參數(shù)資料
型號(hào): LM3661TL-1.25
廠商: NATIONAL SEMICONDUCTOR CORP
元件分類: 穩(wěn)壓器
英文描述: 0.454 A SWITCHING REGULATOR, 675 kHz SWITCHING FREQ-MAX, PBGA10
封裝: MICRO SMD-10
文件頁(yè)數(shù): 4/17頁(yè)
文件大?。?/td> 845K
代理商: LM3661TL-1.25
Circuit Operation
The LM3661 operates as follows: During the first part of
each switching cycle, the control block in the LM3661 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 the
slope of (V
IN VOUT)/L, by storing energy in a magnetic field.
During the second part of each cycle, the controller turns the
PFET switch off, blocking current flow from the input, and
then turns the NFET synchronous rectifier on. In response,
the inductor’ magnetic field collapse, generating a voltage
that forces current from ground through the synchronous
rectifier to the output filter capacitor and load. As the stored
energy is transferred back into the circuit and depleted, the
inductor current ramps down with a slope of V
OUT/L. If the
inductor current reaches zero before the next cycle, the
synchronous rectifier is turned off to prevent current reversal.
The output filter capacitor stores charge when the inductor
current is high, and release it when low, smoothing the
voltage across the load.
PWM Operation
The LM3661 can be set to current-mode PWM operation by
connecting the SYNC/MODE pin to V
DD. While in PWM
(Pulse Width Modulation) mode, the output voltage is regu-
lated by switching at a constant frequency and then modu-
lating the energy per cycle to control power to the load.
Energy per cycle is set by modulating the PFET switch
on-time pulse-width to control the peak inductor current. This
is done by controlling the PFET switch using a flip-flop driven
by an oscillator and a comparator that compares a ramp
from the current-sense amplifier with an error signal from a
voltage-feedback error amplifier. At the beginning of each
cycle, the oscillator sets the flip-flop and turns on the PFET
switch, causing the inductor current to ramp up. When the
current sense signal ramps past the error amplifier signal,
the PWM comparator resets the flip-flop and turns off the
PFET switch, ending the first part of the cycle. The NFET
synchronous rectifier turns on until the next clock pulse or
the inductor current ramps to zero. If an increase in load
pulls the output voltage down, the error amplifier output
increases, which allows the inductor current to ramp higher
before the comparator turns off the PFET switch. This in-
creases the average current sent to the output and adjusts
for the increase in the load. Before going to the PWM com-
parator, the current sense signal is summed with a slope
compensation ramp from the oscillator for stability of the
current feedback loop. During the second part of the cycle, a
zero crossing detector turns off the NFET synchronous rec-
tifier if the inductor current ramps to zero.
LDO Operation
Connecting the SYNC/MODE pin to GND sets the LM3661
in Linear Mode operation. While in Linear mode (LDO) the
device consumes only 29 A (typ.) quiescent current for
system standby operation. It is capable of delivering up to
15 mA. This is done by using an internal pass transistor and
an error amplifier to sense the output voltage and maintain
the desire output voltage. During LDO mode, the PFET and
NFET of the network switch off to reduce quiescent current.
Frequency Synchronization
The SYNC/MODE input can also be used for frequency
synchronization. To synchronize the LM3661 to an external
clock, supply a digital signal to the SYNC/MODE pin with a
voltage swing exceeding 0.4V to 1.2V. During synchroniza-
tion, the LM3661 initiates cycles on the rising edge of the
clock. When synchronized to an external clock, it operates in
PWM mode. The device can synchronize to an external
clock over frequencies from 500 kHz to 750 kHz. Use the
following waveform and duty-cycle guidelines when applying
an external clock to the SYNC/MODE pin. The duty cycle
can be between 30% and 70%. Clock under/overshoot
should be less than 100 mV below GND or above V
DD.
When applying noisy clock signals, especially sharp edged
signals from a long cable during evaluation, terminate the
cable at its characteristic impedance; add an RC filter to the
SYNC/MODE pin, if necessary, to soften the slew rate and
20098803
FIGURE 2. Typical Operating Circuit
LM3661
www.national.com
12
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