LT3575EFE#PBF Linear Technology, LT3575EFE#PBF Datasheet - Page 14
LT3575EFE#PBF
Manufacturer Part Number
LT3575EFE#PBF
Description
IC FLYBACK CONVERTER 16TSSOP
Manufacturer
Linear Technology
Type
Flyback, Isolatedr
Datasheet
1.LT3575EFETRPBF.pdf
(24 pages)
Specifications of LT3575EFE#PBF
Internal Switch(s)
Yes
Synchronous Rectifier
No
Number Of Outputs
1
Voltage - Output
Adj to 60V
Current - Output
2.5A
Frequency - Switching
1MHz
Voltage - Input
3 ~ 40 V
Operating Temperature
-40°C ~ 125°C
Mounting Type
*
Package / Case
16-TSSOP Exposed Pad, 16-eTSSOP, 16-HTSSOP
Voltage - Supply
3 V ~ 40 V
Frequency-max
1MHz
Pwm Type
Regulator
Buck
No
Boost
No
Flyback
Yes
Inverting
No
Doubler
No
Divider
No
Cuk
No
Isolated
Yes
Primary Input Voltage
40V
No. Of Outputs
1
Output Current
3.5A
No. Of Pins
16
Operating Temperature Range
-40°C To +125°C
Msl
MSL 1 - Unlimited
Peak Reflow Compatible (260 C)
Yes
Rohs Compliant
Yes
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
Duty Cycle
-
Available stocks
Company
Part Number
Manufacturer
Quantity
Price
LT3575
APPLICATIONS INFORMATION
Secondary Leakage Inductance
In addition to the previously described effects of leakage
inductance in general, leakage inductance on the secondary
in particular exhibits an additional phenomenon. It forms
an inductive divider on the transformer secondary that
effectively reduces the size of the primary-referred
fl yback pulse used for feedback. This will increase the
output voltage target by a similar percentage. Note that
unlike leakage spike behavior, this phenomenon is load
independent. To the extent that the secondary leakage
inductance is a constant percentage of mutual inductance
(over manufacturing variations), this can be accommodated
by adjusting the R
Winding Resistance Effects
Resistance in either the primary or secondary will reduce
overall efficiency (P
regulation will be maintained independent of winding
resistance due to the boundary mode operation of the
LT3575.
Bifi lar Winding
A bifi lar, or similar winding technique, is a good way to
minimize troublesome leakage inductances. However,
remember that this will also increase primary-to-secondary
capacitance and limit the primary-to-secondary breakdown
voltage, so, bifi lar winding is not always practical. The
Linear Technology applications group is available and
extremely qualifi ed to assist in the selection and/or design
of the transformer.
Setting the Current Limit Resistor
The maximum current limit can be set by placing a resistor
between the R
fl exibility in picking standard off-the-shelf transformers that
may be rated for less current than the LT3575’s internal
power switch current limit. If the maximum current limit
is needed, use a 10k resistor. For lower current limits, the
following equation sets the approximate current limit:
14
R
ILIM
65 10 3 5
ILIM
•
FB
3
pin and ground. This provides some
( .
/R
OUT
REF
A I
/ P
resistor ratio.
IN
LIM
). Good output voltage
)
10
k
The Switch Current Limit vs R
Performance Characteristics section depicts a more
accurate current limit.
Undervoltage Lockout (UVLO)
The SHDN/UVLO pin is connected to a resistive voltage
divider connected to V
threshold on the SHDN/UVLO pin for V
To introduce hysteresis, the LT3575 draws 2.8μA from the
SHDN/UVLO pin when the pin is below 1.22V. The hysteresis
is therefore user-adjustable and depends on the value of
R1. The UVLO threshold for V
The UVLO threshold for V
To implement external run/stop control, connect a small
NMOS to the UVLO pin, as shown in Figure 8. Turning the
NMOS on grounds the UVLO pin and prevents the LT3575
from operating, and the part will draw less than a 1μA of
quiescent current.
V
V
IN UVLO RISING
IN UVLO FALLING
(
(
Figure 8. Undervoltage Lockout (UVLO)
,
,
LT3575
SHDN/UVLO
)
GND
)
3575 F08
IN
1 22
as shown in Figure 8. The voltage
.
1 22
.
IN
V
IN
V R
falling is:
R1
R2
V R
IN
• (
R
• (
2
R
rising is:
ILIM
2
1
1
R
plot in the Typical
2
R
IN
)
2
RUN/STOP
CONTROL
(OPTIONAL)
)
rising is 1.22V.
2 8
.
µA R
•
1
3575f
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