LTC3810EG LINER [Linear Technology], LTC3810EG Datasheet - Page 22

LTC3810EG

Manufacturer Part Number

LTC3810EG

Description

100V Current Mode Synchronous Switching Regulator Controller

Manufacturer

LINER [Linear Technology]

Datasheet

1.LTC3810EG.pdf (36 pages)

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APPLICATIONS INFORMATION

LTC3810

The external NMOS for the linear regulator should be a

standard 3V threshold type (i.e., not a logic level threshold).

The rate of charge of INTV

by the LTC3810 to be approximately 75μs regardless of

the size of the capacitor connected to the INTV

charging current for this capacitor is approximately:

The safe operating area (SOA) for the external NMOS

should be chosen so that capacitor charging does not

damage the NMOS. Excessive values of capacitor are

unnecessary and should be avoided. Typically values in

the 1μF to 10μF work well.

One more design requirement for this mode is the minimum

soft-start capacitor value. The fault timeout is enabled

when SS/TRACK voltage is greater than 4V. This gives the

power supply time to bring the output up before it starts

the timeout sequence. To prevent timeout sequence from

starting prematurely during start-up, a minimum C

is necessary to ensure that V

> 6.7V. To ensure this, choose:

Mode 2 should be used if V

EXTV

of a charge pump or extra inductor winding is not wanted

to boost this voltage above 6.7V. In this mode, EXTV

grounded and the NMOS is chosen to handle the worst-

case power dissipation:

To operate properly, the fault timeout operation must be

disabled by choosing

MOSFET

NDRV

> C

< 15V operating range and the extra complexity

75μs

= V

10V

> (V

OUT

(

IN(MAX)

• (2.3 × 10

INTVCC

)

– 10V – V

( )

(

–6

)/I

G(TOP)

OUT

from 0V to 10V is controlled

SS/TRACK

OUT(MAX)

is outside of the 6.7V <

)/270μA

+ Q

G(BOTTOM)

< 4V until V

)

pin. The

+ 3mA

EXTVCC

value

If the required R

value for V

can also be disabled by connecting a 500k to 2M resistor

from the SS/TRACK pin to INTV

Using Trickle Charge Mode

Trickle charge mode is selected by shorting NDRV and

INTV

mode has the advantage of not requiring an external

MOSFET but takes longer to start up due to slow charge

up of C

• R

DRV

ing start-up. Once the INTV

trickle charge UV threshold of 12V, the drivers will turn on

and start discharging C

by the driver current I

up, C

the EXTV

6.7V before C

UV threshold of 6V. This is ensured if:

where I

and I

For R

to ensure proper start-up:

RNG

Min R

Max R

PULLUP

INTVCC

L arger of

INTVCC

MAX

PULLUP

INTVCC

capacitor values to hold up the supply voltage dur-

and connecting EXTV

is the gate drive current = (f)(Q

PULLUP

is the maximum inductor current selected by

IN(MIN)

• C

+ C

voltage reaches the switchover threshold of

, the value should fall in the following range

DRVCC

and C

DRVCC

INTVCC

DRVCC

> (V

MAX

< (V

(see Equation 1), fault timeout operation

OUT

NDRV

DRVCC

) and usually requires larger INTV

must be chosen large enough so that

IN(MAX)

IN(MIN)

DRVCC

INTVCC

value results in an unacceptable

. In order to ensure proper start-

through R

•

5.5 • 10

–12V)/I

–14V)/I

discharges below the falling

/DRV

OUT(REG)

DRVCC

to V

• C

PULLUP

CCSR

Q,SHUTDOWN

G(TOP)

voltage reaches the

at a rate determined

OUT

. Trickle charge

+ Q

DELAY

G(BOTTOM)

= 0.77

3810fb

)

LTC3810EG LINER [Linear Technology], LTC3810EG Datasheet - Page 22

LTC3810EG

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