LM25066APSQE/NOPB National Semiconductor, LM25066APSQE/NOPB Datasheet - Page 26

LM25066APSQE/NOPB

Manufacturer Part Number

LM25066APSQE/NOPB

Description

IC CTLR PM HOTSWAP 24-LLP

Manufacturer

National Semiconductor

Series

PowerWise®r

Datasheets

1.LM25066APSQXNOPB.pdf (48 pages)

2.LM25066APSQENOPB.pdf (48 pages)

Specifications of LM25066APSQE/NOPB

Applications

Base Station-Networking Line Cards, Servers

Current - Supply

5.8mA

Voltage - Supply

2.9 V ~ 17 V

Operating Temperature

-40°C ~ 85°C

Mounting Type

Package / Case

Input Voltage

17V

Internal Switch

Supply Voltage Range

2.9V To 5.5V

Rohs Compliant

Yes

Digital Ic Case Style

LLP

No. Of Pins

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Other names

LM25066APSQE/NOPBTR

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SYSTEM CONSIDERATIONS

A) Continued proper operation of the LM25066A hot swap

circuit requires capacitance be present on the supply side of

the connector into which the hot swap circuit is plugged in, as

depicted in

SOURCE” section is necessary to absorb the transient gen-

erated whenever the hot swap circuit shuts off the load cur-

rent. If the capacitance is not present, inductance in the

supply lines will generate a voltage transient at shut-off which

can exceed the absolute maximum rating of the LM25066A,

resulting in its destruction.

PC BOARD GUIDELINES

The following guidelines should be followed when designing

the PC board for the LM25066A:

- Place the LM25066A close to the board’s input connector to

minimize trace inductance from the connector to the MOS-

FET.

- Place a small capacitor, C

VIN and GND pins of the LM25066A to help minimize tran-

sients which may occur on the input supply line. Transients of

several volts can easily occur when the load current is shut

off.

- Place a 1 µF capacitor as close as possible to VREF pin.

- Place a 1 µF capacitor as close as possible to VDD pin.

- The sense resistor (R

LM25066A. In particular, the trace to the VIN pin should be

Figure

16. The capacitor in the “LIVE POWER

) should be placed close to the

, (1nF) directly adjacent to the

FIGURE 15. Adding Delay to the Power Good Output Pin

FIGURE 16. Output Diode Required for Inductive Loads

B) If the load powered by the LM25066A hot swap circuit has

inductive characteristics, a Schottky diode is required across

the LM25066A’s output, along with some load capacitance.

The capacitance and the diode are necessary to limit the

negative excursion at the OUT pin when the load current is

shut off. If the OUT pin transitions more than 0.3V negative

the LM25066A will internally reset, erasing the volatile setting

for retries and warning thresholds. See

made as low resistance as practical to ensure maximum cur-

rent and power measurement accuracy. Connect R

Kelvin techniques shown in

- The high current path from the board’s input to the load (via

other to minimize loop inductance.

- The ground connections for the various components around

the LM25066A should be connected directly to each other,

and to the LM25066A’s GND pin, and then connected to the

system ground at one point. Do not connect the various com-

ponent grounds to each other through the high current ground

line.

- Provide adequate heat sinking for the series pass device

), and the return path, should be parallel and close to each

) to help reduce stresses during turn-on and turn-off.

Figure

30146054

16.

30146052

using the

LM25066APSQE/NOPB National Semiconductor, LM25066APSQE/NOPB Datasheet - Page 26

LM25066APSQE/NOPB

Specifications of LM25066APSQE/NOPB

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