LTC4257-1 Linear Technology, LTC4257-1 Datasheet - Page 17

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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APPLICATIO S I FOR ATIO

respect to V

circuit is shown in Figure 9, option 2. Note that the

SIGDISA input resistance is relatively large and the thresh-

old voltage is fairly low. Because of high voltages present

on the printed circuit board, leakage currents from the

GND pin could inadvertently pull SIGDISA high. To insure

trouble-free operation, use high-voltage layout techniques

in the vicinity of SIGDISA. If unused, connect SIGDISA

to V

Load Capacitor

The IEEE 802.3af specification requires that the PD main-

tain a minimum load capacitance of 5 F. It is permissible

to have a much larger load capacitor and the LTC4257-1

can charge very large load capacitors before thermal

issues become a problem. However, the load capacitor

must not be too large or the PD design may violate IEEE

802.3af requirements.

If the load capacitor is too large there can be a problem with

inadvertent power shutdown by the PSE. Consider the fol-

lowing scenario. If the PSE is running at – 57V (maximum

allowed) and the PD has been detected and powered up,

the load capacitor will be charged to nearly – 57V. If for

some reason the PSE voltage suddenly is reduced to – 44V

(minimum allowed), the input bridge will reverse bias and

PD power will be supplied solely by the load capacitor.

Depending on the size of the load capacitor and the DC load

of the PD, the PD will not draw any power from the PSE

for a period of time. If this period of time exceeds the IEEE

802.3af 300ms disconnect delay, the PSE may remove

power from the PD. For this reason, it is necessary to

evaluate the load capacitance and load current to ensure

that inadvertent shutdown cannot occur.

Very small output capacitors ( 10 F) will charge very

quickly in current limit. The rapidly changing voltage at

the output may reduce the current limit temporarily,

causing the capacitor to charge at a somewhat reduced

rate. Conversely, charging very large capacitors may

cause the current limit to increase slightly. In either case,

once the output voltage reaches its final value, the input

current limit will be restored to its nominal value.

. An example of a signature disable interface

Maintain Power Signature

In an IEEE 802.3af system, the PSE uses the maintain

power signature (MPS) to determine if a PD continues to

require power. The MPS requires the PD to periodically

draw at least 10mA and also have an AC impedance less

than 26.25k in parallel with 0.05 F. The PD application

circuits shown in this data sheet meet the requirements

necessary to maintain power. If either the DC current is

less than 10mA or the AC impedance is above 26.25k ,

the PSE might disconnect power. The DC current must be

less than 5mA and the AC impedance must be above 2M

to guarantee power will be removed.

Layout

The LTC4257-1 is relativity immune to layout problems.

Excessive parasitic capacitance on the R

be avoided. If using the DD package, include an electrically

isolated heat sink to which the exposed pad on the bottom

of the package can be soldered. For optimum thermal

performance, make the heatsink as large as possible.

Voltages in a PD can be as large as – 57V, so high voltage

layout techniques should be employed.

The load capacitor connected between Pins 5 and 8 of the

LTC4257-1 can store significant energy when fully charged.

The design of a PD must ensure that this energy is not

inadvertently dissipated in the LTC4257-1. The polarity-

protection diode(s) prevent an accidental short on the

cable from causing damage. However, if the V

shorted to the GND pin inside the PD while the load

capacitor is charged, current will flow through the para-

sitic body diode of the internal MOSFET and may cause

permanent damage to the LTC4257-1.

Electro Static Discharge and Surge Suppression

The LTC4257-1 is specified to operate with an absolute

maximum voltage of – 100V and is designed to tolerate

brief overvoltage events. However, the pins that interface

to the outside world (primarily V

see peak voltages in excess of 10kV. To protect the

LTC4257-1, it is highly recommended that a transient

voltage suppressor be installed between the bridge and

the LTC4257-1 (D3 in Figure 2).

and GND) can routinely

LTC4257-1

CLASS

pin should

pin is

42571fa

LTC4257-1 Linear Technology, LTC4257-1 Datasheet - Page 17

LTC4257-1

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