LTM4608EV#PBF Linear Technology, LTM4608EV#PBF Datasheet - Page 16
LTM4608EV#PBF
Manufacturer Part Number
LTM4608EV#PBF
Description
IC DC/DC UMODULE 8A 68-LGA
Manufacturer
Linear Technology
Series
µModuler
Type
Point of Load (POL) Non-Isolatedr
Datasheet
1.LTM4608IVPBF.pdf
(26 pages)
Specifications of LTM4608EV#PBF
Design Resources
LTM4608 Spice Model
Output
0.6 ~ 5 V
Number Of Outputs
1
Power (watts)
40W
Mounting Type
Surface Mount
Voltage - Input
2.7 ~ 5.5 V
Package / Case
68-LGA
1st Output
0.6 ~ 5 VDC @ 8A
Size / Dimension
0.59" L x 0.35" W x 0.11" H (15mm x 9mm x 2.8mm)
Power (watts) - Rated
40W
Operating Temperature
-40°C ~ 85°C
Efficiency
95%
Dc To Dc Converter Type
Step Down
Pin Count
68
Input Voltage
5.5V
Output Voltage
0.6 to 5V
Switching Freq
1.7MHz
Output Current
8A
Package Type
LGA
Output Type
Adjustable
Switching Regulator
Yes
Load Regulation
0.75%
Line Regulation
0.2%/V
Mounting
Surface Mount
Input Voltage (min)
2.375V
Operating Temperature Classification
Industrial
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
3rd Output
-
2nd Output
-
Lead Free Status / Rohs Status
Compliant
Available stocks
Company
Part Number
Manufacturer
Quantity
Price
LTM4608
APPLICATIONS INFORMATION
16
The track pin of the master can be controlled by an external
ramp or by R
RC ramp time can be programmed using equation:
Ratiometric tracking can be achieved by a few simple
calculations and the slew rate value applied to the mas-
ter’s track pin. As mentioned above, the TRACK pin has
a control range from 0V to 0.596V. The master’s TRACK
pin slew rate is directly equal to the master’s output slew
rate in Volts/Time:
where MR is the master’s output slew rate and SR is the
slave’s output slew rate in Volts/Time. When coincident
tracking is desired, then MR and SR are equal, thus R
is equal the 10k. R
where V
tor and V
top feedback resistor of the slave regulator in equal slew
rate or coincident tracking, then R
V
Figure 5.
In ratiometric tracking, a different slew rate maybe desired
for the slave regulator. R
is slower than MR. Make sure that the slave supply slew
rate is chosen to be fast enough so that the slave output
voltage will reach it final value before the master output.
FB
R
MR
t = – ln 1–
SR
= V
FB4
• 10k = R
TRACK
FB
=
TRACK
is the feedback voltage reference of the regula-
10k
V
FB
SR
. Therefore R
+
and C
is 0.596V. Since R
0.596V
FB3
R
0.596V
V
V
FB4
FB2
FB
IN
SR
is derived from equation:
–
in Figure 5 referenced to V
• R
V
FB3
R
TRACK
FB3
FB3
SR
can be solved for when SR
= 10k and R
• C
FB4
FB3
SR
is equal to R
is equal to the 10k
FB4
= 6.65k in
FB2
IN
. The
with
FB3
For example: MR = 3.3V/ms and SR = 1.5V/ms. Then
R
For applications that do not require tracking or sequencing,
simply tie the TRACK pin to SV
turn on/off. Connecting TRACK to SV
~100µs of internal soft-start during start-up. Load current
needs to be present during track down.
Power Good
The PGOOD pin is an open-drain pin that can be used to
monitor valid output voltage regulation. This pin monitors
a ±10% window around the regulation point. As shown
in Figure 20, the sequencing function can be realized in a
dual output application by controlling the RUN pins and the
PGOOD signals from each other. The 1.5V output begins
its soft starting after the PGOOD signal of 3.3V output
becomes high, and 3.3V output starts its shutdown after
the PGOOD signal of 1.5V output becomes low. This can
be applied to systems that require voltage sequencing
between the core and sub-power supplies.
FB3
= 22.1k. Solve for R
Figure 6. Output Voltage Coincident Tracking
FB4
TIME
to equal to 4.87k.
MASTER OUTPUT
IN
SLAVE OUTPUT
to let RUN control the
IN
4608 F06
also enables the
4608fc
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