ADM4210 Analog Devices, ADM4210 Datasheet - Page 11

ADM4210

Manufacturer Part Number

ADM4210

Description

Low Voltage Hot Swap Controller in 6-pin TSOT Package

Manufacturer

Analog Devices

Datasheet

1.ADM4210.pdf (16 pages)

Specifications of ADM4210

Vin Min (v)

2.7V

Vin Max (v)

16.5V

Uv & Ov Detection

ON pin (UV)

I Monitor Accuracy (+/-%)

n/a

Package

6-ld TSOT

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Current page: 11 of 16
Download datasheet (301Kb)

THEORY OF OPERATION

Many systems require the insertion or removal of circuit boards

to live backplanes. During this event, the supply bypass and hold-

up capacitors can require substantial transient currents from the

backplane power supply as they charge. These currents can

cause permanent damage to connector pins or undesirable glitches

and resets to the system.

The ADM4210 is intended to control the powering of a system

(on and off) in a controlled manner, allowing the board to be

removed from, or inserted into, a live backplane by protecting it

from excess currents. The ADM4210 can reside either on the

backplane or on the removable board.

OVERVIEW

The ADM4210 operates over a supply range of 2.7 V to 16.5 V.

As the supply voltage is coming up, an undervoltage lockout

circuit checks if sufficient supply voltage is present for proper

operation. During this period, the FET is held off by the GATE

pin being held to GND. When the supply voltage reaches a level

above UVLO and the ON (ON- CLR ) pin is high, an initial timing

cycle ensures that the board is fully inserted in the backplane

before turning on the FET. The TIMER pin capacitor sets the

periods for all of the TIMER pin functions. After the initial

timing cycle, the ADM4210 monitors the inrush current

through an external sense resistor. Overcurrent conditions are

actively limited to 50 mV/R

limit. The ADM4210-1 automatically retries after a current

limit fault and the ADM4210-2 latches off. The retry duty cycle

on the ADM4210-1 timer function is limited to 3.8% for FET

cooling.

UVLO

If the V

voltage lockout circuit holds the ADM4210 in reset. The GATE

pin is held to GND during this period. When the supply reaches

this UVLO voltage, the ADM4210 starts when the ON (ON- CLR )

pin condition is satisfied.

ON (ON-CLR) PIN

The ON (ON- CLR ) pin is the enable pin. It is connected to a

comparator that has a low-to-high threshold of 1.3 V with 80 mV

hysteresis and a glitch filter. The ADM4210 is reset when the

ON (ON- CLR ) pin is low. When the ON (ON- CLR ) pin is high,

the ADM4210 is enabled. A rising edge on this pin has the

added function of clearing a fault and restarting the device on

the latched off model, the ADM4210-2. A low input on the ON

(ON- CLR ) pin turns off the external FET by pulling the GATE

pin to ground and resets the timer. An external resistor divider at

the ON (ON- CLR ) pin can be used to program an undervoltage

lockout value higher than the internal UVLO circuit. There is a

glitch filter delay of approximately 3 μs on rising allowing the

addition of an RC filter at the ON (ON- CLR ) pin to increase the

supply is too low for normal operation, an under-

SENSE

for the circuit breaker timer

Rev. 0 | Page 11 of 16

delay time at card insertion. If using a short pin system to

enable the device, a pull-down resistor should be used to hold

the device prior to insertion.

GATE

Gate drive for the external N-channel MOSFET is achieved

using an internal charge pump. The gate driver consists of a

12 μA pull-up from the internal charge pump. There are various

pull-down devices on this pin. At a hot swap condition the board

is hot inserted to the supply bus. During this event, it is possible

for the external FET GATE capacitance to be charged up by the

sudden presence of the supply voltage. This can cause uncontrolled

inrush currents. An internal strong pull-down circuit holds

GATE low while in UVLO. This reduces current surges at inser-

tion. After the initial timing cycle, the GATE is then pulled high.

During an overcurrent condition, the ADM4210 servos the

GATE pin in an attempt to maintain a constant current to the

load until the circuit breaker timeout completes. In the event of

a timeout, the GATE pin abruptly shuts down using the 4 mA

pull-down device. Care must be taken not to load the GATE pin

resistively because this reduces the gate drive capability.

CURRENT LIMIT FUNCTION

The ADM4210 features a fast response current control loop that

actively limits the current by reducing the gate voltage of the

external FET. This current is measured by monitoring the

voltage drop across an external sense resistor. The ADM4210

tries to regulate the gate of the FET to achieve a 50 mV voltage

drop across the sense resistor.

CALCULATING THE CURRENT LIMIT

The sense resistor connected between V

used to determine the nominal fault current limit. This is given

by the following equation:

The minimum load current is given by Equation 2

The maximum load current is given by Equation 3

For proper operation, the minimum current limit must exceed

the circuit maximum operating load current with margin. The

sense resistor power rating must exceed

ILIMIT

(VCB

MAX

NOM

MIN

MAX

)

/RSENSE

= VCB

MIN

NOM

MAX

MIN

/RSENSE

MAX

MIN

NOM

and the SENSE pin is

ADM4210

(1)

(2)

(3)

ADM4210 Analog Devices, ADM4210 Datasheet - Page 11

ADM4210

Specifications of ADM4210

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