參數(shù)資料
型號: LTC3414MPFE#PBF
廠商: LINEAR TECHNOLOGY CORP
元件分類: 穩(wěn)壓器
英文描述: 9.5 A SWITCHING REGULATOR, 4000 kHz SWITCHING FREQ-MAX, PDSO20
封裝: 4.40 MM, LEAD FREE, PLASTIC, TSSOP-20
文件頁數(shù): 14/16頁
文件大?。?/td> 268K
代理商: LTC3414MPFE#PBF
LTC3414
7
3414fb
ing harmonics out of a signal band. The output voltage
ripple is minimized in this mode.
Burst Mode Operation
Connecting the SYNC/MODE pin to a voltage in the range
of 0V to 1V enables Burst Mode operation. In Burst Mode
operation, the internal power MOSFETs operate intermit-
tently at light loads. This increases efficiency by minimiz-
ing switching losses. During Burst Mode operation, the
minimum peak inductor current is externally set by the
voltage on the SYNC/MODE pin and the voltage on the ITH
pin is monitored by the burst comparator to determine
when sleep mode is enabled and disabled. When the
average inductor current is greater than the load current,
the voltage on the ITH pin drops. As the ITH voltage falls
below 150mV, the burst comparator trips and enables
sleep mode. During sleep mode, the top power MOSFET is
held off and the ITH pin is disconnected from the output of
the error amplifier. The majority of the internal circuitry is
also turned off to reduce the quiescent current to 64
μA
while the load current is solely supplied by the output
capacitor. When the output voltage drops, the ITH pin is
reconnected to the output of the error amplifier and the top
power MOSFET along with all the internal circuitry is
switched back on. This process repeats at a rate that is
dependent on the load demand.
Pulse Skipping operation is implemented by connecting
the SYNC/MODE pin to ground. This forces the burst
clamp level to be at 0V. As the load current decreases, the
peak inductor current will be determined by the voltage on
the ITH pin until the ITH voltage drops below 400mV. At this
point, the peak inductor current is determined by the
minimum on-time of the current comparator. If the load
demand is less than the average of the minimum on-time
inductor current, switching cycles will be skipped to keep
the output voltage in regulation.
Frequency Synchronization
The internal oscillator of the LTC3414 can be synchronized
to an external clock connected to the SYNC/MODE pin. The
frequency of the external clock can be in the range of
300kHz to 4MHz. For this application, the oscillator timing
resistor should be chosen to correspond to a frequency
that is 25% lower than the synchronization frequency.
During synchronization, the burst clamp is set to 0V, and
each switching cycle begins at the falling edge of the clock
signal.
Dropout Operation
When the input supply voltage decreases toward the
output voltage, the duty cycle increases toward the maxi-
mum on-time. Further reduction of the supply voltage
forces the main switch to remain on for more than one
cycle eventually reaching 100% duty cycle. The output
voltage will then be determined by the input voltage minus
the voltage drop across the internal P-channel MOSFET
and the inductor.
Low Supply Operation
The LTC3414 is designed to operate down to an input
supply voltage of 2.25V. One important consideration
at low input supply voltages is that the RDS(ON) of the
P-channel and N-channel power switches increases. The
user should calculate the power dissipation when the
LTC3414 is used at 100% duty cycle with low input
voltages to ensure that thermal limits are not exceeded.
Slope Compensation and Inductor Peak Current
Slope compensation provides stability in constant fre-
quency architectures by preventing subharmonic oscilla-
tions at duty cycles greater than 50%. It is accomplished
internally by adding a compensating ramp to the inductor
current signal at duty cycles in excess of 40%. Normally,
the maximum inductor peak current is reduced when
slope compensation is added. In the LTC3414, however,
slope compensation recovery is implemented to keep the
maximum inductor peak current constant throughout the
range of duty cycles. This keeps the maximum output
current relatively constant regardless of duty cycle.
Short-Circuit Protection
When the output is shorted to ground, the inductor current
decays very slowly during a single switching cycle. To
prevent current runaway from occurring, a secondary
current limit is imposed on the inductor current. If the
inductor valley current increases larger than 7.8A, the top
power MOSFET will be held off and switching cycles will be
skipped until the inductor current is reduced.
OPERATIO
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