LM3525A National Semiconductor Corporation, LM3525A Datasheet - Page 7

LM3525A

Manufacturer Part Number

LM3525A

Description

LM3525 - Single Port Usb Power Switch And Over-current Protection, Package: Soic Narrow, Pin Nb=8

Manufacturer

National Semiconductor Corporation

Datasheet

1.LM3525A.pdf (10 pages)

Current page: 7 of 10
Download datasheet (240Kb)

Functional Description

The LM3525-H and LM3525-L are high side P-Channel

switches with active-high and active-low enable inputs, re-

spectively. Fault conditions turn off and inhibit turn-on of the

output transistor and activate the open-drain error flag tran-

sistor sinking current to the ground.

INPUT AND OUTPUT

IN (Input) is the power supply connection to the control

circuitry and the source of the output MOSFET.

OUT (Output) is the drain of the output MOSFET. In a typical

application circuit, current flows through the switch from IN to

OUT towards the load.

If V

current will flow from OUT to IN since the MOSFET is

bidirectional.

THERMAL SHUTDOWN

LM3525 is internally protected against excessive power dis-

sipation. In the event of a shorted output or heavy loads that

could elevate the die temperature to above approximately

135˚C, the thermal shutdown circuit of the LM3525 will be

activated and the power switch turned off.

The switch is turned on after die temperature drops by 10˚C.

This built-in temperature hysteresis prevents undesirable

oscillation of the thermal protection circuit and allows the

device to reset itself after it is cooled down.

UNDERVOLTAGE LOCKOUT

UVLO prevents the MOSFET switch from turning on until

input voltage exceeds 1.9V.

UVLO shuts off the MOSFET switch and signals the fault flag

if input voltage drops below 1.8V. UVLO functions only when

device is enabled.

CURRENT LIMIT

The current limit circuit is designed to protect the system

supply, the MOSFET switches and the load from damage

caused by excessive currents. The current limit threshold is

set internally to allow a minimum of 500 mA through the

MOSFET but limit the maximum current to 1.0A typical.

FAULT FLAG

The fault flag is an open-drain output capable of sinking

10 mA load current to typically 60 mV above ground.

The fault flag is active (pulled low) when any of the following

conditions are present: undervoltage, current limit, or ther-

mal shutdown.

A 1ms delay in reporting fault condition prevents erroneous

fault flags and eliminates the need for external RC delay

network.

Application Information

FILTERING

The USB specification indicates that “no less than 120 µF

tantalum capacitors” must be used on the output of each

downstream port. This bulk capacitance provides the

short-term transient current needed during a hot plug-in.

Current surges caused by the input capacitance of the down

stream device could generate undesirable EMI signals. Fer-

rite beads in series with all power and ground lines are

recommended to eliminate or significantly reduce EMI.

OUT

is greater than V

when the switch is enabled,

In selecting a ferrite bead, the DC resistance of the wire used

must be kept to minimum to reduce the voltage drop.

A 0.01 µF ceramic capacitor is recommended on each port

directly between the V

damage to other components during the hot - detachment.

Adequate capacitance must be connected to the input of the

device to limit the input voltage drop during a hot-plug event

to less than 330 mV. For a few tens of µs, the host must

supply the inrush current to the peripheral, charging its bulk

capacitance to V

input capacitor. A 33 µF 16V tantalum capacitor is recom-

mended.

In choosing the capacitors, special attention must be paid to

the Effective Series Resistance, ESR, of the capacitors to

minimize the IR drop across the capacitor’s ESR.

SOFT START

To eliminate the upstream voltage droop caused by the high

in-rush current drawn by the output capacitors, the inrush

current is internally limited to 1.0A.

TRANSIENT OVER-CURRENT DELAY

In USB applications, it is required that output bulk capaci-

tance is utilized to support hot-plug events. During hot-plug

events, inrush currents may also cause the flag to go active.

Since these conditions are not valid over-current faults, the

USB controller must ignore the flag during these events.

High transient current is also generated when switch is

enabled and large values of capacitance at the output have

to be rapidly charged. The inrush currents created could

exceed the short circuit current limit threshold of the device

forcing it into the current limit mode. The capacitor is

charged with the maximum available short circuit current set

by the LM3525. The duration of the inrush current depends

on the size of the output capacitance and load current. Since

this is not a valid fault condition, the LM3525 delays the

generation of the fault flag for 1 ms. If condition persists due

to other causes such as a short, a fault flag is generated

after a 1 ms delay has elapsed.

The LM3525’s 1 ms delay in issuing the fault flag is adequate

for most applications. If longer delays are required, an RC

filter as shown in Figure 1 may be used.

PCB LAYOUT CONSIDERATIONS

In order to meet the USB requirements for voltage drop,

droop and EMI, each component used in this circuit must be

evaluated for its contribution to the circuit performance as

shown in Figure 2 . The PCB layout rules and guidelines

must be followed.

• Place the switch as close to the USB connector as pos-

sible. Keep all V

least 50-mil, 1 ounce copper for all V

plating the traces will reduce the trace resistance.

FIGURE 1. Transient Fitter

bus

. This current is initially supplied by the

traces as short as possible and use at

bus

and ground pins to prevent EMI

bus

DS101055-24

traces. Solder

www.national.com

LM3525A National Semiconductor Corporation, LM3525A Datasheet - Page 7

LM3525A

Related parts for LM3525A