LM3671MF-1.6 National Semiconductor, LM3671MF-1.6 Datasheet - Page 16
LM3671MF-1.6
Manufacturer Part Number
LM3671MF-1.6
Description
IC CONV DC/DC STEP-DOWN SOT23-5
Manufacturer
National Semiconductor
Series
PowerWise®r
Type
Step-Down (Buck)r
Datasheet
1.LM3671MF-1.8NOPB.pdf
(24 pages)
Specifications of LM3671MF-1.6
Internal Switch(s)
Yes
Synchronous Rectifier
Yes
Number Of Outputs
1
Voltage - Output
1.6V
Current - Output
600mA
Frequency - Switching
2MHz
Voltage - Input
2.7 ~ 5.5 V
Operating Temperature
-30°C ~ 85°C
Mounting Type
Surface Mount
Package / Case
SOT-23-5, SC-74A, SOT-25
Power - Output
770mW
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
Other names
LM3671MF-1.6
LM3671MF-1.6TR
LM3671MF-1.6TR
Available stocks
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Company:
Part Number:
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Quantity:
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During PFM operation, the converter positions the output volt-
age slightly higher than the nominal output voltage during
PWM operation, allowing additional headroom for voltage
drop during a load transient from light to heavy load. The PFM
comparators sense the output voltage via the feedback pin
and control the switching of the output FETs such that the
output voltage ramps between ~0.6% and ~1.7% above the
nominal PWM output voltage. If the output voltage is below
the ‘high’ PFM comparator threshold, the PMOS power switch
SHUTDOWN MODE
Setting the EN input pin low (<0.4V) places the LM3671 in
shutdown mode. During shutdown the PFET switch, NFET
switch, reference, control and bias circuitry of the LM3671 are
turned off. Setting EN high (>1.0V) enables normal operation.
It is recommended to set EN pin low to turn off the LM3671
during system power up and undervoltage conditions when
the supply is less than 2.7V. Do not leave the EN pin floating.
FIGURE 8. Typical PFM Operation
FIGURE 9. Operation in PFM Mode and Transfer to PWM Mode
20108422
16
is turned on. It remains on until the output voltage reaches the
‘high’ PFM threshold or the peak current exceeds the I
level set for PFM mode. The typical peak current in PFM mode
is: I
Once the PMOS power switch is turned off, the NMOS power
switch is turned on until the inductor current ramps to zero.
When the NMOS zero-current condition is detected, the
NMOS power switch is turned off. If the output voltage is be-
low the ‘high’ PFM comparator threshold (see Figure 9), the
PMOS switch is again turned on and the cycle is repeated
until the output reaches the desired level. Once the output
reaches the ‘high’ PFM threshold, the NMOS switch is turned
on briefly to ramp the inductor current to zero and then both
output switches are turned off and the part enters an ex-
tremely low power mode. Quiescent supply current during this
‘sleep’ mode is 16µA (typ.), which allows the part to achieve
high efficiency under extremely light load conditions.
If the load current should increase during PFM mode (see
Figure 9) causing the output voltage to fall below the ‘low2’
PFM threshold, the part will automatically transition into fixed-
frequency PWM mode. When V
from PWM to PFM mode at ~35mA output current and from
PFM to PWM mode at ~85mA , when V
transition happens at ~50mA and PFM to PWM transition
happens at ~100mA, when V
happens at ~65mA and PFM to PWM transition happens at
~115mA.
SOFT START
The LM3671 has a soft-start circuit that limits in-rush current
during start-up. During start-up the switch current limit is in-
creased in steps. Soft start is activated only if EN goes from
logic low to logic high after Vin reaches 2.7V. Soft start is im-
plemented by increasing switch current limit in steps of 70mA,
140mA, 280mA and 1020mA (typical switch current limit). The
start-up time thereby depends on the output capacitor and
PFM
= 112mA + V
IN
/27Ω .
IN
=4.5V, PWM to PFM transition
IN
=2.7V the part transitions
IN
=3.6V, PWM to PFM
20108403
PFM
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