lm5050mkx-1 National Semiconductor Corporation, lm5050mkx-1 Datasheet - Page 10

lm5050mkx-1

Manufacturer Part Number

lm5050mkx-1

Description

High Side Or-ing Fet Controller

Manufacturer

National Semiconductor Corporation

Datasheet

1.LM5050MKX-1.pdf (16 pages)

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Applications Information

FUNCTIONAL DESCRIPTION

Systems that require high availability often use multiple, par-

allel-connected redundant power supplies to improve reliabil-

ity. Schottky OR-ing diodes are typically used to connect

these redundant power supplies to a common point at the

load. The disadvantage of using OR-ing diodes is the forward

voltage drop, which reduces the available voltage and the as-

sociated power losses as load currents increase. Using an N-

channel MOSFET to replace the OR-ing diode requires a

small increase in the level of complexity, but reduces, or elim-

inates, the need for diode heat sinks or large thermal copper

area in circuit board layouts for high power applications.

The LM5050-1 is a positive voltage (i.e. high-side) OR-ing

controller that will drive an external N-channel MOSFET to

replace an OR-ing diode. The voltage across the MOSFET

source and drain pins is monitored by the LM5050-1 at the IN

and OUT pins, while the GATE pin drives the MOSFET to

control its operation based on the monitored source-drain

voltage. The resulting behavior is that of an ideal rectifier with

source and drain pins of the MOSFET acting as the anode

and cathode pins of a diode respectively.

IN, GATE AND OUT PINS

When power is initially applied, the load current will flow from

source to drain through the body diode of the MOSFET. The

FIGURE 6. OR-ing with MOSFETs

FIGURE 5. OR-ing with Diodes

30104832

30104833

resulting voltage across the body diode will be detected at the

LM5050-1 IN and OUT pins which then begins charging the

MOSFET gate through a 32 µA (typical) charge pump current

source . In normal operation, the gate of the MOSFET is

charged until it reaches the clamping voltage of the 12V GATE

to IN pin zener diode internal to the LM5050-1.

The LM5050-1 is designed to regulate the MOSFET gate- to

-source voltage if the voltage across the MOSFET source and

drain pins falls below the V

If the MOSFET current decreases to the point that the voltage

across the MOSFET falls below the V

tion point of 27 mV (typical), the GATE pin voltage will be

decreased until the voltage across the MOSFET is regulated

at 22 mV. If the drain-to-source voltage is greater than V

(REG)

reaching the 12V GATE to IN zener clamp level.

If the MOSFET current reverses, possibly due to failure of the

input supply, such that the voltage across the LM5050-1 IN

and OUT pins is more negative than the V

-28 mV (typical), the LM5050-1 will quickly discharge the

MOSFET gate through a strong GATE to IN pin discharge

transistor.

If the input supply fails abruptly, as would occur if the supply

was shorted directly to ground, a reverse current will tem-

porarily flow through the MOSFET until the gate can be fully

discharged. This reverse current is sourced from the load ca-

pacitance and from the parallel connected supplies. The

LM5050-1 responds to a voltage reversal condition typically

within 25 ns. The actual time required to turn off the MOSFET

will depend on the charge held by gate capacitance of the

MOSFET being used. A MOSFET with 47 nF of effective gate

capacitance can be turned off in typically 180 ns. This fast turn

off time minimizes voltage disturbances at the output, as well

as the current transients from the redundant supplies.

VS PIN

The LM5050-1 VS pin is the main supply pin for all internal

biasing and an auxiliary supply for the internal gate drive

charge pump.

For typical LM5050-1 applications, where the input voltage is

above 5.0V, the VS pin can be connected directly to the OUT

pin. In situations where the input voltage is close to, but not

less than, the 5.0V minimum, it may be helpful to connect the

VS pin to the OUT pin through an RC Low-Pass filter to reduce

the possibility of erratic behavior due to spurious voltage

spikes that may appear on the OUT and IN pins. The series

resistor value should be low enough to keep the VS voltage

drop at a minimum. A typical series resistor value is 100Ω.

The capacitor value should be the lowest value that produces

acceptable filtering of the voltage noise.

Alternately, it is possible to operate the LM5050-1 with V

values less than 1V if the VS pin is powered from a separate

supply. This separate VS supply must be between 5.0V and

75V. See

OFF PIN

The OFF pin is a logic level input pin that is used to control

the gate drive to the external MOSFET. The maximum oper-

ating voltage on this pin is 5.5V.

When the OFF pin is high, the MOSFET is turned off (inde-

pendent of the sensed IN and OUT voltages). In this mode,

load current will flow through the body diode of the MOSFET.

The voltage difference between the IN pin and OUT pins will

be approximately 700 mV if the MOSFET is operating nor-

mally through the body diode.

voltage the gate-to-source will increase, eventually

Figure

SD(REG)

voltage of 22 mV (typical).

SD(REG)

SD(REV)

voltage regula-

voltage of

lm5050mkx-1 National Semiconductor Corporation, lm5050mkx-1 Datasheet - Page 10

lm5050mkx-1

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