LTC4269-1 Linear Technology Corporation, LTC4269-1 Datasheet - Page 34

LTC4269-1

Manufacturer Part Number

LTC4269-1

Description

IEEE 802.3 At PD And Synchronous No-Opto Flyback Controller

Manufacturer

Linear Technology Corporation

Datasheet

1.LTC4269-1.pdf (44 pages)

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APPLICATIONS INFORMATION

LTC4269-1

Short-Circuit Conditions

Loss of current limit is possible under certain conditions

such as an output short-circuit. If the duty cycle exhibited

by the minimum on-time is greater than the ratio of

secondary winding voltage (referred-to-primary) divided

by input voltage, then peak current is not controlled at

the nominal value. It ratchets up cycle-by-cycle to some

higher level. Expressed mathematically, the requirement

to maintain short-circuit control is

where:

Trouble is typically encountered only in applications with

a relatively high product of input voltage times secondary

to primary turns ratio and/or a relatively long minimum

switch on time. Additionally, several real world effects such

as transformer leakage inductance, AC winding losses and

output switch voltage drop combine to make this simple

theoretical calculation a conservative estimate. Prudent

design evaluates the switcher for short-circuit protection

and adds any additional circuitry to prevent destruction.

Output Voltage Error Sources

The LTC4269-1’s feedback sensing introduces additional

minor sources of errors. The following is a summary list:

• The internal bandgap voltage reference sets the reference

• The external feedback resistive divider ratio directly

• Leakage inductance on the transformer secondary

(other variables as previously deﬁ ned)

voltage for the feedback ampliﬁ er. The speciﬁ cations

detail its variation.

affects regulated voltage. Use 1% components.

reduces the effective secondary-to-feedback winding

turns ratio (NS/NF) from its ideal value. This increases

the output voltage target by a similar percentage. Since

secondary leakage inductance is constant from part to

part (within a tolerance) adjust the feedback resistor

ratio to compensate.

ON(MIN)

MIN

is the short-circuit output current

is the secondary-to-primary turns ratio (N

is the primary-side switch minimum on-time

ON MIN

(

)

•

OSC

•

(

SEC

•

S S P

DS ON

(

SEC

)

PRI

)

• The transformer secondary current ﬂ ows through the

If the output load current is relatively constant, the feedback

resistive divider is used to compensate for these losses.

Otherwise, use the LTC4269-1 load compensation circuitry

(see Load Compensation). If multiple output windings are

used, the ﬂ yback winding will have a signal that represents

an amalgamation of all these windings impedances. Take

care that you examine worst-case loading conditions when

tweaking the voltages.

Power MOSFET Selection

The power MOSFETs are selected primarily on the criteria of

on-resistance R

breakdown voltage (BV

and maximum drain current (ID

For the primary-side power MOSFET, the peak current is:

where XMIN is peak-to-peak current ratio as deﬁ ned

earlier.

For each secondary-side power MOSFET, the peak cur-

rent is:

Select a primary-side power MOSFET with a BVDSS

greater than:

where NSP reﬂ ects the turns ratio of that secondary-to

primary winding. LLKG is the primary-side leakage induc-

tance and CP is the primary-side capacitance (mostly from

the drain capacitance (COSS) of the primary-side power

MOSFET). A clamp may be added to reduce the leakage

inductance as discussed.

impedances of the winding resistance, synchronous

MOSFET R

equivalent current for these errors is higher than the

load current because conduction occurs only during

the converter’s off-time. So, divide the load current by

(1 – DC).

PK PRI

PK SEC

DSS

(

)

≥

)

DS(ON)

IN MIN

−

DS(ON)

(

OUT

LKG

MAX

)

and output capacitor ESR. The DC

•

, input capacitance, drain-to-source

DSS

•

MAX

⎛

⎝ ⎜

IN MAX

), maximum gate voltage (V

(

•

⎛

⎝ ⎜

MIN

(MAX)

)

⎞

⎠ ⎟

OUT MAX

MIN

(

⎞

⎠ ⎟

)

42691f

)

LTC4269-1 Linear Technology Corporation, LTC4269-1 Datasheet - Page 34

LTC4269-1

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