LTC3855 LINER [Linear Technology], LTC3855 Datasheet - Page 21
LTC3855
Manufacturer Part Number
LTC3855
Description
Dual, Fast, Accurate Step-Down DC/DC Controller
Manufacturer
LINER [Linear Technology]
Datasheet
1.LTC3855.pdf
(54 pages)
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APPLICATIONS INFORMATION
R
The LTC3838 can be configured to sense the inductor
currents through either low value series current sensing
resistors (R
choice between the two current sensing schemes is largely
a design trade-off between cost, power consumption and
accuracy. DCR sensing is becoming popular because it
saves expensive current sensing resistors and is more
power efficient, especially in high current applications.
However, current sensing resistors provide the most ac-
curate current limits for the controller.
A typical R
in Figure 3a. The filter components (R
placed close to the IC. The positive and negative sense
traces need to be routed as a differential pair close to-
gether and Kelvin (4-wire) connected underneath the sense
resistor, as shown in Figure 3b. Sensing current elsewhere
can effectively add parasitic inductance to the current sense
element, degrading the information at the sense terminals
and making the programmed current limit unpredictable.
R
current. Given the maximum current, I
sense voltage, V
inductor ripple current ∆I
be chosen as:
Conversely, given R
thus V
tion. To ensure the maximum output current, sufficient
margin should be built in the calculations to account for
variations of LTC3838 under different operating conditions
and tolerances of external components.
Because of possible PCB noise in the current sensing
loop, the current sensing voltage ripple ∆V
R
SENSE
SENSE
SENSE
R
SENSE
RNG
is chosen based on the required maximum output
Inductor Current Sensing
also needs to be checked in the design to get a
SENSE
voltage can be determined from the above equa-
=
SENSE
I
OUT(MAX)
inductor current sensing scheme is shown
SENSE(MAX)
) or inductor DC resistance (DCR). The
V
SENSE(MAX)
SENSE
–
ΔI
L(MAX)
and I
, set by V
L(MAX)
2
OUT(MAX)
, the value of R
OUT(MAX)
RNG
, V
F
, C
, and maximum
SENSE(MAX)
F
SENSE
) need to be
, maximum
SENSE
= ∆I
and
can
L
•
good signal-to-noise ratio. In general, for a reasonably
good PCB layout, 10mV of ∆V
a conservative number to start with, either for R
Inductor DCR sensing applications.
For today’s highest current density solutions the value
of the sense resistor can be less than 1mΩ and the
peak sense voltage can be as low as 20mV. In addition,
inductor ripple currents greater than 50% with operation
up to 2MHz are becoming more common. Under these
conditions, the voltage drop across the sense resistor’s
parasitic inductance becomes more relevant. A small RC
filter placed near the IC has been traditionally used to re-
duce the effects of capacitive and inductive noise coupled
in the sense traces on the PCB. A typical filter consists of
two series 10Ω resistors connected to a parallel 1000pF
capacitor, resulting in a time constant of 20ns.
This same RC filter, with minor modifications, can be
used to extract the resistive component of the current
sense signal in the presence of parasitic inductance.
Figure 3b. Sense Lines Placement with Sense Resistor
LTC3838
SENSE
SENSE
+
–
PLACED NEAR SENSE PINS
Figure 3a. R
FILTER COMPONENTS
C
F
R
SENSE
R
R
SENSE
F
F
TO SENSE FILTER,
NEXT TO THE CONTROLLER
3838 F03b
Current Sensing
PARASITIC INDUCTANCE
SENSE
R
C
SENSE
CANCELLATION
F
R
• 2R
POLE-ZERO
AND
F
RESISTOR
is recommended as
≤ ESL/R
C
OUT
ESL
LTC3838
S
3838 F03a
SENSE
21
V
OUT
3838fa
or
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