IR3527MTRPBF International Rectifier, IR3527MTRPBF Datasheet - Page 10
IR3527MTRPBF
Manufacturer Part Number
IR3527MTRPBF
Description
IC CTRL XPHASE3 DUAL 24-MLPQ
Manufacturer
International Rectifier
Series
XPhase3™r
Datasheet
1.IR3527MTRPBF.pdf
(20 pages)
Specifications of IR3527MTRPBF
Applications
Processor
Current - Supply
8mA
Voltage - Supply
8 V ~ 28 V
Operating Temperature
0°C ~ 125°C
Mounting Type
Surface Mount
Package / Case
*
Package
24-Lead MLPQ
Circuit
X-Phase Phase IC
Iout (a)
1.3A Gate Driver
Pbf
PbF Option Available
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
Available stocks
Company
Part Number
Manufacturer
Quantity
Price
Part Number:
IR3527MTRPBF
Manufacturer:
IR
Quantity:
20 000
Since the voltage drop in the body diode is often comparable to the output voltage, the inductor current slew rate
can be increased significantly. This patented technique is referred to as “body braking” and is accomplished through
the “body braking comparator” located in the phase IC. If the error amplifier’s output voltage drops below the output
voltage of the share adjust amplifier in the phase IC, this comparator turns off the low side gate driver.
Lossless Average Inductor Current Sensing
Inductor current can be sensed by connecting a series resistor and a capacitor network in parallel with the inductor
and measuring the voltage across the capacitor, as shown in Figure 5. The equation of the sensing network is,
Usually the resistor Rcs and capacitor Ccs are chosen so that the time constant of Rcs and Ccs equals the time
constant of the inductor which is the inductance L over the inductor DCR (R
voltage across Ccs is proportional to the current through L, and the sense circuit can be treated as if only a sense
resistor with the value of R
inductor DC current, but affects the AC component of the inductor current.
The advantage of sensing the inductor current versus high side or low side sensing is that actual output current
being delivered to the load is obtained rather than peak or sampled information about the switch currents. The
output voltage can be positioned to meet a load line based on real time information. Except for a sense resistor in
series with the inductor, this is the only sense method that can support a single cycle transient response. Other
methods provide no information during either load increase (low side sensing) or load decrease (high side sensing).
An additional problem associated with peak or valley current mode control for voltage positioning is that they suffer
from peak-to-average errors. These errors will show in many ways but one example is the effect of frequency
variation. If the frequency of a particular unit is 10% low, the peak to peak inductor current will be 10% larger and
the output impedance of the converter will drop by about 10%. Variations in inductance, current sense amplifier
bandwidth, PWM prop delay, any added slope compensation, input voltage, and output voltage are all additional
sources of peak-to-average errors.
Current Sense Amplifier
A high speed differential current sense amplifier is located in the phase IC, as shown in Figure 5. Its gain is
nominally 32.5 and the 3850 ppm/ºC increase in inductor DCR should be compensated in the voltage loop feedback
path.
The current sense amplifier can accept positive differential input up to 50mV and negative up to -10mV before
clipping. The output of the current sense amplifier is summed with the DAC voltage and sent to the control IC and
other phases through an on-chip 3K
tied together and the voltage on the share bus represents the average current through all the inductors and is used
Page 10 of 20
Figure 5 - Inductor Current Sensing and Current Sense Amplifier
L
was used. The mismatch of the time constants does not affect the measurement of
v
C
CSOUT
(
s
)
v
Current
Sense Amp
L
(
s
)
1
i
L
sR
1
CS
L
R
C
CS
CS
v
L
R
C
v
i
L
c
CS
L
CS
(
s
)
1
R
sR
V
L
O
CS
C
sL
C
O
CS
L
). If the two time constants match, the
V3.0
IR3527
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