LTC3703EGN-5 Linear Technology, LTC3703EGN-5 Datasheet - Page 9

LTC3703EGN-5

Manufacturer Part Number

LTC3703EGN-5

Description

IC BUCK/BOOST SYNC ADJ 5A 16SSOP

Manufacturer

Linear Technology

Type

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

Datasheet

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

Specifications of LTC3703EGN-5

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

16-SSOP

Lead Free Status / RoHS Status

Contains lead / RoHS non-compliant

Power - Output

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Current page: 9 of 32
Download datasheet (373Kb)

When the load current increases, it causes a drop in the

feedback voltage relative to the reference. The COMP volt-

age then rises, increasing the duty ratio until the output

feedback voltage again matches the reference voltage. In

normal operation, the top MOSFET is turned on when the

RS latch is set by the on-chip oscillator and is turned off

when the PWM comparator trips and resets the latch. The

PWM comparator trips at the proper duty ratio by compar-

ing the error amplifier output (after being “compensated”

by the line feedforward multiplier) to a sawtooth waveform

generated by the oscillator. When the top MOSFET is turned

off, the bottom MOSFET is turned on until the next cycle

begins or, if Pulse Skip Mode operation is enabled, until

the inductor current reverses as determined by the reverse

current comparator. MAX and MIN comparators ensure

that the output never exceed ±5% of nominal value by

monitoring V

quickly by either keeping the top MOSFET off or forcing

maximum duty cycle. The operation of its other features—

fast transient response, outstanding line regulation, strong

gate drivers, short-circuit protection, and shutdown/

soft-start—are described below.

Fast Transient Response

The LTC3703-5 uses a fast 25MHz op amp as an error am-

plifier. This allows the compensation network to be opti-

mized for better load transient response. The high

bandwidth of the amplifier, along with high switching fre-

quencies and low value inductors, allow very high loop

crossover frequencies. The 800mV internal reference allows

regulated output voltages as low as 800mV without exter-

nal level shifting amplifiers.

Line Feedforward Compensation

The LTC3703-5 achieves outstanding line transient re-

sponse using a patented feedforward correction scheme.

With this circuit the duty cycle is adjusted instantaneously

to changes in input voltage, thereby avoiding unaccept-

able overshoot or undershoot. It has the added advantage

of making the DC loop gain independent of input voltage.

Figure 1 shows how large transient steps at the input have

little effect on the output voltage.

OPERATIO

and forcing the output back into regulation

(Refer to Functional Diagram)

Strong Gate Drivers

The LTC3703-5 contains very low impedance drivers

capable of supplying amps of current to slew large MOSFET

gates quickly. This minimizes transition losses and allows

paralleling MOSFETs for higher current applications. A

60V floating high side driver drives the top side MOSFET

and a low side driver drives the bottom side MOSFET (see

Figure 2). They can be powered from either a separate DC

supply or a voltage derived from the input or output

voltage (see MOSFET Driver Supplies section). The bot-

tom side driver is supplied directly from the DRV

The top MOSFET drivers are biased from floating boot-

strap capacitor C

each off cycle through an external diode from DRV

the top MOSFET turns off. In Pulse Skip Mode operation,

where it is possible that the bottom MOSFET will be off for

an extended period of time, an internal counter guarantees

that the bottom MOSFET is turned on at least once every

10 cycles for 10% of the period to refresh the bootstrap

capacitor. An undervoltage lockout keeps the LTC3703-5

shut down unless this voltage is above 4.1V.

The bottom driver has an additional feature that helps

minimize the possibility of external MOSFET shoot-thru.

When the top MOSFET turns on, the switch node dV/dt

pulls up the bottom MOSFET’s internal gate through the

Miller capacitance, even when the bottom driver is holding

the gate terminal at ground. If the gate is pulled up high

enough, shoot-thru between the top side and bottom side

AC COUPLED

50mV/DIV

20V/DIV

2A/DIV

OUT

Figure 1. Line Transient Performance

25V TO 60V V

LOAD

OUT

= 12V

= 1A

, which normally is recharged during

STEP

20µs/DIV

LTC3703-5

37035 F01

when

37035fa

pin.

LTC3703EGN-5 Linear Technology, LTC3703EGN-5 Datasheet - Page 9

LTC3703EGN-5

Specifications of LTC3703EGN-5

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