LTC3541EDD-2 Просмотр технического описания (PDF) - Linear Technology
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LTC3541EDD-2 Datasheet PDF : 22 Pages
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LTC3541-2
OPERATION
When the MODE pin is driven to a logic high the LTC3541-2
operates in Pulse-Skip mode for low output voltage ripple.
In this mode, the LTC3541-2 continues to switch at a
constant frequency down to very low currents, where it
will begin skipping pulses used to control the main (top)
switch to maintain the proper average inductor current.
If the input supply voltage is decreased to a value ap-
proaching the output voltage, the duty cycle of the buck
is increased toward maximum on-time and 100% duty
cycle. The output voltage will then be determined by the
input voltage minus the voltage drop across the main
switch and the inductor.
VLDO/Linear Regulator Loop
In the LTC3541-2, the VLDO and linear regulator loops
consist of an amplifier and N-channel MOSFET output
stages that servo the output to maintain a regulator output
voltage, LVOUT. The internal reference voltage provided to
the amplifier is 0.4V allowing for a wide range of output
voltages. Loop configurations enabling the VLDO or the
linear regulator are stable with an output capacitance as
low as 2.2µF and as high as 100µF. Both the VLDO and
the linear regulators are capable of operating with an input
voltage, VIN, as low as 2.9V.
The VLDO regulator is designed to provide up to 300mA
of output current at a very low LVIN to LVOUT voltage.
This allows a clean, secondary, analog supply voltage
to be provided with a minimum drop in efficiency. The
VLDO regulator is provided with thermal protection
that is designed to disable the VLDO function when the
output, pass transistor’s junction temperature reaches
approximately 160°C. In addition to thermal protection,
short-circuit detection is provided to disable the VLDO
function when a short-circuit condition is sensed. This
circuit is designed such that an output current of ap-
proximately 1A can be provided before this circuit will
trigger. As detailed in the Electrical Characteristics, the
VLDO regulator will be out of regulation when this event
occurs. Both the thermal and short-circuit faults, when
detected, are treated as catastrophic fault conditions. The
LTC3541-2 will be reset upon the detection of either event.
The N-channel MOSFET, incorporated in the VLDO regula-
tor, has its drain connected to the LVIN pin as shown in
Figure 1. To ensure reliable operation, the LVIN voltage
must be stable before the VLDO regulator is enabled. For
the case where the voltage on the LVIN pin is supplied by
the buck regulator, the internal power supply sequenc-
ing logic assures voltages are applied in the appropriate
manner. For the case where an external supply is used to
power the LVIN pin, the externally supplied LVIN voltage
must be stable 1ms before the ENVLDO is brought from
a low to a high. Further, the externally supplied LVIN must
be reduced in conjunction with VIN whenever VIN is pulled
low or removed.
The linear regulator is designed to provide a lower output
current than that available from the VLDO regulator. The
linear regulator’s output, pass transistor has its drain tied
to the VIN rail. This allows the linear regulator to be turned
on prior to, and independent of, the buck regulator which
ordinarily drives the VLDO regulator. The linear regulator is
provided with thermal protection that is designed to disable
the linear regulator function when the output pass transis-
tor’s junction temperature reaches approximately 160°C.
In addition to thermal protection, short-circuit detection
is provided to disable the linear regulator function when a
short-circuit condition is sensed. This circuit is designed
such that an output current of approximately 120mA can
be provided before this circuit will trigger. As detailed in
the Electrical Characteristics, the linear regulator will be
out of regulation when this event occurs. Both the thermal
and short-circuit faults are treated as catastrophic fault
conditions. The LTC3541-2 will be reset upon the detec-
tion of either event.
The N-channel MOSFET, incorporated in the linear regulator,
has its drain connected to the VIN pin as shown in Figure 1.
The size of these MOSFETs and their associated power
bussing is designed to accommodate 30mA of DC cur-
rent. Currents above this value can be supported for short
periods as stipulated in the Absolute Maximum Ratings.
For more information www.linear.com/LTC3541-2
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