LTC3810EG LINER [Linear Technology], LTC3810EG Datasheet - Page 17

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

the period. Since there is no transition loss term in the

synchronous MOSFET, optimal efﬁ ciency is obtained by

minimizing R

leling multiple MOSFETs.

Multiple MOSFETs can be used in parallel to lower

if desired. The LTC3810 contains large low impedance

drivers capable of driving large gate capacitances without

signiﬁ cantly slowing transition times. In fact, when driv-

ing MOSFETs with very low gate charge, it is sometimes

helpful to slow down the drivers by adding small gate

resistors (10Ω or less) to reduce noise and EMI caused

by the fast transitions.

Operating Frequency

The choice of operating frequency is a tradeoff between

efﬁ ciency and component size. Low frequency operation

improves efﬁ ciency by reducing MOSFET switching losses

but requires larger inductance and/or capacitance in order

to maintain low output ripple voltage.

The operating frequency of LTC3810 applications is de-

termined implicitly by the one-shot timer that controls

the on-time, t

is set by the current out of the I

the V

DS(ON)

Figure 7a. Switching Frequency vs R

pin according to:

and meet the current and thermal requirements

1000

ION

VON

100

DS(ON)

(76pF)

, of the top MOSFET switch. The on-time

— by using larger MOSFETs or paral-

OUT

= 1.5V

100

(kΩ)

OUT

= 5V

pin and the voltage at

OUT

= 3.3V

= 2.5V

3810 F07a

1000

= 0V)

Tying a resistor R

on-time inversely proportional to V

converter, this results in approximately constant frequency

operation as the input supply varies:

To hold frequency constant during output voltage changes,

tie the V

when V

limit its input to the one-shot timer. If the pin is tied below

0.7V, the input to the one-shot is clamped at 0.7V. Similarly,

if the pin is tied above 2.4V, the input is clamped at 2.4V.

In high V

and 7b show how R

several common output voltages.

Changes in the load current magnitude will cause frequency

shift. Parasitic resistance in the MOSFET switches and

inductor reduce the effective voltage across the induc-

tance, resulting in increased duty cycle as the load current

increases. By lengthening the on-time slightly as current

increases, constant frequency operation can be main-

tained. This is accomplished with a resistive divider from

the I

will depend on the parasitic resistances in the speciﬁ c

f =

Figure 7b. Switching Frequency vs R

OUT

pin to the V

VON

OUT

1000

100

pin to V

> 2.4V. The V

• R

applications, tie V

OUT

(76pF)

OUT

= 3.3V

from V

pin and V

or to a resistive divider from V

relates to switching frequency for

100

pin has internal clamps that

(kΩ)

]

OUT

to the I

OUT

= 12V

to INTV

. The values required

OUT

. For a step-down

= 5V

LTC3810

3810 F07b

1000

pin yields an

= INTV

. Figures 7a

)

3810fb

OUT

LTC3810EG LINER [Linear Technology], LTC3810EG Datasheet - Page 17

LTC3810EG

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