LT3970EDDB-3.3#PBF Linear Technology, LT3970EDDB-3.3#PBF Datasheet - Page 11
LT3970EDDB-3.3#PBF
Manufacturer Part Number
LT3970EDDB-3.3#PBF
Description
IC, STEP-DOWN REGULATOR, DFN-10
Manufacturer
Linear Technology
Datasheet
1.LT3970EMS-3.3PBF.pdf
(22 pages)
Specifications of LT3970EDDB-3.3#PBF
Primary Input Voltage
12V
No. Of Outputs
1
Output Voltage
3.3V
Output Current
350mA
No. Of Pins
10
Operating Temperature Range
-40°C To +125°C
Peak Reflow Compatible (260 C)
Yes
Msl
MSL 1 - Unlimited
Rohs Compliant
Yes
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
Available stocks
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Quantity
Price
APPLICATIONS INFORMATION
The highest allowed V
(V
be calculated by the following equation:
where t
However, the circuit will tolerate inputs up to the absolute
maximum ratings of the V
chosen switching frequency. During such transients where
V
be reduced below the programmed frequency to prevent
damage to the part. The output voltage ripple and inductor
current ripple may also be higher than in typical operation,
however the output will still be in regulation.
Inductor Selection
For a given input and output voltage, the inductor value
and switching frequency will determine the ripple current.
The ripple current increases with higher V
decreases with higher inductance and faster switching
frequency. A good starting point for selecting the induc-
tor value is:
Table 2. Inductor Vendors
VENDOR
Coilcraft
Sumida
Toko
Würth Elektronik
Coiltronics
Murata
IN
IN(OP-MAX)
L
V
is higher than V
IN OP MAX
=
(
3
ON(MIN)
V
-
OUT
f
SW
) is limited by minimum duty cycle and can
)
+
=
is the minimum switch on-time (~150ns).
V
D
f
SW
IN(OP-MAX)
V
OUT
•
t
ON MIN
+
IN
IN
(
V
and BOOST pins, regardless of
D
, the switching frequency will
during normal operation
URL
www.coilcraft.com
www.sumida.com
www.tokoam.com
www.we-online.com
www.cooperet.com
www.murata.com
)
–
V
D
+
V
SW
IN
or V
OUT
and
where V
L is in μH and f
rating must be greater than the maximum load current
and its saturation current should be about 30% higher.
For robust operation in fault conditions (start-up or short
circuit) and high input voltage (>30V), the saturation
current should be above 500mA. To keep the effi ciency
high, the series resistance (DCR) should be less than
0.1Ω, and the core material should be intended for high
frequency applications. Table 2 lists several vendors and
suitable types.
This simple design guide will not always result in the
optimum inductor selection for a given application. As a
general rule, lower output voltages and higher switching
frequency will require smaller inductor values. If the ap-
plication requires less than 350mA load current, then a
lesser inductor value may be acceptable. This allows use
of a physically smaller inductor, or one with a lower DCR
resulting in higher effi ciency. There are several graphs in
the Typical Performance Characteristics section of this data
sheet that show the maximum load current as a function
of input voltage for several popular output voltages. Low
inductance may result in discontinuous mode operation,
which is acceptable but reduces maximum load current.
For details of maximum output current and discontinu-
ous mode operation, see Linear Technology Application
Note 44. Finally, for duty cycles greater than 50% (V
> 0.5), there is a minimum inductance required to avoid
subharmonic oscillations. See Application Note 19.
Input Capacitor
Bypass the input of the LT3970 circuit with a ceramic
capacitor of X7R or X5R type. Y5V types have poor
performance over temperature and applied voltage, and
should not be used. A 1μF to 4.7μF ceramic capacitor
is adequate to bypass the LT3970 and will easily handle
LT3970/LT3970-3.3/LT3970-5
D
is the voltage drop of the catch diode (~0.7V),
SW
is in MHz. The inductor’s RMS current
11
OUT
3970fa
/V
IN
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