LT3510EFE-TRPBF データシートの表示(PDF) - Linear Technology
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LT3510EFE-TRPBF Datasheet PDF : 30 Pages
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LT3510
APPLICATIONS INFORMATION
At power-up, a reset signal sets the soft-start latch and
discharges both SS pins to approximately 0V to ensure
proper start-up. When both SS pins are fully discharged
the latch is reset and the internal 3.25μA current source
starts to charge the SS pin.
When the SS pin voltage is below 50mV, the VC pin is pulled
low which disables switching. This allows the SS pin to be
used as an individual shutdown for each channel.
As the SS pin voltage rises above 50mV, the VC pin is re-
leased and the output is regulated to the SS voltage. When
the SS pin voltage exceeds the internal 0.8V reference, the
output is regulated to the reference. The SS pin voltage
will continue to rise until it is clamped at 2V.
In the event of a VIN1 undervoltage lockout, the SHDN
pin driven below 1.28V, or the internal die temperature
exceeding its maximum rating during normal operation, the
soft-start latch is set, triggering a start-up sequence.
In addition, if the load exceeds the maximum output switch
current, the output will start to drop causing the VC pin
clamp to be activated. As long as the VC pin is clamped,
the SS pin will be discharged. As a result, the output will
be regulated to the highest voltage that the maximum
output current can support. For example, if a 6V output
is loaded by 1Ω the SS pin will drop to 0.4V, regulating
the output at 3V ( 3A • 1Ω ). Once the overload condition
is removed, the output will soft-start from the temporary
voltage level to the normal regulation point.
Since the SS pin is clamped at 2V and has to discharge
to 0.8V before taking control of regulation, momentary
overload conditions will be tolerated without a soft-start
recovery. The typical time before the SS pin takes control
is:
tS S(C O N T R O L )
=
CSS • 1.2V
700μA
Power Good Indicators
The PG pin is the open-collector output of an internal
comparator. The comparator compares the FB pin voltage
to 90% of the reference voltage with 30mV of hysteresis.
The PG pin has a sink capability of 800μA when the FB pin
is below the threshold and can withstand 25V when the
threshold is exceeded. The PG pin is active (sink capability
is reduced in shutdown and undervoltage lockout mode)
as long as the VIN1 pin voltage exceeds 1V.
Output Tracking/Sequencing
Complex output tracking and sequencing between chan-
nels can be implemented using the LT3510’s SS and PG
pins. Figure 9 shows several configurations for output
tracking/sequencing for a 3.3V and 1.8V application.
Independent soft-start for each channel is shown in
Figure 9a. The output ramp time for each channel is set
by the soft-start capacitor as described in the soft-start
section.
Ratiometric tracking is achieved in Figure 9b by connecting
both SS pins together. In this configuration, the SS pin
source current is doubled (6.5μA) which must be taken
into account when calculating the output rise time.
By connecting a feedback network from VOUT1 to the SS2
pin with the same ratio that sets VOUT2 voltage, absolute
tracking shown in Figure 9c is implemented. The minimum
value of the top feedback resistor (R1) should be set such
that the SS pin can be driven all the way to ground with
700μA of sink current when VOUT1 is at its regulated voltage.
In addition, a small VOUT2 voltage offset will be present
due to the SS2 3.25μA source current. This offset can be
corrected for by slightly reducing the value of R2.
Figure 9d illustrates output sequencing. When VOUT1 is
within 10% of its regulated voltage, PG1 releases the SS2
soft-start pin allowing VOUT2 to soft-start. In this case PG1
will be pulled up to 2V by the SS pin. If a greater voltage
is needed for PG1 logic, a pull-up resistor to VOUT1 can
be used. This will decrease the soft-start ramp time and
increase tolerance to momentary shorts.
If precise output ramp up and down is required, drive the
SS pins as shown in Figure 9e. The minimum value of
resistor (R3) should be set such that the SS pin can be
driven all the way to ground with 700μA of sink current
during power-up and fault conditions.
Multiple Input Voltages
For applications requiring large inductors due to high VIN
to VOUT ratios, a 2-stage step-down approach may reduce
3510fe
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