LTC4267IGN-1#TRPBF Linear Technology, LTC4267IGN-1#TRPBF Datasheet - Page 21

LTC4267IGN-1#TRPBF

Manufacturer Part Number

LTC4267IGN-1#TRPBF

Description

IC POE 802.3AF INTERFACE 16SSOP

Manufacturer

Linear Technology

Datasheet

1.LTC4267IGN-1PBF.pdf (32 pages)

Specifications of LTC4267IGN-1#TRPBF

Controller Type

Power over Ethernet Controller (POE)

Interface

IEEE 802.3af

Current - Supply

3mA

Operating Temperature

-40°C ~ 85°C

Mounting Type

Surface Mount

Package / Case

16-SSOP

Linear Misc Type

Negative Voltage

Package Type

SSOP N

Operating Supply Voltage (max)

-57V

Operating Temperature (min)

-40C

Operating Temperature (max)

85C

Operating Temperature Classification

Industrial

Product Depth (mm)

3.99mm

Product Height (mm)

1.5mm

Mounting

Surface Mount

Pin Count

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Voltage - Supply

Lead Free Status / Rohs Status

Compliant

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APPLICATIO S I FOR ATIO

collector resistor of the optoisolator can be selected for

an increase in bandwidth at the cost of a reduction in gain

of this stage.

Output Transformer Design Considerations

Since the external feedback resistor divider sets the

output voltage, the PD designer has relative freedom in

selecting the transformer turns ratio. The PD designer

can use simple ratios of small integers (i.e. 1:1, 2:1, 3:2)

which yields more freedom in setting the total turns and

mutual inductance and may allow the use of an off the

shelf transformer.

Transformer leakage inductance on either the primary or

secondary causes a voltage spike to occur after the output

switch (Q1 in Figure 11) turns off. The input supply volt-

age plus the secondary-to-primary referred voltage of the

ﬂ yback pulse (including leakage spike) must not exceed

the allowed external MOSFET breakdown rating. This spike

is increasingly prominent at higher load currents, where

more stored energy must be dissipated. In some cases,

a “snubber” circuit will be required to avoid overvoltage

breakdown at the MOSFET’s drain node. Application

Note 19 is a good reference for snubber design.

Current Sense Resistor Consideration

The external current sense resistor (R

allows the designer to optimize the current limit behavior

for a particular application. As the current sense resistor

is varied from several ohms down to tens of milliohms,

peak swing current goes from a fraction of an ampere to

several amperes. Care must be taken to ensure proper

circuit operation, especially for small current sense resis-

tor values.

Choose R

the entire range of the I

range is 0.7V to 1.9V and R

experiment. The main loop can be temporarily stabilized

by connecting a large capacitor on the power supply. Apply

SENSE

such that the switching current exercises

/RUN voltage. The nominal voltage

SENSE

can be determined by

SENSE

in Figure 11)

A series resistor (R

current sense resistor (R

age drop. From the perspective of the LTC4267-1 SENSE

pin, this ramping voltage adds to the voltage across the

sense resistor, effectively reducing the current comparator

threshold in proportion to duty cycle. This stabilizes the

control loop against subharmonic oscillation. The amount

of reduction in the current comparator threshold (ΔV

can be calculated using the following equation:

Note: The LTC4267-1 enforces 6% < Duty Cycle < 80%.

Designs not needing slope compensation may replace

Applications Employing a Third Transformer Winding

A standard operating topology may employ a third wind-

ing on the transformer’s primary side that provides power

the maximum load current allowable at the power sup-

ply output based on the class of the PD. Choose R

such that I

output load current over the entire operating range and

ensure that I

1.9V range. Layout is critical around the R

For example, a 0.020Ω sense resistor, with one milliohm

(0.001Ω) of parasitic resistance will cause a 5% reduction

in peak switch current. The resistance of printed circuit

copper traces cannot necessarily be ignored and good

layout techniques are mandatory.

Programmable Slope Compensation

The LTC4267-1 switching regulator injects a ramping

current through its SENSE pin into an external slope

compensation resistor (R

ramp starts at zero after the NGATE pin has been high for

the LTC4267-1’s minimum duty cycle of 6%. The current

rises linearly towards a peak of 5μA at the maximum duty

cycle of 80%, shutting off once the NGATE pin goes low.

ΔV

with a short-circuit.

SENSE

= 5μA • R

/RUN approaches 1.9V. Finally, exercise the

/RUN voltage remains within the 0.7V to

) connecting the SENSE pin to the

• [(Duty Cycle – 6%)/74%]

SENSE

in Figure 11). This current

) develops a ramping volt-

LTC4267-1

SENSE

resistor.

SENSE

42671f

)

LTC4267IGN-1#TRPBF Linear Technology, LTC4267IGN-1#TRPBF Datasheet - Page 21

LTC4267IGN-1#TRPBF

Specifications of LTC4267IGN-1#TRPBF

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