isl62881 Intersil Corporation, isl62881 Datasheet - Page 15
isl62881
Manufacturer Part Number
isl62881
Description
Single-phase Pwm Regulator For Imvp-6.5? Mobile Cpus And Gpus
Manufacturer
Intersil Corporation
Datasheet
1.ISL62881.pdf
(35 pages)
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The current source is used for load line implementation,
current monitor and overcurrent protection.
Figure 12 shows the load line implementation. The
ISL62881 drives a current source I
pin, described by Equation 1.
When using inductor DCR current sensing, a single NTC
element is used to compensate the positive temperature
coefficient of the copper winding thus sustaining the load
line accuracy with reduced cost.
I
voltage drop as shown in Equation 2.
V
line. Changing R
the load line slope. Since I
protection level, it is recommended to first scale I
based on OCP requirement, then select an appropriate
R
Differential Sensing
Figure 12 also shows the differential voltage sensing
scheme. VCC
voltage sensing signals from the processor die. A unity
gain differential amplifier senses the VSS
and adds it to the DAC output. The error amplifier
regulates the inverting and the non-inverting input
voltages to be equal, therefore:
Rewriting Equation 3 and substituting Equation 2 gives:
Equation 4 is the exact equation required for load line
implementation.
The VCC
processor die. The feedback will be open circuit in the
absence of the processor. As shown in Figure 12, it is
recommended to add a “catch” resistor to feed the VR
local output voltage back to the compensator, and add
another “catch” resistor to connect the VR local output
ground to the RTN pin. These resistors, typically
10Ω~100Ω, will provide voltage feedback if the system is
powered up without a processor installed.
CCM Switching Frequency
The R
sets the VW windows size, which therefore sets the
switching frequency. When the ISL62881 is in continuous
conduction mode (CCM), the switching frequency is not
absolutely constant due to the nature of the R
modulator. As explained in “Multiphase R3™ Modulator”
on page 11, the effective switching frequency will
increase during load insertion and will decrease during
VCC
V
VCC
droop
I
droop
droop
droop
droop
SENSE
SENSE
FSET
flows through resistor R
=
=
is the droop voltage required to implement load
value to obtain the desired load line slope.
SENSE
2xV
----------------- -
R
droop
+
resistor between the COMP and the VW pins
–
R
V
i
VSS
Cn
SENSE
droop
and VSS
×
droop
SENSE
I
droop
=
and VSS
V
or scaling I
DAC
=
SENSE
V
15
droop
+
DAC
VSS
SENSE
droop
–
signals come from the
also sets the overcurrent
SENSE
R
droop
droop
droop
are the remote
and creates a
×
can both change
I
droop
out of the FB
SENSE
ISL62881, ISL62881B
3™
voltage
droop
(EQ. 1)
(EQ. 2)
(EQ. 3)
(EQ. 4)
CONFIGURATION DPRSLPVR
CPU VR Application
GPU VR Application
load release to achieve fast response. On the other hand,
the switching frequency is relatively constant at steady
state. Variation is expected when the power stage
condition, such as input voltage, output voltage, load,
etc. changes. The variation is usually less than 15% and
doesn’t have any significant effect on output voltage
ripple magnitude. Equation 5 gives an estimate of the
frequency-setting resistor R
approximately 300kHz switching frequency. Lower
resistance gives higher switching frequency.
Modes of Operation
Table 2 shows the ISL62881 operational modes,
programmed by the logic status of the DPRSLPVR pin.
The ISL62881 enters 1-phase DE mode when there is
DPRSLPVR = 1.
When the ISL62881 is configured for GPU VR application,
DPRSLPVR logic status also controls the output voltage
slew rate. The slew rate is 5mV/µs for DPRSLPVR = 0
and is 10mV/µs for DPRSLPVR = 1.
Dynamic Operation
When the ISL62881 is configured for CPU VR application,
it responds to VID changes by slewing to the new voltage
at 5mV/µs slew rate. As the output approaches the VID
command voltage, the dv/dt moderates to prevent
overshoot. Geyserville-III transitions commands one LSB
VID step (12.5mV) every 2.5µs, controlling the effective
dv/dt at 5mv/µs. The ISL62881 is capable of 5mV/µs
slew rate.
When the ISL62881 is configured for GPU VR application,
it responds to VID changes by slewing to the new voltage
at a slew rate set by the logic status on the DPRSLPVR
pin. The slew rate is 5mV/µs when DPRSLPVR = 0 and is
10mV/µs when DPRSLPVR = 1.
When the ISL62881 is in DE mode, it will actively drive
the output voltage up when the VID changes to a higher
value. It’ll resume DE mode operation after reaching the
new voltage level. If the load is light enough to warrant
DCM, it will enter DCM after the inductor current has
crossed zero for four consecutive cycles. The ISL62881
will remain in DE mode when the VID changes to a lower
value. The output voltage will decay to the new value and
the load will determine the slew rate.
The R
forward. The output voltage is insensitive to a fast slew
rate input voltage change.
R
FSET
TABLE 2. ISL62881 MODES OF OPERATION
3™
(
kΩ
modulator intrinsically has voltage feed
)
=
(
Period μs
(
0
1
0
1
) 0.29
–
fset
OPERATIONAL
)
1-phase CCM
1-phase CCM
×
1-phase DE
1-phase DE
value. 8kΩ R
2.65
MODE
FSET
October 26, 2009
SLEW RATE
VOLTAGE
10mV/µs
5mV/µs
5mV/µs
gives
FN6924.0
(EQ. 5)
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