LTC4232IDHC-1#TRPBF Datasheet LTC4232IDHC-1#PBF, LTC4232CDHC-1#PBF, LTC4232CDHC-1#TRPBF | P10-P12

LTC4232-1

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If V

drops below 2.65V for greater than 5µs or INTV

drops below 2.5V for greater than 1µs, a fast shutdown

of the switch is initiated. The GATE is pulled down with a

140mA current to the OUT pin.

Overcurrent Fault

The LTC4232-1 features an adjustable current limit with

foldback that protects against short-circuits and excessive

load current. To prevent excessive power dissipation in the

switch during active current limit, the available current is

reduced as a function of the output voltage sensed by the

FB pin. A graph in the Typical Performance Characteristics

curves shows the Current Limit Threshold Foldback.

An overcurrent fault occurs when the current limit circuitry

has been engaged for longer than the timeout delay set

by the TIMER. Current limiting begins when the MOSFET

current reaches 1.5A to 5.6A (depending on the foldback).

The GATE pin is then brought down with a 140mA GATE-

to-OUT current. The voltage on the GATE is regulated in

order to limit the current to less than 5.6A. At this point,

a circuit breaker time delay starts by charging the external

timing capacitor with a 100µA pull-up current from the

TIMER pin. If the TIMER pin reaches its 1.235V threshold,

the internal switch turns off (with a 250µA current from

GATE to ground). Included in the Typical Performance

Characteristics curves is a graph of the Safe Operating

Area for the MOSFET. From this graph one can determine

the MOSFET’s maximum time in current limit for a given

output power.

Tying the TIMER pin to INTV

will force the part to use

the internally generated (circuit breaker) delay of 2ms.

In either case the F LT pin is pulled low to indicate an

overcurrent fault has turned off the pass MOSFET. For a

given circuit breaker time delay, the equation for setting

the timing capacitor’s value is as follows:

= t

• 0.083[µF/ms]

As the OUT voltage rises, so will the FB pin which is moni-

toring it. Once the FB pin crosses its 1.235V threshold

and the GATE to OUT voltage exceeds 4.2V, the PG pin

will cease to pull low and indicate that the power is good.

Parasitic MOSFET Oscillation

When the N-channel MOSFET ramps up the output dur

ing power-up it operates as a source follower. The source

follower configuration may self-oscillate in the range of

25kHz

300kHz when the load capacitance is less than

10µF, especially if the wiring inductance from the supply

to the V

pin is greater than 3µH. The possibility of oscil-

lation will increase as the load current (during power-up)

increases. There are two ways to prevent this type of

oscillation. The simplest way is to avoid load capacitances

below 10µF. For wiring inductance larger than

20µH, the

minimum load capacitance may extend to 100µF. A second

choice is to connect an external gate capacitor C

>1.5nF

as shown in Figure 3.

42321 F03

LTC4232-1

GATE

2.2nF

OPTIONAL

RC TO LOWER

INRUSH CURRENT

Figure 3. Compensation for Small C

LOAD

Turn-Off Sequence

The switch can be turned off by a variety of conditions. A

normal turn-off is initiated by the UV pin going below its

1.235V threshold. Additionally, several fault conditions

will turn off the switch. These include an input overvolt

age (OV pin), overcurrent circuit breaker (SENSE pin) or

overtemperature. Normally the switch is turned off with

a 250µA

current pulling down the GA

TE pin to ground.

With the switch turned off, the OUT voltage drops which

pulls the FB pin below its threshold. PG then pulls low to

indicate output power is no longer good.

LTC4232-1

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After the switch is turned off, the TIMER pin begins

discharging the timing capacitor with a 2µA pull-down

current. When the TIMER pin reaches its 0.21V threshold,

an internal 16ms timer is started. After the 16ms delay,

the switch is allowed to turn on again if the overcurrent

fault latch has been cleared. Bringing the UV pin below

0.6V for minimum of 1µs and then high will clear the fault

latch. If the TIMER pin is tied to INTV

then the switch is

allowed to turn on again (after an internal 16ms delay), if

the overcurrent fault latch is cleared.

Tying the F LT pin to the UV pin allows the part to self-clear

the fault and turn the MOSFET on as soon as TIMER pin

has ramped below 0.21V. In this auto-retry mode the

LTC4232-1 repeatedly tries to turn on after an overcurrent

at a period determined by the capacitor on the TIMER pin.

When the TIMER pin is tied to INTV

the internal 16ms

turn-on delay is not sufficient to prevent overheating during

auto-retry into a shorted load. Using an external timing

capacitor is recommended when using auto-retry mode.

The waveform in Figure 4 shows how the output latches

off following a short-circuit. The current in the MOSFET

is 1.4A as the timer ramps up.

∆V

GATE

10V/DIV

OUT

2A/DIV

OUT

10V/DIV

TIMER

2V/DIV

1ms/DIV

42321 F04

Figure 4. Short-Circuit Waveform

The R

GATE

, C

GATE

and C

COMP

network on the GATE pin

compensates the current limit regulation loop. It is pos-

sible to eliminate C

COMP

and use only the R

GATE

and C

GATE

network, which will require R

GATE

to reduce to 270Ω (see

Figure 5). This alternate compensation with one less

component allows the GATE pin to undershoot during a

short circuit on the output and chatter as it settles. This

chatter could last about 1µs to 2µs for every nF of C

GATE

capacitance.

LTC4232-1

Typical Compensation

OUT

GATE

COMP

3.3nF

GATE

4.7nF

GATE

100k

LTC4232-1

Alternate Compensation

OUT

GATE

42321 F05

GATE

4.7nF

GATE

270Ω

Figure 5. Compensation Components on the GATE Pin

Current Limit Adjustment

The default value of the active current limit is 5.6A. The

current limit threshold can be adjusted lower by placing

a resistor between the I

SET

pin and ground. As shown in

the Functional Block Diagram the voltage at the I

SET

(via the clamp circuit) sets the CS amplifier’s built-in offset

voltage. This offset voltage directly determines the active

current limit value. With the I

SET

pin open, the voltage at

the I

SET

pin is determined by a positive temperature co-

efficient reference. This voltage is set to 0.618V at room

temperature which corresponds to a 5.6A

current limit at

room temperature.

An external resistor R

SET

placed between the I

SET

pin and

ground forms a resistive divider with the internal 20k R

ISET

sourcing resistor. The divider acts to lower the voltage at

the I

SET

pin and therefore lower the current limit threshold.

The overall current limit threshold precision is reduced to

±12% when using a 20k resistor to halve the threshold.

Using a switch (connected to ground) in series with R

SET

allows the active current limit to change only when the

switch is closed. This feature can be used to program a

reduced running current while the maximum available

current limit is used at startup.

LTC4232-1

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Monitor MOSFET Temperature

The voltage at the I

SET

pin increases linearly with increas-

ing temperature. The temperature profile of the I

SET

pin is

shown in the Typical Performance Characteristics section.

Using a comparator or ADC to measure the I

SET

voltage

provides an indicator of the MOSFET temperature.

The I

SET

voltage follows the formula:

ISET

SET

ISET

• T + 273°C

( )

• 2.093[mV/°C]

The MOSFET temperature is calculated using R

ISET

of 20k.

T =

SET

20k

( )

• V

ISET

SET

• 2.093[mV /°C]

– 273°

When R

SET

is not present, T becomes:

T =

ISET

2.093 [mV/°C]

– 273°C

There is an overtemperature circuit in the LTC4232-1 that

monitors an internal voltage similar to the I

SET

pin voltage.

When the die temperature exceeds 145°C the circuit turns

off the MOSFET until the temperature drops to 125°C.

Monitor MOSFET Current

The current in the MOSFET passes through an internal

7.5mΩ sense resistor. The voltage on the sense resistor is

converted to a current that is sourced out of the I

MON

pin.

The gain of I

SENSE

amplifier is 20µA/A referenced from the

MOSFET current. This output current can be converted to

a voltage using an external resistor to drive a comparator

or ADC. The voltage compliance for the I

MON

pin is from

0V to INTV

– 0.7V.

A microcontroller with a built-in comparator can build a

simple integrating single-slope ADC by resetting a capaci

tor that is charged with this current. When the capacitor

voltage trips the comparator and the capacitor is reset, a

timer is started. The time between resets will indicate the

MOSFET current.

Monitor OV and UV Faults

Protecting the load from an overvoltage condition is the

main function of the OV pin. In Figure 1 an external resis

tive divider (driving the OV pin) connects to a comparator

to turn off the MOSFET when the V

voltage exceeds

15.2V. If the V

pin subsequently falls back below 14.9V,

the switch will be allowed to turn on immediately. In the

LTC4232-1 the OV pin threshold is 1.235V when rising,

and 1.215V when falling out of overvoltage.

The UV pin functions as an undervoltage protection pin

or as an “ON” pin. In the Figure 1 application the MOSFET

turns off when V

falls below 9.23V. If the V

pin sub-

sequently rises above 9.88V for 100ms, the switch will

be allowed

to turn on again. The LTC4232-1 UV turn-on/

off thresholds are 1.235V (rising) and 1.155V (falling).

In the cases of an undervoltage or overvoltage the MOS

FET turns off and there is indication on the PG status pin.

When the overvoltage is removed the MOSFET

’s gate

ramps up immediately.

Power Good Indication

In addition to setting the foldback current limit threshold,

the FB pin is used to determine a power good condition.

The Figure 1 application uses an external resistive divider

on the OUT pin to drive the FB pin. The PG comparator

indicates logic high when OUT pin rises above 10.5V. If the

OUT pin subsequently falls below 10.3V the comparator

toggles low. On the LTC4232-1 the PG comparator drives

high when the FB pin rises above 1.235V and low when

it falls below 1.215V.

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LTC4232IDHC-1#TRPBF

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Manufacturer:

Analog Devices Inc.

Description:

Hot Swap Voltage Controllers 2.9V to 15V, 5A Integrated Hot Swap Controller with 16ms Turn-On Delay

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LTC4232IDHC-1#TRPBF

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