LTC3727-1 Linear Technology, LTC3727-1 Datasheet - Page 22

LTC3727-1

Manufacturer Part Number

LTC3727-1

Description

2-Phase Synchronous Step-Down Switching Regulators

Manufacturer

Linear Technology

Datasheet

1.LTC3727-1.pdf (32 pages)

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APPLICATIO S I FOR ATIO

LTC3727/LTC3727-1

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 transformer:

However, if the controller goes into Burst Mode operation

and halts switching due to a light primary load current,

then V

where R5 and R6 are shown in Figure 2.

If V

temporary continuous switching operation until V

again above its minimum.

In order to prevent erratic operation if no external connec-

tions are made to the FCB pin, the FCB pin has a 0.18 A

internal current source pulling the pin high. Include this

current when choosing resistor values R5 and R6.

The following table summarizes the possible states avail-

able on the FCB pin:

Table 1

FCB Pin

0.85V < V

Feedback Resistors

>7.3V

Voltage Positioning

Voltage positioning can be used to minimize peak-to-peak

output voltage excursions under worst-case transient

0V to 0.75V

SEC

SEC MIN

to the FCB pin sets a minimum voltage V

SEC

FCB

(

drops below this level, the FCB voltage forces

(N + 1) V

< 6.8V

will droop. An external resistive divider from

)

. 0 8

OUT

Condition

Forced Continuous Both Controllers

(Current Reversal Allowed—

Burst Inhibited)

Minimum Peak Current Induces

Burst Mode Operation

No Current Reversal Allowed

Regulating a Secondary Winding

Burst Mode Operation Disabled

Constant Frequency Mode Enabled

No Current Reversal Allowed

No Minimum Peak Current

SEC

is normally set as

SEC(MIN)

SEC

loading conditions. The open-loop DC gain of the control

loop is reduced depending upon the maximum load step

specifications. Voltage positioning can easily be added to

the LTC3727 by loading the I

having a Thevenin equivalent voltage source equal to the

midpoint operating voltage range of the error amplifier, or

1.2V (see Figure 8).

The resistive load reduces the DC loop gain while main-

taining the linear control range of the error amplifier. The

maximum output voltage deviation can theoretically be

reduced to half or alternatively the amount of output

capacitance can be reduced for a particular application. A

complete explanation is included in Design Solutions 10.

(See www.linear-tech.com)

Efficiency Considerations

The percent efficiency of a switching regulator is equal to

the output power divided by the input power times 100%.

It is often useful to analyze individual losses to determine

what is limiting the efficiency and which change would

produce the most improvement. Percent efficiency can be

expressed as:

where L1, L2, etc. are the individual losses as a percentage

of input power.

Although all dissipative elements in the circuit produce

losses, four main sources usually account for most of the

losses in LTC3727 circuits: 1) LTC3727 V

cluding loading on the 3.3V internal regulator), 2) INTV

regulator current, 3) I

transition losses.

1. The V

supply current given in the Electrical Characteristics table,

Figure 8. Active Voltage Positioning Applied to the LTC3727

%Efficiency = 100% – (L1 + L2 + L3 + ...)

current has two components: the first is the DC

INTV

R losses, 4) Topside MOSFET

pin with a resistive divider

LTC3727

www.DataSheet4U.com

3727 F08

current (in-

3727f

LTC3727-1 Linear Technology, LTC3727-1 Datasheet - Page 22

LTC3727-1

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