LTC4269-1 Linear Technology Corporation, LTC4269-1 Datasheet - Page 30

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

trace length and area to minimize stray capacitance and

potential noise pick-up.

You can synchronize the oscillator frequency to an

external frequency. This is done with a signal on the SYNC

pin. Set the LTC4269-1 frequency 10% slower than the

desired external frequency using the OSC pin capacitor,

then use a pulse on the SYNC pin of amplitude greater

than 2V and with the desired frequency. The rising edge

of the SYNC signal initiates an OSC capacitor discharge

forcing primary MOSFET off (PG voltage goes low). If

the oscillator frequency is much different from the sync

frequency, problems may occur with slope compensation

and system stability. Also, keep the sync pulse width

greater than 500ns.

Selecting Timing Resistors

There are three internal “one-shot” times that are

programmed by external application resistors: minimum

on-time, enable delay time and primary MOSFET turn-on

delay. These are all part of the isolated ﬂ yback control

technique, and their functions are previously outlined in

the Theory of Operation section. The following information

should help in selecting and/or optimizing these timing

values.

Minimum Output Switch On-Time (t

Minimum on-time is the programmable period during which

current limit is blanked (ignored) after the turn-on of the

primary-side switch. This improves regulator performance

by eliminating false tripping on the leading edge spike in

the switch, especially at light loads. This spike is due to

both the gate/source charging current and the discharge

of drain capacitance. The isolated ﬂ yback sensing requires

a pulse to sense the output. Minimum on-time ensures

that the output switch is always on a minimum time and

that there is always a signal to close the loop.

The LTC4269-1 does not employ cycle skipping at light

loads. Therefore, minimum on-time along with synchro-

nous rectiﬁ cation sets the switch over to forced continuous

mode operation.

ON(MIN)

)

The t

Keep R

is 160k.

Enable Delay Time (ENDLY)

Enable delay time provides a programmable delay between

turn-off of the primary gate drive node and the subsequent

enabling of the feedback ampliﬁ er. As discussed earlier,

this delay allows the feedback ampliﬁ er to ignore the

leakage inductance voltage spike on the primary side.

The worst-case leakage spike pulse width is at maximum

load conditions. So, set the enable delay time at these

conditions.

While the typical applications for this part use forced

continuous operation, it is conceivable that a secondary-

side controller might cause discontinuous operation at

light loads. Under such conditions, the amount of energy

stored in the transformer is small. The ﬂ yback waveform

becomes “lazy” and some time elapses before it indicates

the actual secondary output voltage. The enable delay time

should be made long enough to ignore the “irrelevant”

portion of the ﬂ yback waveform at light loads.

Even though the LTC4269-1 has a robust gate drive, the gate

transition time slows with very large MOSFETs. Increase

delay time as required when using such MOSFETs.

The enable delay resistor is set with the following

equation:

Keep R

56k.

ENDLY

tON MIN

ON(MIN)

tON(MIN)

ENDLY

(

( )

)

( )

resistor is set with the following equation

greater than 40k. A good starting point is

greater than 70k. A good starting value

ENDLY

ON MIN

2 616

(

( )

1 063

)

( )

− 30

− 104

42691f

LTC4269-1 Linear Technology Corporation, LTC4269-1 Datasheet - Page 30

LTC4269-1

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