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ISL62871 Datasheet, PDF (11/25 Pages) Intersil Corporation – PWM DC/DC Controller With VID Inputs For Portable GPU Core-Voltage Regulator
ISL62871, ISL62872
VSET(x) where (x) is the first, second, third, or fourth setpoint
reference voltage where:
- VSET1 < VSET2 < VSET3 < VSET4
- VOUT1 < VOUT2 < VOUT3 < VOUT4
The VSET1 setpoint is fixed at 500mV because it
corresponds to the closure of internal switch SW0 that
configures the VSET amplifier as a unity-gain voltage
follower for the 500mV voltage reference VREF.
A feedback voltage-divider network may be required to
achieve the desired reference voltages. Using the feedback
voltage-divider allows the maximum output voltage of the
converter to be higher than the 1.5V maximum setpoint
reference voltage that can be programmed on the SREF pin.
Likewise, the feedback voltage-divider allows the minimum
output voltage of the converter to be higher than the fixed
500mV setpoint reference voltage of VSET1. Scale the
voltage-divider network such that the voltage VFB equals the
voltage VSREF when the converter output voltage is at the
desired level. The voltage-divider relation is given in
Equation 1:
VFB
=
VO
U
T
⋅
----------R----O-----F---S-----------
RFB + ROFS
(EQ. 1)
Where:
- VFB = VSREF
- RFB is the loop-compensation feedback resistor that
connects from the FB pin to the converter output
- ROFS is the voltage-scaling programming resistor that
connects from the FB pin to the GND pin
The attenuation of the feedback voltage divider is written as:
K
=
V-----S----R----E----F---(---l-i--m----)
VOUT(lim)
=
----------R----O-----F---S-----------
RFB + ROFS
(EQ. 2)
Where:
- K is the attenuation factor
- VSREF(lim) is the VSREF voltage setpoint of either
500mV or 1.50V
- VOUT(lim) is the output voltage of the converter when
VSREF = VSREF(lim)
Since the voltage-divider network is in the feedback path, all
output voltage setpoints will be attenuated by K, so it follows
that all of the setpoint reference voltages will be attenuated
by K. It will be necessary then to include the attenuation
factor K in all the calculations for selecting the RSET
programming resistors.
The value of offset resistor ROFS can be calculated only
after the value of loop-compensation resistor RFB has been
determined. The Calculation of ROFS is written as
Equation 3:
ROFS
=
---V-----S----E----T---(--x---)----⋅---R----F----B-----
VOUT – VSET(x)
(EQ. 3)
The setpoint reference voltages are programmed with
resistors that use the naming convention RSET(x) where (x)
is the first, second, third, or fourth programming resistor
connected in series starting at the SREF pin and ending at
the GND pin. When one of the internal switches closes, it
connects the inverting input of the VSET amplifier to a
specific node among the string of RSET programming
resistors. All the resistors between that node and the SREF
pin serve as the feedback impedance RF of the VSET
amplifier. Likewise, all the resistors between that node and
the GND pin serve as the input impedance RIN of the VSET
amplifier. Equation 4 gives the general form of the gain
equation for the VSET amplifier:
VSET(X )
=
VREF
⋅
⎛
⎜1
⎝
+
R--R---I-F-N--⎠⎟⎞
(EQ. 4)
Where:
- VREF is the 500mV internal reference of the IC
- VSET(x) is the resulting setpoint reference voltage that
appears at the SREF pin
Calculating Setpoint Voltage Programming
Resistor Values for ISL62872
TABLE 1. ISL62872 VID TRUTH TABLE
VID STATE
RESULT
VID1
VID0
CLOSE
VSREF
VOUT
1
1
SW0
VSET1
VOUT1
1
0
SW1
VSET2
VOUT2
0
1
SW2
VSET3
VOUT3
0
0
SW3
VSET4
VOUT4
First, determine the attenuation factor K. Next, assign an
initial value to RSET4 of approximately 100kΩ then calculate
RSET1, RSET2, and RSET3 using Equations 5, 6, and 7
respectively. The equation for the value of RSET1 is written
as Equation 5:
RSET1 = -R----S----E----T----4----⋅---K----V-V----SR----E-E--T--F--4--⋅--⋅-K--(---VK----SV----E-S---T-E--2-T----2----–-----V----R----E----F----)
(EQ. 5)
The equation for the value of RSET2 is written as Equation 6:
RSET2 = -R----S----E----T----4----⋅---K----V-K----S-V---E-S--T--E--4--T--⋅-2--(---⋅K---K-V---V--S--S--E--E-T---T-3---3-–-----K----V-----S----E---T----2----)
(EQ. 6)
The equation for the value of RSET3 is written as Equation 7:
RSET3
=
R-----S----E----T----4----⋅---(--K-----V----S----E----T----4----–----K-----V----S----E----T----3---)
KVSET3
(EQ. 7)
The sum of all the programming resistors should be
approximately 300kΩ as shown in Equation 8 otherwise
adjust the value of RSET4 and repeat the calculations.
RSET1 + RSET2 + RSET3 + RSET4 ≅ 300kΩ
(EQ. 8)
Equations 9, 10, 11 and 12 give the specific VSET gain
equations for the ISL62872 setpoint reference voltages.
11
FN6707.0
August 14, 2008