ISL6313 INTERSIL [Intersil Corporation], ISL6313 Datasheet - Page 19
ISL6313
Manufacturer Part Number
ISL6313
Description
Two-Phase Buck PWM Controller with Integrated MOSFET Drivers for Intel VR11 and AMD Applications
Manufacturer
INTERSIL [Intersil Corporation]
Datasheet
1.ISL6313.pdf
(33 pages)
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Dynamic VID
Modern microprocessors need to make changes to their core
voltage as part of normal operation. They direct the ISL6313
to do this by making changes to the VID inputs. The ISL6313
is required to monitor the DAC inputs and respond to on-the-
fly VID changes in a controlled manner, supervising a safe
output voltage transition without discontinuity or disruption.
The DAC mode the ISL6313 is operating in determines how
the controller responds to a dynamic VID change.
Intel Dynamic VID Transitions
When in Intel VR11 mode the ISL6313 checks the VID inputs
on the positive edge of an internal 5.5MHz clock. If a new
code is established and it remains stable for 3 consecutive
readings (0.36µs to 0.54µs), the ISL6313 recognizes the new
code and changes the internal DAC reference directly to the
new level. The Intel processor controls the VID transitions and
is responsible for incrementing or decrementing one VID step
at a time. In VR11 mode, the ISL6313 will immediately change
the internal DAC reference to the new requested value as
soon as the request is validated, which means the fastest
recommended rate at which a bit change can occur is once
every 1µs. If the VID code is changed by more then one step
at a time, the DAC will try to track it at a 5.5MHz step rate.
This will likely cause an overcurrent or overvoltage fault.
AMD Dynamic VID Transitions
When running in AMD 5-bit or 6-bit modes of operation, the
ISL6313 responds differently to a dynamic VID change then
when in Intel VR11 mode. In the AMD modes the ISL6313 still
checks the VID inputs on the positive edge of an internal
5.5MHz clock. In these modes the VID code can be changed
by more than a 1-bit step at a time. If a new code is
established and it remains stable for 3 consecutive readings
(0.36µs to 0.54µs), the ISL6313 recognizes the change and
begins slewing the DAC in 6.25mV steps at a stepping
frequency of 345kHz until the VID and DAC are equal. Thus,
the total time required for a VID change, t
only on the size of the VID change (ΔV
The time required for a ISL6313-based converter in AMD 5-bit
DAC configuration to make a 1.1V to 1.5V reference voltage
change is about 186µs, as calculated using Equation 14.
VID “Off” DAC Codes
Both the Intel VR11 and the AMD 5-bit VID tables include “Off”
DAC codes, which indicate to the controller to disable all
regulation. Recognition of these codes is slightly different in that
they must be stable for 4 consecutive readings of a 5.5MHz
clock (0.54µs to 0.72µs) to be recognized. Once an “Off” code
is recognized the ISL6313 latches off, and must be reset by
dropping the EN pin.
t
DVID
=
------------------------- -
345
1
×
10
3
⋅
⎛
⎝
-------------------- -
0.00625
Δ
V
VID
⎞
⎠
19
VID
DVID
).
, is dependent
(EQ. 14)
ISL6313
Compensating Dynamic VID Transitions
During a VID transition, the resulting change in voltage on
the FB pin and the COMP pin causes an AC current to flow
through the error amplifier compensation components from
the FB to the COMP pin. This current then flows through the
feedback resistor, R
overshoot or undershoot at the end of the VID transition. In
order to ensure the smooth transition of the output voltage
during a VID change, a VID-on-the-fly compensation
network is required. This network is composed of a resistor
and capacitor in series, R
and the FB pin.
This VID-on-the-fly compensation network works by
sourcing AC current into the FB node to offset the effects of
the AC current flowing from the FB to the COMP pin during a
VID transition. To create this compensation current the
ISL6313 sets the voltage on the DVC pin to be 2x the voltage
on the REF pin. Since the error amplifier forces the voltage
on the FB pin and the REF pin to be equal, the resulting
voltage across the series RC between DVC and FB is equal
to the REF pin voltage. The RC compensation components,
R
amount of compensation current.
The amount of compensation current required is dependant
on the modulator gain of the system, K1, and the error
amplifier R-C components, R
between the FB and COMP pins. Use Equations 15, 16, and
17 below to calculate the RC component values, R
C
these equations: V
V
are the error amplifier R-C components between the FB and
COMP pins.
K1
R
C
PP
DVC
DVC
DVC
DVC
FIGURE 10. DYNAMIC VID COMPENSATION NETWORK
=
C
REF
is the oscillator ramp amplitude (1.5V); and R
REF
, for the VID-on-the-fly compensation network. For
---------- -
V
V
and C
=
=
PP
IN
VSEN
A R
C
------- -
A
C
×
DVC
DVC
V
DAC
C
, can then be selected to create the desired
A
+ R
C
IN
FB
DVC
=
GND
is the input voltage for the power train;
x2
---------------- -
K1 1
, and can cause the output voltage to
I
DVC
K1
R
–
DVC
FB
R
C
DVC
and C
I
DVC
and C
ISL6313 INTERNAL CIRCUIT
= I
DVC
FB
C
C
, that are in series
C
, between the DVC
C
+
-
AMPLIFIER
I
ERROR
C
R
C
C
March 5, 2007
DVC
and C
(EQ. 15)
(EQ. 16)
(EQ. 17)
COMP
FN6448.0
and
C
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