IR3086AMTR International Rectifier, IR3086AMTR Datasheet - Page 16
IR3086AMTR
Manufacturer Part Number
IR3086AMTR
Description
XPHASE Phase IC with OVP with fault overtemp detect. The IR3086AM Phase IC combined with an IR XPhase TM Control IC provides a full featured and flexible way to implement power solutions for the latest high performance CPUs and ASICs.
Manufacturer
International Rectifier
Datasheet
1.IR3086AM.pdf
(33 pages)
Specifications of IR3086AMTR
Package
20-Lead MLPQ
Circuit
X-Phase Phase IC
Iout (a)
2.5A Gate Driver
Pbf
PbF Option Available
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IR3086A EXTERNAL COMPONENTS
PWM Ramp Resistor R
PWM ramp is generated by connecting the resistor R
as the capacitor C
the capacitor C
(15). To achieve feed-forward voltage mode control, the resistor R
converter.
Inductor Current Sensing Capacitor C
The DC resistance of the inductor is utilized to sense the inductor current. Usually the resistor R
C
across the capacitor C
component of the capacitor voltage is different from that of the real inductor current. The time constant mismatch
does not affect the average current sharing among the multiple phases, but affect the current signal ISHARE as well
as the output voltage during the load current transient if adaptive voltage positioning is adopted.
Measure the inductance L and the inductor DC resistance R
follows.
The bias current flowing out of the non-inverting input of the current sense amplifier creates a voltage drop across
R
converter current signal ISHARE as well as the accuracy of the converter output voltage if adaptive voltage
positioning is adopted. To reduce the offset voltage, a resistor R
input and the converter output
input and the bias current from the inverting input.
If R
than 2 kΩ and therefore a larger C
Over Temperature Setting Resistors R
The threshold voltage of VRHOT comparator is proportional to the die temperature T
the relationship between the die temperature of phase IC and the temperature of the power converter according to
the power loss, PCB layout and airflow etc, and then calculate HOTSET threshold voltage corresponding to the
allowed maximum temperature from Equation (18).
There are two ways to set the over temperature threshold, central setting and local setting. In the central setting,
only one resistor divider is used, and the setting voltage is connected to HOTSET pins of all the phase ICs. To
reduce the influence of noise on the accuracy of over temperature setting, a 0.1uF capacitor should be placed next
to HOTSET pin of each phase IC. In the local setting, a resistor divider per phase is needed, and the setting voltage
is connected to HOTSET pin of each phase. The 0.1uF decoupling capacitor is not necessary. Use VBIAS as the
reference voltage. If R
CS+
CS+,
CS-
in parallel with the inductor are chosen to match the time constant of the inductor, and therefore the voltage
which is equivalent to an input offset voltage of the current sense amplifier. The offset affects the accuracy of
is not used, R
Page 16 of 33
PWMRMP
PWMRMP
V
R
R
R
R
CS
HOTSET
PWMRMP
HOTSET
CS
CS+
HOTSET1
CS+
PWMRMP
in the range of 100pF and 470pF, and then calculate the resistor R
should be chosen so that the offset voltage is small enough. Usually R
I
I
L
C
2
between PWMRMP and LGND. Choose the desired PWM ramp magnitude V
CSIN
CSIN
represents the inductor current. If the two time constants are not the same, the AC
CS
R
. 4
.
V
L
R
The resistor R
is pre-selected, R
73
IN
HOTSET
V
and Capacitor C
BIAS
*
*
CS+
R
10
CS
f
SW
1
3
value is needed.
V
*
*
HOTSET
CS+
V
C
HOTSET1
T
HOTSET
PWMRMP
J
and Resistors R
CS-
. 1
241
HOTSET2
is determined by the ratio of the bias current from the non-inverting
*
and R
PWMRMP
[ln(
PWMRMP
V
IN
HOTSET2
can be calculated as follows.
V
V
O
DAC
L
. Pre-select the capacitor C
CS+
between a voltage source and PWMRMP pin as well
)
CS-
and R
ln(
should be added between the amplifier inverting
RAMP
V
IN
CS-
V
should be connected to the input of the
DAC
V
PWMRMP
J
(ºC) of phase IC. Determine
)]
CS+
PWMRMP
(15)
(16)
(17)
(18)
(19)
and calculate R
IR3086A
CS+
CS+
2/13/09
should be less
from Equation
and capacitor
RAMP
CS+
and
as
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