HIP1011D_04 INTERSIL [Intersil Corporation], HIP1011D_04 Datasheet - Page 7

HIP1011D_04

Manufacturer Part Number

HIP1011D_04

Description

Dual Slot PCI Hot Plug Controllers

Manufacturer

INTERSIL [Intersil Corporation]

Datasheet

1.HIP1011D_04.pdf (15 pages)

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Introduction

The HIP1011D and HIP1011E are the first dual PCI slot IC

devices designed to provide control and protection of the

four PCI power supplies independently to two PCI slots. Like

the widely used HIP1011 this device complies with the PCI

Hot Plug specification facilitating the service, upgrading or

expansion of PCI based servers without the need to power

down the server. The HIP1011D protects against overcurrent

(OC) for the -12V, +12V, +3.3V, +5V and undervoltage (UV)

conditions for the +12V, +3.3V, +5V supplies. The HIP1011E

only responds to OC conditions.

Figure 1 illustrates the typical implementation of the

HIP1011D, HIP1011E. Additional components for optimizing

performance for particular applications, or desired features

may be necessary.

Key Feature Description and Operation

The HIP1011D/E, four power MOSFETs and a few passive

components as configured in Figure 1, create a small yet

complete power control solution for two PCI slots. It provides an

OC trip level greater than the maximum PCI specified current

for each supply to each slot. OC monitoring and protection for

the 3.3V and 5V supplies is provided by sensing the voltage

across external current-sense resistors. For the +12V and -12V

inputs, OC protection is provided internally. On-chip references

in the HIP1011D are used to monitor the +5V, +3.3V and +12V

outputs for UV conditions. During an OC condition on any

output, or a UV condition on the +5V, +3.3V or +12V outputs

(HIP1011D only), all slot specific MOSFETs are immediately

latched-off and a LOW (0V) is presented to the appropriate

FLTN output. During initial power-up of the main V

(+12V), the PWRON inputs are inhibited from turning on the

switches, and the latch is held in the reset state until the V

input is greater than 10V. After a fault has been asserted and

FLTN is latched low cycling PWRON low then high will clear the

FLTN latch. User programming of the OC thresholds for both

controlled slots is provided by a single resistor connected to the

OCSET pin along with R

off after a fault condition can be increased by increasing the

FLTN to ground capacitance and the turn-on ramp rate can be

increased by increasing the gate pin capacitance.

Customizing Circuit Performance

OverCurrent (OC) Set Functionality and Resistor

Choice

The HIP1011D/E allows easy custom programming of the

OC levels of all 4 supplies simultaneously for both PCI slots

by simply changing the resistor value between OCSET, (pin

10), and ground. The R

current source sets a voltage that is used in each of eight

comparators, (one for each supply for both slots). The

voltages developed across the 3.3V and 5V sense resistors

are applied to the inputs of their respective comparators. The

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

OCSET

SENSE

. In addition delay time to latch

value and the OCSET 100

HIP1011D, HIP1011E

supply

devices. Once any comparator trips, that output is fed

through logic circuits resulting in the appropriate FLTN, (pin

4 or pin 11), going low, indicating a fault condition on that

particular slot. Because of the internal current monitoring of

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

limited to R

trip points depend on both R

each sense resistor.

See Table 1 to determine OC protection levels relative to

choice of R

Overcurrent design guidelines and recommendations are as

follows:

C. Minimize V

D. Minimize external FET r

A. Do not exceed the maximum power of the integrated

B. Do not try to sense voltages across the external sense

1. For PCI applications, set R

2. For non PCI specified applications, the following

5mΩ 1% sense resistors (see Figure 24).

precautions and limitations apply:

NMOS and PMOS. High power dissipation must be

coupled with effective thermal management. The

integrated PMOS has an r

of steady load current on each of the PMOS devices the

power dissipation is 0.6W. The thermal impedance of the

package is 95 degrees Celsius per watt, limiting the

average DC current on the 12V supply to about 1A on

each slot and imposing an upper limit on the R

resistor. Do not use an R

15kΩ.

The average current on the -12V supply should not

exceed 0.7A. Since the thermal restrictions on the +12V

supply are more severe, the +12V supply restricts the use

of the HIP1011 to applications where the ±12V supplies

draw relatively little current. Since both supplies only have

one degree of freedom, the value of R

of programming is quite limited. For applications where

more power is required on the +12V supply, contact your

local Intersil sales representative for information on other

Hot Plug solutions.

resistors that are less than 33mV. Spurious faults due to

noise and comparator input sensitivity may result. The

minimum recommended R

set the nominal OC voltage thresholds at 52mV and

42mV for the 3.3V and 5V comparators respectively. This

is the voltage level at which the OC fault (I

will occur.

voltage delivered to the adapter card. Remember PCB

trace and connector distribution voltage losses also need

to be considered. Make sure that the R

can adequately handle the dissipated power. For best

results use a 1% precision resistor with a low temperature

coefficient.

MOSFETs in parallel are recommended. See Intersil for

a complete selection of MOSFET offerings.

OCSET

RSENSE

changes. The 3.3V and 5V overcurrent

and R

so as to not significantly reduce the

SENSE

DS(ON)

OCSET

DS(ON)

OCSET

values.

. Low r

and the value chosen for

resistor greater than

of 0.3Ω. Thus, with 1A

value is 6kΩ. This will

to 6.04kΩ, and use

OCSET

DS(ON)

SENSE

OUT

November 18, 2004

, the flexibility

x R

or multiple

OCSET

resistor

SENSE

FN4725.5

)

HIP1011D_04 INTERSIL [Intersil Corporation], HIP1011D_04 Datasheet - Page 7

HIP1011D_04

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