LTC3855 LINER [Linear Technology], LTC3855 Datasheet - Page 33

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LTC3855

Manufacturer Part Number
LTC3855
Description
Dual, Fast, Accurate Step-Down DC/DC Controller
Manufacturer
LINER [Linear Technology]
Datasheet
1.LTC3855.pdf (54 pages)

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APPLICATIONS INFORMATION
(V
In continuous mode operation, the minimum on-time limit
imposes a minimum duty cycle of:
where t
switching regulator. As the equation shows, reducing the
operating frequency will alleviate the minimum duty cycle
constraint. If the minimum on-time that LTC3838 can
provide is longer than the on-time required by the duty
cycle to maintain the switching frequency, the switching
frequency will have to decrease to maintain the duty cycle,
but the output voltage will still remain in regulation. This is
generally more preferable to skipping cycles and causing
larger ripple at the output, which is typically seen in fixed
frequency switching regulators.
The t
teristics are measured with minimum load on TG and
BG, at extreme cases of V
GS
MOSFET)
MOSFET)
BOTTOM
BODY DIODE TO PRECHARGE SW NODE
D
(V
WILL FLOW THROUGH TOP MOSFET’S
OF TOP
TG-SW
Figure 11. Light Loading On-Time Extension for Forced
Continuous Mode Operation
MIN
GS
NEGATIVE INDUCTOR CURRENT
ON(MIN)
SW
BG
OF
DURING BG-TG DEAD TIME,
I
L
V
ON(MIN)
SW
IN
= f • t
0
curves in the Typical Performance Charac-
ON(MIN)
is the effective minimum on-time for the
L
I
L
+
V
NEGATIVE
INDUCTOR
CURRENT
IN FCM
IN
IN
DEAD-TIME
DELAYS
= 38V, and/or V
WILL DEPEND ON THE CAPACITANCE
THE RATE OF SW NODE DISCHARGE
ON THE SW NODE AND INDUCTOR
DURING TG-BG DEAD TIME,
CURRENT MAGNITUDE
TOTAL CAPACITANCE
ON THE SW NODE
3838 F11
OUT
I
L
= 0.6V,
L
and/or programmed f = 2MHz (i.e., R
tions with different V
can be achieved will generally be larger. Also, to guarantee
frequency and phase locking at light load, sufficient margin
needs to be added to account for the dead times (t
+ t
For applications that require relatively low on-time, proper
caution has to be taken when choosing the power MOSFET.
If the gate of the MOSFET is not able to fully turn on due
to insufficient on-time, there could be significant heat dis-
sipation and efficiency loss as a result of larger R
This may even cause early failure of the power MOSFET.
The minimum off-time is the smallest duration of time
that the TG pin can be turned low and then immediately
turned back high. This minimum off-time includes the
time to turn on the BG (bottom gate) and turn it back off,
plus the dead-time delays from TG off to BG on and from
BG off to TG on. The minimum off-time that the LTC3838
can achieve is 90ns.
The effective minimum off-time of the switching regulator,
or the shortest period of time that the SW node can stay
low, can be different from this minimum off-time. The main
factor impacting the effective minimum off-time is the top
and bottom power MOSFETs’ electrical characteristics,
such as Qg and turn-on/off delays. These characteristics
can either extend or shorten the SW nodes’ effective
minimum off-time. Large size (high Qg) power MOSFETs
generally tend to increase the effective minimum off-time
due to longer gate charging and discharging times. On
the other hand, imbalances in turn-on and turn-off delays
could reduce the effective minimum off-time.
The minimum off-time limit imposes a maximum duty
cycle of:
where t
switching regulator. Reducing the operating frequency can
alleviate the maximum duty cycle constraint.
D(TG/BG)
D
MAX
OFF(MIN)
= 1 – f • t
in the Electrical Characteristics).
is the effective minimum off-time of the
OFF(MIN)
IN
, V
OUT
and/or f, the t
T
= 18k). In applica-
LTC3838
ON(MIN)
D(TG/BG)
33
DS(ON)
3838fa
that
.

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