LTC3865EFE#PBF Linear Technology, LTC3865EFE#PBF Datasheet - Page 19

LTC3865EFE#PBF

Manufacturer Part Number

LTC3865EFE#PBF

Description

IC BUCK SYNC ADJ DUAL 38TSSOP

Manufacturer

Linear Technology

Type

Step-Down (Buck)r

Datasheet

1.LTC3865EUHPBF.pdf (38 pages)

Specifications of LTC3865EFE#PBF

Internal Switch(s)

Synchronous Rectifier

Yes

Number Of Outputs

Voltage - Output

0.6 ~ 5 V

Frequency - Switching

250kHz ~ 770kHz

Voltage - Input

4.5 ~ 38 V

Operating Temperature

-40°C ~ 85°C

Mounting Type

Surface Mount

Package / Case

38-TSSOP Exposed Pad, 38-eTSSOP, 38-HTSSOP

Primary Input Voltage

15V

No. Of Outputs

Output Voltage

Output Current

25A

No. Of Pins

Operating Temperature Range

-40Â°C To +85Â°C

Msl

MSL 1 - Unlimited

Rohs Compliant

Yes

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Current - Output

Power - Output

Available stocks

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Quantity

Price

Company:

Part Number:

LTC3865EFE#PBFLTC3865EFE

Manufacturer:

Linear Technology

Quantity:

135

Company:

Part Number:

LTC3865EFE#PBF

Manufacturer:

LINEAR/凌特

Quantity:

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APPLICATIONS INFORMATION

which are highest at high input voltages. For V

the high current efﬁ ciency generally improves with larger

MOSFETs, while for V

increase to the point that the use of a higher R

with lower C

synchronous MOSFET losses are greatest at high input

voltage when the top switch duty factor is low or during

a short-circuit when the synchronous switch is on close

to 100% of the period.

The term (1 + δ) is generally given for a MOSFET in the

form of a normalized R

δ = 0.005/°C can be used as an approximation for low

voltage MOSFETs.

The optional Schottky diodes conduct during the dead time

between the conduction of the two power MOSFETs. These

prevent the body diodes of the bottom MOSFETs from turn-

ing on, storing charge during the dead time and requiring

a reverse recovery period that could cost as much as 3%

in efﬁ ciency at high V

a good compromise for both regions of operation due to

the relatively small average current. Larger diodes result

in additional transition losses due to their larger junction

capacitance.

Soft-Start and Tracking

The LTC3865/LTC3865-1 have the ability to either soft-start

by themselves with a capacitor or track the output of another

channel or external supply. When one particular channel

is conﬁ gured to soft-start by itself, a capacitor should be

connected to its TK/SS pin. This channel is in the shutdown

state if its RUN pin voltage is below 1.22V. Its TK/SS pin

is actively pulled to ground in this shutdown state.

Once the RUN pin voltage is above 1.22V, the channel pow-

ers up. A soft-start current of 1.3μA then starts to charge

its soft-start capacitor. Note that soft-start or tracking is

achieved not by limiting the maximum output current of

the controller but by controlling the output ramp voltage

according to the ramp rate on the TK/SS pin. Current

foldback is disabled during this phase to ensure smooth

soft-start or tracking. The soft-start or tracking range is

deﬁ ned to be the voltage range from 0V to 0.6V on the

TK/SS pin. The total soft-start time can be calculated as:

MILLER

actually provides higher efﬁ ciency. The

> 20V the transition losses rapidly

DS(ON)

. A 1A to 3A Schottky is generally

vs Temperature curve, but

DS(ON)

device

< 20V

Regardless of the mode selected by the MODE/PLLIN pin,

the regulator will always start in pulse-skipping mode

up to TK/SS = 0.5V. Between TK/SS = 0.5V and 0.54V, it

will operate in forced continuous mode and revert to the

selected mode once TK/SS > 0.54V. The output ripple

is minimized during the 40mV forced continuous mode

window ensuring a clean PGOOD signal.

When the channel is conﬁ gured to track another supply,

the feedback voltage of the other supply is duplicated by

a resistor divider and applied to the TK/SS pin. Therefore,

the voltage ramp rate on this pin is determined by the

ramp rate of the other supply’s voltage. Note that the small

soft-start capacitor charging current is always ﬂ owing,

producing a small offset error. To minimize this error, select

the tracking resistive divider value to be small enough to

make this error negligible.

In order to track down another channel or supply after

the soft-start phase expires, the LTC3865/LTC3865-1 are

forced into continuous mode of operation as soon as V

is below the undervoltage threshold of 0.54V regardless of

the setting on the MODE/PLLIN pin. However, the LTC3865/

LTC3865-1 should always be set in forced continuous

mode tracking down when there is no load. After TK/SS

drops below 0.1V, the corresponding channel will operate

in discontinuous mode.

Output Voltage Tracking

The LTC3865/LTC3865-1 allow the user to program how its

output ramps up and down by means of the TK/SS pins.

Through these pins, the output can be set up to either co-

incidentally or ratiometrically track another supply’s output,

as shown in Figure 5. In the following discussions, V

refers to the LTC3865/LTC3865-1’s output 1 as a master

channel and V

put 2 as a slave channel. In practice, though, either phase

can be used as the master. To implement the coincident

tracking in Figure 5a, connect an additional resistive divider

to V

slave channel. The ratio of this divider should be the same

as that of the slave channel’s internal feedback divider

OUT1

SOFTSTART

and connect its midpoint to the TK/SS pin of the

OUT2

= 0 6

LTC3865/LTC3865-1

. •

refers to the LTC3865/LTC3865-1’s out-

1 3

. μ

OUT1

3865fb

LTC3865EFE#PBF Linear Technology, LTC3865EFE#PBF Datasheet - Page 19

LTC3865EFE#PBF

Specifications of LTC3865EFE#PBF

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