The maximum r
2. The minimum I
3. Determine I
PEAK
PEAK)
OCSET
FIGURE 3. V
V
V
V
temperature.
I
DDQ
AGP
PEAK
TT
=
OCSET
determined by:
variations. To avoid over-current tripping in the
T0
to smooth the voltage across R
I
---------------------------------------------------- -
OCSET
>
I
OUT MAX
INTERNAL SOFT-START FUNCTION
AND V
PROTECTION RESPONSES
r
DDQ
is the internal OCSET current source (20µA
DS ON
PEAK
(
x R
(
OCSET
DELAY INTERVAL
and V
DS(ON)
TT
OCSET
)
for:
)
/V
+
AGP
(
--------- -
TT
500mV/DIV
∆I
2
from the specification table.
)
OVER CURRENT PROTECTION
at the highest junction
LDO UNDER VOLTAGE
, where ∆I is
10
TIME
OCSET
OCSET
T1
resistor from
in the
T2
ISL6532C
V
The internal V
through a 3.3A current limit. This current limit protects the
ISL6532C if the LDO is sinking or sourcing current. During
an overcurrent event on the V
disabled. Once the over current condition on the V
removed, V
Over/Under Voltage Protection
All three regulators are protected from faults through internal
Over/Under voltage detection circuitry. If the any rail falls
below 85% of the targeted voltage, then an undervoltage
event is tripped. An under voltage will disable all three
regulators for a period of 3 soft-start cycles, after which a
normal soft-start is initiated. If the output is still under 85% of
target, the regulators will continue to be disabled and soft-
started in a hiccup mode until the fault is cleared. This
protection feature works much the same as the VDDQ PWM
over current protection works. See Figure 3.
If the any rail exceeds 115% of the targeted voltage, then all
three outputs are immediately disabled. The ISL6532C will
not re-enable the outputs until either the bias voltage is
toggled in order to initiate a POR or the S5 signal is forced
LOW and then back to HIGH.
Thermal Protection (S0/S3 State)
If the ISL6532C IC junction temperature reaches a nominal
temperature of 140
ISL6532C will not re-enable the outputs until the junction
temperature drops below 110
is toggled in order to initiate a POR or the SLP_S5 signal is
forced LOW and then back to HIGH.
Shoot-Through Protection
A shoot-through condition occurs when both the upper and
lower MOSFETs are turned on simultaneously, effectively
shorting the input voltage to ground. To protect from a shoot-
through condition, the ISL6532C incorporates specialized
circuitry which insures that complementary MOSFETs are
not ON simultaneously.
The adaptive shoot-through protection utilized by the V
regulator looks at the lower gate drive pin, LGATE, and the
upper gate drive pin, UGATE, to determine whether a
MOSFET is ON or OFF. If the voltage from UGATE or from
LGATE to GND is less than 0.8V, then the respective
MOSFET is defined as being OFF and the other MOSFET is
allowed to turned ON. This method allows the V
regulator to both source and sink current.
Since the voltage of the MOSFET gates are being measured
to determine the state of the MOSFET, the designer is
encouraged to consider the repercussions of introducing
external components between the gate drivers and their
respective MOSFET gates before actually implementing
such measures. Doing so may interfere with the shoot-
through protection.
TT
Over Current Protection
TT
TT
will recover.
LDO is protected from fault conditions
o
C, all regulators will be disabled. The
o
TT
C and either the bias voltage
LDO, only the V
DDQ
TT
TT
LDO is
rail is
DDQ
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