ltc3834-1 Linear Technology Corporation, ltc3834-1 Datasheet - Page 16

ltc3834-1

Manufacturer Part Number

ltc3834-1

Description

30?a Iq Synchronous Step-down Controller

Manufacturer

Linear Technology Corporation

Datasheet

1.LTC3834-1.pdf (28 pages)

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APPLICATIO S I FOR ATIO

LTC3834-1

High input voltage applications in which large MOSFETs

are being driven at high frequencies may cause the maxi-

mum junction temperature rating for the LTC3834-1 to be

exceeded. The INTV

gate charge current, is supplied by the 5.25V V

Power dissipation for the IC in this case is equal to V

frequency as discussed in the Efficiency Considerations

section. The junction temperature can be estimated by

using the equations given in Note 2 of the Electrical

Characteristics. For example, the LTC3834-1 INTV

rent is limited to less than 25mA from a 24V supply when

in the GN package:

To prevent the maximum junction temperature from being

exceeded, the input supply current must be checked while

operating in continuous conduction mode (PLLIN/MODE

= INTV

Topside MOSFET Driver Supply (C

External bootstrap capacitors C

pins supply the gate drive voltages for the topside

MOSFET. Capacitor C

though external diode D

low. When one of the topside MOSFET is to be turned on,

the driver places the C

the

MOSFET and turns on the topside switch. The switch node

voltage, SW, rises to V

With the topside MOSFET on, the boost voltage is above

the input supply: V

boost capacitor C

input capacitance of the topside MOSFET(s). The reverse

breakdown of the external Schottky diode must be greater

than V

arbiter is the total input current for the regulator. If a

change is made and the input current decreases, then the

efficiency has improved. If there is no change in input

current, then there is no change in efficiency.

INTVCC

= 70°C + (25mA)(24V)(90°C/W) = 125°C

IN(MAX)

desired

. The gate charge current is dependent on operating

) at maximum V

. When adjusting the gate drive level, the final

MOSFET.

BOOST

needs to be 100 times that of the total

in the Functional Diagram is charged

current, which is dominated by the

voltage across the gate-source of

= V

from INTV

and the BOOST pin follows.

+ V

This

connected to the BOOST

INTVCC

, D

when the SW pin is

enhances

. The value of the

)

LDO.

cur-

the

•

Fault Conditions: Current Limit and Current Foldback

The LTC3834-1 includes current foldback to help limit load

current when the output is shorted to ground. If the output

falls below 70% of its nominal output level, then the

maximum sense voltage is progressively lowered from

100mV to 30mV. Under short-circuit conditions with very

low duty cycles, the LTC3834-1 will begin cycle skipping

in order to limit the short-circuit current. In this situation

the bottom MOSFET will be dissipating most of the power

but less than in normal operation. The short-circuit ripple

current is determined by the minimum on-time t

the LTC3834-1 ( 200ns), the input voltage and induct-or

value:

The resulting short-circuit current is:

Fault Conditions: Overvoltage Protection (Crowbar)

The overvoltage crowbar is designed to blow a system

input fuse when the output voltage of the regulator rises

much higher than nominal levels. The crowbar causes

huge currents to flow, that blow the fuse to protect against

a shorted top MOSFET if the short occurs while the

controller is operating.

A comparator monitors the output for overvoltage condi-

tions. The comparator (OV) detects overvoltage faults

greater than 10% above the nominal output voltage. When

this condition is sensed, the top MOSFET is turned off and

the bottom MOSFET is turned on until the overvoltage

condition is cleared. The bottom MOSFET remains on

continuously for as long as the OV condition persists; if

cally resumes. A shorted top MOSFET will result in a high

current condition which will open the system fuse. The

switching regulator will regulate properly with a leaky

top MOSFET by altering the duty cycle to accommodate

the leakage.

OUT

L(SC)

returns to a safe level, normal operation automati-

= t

SENSE

ON(MIN)

–

L SC

/L)

(

)

ON(MIN)

38341f

ltc3834-1 Linear Technology Corporation, ltc3834-1 Datasheet - Page 16

ltc3834-1

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