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PDF LM25576 Data sheet ( Hoja de datos )

Número de pieza LM25576
Descripción Step-Down Switching Regulator
Fabricantes National Semiconductor 
Logotipo National Semiconductor Logotipo



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No Preview Available ! LM25576 Hoja de datos, Descripción, Manual

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January 2007
LM25576
42V, 3A Step-Down Switching Regulator
General Description
The LM25576 is an easy to use SIMPLE SWITCHER® buck
regulator which allows design engineers to design and opti-
mize a robust power supply using a minimum set of compo-
nents. Operating with an input voltage range of 6 - 42V, the
LM25576 delivers 3A of continuous output current with an in-
tegrated 170mN-Channel MOSFET. The regulator utilizes
an Emulated Current Mode architecture which provides in-
herent line regulation, tight load transient response, and ease
of loop compensation without the usual limitation of low-duty
cycles associated with current mode regulators. The operat-
ing frequency is adjustable from 50kHz to 1MHz to allow
optimization of size and efficiency. To reduce EMI, a frequen-
cy synchronization pin allows multiple IC’s from the
LM(2)557x family to self-synchronize or to synchronize to an
external clock. The LM25576 guarantees robustness with cy-
cle-by-cycle current limit, short-circuit protection, thermal
shut-down, and remote shut-down. The device is available in
a power enhanced TSSOP-20 package featuring an exposed
die attach pad for thermal dissipation. The LM25576 is sup-
ported by the full suite of WEBENCH® On-Line design tools.
Features
Integrated 42V, 170mN-channel MOSFET
Ultra-wide input voltage range from 6V to 42V
Adjustable output voltage as low as 1.225V
1.5% feedback reference accuracy
Operating frequency adjustable between 50kHz and
1MHz with single resistor
Master or slave frequency synchronization
Adjustable soft-start
Emulated current mode control architecture
Wide bandwidth error amplifier
Built-in protection
Package
TSSOP-20EP (Exposed Pad)
Simplified Application Schematic
WEBENCH® is a registered trademark of National Semiconductor Corporation.
© 2007 National Semiconductor Corporation 202087
20208701
www.national.com

1 page




LM25576 pdf
Absolute Maximum Ratings (Note 1)
If Military/Aerospace specified devices are required,
please contact the National Semiconductor Sales Office/
Distributors for availability and specifications.
VIN to GND
BST to GND
PRE to GND
SW to GND (Steady State)
BST to VCC
SD, VCC to GND
45V
60V
45V
-1.5V
45V
14V
BST to SW
OUT to GND
SYNC, SS, FB, RAMP to GND
ESD Rating (Note 2)
Human Body Model
Storage Temperature Range
14V
Limited to Vin
7V
2kV
-65°C to +150°C
Operating Ratings (Note 1)
VIN
Operation Junction Temperature
6V to 42V
−40°C to + 125°C
Electrical Characteristics Specifications with standard typeface are for TJ = 25°C, and those with boldface type
apply over full Operating Junction Temperature range. VIN = 24V, RT = 32.4kunless otherwise stated. (Note 3)
Symbol
Parameter
Conditions
Min Typ Max Units
STARTUP REGULATOR
VccReg
Vcc Regulator Output
6.85 7.15 7.45
V
Vcc LDO Mode turn-off
9V
Vcc Current Limit
Vcc = 0V
25 mA
VCC SUPPLY
Vcc UVLO Threshold
(Vcc increasing)
5.03 5.35 5.67
V
Vcc Undervoltage Hysteresis
0.25 V
Bias Current (Iin)
FB = 1.3V
3.4 4.5
mA
Shutdown Current (Iin)
SD = 0V
48 70
µA
SHUTDOWN THRESHOLDS
Shutdown Threshold
(SD Increasing)
0.47 0.7
0.9
V
Shutdown Hysteresis
0.1 V
Standby Threshold
(Standby Increasing)
1.17 1.225
1.28
V
Standby Hysteresis
0.1 V
SD Pull-up Current Source
5 µA
SWITCH CHARACTERSICS
Buck Switch Rds(on)
BOOST UVLO
170 340
3.8
m
V
BOOST UVLO Hysteresis
0.56 V
Pre-charge Switch Rds(on)
Pre-charge Switch on-time
70
265 ns
CURRENT LIMIT
Cycle by Cycle Current Limit
RAMP = 0V
3.6 4.2
5.1
A
Cycle by Cycle Current Limit Delay
RAMP = 2.5V
100 ns
SOFT-START
SS Current Source
7 10 14
µA
OSCILLATOR
Frequency1
180 200
220
kHz
Frequency2
SYNC Source Impedance
RT = 11k
425 485
11
545
kHz
k
SYNC Sink Impedance
SYNC Threshold (falling)
110
1.3 V
SYNC Frequency
SYNC Pulse Width Minimum
RT = 11k
550
15
kHz
ns
5 www.national.com

5 Page





LM25576 arduino
20208707
FIGURE 5. Simplified Oscillator Block Diagram and SYNC I/O Circuit
Error Amplifier and PWM
Comparator
The internal high gain error amplifier generates an error signal
proportional to the difference between the regulated output
voltage and an internal precision reference (1.225V). The
output of the error amplifier is connected to the COMP pin
allowing the user to provide loop compensation components,
generally a type II network, as illustrated in Figure 1. This
network creates a pole at DC, a zero and a noise reducing
high frequency pole. The PWM comparator compares the
emulated current sense signal from the RAMP generator to
the error amplifier output voltage at the COMP pin.
RAMP Generator
The ramp signal used in the pulse width modulator for current
mode control is typically derived directly from the buck switch
current. This switch current corresponds to the positive slope
portion of the output inductor current. Using this signal for the
PWM ramp simplifies the control loop transfer function to a
single pole response and provides inherent input voltage
feed-forward compensation. The disadvantage of using the
buck switch current signal for PWM control is the large leading
edge spike due to circuit parasitics that must be filtered or
blanked. Also, the current measurement may introduce sig-
nificant propagation delays. The filtering, blanking time and
propagation delay limit the minimum achievable pulsewidth.
In applications where the input voltage may be relatively large
in comparison to the output voltage, controlling small
pulsewidths and duty cycles is necessary for regulation. The
LM25576 utilizes a unique ramp generator, which does not
actually measure the buck switch current but rather recon-
structs the signal. Reconstructing or emulating the inductor
current provides a ramp signal to the PWM comparator that
is free of leading edge spikes and measurement or filtering
delays. The current reconstruction is comprised of two ele-
ments; a sample & hold DC level and an emulated current
ramp.
11 www.national.com

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