LM2577T-ADJ/NOPB National Semiconductor, LM2577T-ADJ/NOPB Datasheet - Page 21
LM2577T-ADJ/NOPB
Manufacturer Part Number
LM2577T-ADJ/NOPB
Description
IC REG SIMPLE SWITCHER TO-220-5
Manufacturer
National Semiconductor
Series
SIMPLE SWITCHER®r
Type
Step-Up (Boost), Flyback, Forward Converterr
Specifications of LM2577T-ADJ/NOPB
Internal Switch(s)
Yes
Synchronous Rectifier
No
Number Of Outputs
1
Voltage - Output
11.4 ~ 12.6 V
Current - Output
3A
Frequency - Switching
52kHz
Voltage - Input
3.5 ~ 40 V
Operating Temperature
-40°C ~ 125°C
Mounting Type
Through Hole
Package / Case
TO-220-5 (Straight Leads)
Current, Input Bias
100 nA
Current, Output
3 A
Current, Supply
25 mA
Frequency, Oscillator
52 kHz
Package Type
TO-220
Regulation, Line
20 mV
Regulation, Load
20 mV
Regulator Type
Boost (Step-Up)
Resistance, Thermal, Junction To Case
2 °C/W
Temperature, Operating, Range
-40 to +125 °C
Transconductance
3700
Voltage, Gain
800 V/V
Voltage, Input
3.5 to 40 V
Dc To Dc Converter Type
Step Up
Pin Count
5 +Tab
Input Voltage
40V
Output Voltage
11.6 to 12.4V
Switching Freq
48 TO 56KHz
Output Current
3A
Efficiency
80%
Output Type
Adjustable
Switching Regulator
Yes
Load Regulation
50mV
Line Regulation
50mV
Mounting
Through Hole
Input Voltage (min)
3.5V
Operating Temperature Classification
Automotive
For Use With
551011367-061 - BOARD WEBENCH LM2577,LM2585/87
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
Power - Output
-
Lead Free Status / Rohs Status
RoHS Compliant part
Electrostatic Device
Other names
*LM2577T-ADJ
*LM2577T-ADJ/NOPB
LM2577T-ADJ
*LM2577T-ADJ/NOPB
LM2577T-ADJ
Available stocks
Company
Part Number
Manufacturer
Quantity
Price
Company:
Part Number:
LM2577T-ADJ/NOPB
Manufacturer:
TOSHIBA
Quantity:
7 600
Application Hints
FLYBACK REGULATOR
A Flyback regulator can produce single or multiple output
voltages that are lower or greater than the input supply
voltage. Figure 18 shows the LM1577/LM2577 used as a
flyback regulator with positive and negative regulated out-
puts. Its operation is similar to a step-up regulator, except the
output switch contols the primary current of a flyback trans-
former. Note that the primary and secondary windings are
out of phase, so no current flows through secondary when
current flows through the primary. This allows the primary to
charge up the transformer core when the switch is on. When
the switch turns off, the core discharges by sending current
through the secondary, and this produces voltage at the
outputs. The output voltages are controlled by adjusting the
peak primary current, as described in the step-up regulator
section.
Voltage and current waveforms for this circuit are shown in
Figure 17, and formulas for calculating them are given in
Figure 19.
FLYBACK REGULATOR DESIGN PROCEDURE
1. Transformer Selection
A family of standardized flyback transformers is available for
creating flyback regulators that produce dual output volt-
ages, from
20lists these transformers with the input voltage, output
voltages and maximum load current they are designed for.
2. Compensation Network (C
Output Capacitor (C
As explained in the Step-Up Regulator Design Procedure,
C
procedure is for a dual output flyback regulator with equal
turns ratios for each secondary (i.e., both output voltages
have the same magnitude). The equations can be used for a
single output regulator by changing
in the following equations.
C
, R
C
and C
±
OUT
10V to
must be selected as a group. The following
±
OUT
15V, as shown in Figure 18. Figure
) Selection
C
(Continued)
, R
C
∑
) and
I
LOAD(max)
to I
LOAD(max)
21
A. First, calculate the maximum value for R
Where
tude) required from both outputs. Select a resistor less than
or equal to this value, and no greater than 3 kΩ.
B. Calculate the minimum value for
at both outputs) using the following two equations.
The larger of these two values must be used to ensure
regulator stability.
FIGURE 17. Flyback Regulator Waveforms
∑
I
LOAD(max)
is the sum of the load current (magni-
∑
C
OUT
01146817
(sum of C
C
.
www.national.com
OUT
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