LTC3703EG-5#TR Linear Technology, LTC3703EG-5#TR Datasheet - Page 11

LTC3703EG-5#TR

Manufacturer Part Number

LTC3703EG-5#TR

Description

IC BUCK/BOOST SYNC ADJ 5A 28SSOP

Manufacturer

Linear Technology

Type

Step-Down (Buck), Step-Up (Boost)r

Datasheet

1.LTC3703EGN-5PBF.pdf (32 pages)

Specifications of LTC3703EG-5#TR

Internal Switch(s)

Synchronous Rectifier

Yes

Number Of Outputs

Voltage - Output

0.8 ~ 55.8 V

Current - Output

Frequency - Switching

100kHz ~ 600kHz

Voltage - Input

9.3 ~ 60 V

Operating Temperature

-40°C ~ 85°C

Mounting Type

Surface Mount

Package / Case

28-SSOP

Lead Free Status / RoHS Status

Contains lead / RoHS non-compliant

Power - Output

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OPERATIO

For maximum protection, the LTC3703-5 current limit

consists of a steady-state limit circuit and an instanta-

neous limit circuit. The steady-state limit circuit is a g

amplifier that pulls a current from the RUN/SS pin propor-

tional to the difference between the SW and I

This current begins to discharge the capacitor at RUN/SS,

reducing the duty cycle and controlling the output voltage

until the current regulates at the limit. Depending on the

size of the capacitor, it may take many cycles to discharge

the RUN/SS voltage enough to properly regulate the

output current. This is where the instantaneous limit

circuit comes into play. The instantaneous limit circuit is

a cycle-by-cycle comparator which monitors the bottom

MOSFET’s drain voltage and keeps the top MOSFET from

turning on whenever the drain voltage is 50mV above the

programmed max drain voltage. Thus the cycle-by-cycle

comparator will keep the inductor current under control

until the g

Pulse Skip Mode

The LTC3703-5 can operate in one of two modes select-

able with the MODE/SYNC pin—Pulse Skip Mode or

forced continuous mode. Pulse Skip Mode is selected

when increased efficiency at light loads is desired. In this

mode, the bottom MOSFET is turned off when inductor

current reverses to minimize the efficiency loss due to

reverse current flow. As the load is decreased (see Fig-

ure 5), the duty cycle is reduced to maintain regulation

until its minimum on-time (~200ns) is reached. When the

load decreases below this point, the LTC3703-5 begins to

Figure 5. Comparison of Inductor Current Waveforms for Pulse Skip Mode and Forced Continuous Operation

amplifier gains control.

DECREASING

CURRENT

(Refer to Functional Diagram)

LOAD

PULSE SKIP MODE

MAX

voltages.

skip cycles to maintain regulation. The frequency drops

but this further improves efficiency by minimizing gate

charge losses. In forced continuous mode, the bottom

MOSFET is always on when the top MOSFET is off,

allowing the inductor current to reverse at low currents.

This mode is less efficient due to resistive losses, but has

the advantage of better transient response at low currents,

constant frequency operation, and the ability to maintain

regulation when sinking current. See Figure 4 for a com-

parison of the effect on efficiency at light loads for each

mode. The MODE/SYNC threshold is 0.8V ±7.5%, allow-

ing the MODE/SYNC to act as a feedback pin for regulating

a second winding. If the feedback voltage drops below

0.8V, the LTC3703-5 reverts to continuous operation to

maintain regulation in the secondary supply.

Figure 4. Efficiency in Pulse Skip/Forced Continuous Modes

FORCED CONTINUOUS

100

= 42V

= 12V

100

= 42V

LOAD (mA)

= 12V

FORCED CONTINUOUS

PULSE SKIP MODE

37035 F05

OUT

= 5V

1000

LTC3703-5

37035 F04

10000

37035fa

LTC3703EG-5#TR Linear Technology, LTC3703EG-5#TR Datasheet - Page 11

LTC3703EG-5#TR

Specifications of LTC3703EG-5#TR

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