HV312 Ver la hoja de datos (PDF) - Supertex Inc

Número de pieza

componentes Descripción

Fabricante

HV312

Sequencing Hotswap Controllers (Negative SupplyRail)

Supertex Inc 

Design Information- continued

The inrush current limit can be calculated as follows:

ICL

=

VSENSE-CL

RSENSE

= 50mV

RSENSE

Thus the inrush current limit for a 2A circuit breaker:

ICL

=

50mV

50mΩ

= 1A

Compensation components from gate to source of the external

MOSFET may be required to reduce peaking of the inrush current.

Compensation can be accomplished as follows:

1. Start with a 2nF capacitor from gate to source.

2. Increase capacitor value up to 10nF if needed.

3. If needed, add a 1kΩ resistor in series with the above

capacitor.

Servo Mode Timing

HV302 / HV312

The timing functions are defined by the following equations:

t START

= 2.4 CRAMP

IRAMP

t TH

=

VGS( th )

CRAMP

IRAMP

tPOR = t START + t TH

t RISE

≈

CRAMP

gfs



IRAMP

0.9ILIMIT

− RSENSE

RFB



t LIMIT

≈ VIN

CLOAD

ILIMIT

( ) tPWRGD−A

=

VINT − VGS(LIMIT) − 1.2

CRAMP

IRAMP

These equations assume that the load is purely capacitive and the

following definitions apply.

CRAMP is the external capacitor connected to the RAMP pin.

IRAMP is the output current from the RAMP pin, nominally

10µA, when the voltage drop on RSENSE resistor is zero.

VINT is the internally regulated supply voltage and can range

from 9V to 11V.

VGS(th) is the gate threshold voltage of the external pass

transistor and may be obtained from its datasheet.

VGS(limit) is the external pass transistor gate-source voltage

required to obtain the limit current. It is dependent on the

pass transistor’s characteristics and may be obtained from

the transfer characteristics on the transistor datasheet.

gfs is the transconductance of the external pass transistor and

may be obtained from its datasheet.

RFB is the internal feedback resistor and is nominally 5KΩ.

ILIMIT is the load current when the voltage drop on RSENSE

resistor is 50mV.

These equations may be used to calculate the minimum value of

CRAMP for the most critical system performance characteristics.

For maximum contact bounce duration protection choose a value

for tPOR and use the following equation:

CRAMP

=

tPOR × IRAMP

2.4 + VGS(limit)

If control of PWRGD active delay is the critical system parameter,

then choose a value for tPWRGD-A and use the following equation:

CRAMP

=

tPWRGD−A × IRAMP

VINT − VGS(limit) − 1.2

8

Rev. D

04/17/02

Supertex, Inc. 1235 Bordeaux Drive, Sunnyvale, CA 94089 TEL: (408) 744-0100 Fax: (408) 222-4895 www.supertex.com

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