ISL6141IB Intersil, ISL6141IB Datasheet - Page 3

ISL6141IB

Manufacturer Part Number

ISL6141IB

Description

IC CTRLR HOT PLUG NEG VOLT 8SOIC

Manufacturer

Intersil

Type

Hot-Swap Controllerr

Datasheet

1.ISL6151CBZA.pdf (19 pages)

Specifications of ISL6141IB

Applications

General Purpose, VoIP

Internal Switch(s)

Voltage - Supply

36 V ~ 72 V

Operating Temperature

-40°C ~ 85°C

Mounting Type

Surface Mount

Package / Case

8-SOIC (0.154", 3.90mm Width)

Linear Misc Type

Negative Voltage

Package Type

SOIC N

Operating Supply Voltage (max)

80V

Operating Temperature (min)

-40C

Operating Temperature (max)

85C

Operating Temperature Classification

Industrial

Product Depth (mm)

4mm

Product Height (mm)

1.5mm

Product Length (mm)

5mm

Mounting

Surface Mount

Pin Count

Lead Free Status / RoHS Status

Contains lead / RoHS non-compliant

Available stocks

Company

Part Number

Manufacturer

Quantity

Price

Company:

Bonase Electronics (HK) Co., Limited

Part Number:

ISL6141IB

Quantity:

Company:

Meier Automation Equipment Co., Limited

Part Number:

ISL6141IB

Manufacturer:

INTERSIL

Quantity:

20 000

Company:

Meier Automation Equipment Co., Limited

Part Number:

ISL6141IBZ

Manufacturer:

INTERSIL

Quantity:

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Company:

Bonase Electronics (HK) Co., Limited

Part Number:

ISL6141IBZA

Manufacturer:

Intersil

Quantity:

500

Company:

Meier Automation Equipment Co., Limited

Part Number:

ISL6141IBZA

Manufacturer:

INTERSIL

Quantity:

20 000

Current page: 3 of 19
Download datasheet (429Kb)

Pin Descriptions

PWRGD (ISL6141; L Version) Pin 1

This digital output is an open-drain pull-down device. During

start-up the DRAIN and GATE voltages are monitored with

two separate comparators. The first comparator looks at the

DRAIN pin voltage compared to the internal V

the external FET and sense resistor. When the DRAIN to V

voltage drop is less than 1.3V, the first of two conditions

required for the power to be considered good are met. In

addition, the GATE voltage monitored by the second

comparator must be within approximately 2.5V of its normal

operating voltage (13.6V). When both criteria are met the

PWRGD output will transition from high to low, enabling a

power module in some applications. The output is latched in

the low state until any of the signals that shut off the GATE

occur (Over-Voltage, Under-Voltage, Under-Voltage Lock-Out,

Over-Current Time-Out, or powering down). Any of these

conditions will re-set the latch and the PWRGD output will

transition from low to high indicating power is no longer good.

In this case the output pull-down device shuts off, and the pin

becomes high impedance. Typically an external pull-up of

some kind is used to pull the pin high (many brick regulators

have a pull-up function built in).

PWRGD (ISL6151; H Version) Pin 1 -

output is used to provide an active high signal to enable an

external module. The Power Good comparators are the

same as described above, but the active state of the output

is reversed (reference Figure 33).

If the latch is reset (GATE turns off), the internal DMOS

device (Q3) is turned off, and Q2 (NPN) turns on to clamp

the output one diode drop above the DRAIN voltage to

produce a logic low.

Once the latch is set (both DRAIN and GATE are normal), the

DMOS device (Q3) turns on and sinks current to V

a 6.2KΩ resistor. The base of Q2 is clamped to V

off. If the external pull-up current is high enough (>1mA, for

example), the voltage drop across the resistor will be large

enough to produce a logic high output (in this example, 1mA *

6.2kΩ = 6.2V) and enable the external module.

Note that for all H versions, although this is a digital pin

functionally, the logic high level is determined by the external

pull-up device, and the power supply to which it is

connected; the IC will not clamp it below the V

Therefore, if the external device does not have its own

clamp, or if it would be damaged by a high voltage, an

external clamp might be necessary.

OV (Over-Voltage) Pin 2 - This analog input compares the

voltage on the pin to an internal voltage reference of 1.255V

(nominal). When the input goes above the reference (low to

high transition) an Over-Voltage condition is detected and

the GATE pin is immediately pulled low to shut off the

is nominal 1.3V); this measures the voltage drop across

This digital

reference

voltage.

to turn it

through

ISL6141, ISL6151

external FET. The built in 25mV hysteresis will keep the

GATE off until the OV pin drops below 1.230V, which is the

nominal high to low threshold. A typical application will use

an external resistor divider from V

level as desired. A three-resistor divider can be used to set

both OV and UV trip points.

UV (Under-Voltage) Pin 3 - This analog input compares the

voltage on the pin to an internal comparator with a built in

hysteresis of 135mV. When the UV input goes below the

nominal reference (high to low transition) voltage of 1.120V,

the GATE pin is immediately pulled low to shut off the

external FET. Since the comparator has a built in 135mV

hysteresis the GATE will remain off until the UV pin rises

above a 1.255V low to high threshold. A typical application

will use an external resistor divider from V

the UV level as desired. A three-resistor divider can be used

to set both OV and UV trip points.

The UV pin is also used to reset the Over-Current latch. The

pin must be cycled below 1.120V (nominal) and then above

1.255V (nominal) to clear the latch and initiate a normal

power-up sequence.

as in a -48V system. Most of the other signals are referenced

relative to this pin, even though it may be far away from what

is considered a GND reference.

SENSE Pin 5 - This analog input monitors the voltage drop

across the external sense resistor (between SENSE and

Over-Current trip point, equal to 50mV / Rsense. If the load

current exceeds the Over-Current threshold, the circuit will

regulate the current to maintain the nominal voltage drop

(50mV) across the sensing resistor R1 (Rsense). If current is

limited for more than 600µs, the Over-Current shutdown

(also called electronic circuit breaker) will quickly turn off the

FET and latch the GATE pin off.

A Hard Fault comparator is employed to detect and respond

quickly to severe short circuits. The threshold of this

comparator is set approximately four times higher (210mV)

than the Over-Current trip point. When its threshold is

exceeded the GATE is immediately (10µs typical) shut off,

the timer is reset, and a single retry (soft start) is attempted

before latching the GATE off (assuming the fault remains).

During the retry, if the fault disappears prior to the Over-

Current Time-Out period (600µs) the FET will remain on as

normal. If the GATE is latched off, the user must either toggle

the UV pin below then above its threshold, or reduce the

supply voltage below the V

above it. This will clear the latch and initiate a normal power-

up sequence.

) to determine if the current exceeds the programmed

Pin 4 - This is the most negative supply voltage, such

UVLO trip point and then

to V

to set the OV

to V

to set

ISL6141IB Intersil, ISL6141IB Datasheet - Page 3

ISL6141IB

Specifications of ISL6141IB

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