LT3574IMS#PBF Linear Technology, LT3574IMS#PBF Datasheet - Page 8
LT3574IMS#PBF
Manufacturer Part Number
LT3574IMS#PBF
Description
IC PWM FLYBCK ISO CM 16MSOP
Manufacturer
Linear Technology
Type
Flyback, Isolated, PWM - Current Moder
Datasheet
1.LT3574EMSPBF.pdf
(24 pages)
Specifications of LT3574IMS#PBF
Internal Switch(s)
Yes
Synchronous Rectifier
No
Number Of Outputs
1
Voltage - Output
Adj to 60V
Current - Output
650mA
Frequency - Switching
40kHz ~ 1MHz
Voltage - Input
3 ~ 40 V
Operating Temperature
-40°C ~ 125°C
Mounting Type
*
Package / Case
16-MSOP
Voltage - Supply
3 V ~ 40 V
Frequency-max
1MHz
Duty Cycle
52%
Pwm Type
Current Mode
Buck
No
Boost
No
Flyback
Yes
Inverting
No
Doubler
No
Divider
No
Cuk
No
Isolated
Yes
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
Available stocks
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Price
ERROR AMPLIFIER—PSEUDO DC THEORY
In the Block Diagram, the R
can be found. They are external resistors used to program
the output voltage. The LT3574 operates much the same way
as traditional current mode switchers, the major difference
being a different type of error amplifier which derives its
feedback information from the flyback pulse.
Operation is as follows: when the output switch, Q1, turns
off, its collector voltage rises above the V
plitude of this flyback pulse, i.e., the difference between
it and V
The flyback voltage is then converted to a current by
the action of R
through resistor R
This voltage is fed into the flyback error amplifier. The
flyback error amplifier samples this output voltage infor-
mation when the secondary side winding current is zero.
The error amplifier uses a bandgap voltage, 1.23V, as the
reference voltage.
The relatively high gain in the overall loop will then cause
the voltage at the R
bandgap reference voltage V
V
LT3574
applications inForMation
FLBK
V
V
I
ESR = Total impedance of secondary circuit
N
turns ratio
a = Ratio of Q1 I
V
a
V
SEC
FLBK
F
BG
PS
FLBK
= D1 forward voltage
and V
V
= Internal bandgap reference
= Transformer secondary current
IN
R
= Transformer effective primary-to-secondary
FLBK
= (V
, is given as:
FB
=
BG
V
OUT
=
BG
FB
may then be expressed as:
+ V
R
and Q2. Nearly all of this current flows
R
V
REF
R
REF
BG
C
REF
REF
FB
F
to I
+ I
to form a ground-referred voltage.
resistor to be nearly equal to the
E
SEC
or
, typically ≈ 0.986
REF
a
1
,
BG
• ESR) • N
(R4) and R
. The relationship between
PS
FB
IN
(R3) resistors
rail. The am-
In combination with the previous V
an expression for V
programming resistors, transformer turns ratio and diode
forward voltage drop:
Additionally, it includes the effect of nonzero secondary
output impedance (ESR). This term can be assumed to
be zero in boundary control mode. More details will be
discussed in the next section.
Temperature Compensation
The first term in the V
perature dependence, but the diode forward drop has a
significant negative temperature coefficient. To compen-
sate for this, a positive temperature coefficient current
source is connected to the R
a resistor to ground connected to the T
temperature coefficient, the following equation is used:
The resistor value given by this equation should also be
verified experimentally, and adjusted if necessary to achieve
optimal regulation over temperature.
The revised output voltage is as follows:
(dV
coefficient
(dV
V
R
V
V
d
d
TC
OUT
OUT
V
TC
T
F
TC
F
= 0.55V
/d
=
= −
/dT) = 2mV
=
=
T
−
N
) = Diode’s forward voltage temperature
V
V
−
R
R
R
PS
BG
BG
FB
TC
FB
R
V
•
TC
TC
R
R
R
•
R
d
REF
OUT
REF
FB
•
V
FB
N
F F
OUT
PS
1
1
, in terms of the internal reference,
/
N
d
R
PS
•
T
a
equation does not have a tem-
FB
N
PS
a
d
•
N
REF
1
1
d
V
d
PS
–
T
TC
d
V
a
pin. The current is set by
I
T
TC
−
−
SEC
FLBK
≈
or
V
V
(
C
F
ESR
N
R
F
,
expression yields
pin. To cancel the
−
PS
FB
I
SEC
)
(
ES
R R )
3574f
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