ltc4264cde-trpbf Linear Technology Corporation, ltc4264cde-trpbf Datasheet - Page 11

ltc4264cde-trpbf

Manufacturer Part Number

ltc4264cde-trpbf

Description

High Power Pd Interface Controller With 750ma Current Limit

Manufacturer

Linear Technology Corporation

Datasheet

1.LTC4264CDE-TRPBF.pdf (24 pages)

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APPLICATIONS INFORMATION

During classiﬁ cation, the PSE presents a ﬁ xed voltage

between –15.5V and –20.5V to the PD (Figure 6). With

the input voltage in this range, the LTC4264 asserts a load

current from the GND pin through the R

magnitude of the load current is set with the selection of

the R

each class is shown in Table 2.

Table 2. Summary of IEEE 802.3af Power Classiﬁ cations and

LTC4264 R

A substantial amount of power is dissipated in the LTC4264

during classiﬁ cation. The IEEE 802.3af speciﬁ cation limits

the classiﬁ cation time to 75ms in order avoid excessive

heating. The LTC4264 is designed to handle the power

dissipation during the probe period. If the PSE probing

exceeds 75ms, the LTC4264 may overheat. In this situa-

tion, the thermal protection circuit will engage and disable

the classiﬁ cation current source, protecting the LTC4264

from damage. When the die cools, classiﬁ cation is auto-

matically resumed.

Classiﬁ cation presents a challenging stability problem

for the PSE due to the wide range of loads possible. The

LTC4264 has been designed to avoid PSE interoperability

problems by maintaining a positive I-V slope throughout

the signature and classiﬁ cation ranges up to UVLO turn-

on as shown in Figure 6b. The positive I-V slope avoids

areas of negative resistance and helps prevent the PSE

CLASS

Reserved by IEEE. See Apps

Optional

USAGE

Default

Undeﬁ ned IEEE. See Apps

CLASS

resistor. The resistor value associated with

Resistor Selection

POWER LEVELS

AT INPUT OF PD

0.44 to 12.95

6.49 to 12.95

0.44 to 3.84

3.84 to 6.49

MAXIMUM

(W)

CLASSIFICATION

LOAD CURRENT

NOMINAL

(mA)

10.5

18.5

CLASS

resistor. The

RESISTOR

LTC4264

RCLASS

(Ω, 1%)

Open

69.8

45.3

30.9

22.1

124

from power cycling or getting “stuck” during signature

or classiﬁ cation probing. In the event a PSE overshoots

beyond the classiﬁ cation voltage range, the available load

current aids in returning the PD back into the classiﬁ cation

voltage range. (The PD input may otherwise be “trapped”

by a reverse-biased diode bridge and the voltage held by

the 0.1µF capacitor.) By gently ramping the classiﬁ cation

current on and maintaining a positive I-V slope until UVLO

turn-on, the LTC4264 provides a well behaved load, as-

suring interoperability with any PSE.

–15.5V TO –20.5V

PROBING

VOLTAGE

SOURCE

Figure 6a. PSE Probing PD During Classiﬁ cation

PSE

PSE CURRENT MONITOR

Figure 6b. LTC4264 Positive I-V Slope

PSE

–10

INPUT VOLTAGE (V)

CURRENT PATH

–20

CLASS

–30

LTC4264

CLASS

4264 F06b

LTC4264

–40

4264 F06a

GND

CONSTANT

LOAD

CURRENT

INTERNAL

TO LTC4264

4264f

ltc4264cde-trpbf Linear Technology Corporation, ltc4264cde-trpbf Datasheet - Page 11

ltc4264cde-trpbf

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