LTC4268IDKD-1#TRPBF Linear Technology, LTC4268IDKD-1#TRPBF Datasheet - Page 31

LTC4268IDKD-1#TRPBF

Manufacturer Part Number

LTC4268IDKD-1#TRPBF

Description

IC PD HIGH POWER W/CNTRL 32-DFN

Manufacturer

Linear Technology

Type

Power over Ethernet Switch (PoE)r

Datasheet

1.LTC4268CDKD-1PBF.pdf (48 pages)

Specifications of LTC4268IDKD-1#TRPBF

Applications

Remote Peripherals (Industrial Controls, Cameras, Data Access)

Internal Switch(s)

Yes

Operating Temperature

-40°C ~ 85°C

Mounting Type

Surface Mount

Package / Case

32-WFDFN Exposed Pad

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

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APPLICATIONS INFORMATION

where:

Nominal output impedance cancellation is obtained by

equating this expression with R

Solving for R

The practical aspects of applying this equation to determine

an appropriate value for the R

Applications Information.

Transformer Design

Transformer design/speciﬁ cation is the most critical part of

a successful application of the LTC4268-1. The following

sections provide basic information about designing the

transformer and potential tradeoffs. If you need help, the

LTC Applications group is available to assist in the choice

and/or design of the transformer.

Turns Ratios

The design of the transformer starts with determining

duty cycle (DC). DC impacts the current and voltage stress

on the power switches, input and output capacitor RMS

currents and transformer utilization (size vs power). The

ideal turns ratio is:

Avoid extreme duty cycles as they, in general, increase

current stresses. A reasonable target for duty cycle is

50% at nominal input voltage.

K1 = dimensionless variable related to V

K1•

SENSE

CMP

DEAL

SENSE

= K1•

OUT

CMP

= external sense resistor

CMP

OUT

and efﬁ ciency as explained above

• R1• N

ESR + R

SENSE

gives:

•

1− DC

• 1− DC

(

DS(ON)

ESR + R

CMP

S(OUT)

1− DC

)

resistor are found in the

• R1• N

DS(ON)

For instance, if we wanted a 48V to 5V converter at 50%

DC then:

In general, better performance is obtained with a lower

turns ratio. A DC of 45.5% yields a 1:8 ratio. Note the

use of the external feedback resistive divider ratio to set

output voltage provides the user additional freedom in

selecting a suitable transformer turns ratio. Turns ratios

that are the simple ratios of small integers; e.g., 1:1, 2:1,

3:2 help facilitate transformer construction and improve

performance. When building a supply with multiple

outputs derived through a multiple winding transformer,

lower duty cycle can improve cross regulation by keeping

the synchronous rectiﬁ er on longer, and thus, keep

secondary windings coupled longer. For a multiple output

transformer, the turns ratio between output windings is

critical and affects the accuracy of the voltages. The ratio

between two output voltages is set with the formula V

= V

two windings. Also keep the secondary MOSFET R

small to improve cross regulation. The feedback winding

usually provides both the feedback voltage and power for

the LTC4268-1. Set the turns ratio between the output and

feedback winding to provide a rectiﬁ ed voltage that under

worst-case conditions is greater than the 11V maximum

For our example: N

where:

We will choose

OUT1

turn-off voltage.

DEAL

= Diode Forward Voltage

• N21 where N21 is the turns ratio between the

11+ V

OUT

•

1− 0.5

0.5

9.6

11+ 0.7

LTC4268-1

2.34

DS(ON)

42681fb

OUT2

LTC4268IDKD-1#TRPBF Linear Technology, LTC4268IDKD-1#TRPBF Datasheet - Page 31

LTC4268IDKD-1#TRPBF

Specifications of LTC4268IDKD-1#TRPBF

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