Rainbow Electronics MAX1745 User Manual

MAX1744/MAX1745

High-Voltage, Step-Down DC-DC

Controller in µMAX

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9

At light output loads, the inductor current is discontinu-
ous, causing the MAX1744/MAX1745 to operate at
lower frequencies, reducing the MOSFET gate drive
and switching losses. In discontinuous mode, under
most circumstances, the on-time will be the fixed mini-
mum on-time of 1µs. If the inductor value is small, or
the current-sense resistor large, the current limit will be
tripped before the minimum on-time, terminating the
on-time and thus setting the fixed on-time.

If the inductance is too large, or the output capacitance
high and equivalent series resistance (ESR) low, then
the MOSFET remains on longer than the minimum on-
time, until the output capacitor charges beyond the
error comparator’s (V

OUT

/ 1.25V)

✕

8mV hysteresis,

causing the part to operate in hysteretic mode.
Operating in hysteretic mode results in lower frequency
operation. The transition to hysteretic mode occurs at
the critical output capacitor ESR:

ESR

CRITICAL

= (V

OUT

/ 1.25V)

✕

8mV / I

RIPPLE

where I

RIPPLE

is the inductor ripple current, and can be

determined by:

I

RIPPLE

= (V

IN

- V

OUT

)

✕

t

ON(MIN)

/ L

where t

ON(MIN)

is the minimum on-time (1µs) for mini-

mum on-time-control, or:

I

RIPPLE

= (V

OUT

)

✕

t

OFF(MIN)

/ L

where t

OFF(MIN)

is the minimum off-time (2µs) for mini-

mum off-time-control.

REF

MINIMUM

OFF-TIME

ONE SHOT

Q TRIG

VL

LINEAR

REGULATOR

VH

LINEAR

REGULATOR

1.25

REFERENCE

(FB)

ERROR
COMPARATOR

OUT

3/5

SHDN

CS

100mV

+

-

Q

R

S

VL

SHDN

VH

EXT

IN

MINIMUM

ON-TIME

ONE SHOT

Q TRIG

( ) MAX1745 ONLY
- - - MAX1744 ONLY

Figure 2. Simplified Functional Diagram