Rainbow Electronics MAX15011 User Manual

MAX15009/MAX15011

Leave CT open to select a typical reset timeout of 19µs.
To maintain reset accuracy, use a low-leakage type of
capacitor.

Setting the Switch Current Limit

The switch block features accurate current-limit sens-
ing circuitry. A resistor connected from ILIM to SGND
can be used to select the current-limit threshold using
the following relationship:

I

SW_LIM

(mA) = R

ILIM

(kΩ) x 1mA / kΩ

where 20kΩ ≤ R

ILIM

≤ 200kΩ.

Connect ILIM to OUT_LDO to select the default current
limit of 200mA (typ).

Programming the Switch

Overcurrent Blanking Time

The switch provides an adjustable overcurrent blanking
time to allow the safe charge of large capacitive loads.
When an overcurrent event is detected, a delay period
elapses before the condition is latched and the internal
MOSFET is turned off. This period is the overcurrent
delay, t

OC_DELAY

. Set the overcurrent delay using the

following equation:

t

OC_DELAY

= C

OC_DELAY

x V

OC_DELAY

/ I

OC_DELAY_UP

where t

OC_DELAY

is in seconds and C

OC_DELAY

is in

µF. V

OC_DELAY

is the overcurrent delay timeout thresh-

old voltage in volts and I

OC_DELAY_UP

is the overcur-

rent delay timeout pullup current in µA as seen in the

Electrical Characteristics

table.

Ensure that the switch is not disabled due to a large
startup inrush current by selecting a large enough
value for overcurrent blanking time. Assume that the
current available for charging the total switch output
capacitance, C

OUT_SW

, is the difference between the

current-limit threshold value, I

SW_LIM

, and the nominal

DC load current at OUT_SW, I

OUT_SW_NOM

and select

the C

OC_DELAY

using the following relationship:

C

OC_DELAY

also affects the length of time before the

MAX15009/MAX15011 attempt to turn the switch back
on. Set the autoretry delay using the following equation:

t

OC_RETRY

= C

OC_DELAY

x

V

OC_DELAY

/I

OC_DELAY_DOWN

where t

OC_RETRY

is in seconds, C

OC_DELAY

is in µF,

V

OC_DELAY

is in volts, and I

OC_DELAY_DOWN

is in µA.

C

OC_DELAY

should be a low-leakage type of capacitor

with a minimum value of 100pF.

Setting the Overvoltage Threshold

(MAX15009 Only)

The MAX15009 provides an accurate means to set the
overvoltage threshold for the OVP controller using
FB_PROT. Use a resistive voltage-divider to set the
desired overvoltage threshold (Figure 4). FB_PROT has
a rising 1.235V threshold with a 4% falling hysteresis.

Begin by selecting the total end-to-end resistance,
R

TOTAL

= R

3

+ R

4

. Choose R

TOTAL

to yield a total current

equivalent to a minimum of 100 x I

FB_PROT

(FB_PROT’s

input maximum bias current) at the desired overvoltage
threshold. See the

Electrical Characteristics

table.

For example:

With an overvoltage threshold (V

OV

) set to 20V, R

TOTAL

< 20V / (100 x I

FB_PROT

), where I

FB_PROT

is FB_PROT’s

maximum 100nA bias current:

R

TOTAL

< 2MΩ

C

I

V

C

V

(I

I

)

OC_DELAY

OC_DELAY_UP

OUT_LDO

OUT_SW

OC_DELAY

SW_LIM

OUT_SW_NOM

≥

Ч

Ч

Ч

−

Automotive 300mA LDO Regulators with
Switched Output and Overvoltage Protector

16

______________________________________________________________________________________

R4

R3

R5

R6

IN

V

IN

FB_PROT

SGND

GATE

SOURCE

PROTECTOR

OUTPUT

MAX15009

IN

V

IN

FB_PROT

SGND

GATE

SOURCE

PROTECTOR

OUTPUT

MAX15009

Figure 4. Setting the Overvoltage Threshold (MAX15009)