ISL6111 Datasheet, PDF(8/16 Page) Intersil Corporation – Current Regulated PCI Hot Plug Power Switch Controller

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ISL6111 Datasheet, PDF (8/16 Pages) Intersil Corporation – Current Regulated PCI Hot Plug Power Switch Controller

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ISL6111

Introduction

The ISL6111, is an IC device designed to provide control

and protection of the four legacy PCI power supplies (+12V,

-12V, +5V and +3.3V) for a single PCI or PCI-X slot. Unlike

the widely used HIP1011, this device employs an active

current regulation (CR) method to provide system

protection against load faults.

Figure 1 illustrates the typical implementation of the ISL6111.

Key Feature Description and Operation

The ISL6111, 2 power MOSFETs and a few passive

components as configured in Figure 1, completes a power

control solution for the legacy supplies to a PCI slot. It

provides protection via a programmable maximum current

regulation (CR) level to the load for each supply. For the

3.3V and 5V supplies, current monitoring is provided by

sensing the voltage across external current-sense resistors,

and CR protection is provided by active voltage modulation

of external N-Channel MOSFETs. For the +12V and -12V

supplies, current monitoring and CR protection are provided

internally.

During initial power-up of the main bias supply pins (12VI),

the ENABLE input function is inhibited from turning on the

switches, this latch is held in the reset state until the bias

voltage is greater than 10V (POR rising). Additionally the

power good and fault reporting functions are also disabled at

this time and during the soft start duration.

During turn-on of the supplies onto their capacitive loads the

current limiting fail-safe is engaged, this limited current gives

a voltage ramp-up slew rate centered within the PCI specs.

As the startup is current-limited, the CRTIM timer is engaged

during the entire startup, as it should be. This eliminates the

otherwise destructive case of starting up into a dead short.

Depending on loading, the positive 3 supplies will start up

and exit current limiting in about 6ms -10ms. The -12V

supply will take much longer, as it has a fraction of the

available charging current into a potentially relatively very

large load capacitance, and the voltage has to slew to -12V.

The -12V turn-on duration can thus be several times as long

extending to ~50ms for a very capacitive (147ÂµF) load in

conjunction with a maximum current load. In addition if the

CR level is too low then itâs possible that the load

capacitance cannot fully charge in the allowed for time, this

is the consequence of the current regulation limiting

protection.

Once turned on, any subsequent over current (OC) condition

on any output results in the affected switch (external or

internal) to be put into its linear mode of operation, and the

current is regulated to the level determined by the choice of

external CRSET resistor value. An OC condition is defined

as a current level > the programmed CR level and that

transitions through the CR level with a quick ramp, <0.5Âµs.

This CR level is maintained until the OC condition passes or

the CR duration expires, whichever comes first. The CR

duration is user defined by the capacitor value on the CRTIM

pin. Once in CR mode, the CRTIM pin charges the capacitor

with a 20ÂµA current until the voltage on CRTIM rises to

~2.8V, at which time a turn-off latch is set on all 4 power FET

switches. Also at this time the open drain fault (FLTN) output

is pulled low signalling a latched off state. After a fault has

been asserted and FLTN is latched low, cycling ENABLE low

will clear the FLTN latch.

On-chip references in the ISL6111 are used to monitor the

+5V, +3.3V and +12V outputs for under voltage (UV)

conditions. Once an UV condition is present the open drain

power good (PGOOD) output will pull low to indicate this.

Customizing Circuit Performance

Setting Current Regulation (CR) Level

The ISL6111 allows for easy and simultaneous custom

programming of the CR levels of all 4 supplies by simply

changing the resistor value between CRSET, (pin 18), and

ground. The RCRSET value and the CRSET 100ÂµA current

source create a reference voltage that is used in each of four

comparators. The IR voltages developed across the 3.3V

and 5V sense resistors are applied to the inputs of their

respective comparators opposite this reference voltage. The

+12V and -12V currents are sensed internally with pilot

devices. Because of the internal current monitoring of the

+12V and -12V switches, their programming flexibility is

limited to RCRSET changes whereas the 3.3V and 5V over

current regulation levels depend on both RCRSET, and the

value chosen for each sense resistor.

See Table 1 to determine CR protection levels relative to

choice of RCRSET and RSENSE values.

Over current design guidelines and recommendations are as

follows:

1. For PCI applications, set RCRSET to 4.22kâ¦, and use

5mâ¦ 1% sense resistors (see Figure 20). This RCRSET

value provides a nominal current trip level 110% to 130%

higher than the maximum specified current, to ensure full

current range use by the PCI load. The ISL6111 will trip

off on a slow increasing current ramp approximately 10%

to 20% lower than set CR level.

2. For non PCI specified applications, the following

precautions and limitations apply:

A. Do not exceed the maximum power of the integrated

NMOS and PMOS. High power dissipation must be

coupled with effective thermal management and prudent

CR durations. The integrated PMOS has an rDS(ON) of

0.35â¦. With 2.5A of steady load current on the PMOS

device the power dissipation is 2.2W. The thermal

impedance of the package is 31 degrees Celsius per

watt, resulting in a 68Â°C die temp rise thus limiting the

average DC current on the 12V supply to about 2.5A

maximum at +85Â°C ambient and imposing an upper limit

on the ROCSET resistor. Do not use an RCRSET resistor

greater than 15kâ¦.

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