SMH4814 Datasheet, PDF(5/44 Page) Summit Microelectronics, Inc. – Dual Feed Active-ORing Programmable Hot Swap Controller

English

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

SMH4814 Datasheet, PDF (5/44 Pages) Summit Microelectronics, Inc. – Dual Feed Active-ORing Programmable Hot Swap Controller

◁

PIN DESCRIPTION (CONTINUED)

SMH4814

Preliminary Information

Pin No.

QFN

Pin Type

PWR

Name

FEEDA

DRAIN

SENSE

5V_CAP

VGATE_HS

VGATEB

VGATEA

V12

FBD

FBC

FBB

FBA

Description

Connect to the -48V 'A' feed using a series 100k resistor. The voltage on

this pin is compared with the voltage on the FEEDB pin internally by the

supply arbitration logic to determine which voltage will be used.

The DRAIN SENSE input monitors the voltage at the drain of the external

power MOSFET switch with respect to VSS. An internal 10ÂµA source pulls

the DRAIN SENSE signal towards the 5V_CAP level. DRAIN SENSE must

be held below 2.5V to enable the PUPX outputs.

External capacitor input used to filter the deviceâs internal operating supply.

Also a hold Capacitor to sequence down and to filter any power glitches.

The VGATE_HS output activates an external power MOSFET switch. This

signal controls inrush current by modulating the gate of the Hot Swap

MOSFET device. It supplies a programmable current output which allows

easy adjustment of the MOSFET turn-on slew rate.

This pin controls the gate of the active FET on FEEDB.

This pin controls the gate of the active FET on FEEDA

This is the positive supply input. An internal shunt regulator limits the

voltage on this pin to approximately 12V with respect to VSS. A resistor

must be placed in series with the V12 pin to limit the regulator current (RD in

the application schematics).

Active-high, logic level input that can be used to indicate when the converter

controlled by PUPD is fully powered. A hold-off timer allows the secondary

side (which is not powered up initially) to control shut down via an opto-

isolator. See Figures 5 and 6.

Active-high, logic level input that can be used to indicate when the converter

controlled by PUPC is fully powered. A hold-off timer allows the secondary

side (which is not powered up initially) to control shut down via an opto-

isolator. See Figures 5 and 6.

Active-high, logic level input that can be used to indicate when the converter

controlled by PUPB is fully powered. A hold-off timer allows the secondary

side (which is not powered up initially) to control shut down via an opto-

isolator. See Figures 5 and 6.

Active-high, logic level input that can be used to indicate when the converter

controlled by PUPA is fully powered. A hold-off timer allows the secondary

side (which is not powered up initially) to control shut down via an opto-

isolator. See Figures 5 and 6.

Summit Microelectronics, Inc

2080 2.0 07/21/05

▷