LTC4257-1 Linear Technology, LTC4257-1 Datasheet - Page 14

LTC4257-1

Manufacturer Part Number

LTC4257-1

Description

Power over Ethernet Interface Controller with Dual Current Limit

Manufacturer

Linear Technology

Datasheet

1.LTC4257-1.pdf (20 pages)

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Bonase Electronics (HK) Co., Limited

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LTC4257-1CS8

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APPLICATIO S I FOR ATIO

LTC4257-1

The IEEE standard includes an AC impedance requirement

in order to implement the AC disconnect function. Capaci-

tor C14 in Figure 8 is used to meet this AC impedance

requirement. A 0.1 F capacitor is recommended for this

application.

The LTC4257-1 has several different modes of operation

based on the voltage present between the V

The forward voltage drop of the input diodes in a PD design

subtracts from the input voltage and will affect the transi-

tion point between modes. When using the LTC4257-1, it

is necessary to pay close attention to this forward voltage

drop. Selection of oversized diodes will help keep the PD

thresholds from exceeding IEEE specifications.

The input diode bridge of a PD can consume over 4% of the

available power in some applications. It may be desirable

to use Schottky diodes in order to reduce this power loss.

However, if the standard diode bridge is replaced with a

Schottky bridge, the transition points between modes will

be affected. The application circuit (Figure 11) shows a tech-

nique for using Schottky diodes while maintaining proper

threshold points to meet IEEE 802.3af compliance.

Auxiliary Power Source

In some applications, it may be desirable to power the PD

from an auxiliary power source such as a wall transformer.

Figure 9 demonstrates three methods of diode ORing

external power into a PD. Option 1 inserts power before the

LTC4257-1 while options 2 and 3 apply power after the

LTC4257-1.

If power is inserted before the LTC4257-1 (option 1), it is

necessary for the wall transformer to exceed the LTC4257-1

UVLO turn-on requirement and limit the maximum voltage

to 57V. This option provides input current limit for the

transformer, provides a valid power good signal and

simplifies power priority issues. As long as the wall

transformer applies power to the PD before the PSE, it will

take priority and the PSE will not power up the PD because

the wall power will corrupt the 25k signature. If the PSE is

already powering the PD, the wall transformer power will

be in parallel with the PSE. In this case, priority will be

and GND pins.

given to the higher supply voltage. If the wall transformer

voltage is higher, the PSE should remove line voltage since

no current will be drawn from the PSE. On the other hand,

if the wall transformer voltage is lower, the PSE will

continue to supply power to the PD and the wall trans-

former power will not be used. Proper operation should

occur in either scenario.

If auxiliary power is applied after the LTC4257-1 (option 2),

a different set of tradeoffs arise. In this configuration, the

wall transformer does not need to exceed the LTC4257-1

turn-on UVLO requirement; however, it is necessary to

include diode D9 to prevent the transformer from applying

power to the LTC4257-1. The transformer voltage require-

ments will be governed by the needs of the PD switcher and

may exceed 57V. However, power priority issues require

more intervention. If the wall transformer voltage is below

the PSE voltage, then priority will be given to the PSE power.

The PD will draw power from the PSE while the transformer

will sit unused. This configuration is not a problem in a PoE

system. On the other hand, if the wall transformer voltage

is higher than the PSE voltage, the PD will draw power from

the transformer. In this situation, it is necessary to address

the issue of power cycling that may occur if a PSE is present.

The PSE will detect the PD and apply power. If the PD is being

the minimum load requirement and the PSE will subse-

quently remove power. The PSE will again detect the PD and

power cycling will start. With a transformer voltage above

the PSE voltage, it is necessary to either disable the signa-

ture, as shown in option 2, or install a minimum load on the

output of the LTC4257-1 to prevent power cycling.

The third option also applies power after the LTC4257-1,

while omitting diode D9. With the diode omitted, the

transformer voltage is applied to the LTC4257-1 in addi-

tion to the load. For this reason, it is necessary to ensure

that the transformer maintain the voltage between 38V and

57V to keep the LTC4257-1 in its normal operating range.

The third option has the advantage of automatically dis-

abling the 25k signature when the external voltage ex-

ceeds the PSE voltage.

42571fa

LTC4257-1 Linear Technology, LTC4257-1 Datasheet - Page 14

LTC4257-1

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