LM3676SD-ADJEV National Semiconductor, LM3676SD-ADJEV Datasheet - Page 11
LM3676SD-ADJEV
Manufacturer Part Number
LM3676SD-ADJEV
Description
BOARD EVALUATION LM3676SD-ADJ
Manufacturer
National Semiconductor
Specifications of LM3676SD-ADJEV
Main Purpose
DC/DC, Step Down
Outputs And Type
1, Non-Isolated
Voltage - Output
1 ~ 3.3V
Current - Output
600mA
Voltage - Input
2.9 ~ 5.5V
Regulator Topology
Buck
Frequency - Switching
2MHz
Board Type
Fully Populated
Utilized Ic / Part
LM3676
Lead Free Status / RoHS Status
Contains lead / RoHS non-compliant
Power - Output
-
Lead Free Status / Rohs Status
Not Compliant
Operation Description
DEVICE INFORMATION
The LM3676, a high efficiency step down DC-DC switching
buck converter, delivers a constant voltage from a single Li-
Ion battery and input voltage rails from 2.9V to 5.5V to
portable devices such as cell phones and PDAs. Using a volt-
age mode architecture with synchronous rectification, the
LM3676 has the ability to deliver up to 600 mA depending on
the input voltage, output voltage, ambient temperature and
the inductor chosen.
There are three modes of operation depending on the current
required and Mode pin - PWM (Pulse Width Modulation), PFM
(Pulse Frequency Modulation), and shutdown. The device
operates in PWM mode if the load current > 80 mA or when
the Mode pin is set high. When the mode pin is set low, Auto
mode, lighter load current causes the device to automatically
switch into PFM for reduced current consumption (I
typ) and prolong battery life . Shutdown mode turns off the
device,
(I
Additional features include soft-start, under voltage protec-
tion, current overload protection, and thermal shutdown pro-
tection. As shown in Figure 1, only three external power
components are required for implementation.
The part uses an internal reference voltage of 0.5V. It is rec-
ommended to keep the part in shutdown until the input voltage
is 2.9V or higher.
CIRCUIT OPERATION
During the first portion of each switching cycle, the control
block in the LM3676 turns on the internal PFET switch. This
allows current to flow from the input through the inductor to
the output filter capacitor and load. The inductor limits the
current to a ramp with a slope of (V
ergy in a magnetic field.
During the second portion of each cycle, the controller turns
the PFET switch off, blocking current flow from the input, and
then turns the NFET synchronous rectifier on. The inductor
draws current from ground through the NFET to the output
filter capacitor and load, which ramps the inductor current
down with a slope of - V
The output filter stores charge when the inductor current is
high, and releases it when inductor current is low, smoothing
the voltage across the load.
The output voltage is regulated by modulating the PFET
switch on time to control the average current sent to the load.
The effect is identical to sending a duty-cycle modulated rect-
angular wave formed by the switch and synchronous rectifier
at the SW pin to a low-pass filter formed by the inductor and
output filter capacitor. The output voltage is equal to the av-
erage voltage at the SW pin.
MODE PIN
Setting the Mode pin low (<0.4V) places the LM3676 in Auto
mode. During Auto mode the device automatically switches
between PFM-PWM depending on the load. Setting Mode
high (>1.0V) places the part in Forced PWM. The part is in
forced PWM regardless of the load. Do not leave the Mode
pin floating.
PWM OPERATION
During PWM operation the converter operates as a voltage-
mode controller with input voltage feed forward. This allows
the converter to achieve good load and line regulation. The
DC gain of the power stage is proportional to the input voltage.
SHUTDOWN
offering
= 0.01 µA typ).
the
OUT
lowest
/L.
IN
–V
current
OUT
)/L, by storing en-
consumption
Q
= 16 µA
11
To eliminate this dependence, feed forward inversely propor-
tional to the input voltage is introduced.
While in PWM mode, the output voltage is regulated by
switching at a constant frequency and then modulating the
energy per cycle to control power to the load. At the beginning
of each clock cycle the PFET switch is turned on and the in-
ductor current ramps up until the comparator trips and the
control logic turns off the switch. The current limit comparator
can also turn off the switch in case the current limit of the
PFET is exceeded. Then the NFET switch is turned on and
the inductor current ramps down. The next cycle is initiated
by the clock turning off the NFET and turning on the PFET.
Internal Synchronous Rectification
While in PWM mode, the LM3676 uses an internal NFET as
a synchronous rectifier to reduce rectifier forward voltage
drop and associated power loss. Synchronous rectification
provides a significant improvement in efficiency whenever the
output voltage is relatively low compared to the voltage drop
across an ordinary rectifier diode.
Current Limiting
A current limit feature allows the LM3676 to protect itself and
external components during overload conditions. PWM mode
implements current limiting using an internal comparator that
trips at 1020 mA (typ). If the output is shorted to ground the
device enters a timed current limit mode where the NFET is
turned on for a longer duration until the inductor current falls
below a low threshold. This allows the inductor current more
time to decay, thereby preventing runaway.
PFM OPERATION
At very light load, the converter enters PFM mode and oper-
ates with reduced switching frequency and supply current to
maintain high efficiency.
The part automatically transitions into PFM mode when either
of two conditions occurs for a duration of 32 or more clock
cycles:
level, (Typically I
A.
B.
The NFET current reaches zero.
The peak PMOS switch current drops below the I
FIGURE 5. Typical PWM Operation
MODE
< 30mA + V
IN
/42 Ω ).
www.national.com
20176423
MODE
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