LM25069MM-2EVAL National Semiconductor, LM25069MM-2EVAL Datasheet - Page 13

LM25069MM-2EVAL

Manufacturer Part Number

LM25069MM-2EVAL

Description

BOARD EVALUATION LM25069

Manufacturer

National Semiconductor

Datasheets

1.LM25069PMME-2NOPB.pdf (22 pages)

2.LM25069MM-2EVAL.pdf (12 pages)

Specifications of LM25069MM-2EVAL

Main Purpose

Power Management, Hot Swap Controller

Embedded

Utilized Ic / Part

LM25069-2

Primary Attributes

High Side MOSFET Driver, Inrush Current Limiting

Secondary Attributes

Auto Restart, 2.9 V ~ 17 V Supply

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

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Application Information

(Refer to Figure 1)

CURRENT LIMIT, R

The LM25069 monitors the current in the external MOSFET

(Q1) by measuring the voltage across the sense resistor

value is calculated from:

where I

across R

the gate of Q1 to regulate the current at I

limiting circuit is active, the fault timer is active as described

POWER LIMIT THRESHOLD

The LM25069 determines the power dissipation in the exter-

nal MOSFET (Q1) by monitoring the drain current (the current

in R

at the PWR pin (R

for Q1, and is calculated from the following equation:

where P

and R

Limit section. For example, if R

power limit threshold is 20W, R

Q1’s power dissipation reaches the threshold Q1’s gate is

modulated to regulate the load current, keeping Q1’s power

from exceeding the threshold. For proper operation of the

power limiting feature, R

power limiting circuit is active, the fault timer is active as de-

scribed in the Fault Timer & Restart section. Typically, power

limit is reached during startup, or if the output voltage falls due

to a severe overload or short circuit.

The programmed maximum power dissipation should have a

reasonable margin from the maximum power defined by the

FET's SOA chart if the LM25069-2 is used since the FET will

be repeatedly stressed during fault restart cycles. The FET

manufacturer should be consulted for guidelines.

If the application does not require use of the power limit func-

tion the PWR pin can be left open.

), connected from VIN to SENSE. The required resistor

), and the V

LIM

is the current sense resistor described in the Current

FET(LIM)

is the desired current limit threshold. If the voltage

reaches 50 mV, the current limit circuit modulates

PWR

= 2.32 x 10

is the desired power limit threshold for Q1,

PWR

of Q1 (SENSE to OUT pins). The resistor

) sets the maximum power dissipation

PWR

x R

must be

PWR

is 10 mΩ , and the desired

x P

calculates to 46.4 kΩ. If

FET(LIM)

LIM

≤

150 kΩ. While the

. While the current

FIGURE 7. Sense Resistor Connections

(1)

(2)

in the Fault Timer & Restart section. For proper operation,

While the maximum load current in normal operation can be

used to determine the required power rating for resistor R

basing it on the current limit value provides a more reliable

design since the circuit can operate near the current limit

threshold continuously. The resistor’s surge capability must

also be considered since the circuit breaker threshold is ap-

proximately twice the current limit threshold. Connections

from R

niques. In the suggested layout of

the lower corners of the sense resistor connect only to the

sense resistor terminals, and not to the traces carrying the

high current. With this technique, only the voltage across the

sense resistor is applied to VIN and SENSE, eliminating the

voltage drop across the high current solder connections.

The accuracy of the power limit function at turn-on may de-

grade if a very low value power dissipation limit is set. The

reason for this caution is that the voltage across the sense

resistor, which is monitored and regulated by the power limit

circuit, is lowest at turn-on when the regulated current is at

minimum. The voltage across the sense resistor during power

limit can be expressed as follows:

where I

Q1. For example, if the power limit is set at 20W with R

mohms, and V

to 13.3 mV, which is comfortably regulated by the LM25069.

However, if a lower power limit is set lower (e.g., 2W), the

sense resistor voltage calculates to 1.33 mV. At this low level

noise and offsets within the LM25069 may degrade the power

limit accuracy. To maintain accuracy, the sense resistor volt-

age should not be less than 5 mV.

TURN-ON TIME

The output turn-on time depends on whether the LM25069

operates in current limit, or in both power limit and current

limit, during turn-on.

must be no larger than 200 mΩ.

to the LM25069 should be made using Kelvin tech-

is the current in R

= 15V the sense resistor voltage calculates

30086719

, and V

Figure 7

is the voltage across

the small pads at

www.national.com

= 10

LM25069MM-2EVAL National Semiconductor, LM25069MM-2EVAL Datasheet - Page 13

LM25069MM-2EVAL

Specifications of LM25069MM-2EVAL

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