ISL6142 Datasheet, PDF(20/23 Page) Intersil Corporation – Negative Voltage Hot Plug Controller

English

English German Russian Spanish Italian Polish Chinese Japanese Korean French Portuguese	Language :

ISL6142 Datasheet, PDF (20/23 Pages) Intersil Corporation – Negative Voltage Hot Plug Controller

◁

ISL6142, ISL6152

(but under normal conditions, the FET is on, and the DRAIN

and VEE are almost the same voltage).

When any of the 5 conditions occur that turn off the GATE, the

Q3 DMOS turns off, and the resistor and Q2 clamp the

PWRGD pin to one diode drop (~0.7V) above the DRAIN pin.

This should be able to pull low against the module pull-up

current, and disable the module.

VDD

VIN+ VOUT+

â VGATE (SECTION OF) ISL6152

VGH

(H VERSION)

6.2K

GATE

PWRGD

ON/OFF

VPG

VEE

VDH

VEE

LATCH Q3

LOGIC

VEE

ACTIVE HIGH

ENABLE

MODULE

VIN- VOUT-

DRAIN

FIGURE 37. ACTIVE HIGH ENABLE MODULE

Applications: GATE Pin

To help protect the external FET, the output of the GATE pin

is internally clamped; up to an 80V supply and will not be any

higher than 15V. Under normal operation when the supply

voltage is above 20V, the GATE voltage will be regulated to a

nominal 13.6V above VEE.

Applications: âBrickâ Regulators

One of the typical loads used are DC/DC regulators, some

commonly known as âbrickâ regulators, (partly due to their

shape, and because it can be considered a âbuilding blockâ

of a system). For a given input voltage range, there are

usually whole families of different output voltages and

current ranges. There are also various standardized sizes

and pinouts, starting with the original âfullâ brick, and since

getting smaller (half-bricks and quarter-bricks are now

common).

Other common features may include: all components (except

some filter capacitors) are self-contained in a molded plastic

package; external pins for connections; and often an

ENABLE input pin to turn it on or off. A hot plug IC, such as

the ISL6142 is often used to gate power to a brick, as well as

turn it on.

Many bricks have both logic polarities available (Enable high

or low input); select the ISL6142 (L-version) or ISL6152 (H-

version) to match. There is little difference between them,

although the L-version output is usually simpler to interface.

The Enable input often has a pull-up resistor or current

source, or equivalent built in; care must be taken in the

ISL6152 (H version) output that the given current will create

a high enough input voltage (remember that current through

the RPG 6.2kâ¦ resistor generates the high voltage level; see

Figure 34).

The input capacitance of the brick is chosen to match its

system requirements, such as filtering noise, and

maintaining regulation under varying loads. Note that this

input capacitance appears as the load capacitance of the

ISL6142/52.

The brickâs output capacitance is also determined by the

system, including load regulation considerations. However, it

can affect the ISL6142/52, depending upon how it is

enabled. For example, if the PWRGD/PWRGD signal is not

used to enable the brick, the following could occur.

Sometime during the inrush current time, as the main power

supply starts charging the brick input capacitors, the brick

itself will start working, and start charging its output

capacitors and load; that current has to be added to the

inrush current. In some cases, the sum could exceed the

Over-Current threshold, which could shut down the system if

the time-out period is exceeded! Therefore, whenever

practical, it is advantageous to use the PWRGD/PWRGD

output to keep the brick off at least until the input caps are

charged up, and then start-up the brick to charge its output

caps.

Typical brick regulators include models such as Lucent

JW050A1-E or Vicor VI-J30-CY. These are nominal -48V

input, and 5V outputs, with some isolation between the input

and output.

Applications: Optional Components

In addition to the typical application, and the variations

already mentioned, there are a few other possible

components that might be used in specific cases. See Figure

38 for some possibilities.

If the input power supply exceeds the 100V absolute

maximum rating, even for a short transient, that could cause

permanent damage to the IC, as well as other components

on the board. If this cannot be guaranteed, a voltage

suppressor (such as the SMAT70A, D1) is recommended.

When placed from VDD to -VIN on the board, it will clamp the

voltage.

If transients on the input power supply occur when the

supply is near either the OV or UV trip points, the GATE

could turn on or off momentarily. One possible solution is to

add a filter cap C4 to the VDD pin, through isolation resistor

R11. A large value of R11 is better for the filtering, but be

aware of the voltage drop across it. For example, a 1kâ¦

resistor, with 2.4mA of IDD would have 2.4V across it and

dissipate 2.4mW. Since the UV and OV comparators are

referenced with respect to VEE, they should not be affected,

but the GATE clamp voltage could be offset by the voltage

across the extra resistor.

▷