LTC3728LXCUH#TR Linear Technology, LTC3728LXCUH#TR Datasheet - Page 24

LTC3728LXCUH#TR

Manufacturer Part Number

LTC3728LXCUH#TR

Description

IC CTRLR SW REG 2-PH SYNC 32-QFN

Manufacturer

Linear Technology

Series

PolyPhase®r

Type

Step-Down (Buck)r

Datasheet

1.LTC3728LXCUHPBF.pdf (36 pages)

Specifications of LTC3728LXCUH#TR

Internal Switch(s)

Synchronous Rectifier

Yes

Number Of Outputs

Voltage - Output

0.8 ~ 7 V

Current - Output

Frequency - Switching

250kHz ~ 550kHz

Voltage - Input

4.5 ~ 28 V

Operating Temperature

0°C ~ 85°C

Mounting Type

Surface Mount

Package / Case

32-QFN

Lead Free Status / RoHS Status

Contains lead / RoHS non-compliant

Power - Output

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APPLICATIONS INFORMATION

LTC3728L/LTC3728LX

The output of the phase detector is a complementary pair

of current sources charging or discharging the external

ﬁ lter network on the PLLFLTR pin.

If the external frequency (f

cillator frequency, f

pulling up the PLLFLTR pin. When the external frequency is

less than f

the PLLFLTR pin. If the external and internal frequencies

are the same but exhibit a phase difference, the current

sources turn on for an amount of time corresponding to

the phase difference. Thus, the voltage on the PLLFLTR pin

is adjusted until the phase and frequency of the external

and internal oscillators are identical. At this stable operat-

ing point, the phase comparator output is open and the

ﬁ lter capacitor C

must be driven from a low impedance source such as a

logic gate located close to the pin. When using multiple

ICs for a phase-locked system, the PLLFLTR pin of the

master oscillator should be biased at a voltage that will

guarantee the slave oscillator(s) ability to lock onto the

master’s frequency. A DC voltage of 0.7V to 1.7V applied

to the master oscillator’s PLLFLTR pin is recommended

in order to meet this requirement. The resultant operating

frequency can range from 300kHz to 500kHz.

The loop ﬁ lter components (C

current pulses from the phase detector and provide a

stable input to the voltage controlled oscillator. The ﬁ lter

components, C

acquires lock. Typically, R

to 0.1μF .

Minimum On-Time Considerations

Minimum on-time, t

tion that each controller is capable of turning on the top

MOSFET. It is determined by internal timing delays and the

gate charge required to turn on the top MOSFET. Low duty

cycle applications may approach this minimum on-time

limit and care should be taken to ensure that:

ON(MIN)

0SC

, current is sunk continuously, pulling down

OUT

(f)

and R

0SC

holds the voltage. The IC’s PLLIN pin

ON(MIN)

, current is sourced continuously,

, determine how fast the loop

PLLIN

, is the smallest time dura-

= 10kΩ and C

) is greater than the os-

, R

) smooth out the

is 0.01μF

If the duty cycle falls below what can be accommodated

by the minimum on-time, the controller will begin to skip

cycles. The output voltage will continue to be regulated,

but the ripple voltage and current will increase.

The typical tested minimum on-time is 100ns under an ideal

condition without switching noise. However, the minimum

on-time can be affected by PCB switching noise in the volt-

age and current loops. With a reasonably good PCB layout,

a minimum 30% inductor current ripple, approximately

15mV sensing ripple voltage and 200ns minimum on-time

are conservative estimates for starting a design.

FCB Pin Operation

The FCB pin can be used to regulate a secondary winding

or as a logic-level input. Continuous operation is forced

on both controllers when the FCB pin drops below 0.8V.

During continuous mode, current ﬂ ows continuously in

the transformer primary. The secondary winding(s) draw

current only when the bottom, synchronous switch is on.

When primary load currents are low and/or the V

ratio is low, the synchronous switch may not be on for a

sufﬁ cient amount of time to transfer power from the output

capacitor to the secondary load. Forced continuous opera-

tion will support secondary windings providing there is

sufﬁ cient synchronous switch duty factor. Thus, the FCB

input pin removes the requirement that power must be

drawn from the inductor primary in order to extract power

from the auxiliary windings. With the loop in continuous

mode, the auxiliary outputs may nominally be loaded

without regard to the primary output load.

The secondary output voltage, V

shown in Figure 6a by the turns ratio N of the trans-

former:

However, if the controller goes into Burst Mode operation

and halts switching due to a light primary load current, then

the FCB pin sets a minimum voltage V

where R5 and R6 are shown in Figure 2.

SEC

SEC(MIN)

will droop. An external resistive divider from V

≅ (N + 1) V

0.8V 1+

OUT

SEC

, is normally set as

SEC(MIN)

SEC

3728lxfe

OUT

LTC3728LXCUH#TR Linear Technology, LTC3728LXCUH#TR Datasheet - Page 24

LTC3728LXCUH#TR

Specifications of LTC3728LXCUH#TR

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