Rainbow-electronics MAX5929 Bedienungsanleitung PDF herunterladen (Seite 19)

Startup Sequence

There are two ways of completing the startup

sequence. Case A describes a startup sequence that

slowly turns on the MOSFETs by limiting the gate

charge. Case B uses the current-limiting feature and

turns on the MOSFETs as fast as possible while still

preventing a high inrush current. The output voltage

ramp-up time (t

) is determined by the longer of the

two timings, case A and case B. Set the startup timer

START

) to be longer than t

to guarantee enough

time for the output voltage to settle.

Case A: Slow Turn-On (Without Current Limit)

There are two ways to turn on the MOSFETs without

reaching the fast-comparator current limit:

• If the board capacitance (C

BOARD

) is small, the

inrush current is low.

• If the gate capacitance is high, the MOSFETs turn

on slowly.

In both cases, the turn-on time is determined only by

the charge required to enhance the MOSFET. The

small 100µA gate-charging current effectively limits

the output voltage dV/dt. Connecting an external

capacitor between GATE and GND extends the turn-

on time. The time required to charge/discharge a

MOSFET is as follows:

where:

GATE

is the external gate to ground capacitance

(Figure 9),

∆V

GATE

is the change in gate charge,

GATE

is the MOSFET total gate charge,

GATE

is the gate-charging/discharging current.

In this case, the inrush current depends on the MOSFET

gate-to-drain capacitance (C

rss

) plus any additional

capacitance from GATE to GND (C

GATE

), and on any

load current (I

LOAD

) present during the startup period.

Example: Charging and discharging times using the

Fairchild FDB7030L MOSFET

If V

IN1

= 5V then GATE1 charges up to 10.4V (V

IN1

DRIVE

), therefore ∆V

GATE

= 10.4V. The manufacturer’s

data sheet specifies that the FDB7030L has approxi-

mately 60nC of gate charge and C

rss

= 600pF. The

MAX5927/MAX5929 have a 100µA gate-charging cur-

rent and a 3mA/50mA normal/strong discharging cur-

rent. C

BOARD

= 6µF and the load does not draw any

current during the startup period. With no gate capaci-

tor, the inrush current, charge, and discharge times are:

VnC

INRUSH

CHARGE

DISCHARGE

DISCHARGE STRONG

×+=

×+

600 0

100 0 1

0104 60

100

0104 60

002

0104 60

()

INRUSH

BOARD

rss GATE

GATE LOAD

×+

CVQ

GATE GATE GATE

GATE

×+∆

MAX5927/MAX5929

Low-Voltage, Quad, Hot-Swap

Controllers/Power Sequencers

______________________________________________________________________________________ 19

Figure 10. Adjustable Undervoltage Lockout

GATE_

SENSE_

TURN-ON

x R

) V

ON_

IN_

MAX5927

MAX5929

Figure 9. Operating with an External Gate Capacitor

GATE_

SENSE_

GND

ON_

SENSE_

OUT_

GATE

BOARD

IN_

PULLUP

STAT_

MAX5927

MAX5929

1 2 ... 14 15 16 17 18 19 20 21 22 23 24 25

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