LT3685 LINER [Linear Technology], LT3685 Datasheet - Page 23
LT3685
Manufacturer Part Number
LT3685
Description
36V, 4A, 1.5MHz Synchronous Step-Down Switching Regulator
Manufacturer
LINER [Linear Technology]
Datasheet
1.LT3685.pdf
(28 pages)
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APPLICATIONS INFORMATION
The UVLO circuitry prevents the regulator from operating
at source voltages where the problems might occur. An
internal comparator will force the part into shutdown below
the fixed V
used to prevent excessive discharge of battery-operated
systems. If an adjustable UVLO threshold is required,
the UVLO pin can be used. The threshold voltage of the
UVLO pin comparator is 1.25V. Current hysteresis is added
above the UVLO threshold. This can be used to set voltage
hysteresis of the UVLO using the following equations:
Example: switching should not start until the input is above
4.4V, and is to stop if the input falls below 4V.
Keep the connection from the resistor to the UVLO pin
short and minimize the interplane or surface capacitance
R3 =
R4 = R3 •
R3 =
R4 = 200kΩ •
Figure 11. The LT3690 Reduces its Frequency to Below
250kHz to Protect Against Shorted Output with 36V Input
10V/DIV
2A/DIV
V
4.4V − 4.0V
H
V
2µA
IN
SW
I
0V
L1
− V
2µA
UVLO threshold of 3.0V. This feature can be
1.25V
L
V
H
1
1.25V
4.4V
− 1
= 200kΩ
1
− 1
2µs/DIV
= 79.4kΩ
3690 F11
to switching nodes. If high resistor values are used, the
UVLO pin should be bypassed with a 1nF capacitor to
prevent coupling problems from the switch node.
Shorted and Reversed Input Protection
If the inductor is chosen to prevent excessive saturation,
the LT3690 will tolerate a shorted output. When operat-
ing in short-circuit condition, the LT3690 will reduce its
frequency until the valley current is at a typical value of 5A
(see Figure 11). There is another situation to consider in
systems where the output is held high when the input to
the LT3690 is absent. This may occur in battery charging
applications or in battery backup systems where a battery
or some other supply is diode ORed with the LT3690’s
output. If the V
is held high (either by a logic signal or because it is tied
to V
quiescent current through its SW pin. This is acceptable
if the system can tolerate a few mA in this state. If the EN
pin is grounded, the SW pin current will drop to essentially
zero. However, if the V
is held high, then parasitic diodes inside the LT3690 can
pull large currents from the output through the SW pin
and the V
only when the input voltage is present and that protects
against a shorted or reversed input.
V
IN
Figure 12. Diode D4 Prevents a Shorted Input from
Discharging a Backup Battery Tied to the Output; It Also
Protects the Circuit from a Reversed Input. The LT3690
Runs Only When the Input Is Present
IN
MBRS540
), then the LT3690’s internal circuitry will pull its
D4
IN
pin. Figure 12 shows a circuit that will run
IN
UVLO
EN
pin is allowed to float and the EN pin
V
IN
LT3690
IN
GND
pin is grounded while the output
BIAS
BST
SW
FB
LT3690
23
3690 F12
BACKUP
V
OUT
3690f
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