Max1790 low-noise step-up dc-dc converter, Applications information – Rainbow Electronics MAX1790 User Manual

MAX1790

Low-Noise Step-Up DC-DC Converter

_______________________________________________________________________________________

7

Output Current Capability

The output current capability of the MAX1790 is a func-
tion of current limit, input voltage, operating frequency,
and inductor value. Because of the slope compensation
used to stabilize the feedback loop, the duty cycle
affects the current limit. The output current capability is
governed by the following equation:

I

OUT(MAX)

= [I

LIM

· (1.26 - 0.4 · Duty) -

0.5 · Duty · V

IN

/ (f

OSC

· L)] ·

η · V

IN

/ V

OUT

where:

I

LIM

= current limit specified at 65% (see Electrical

Characteristics)

Duty = duty cycle = (V

OUT

- V

IN

+ V

DIODE

) /

(V

OUT

- I

LIM

· R

ON

+ V

DIODE

)

V

DIODE

= catch diode forward voltage at I

LIM

η =conversion efficiency, 85% nominal

Soft-Start

The MAX1790 can be programmed for soft-start upon
power-up with an external capacitor. When the shutdown
pin is taken high, the soft-start capacitor (C

SS

) is immedi-

ately charged to 0.5V. Then the capacitor is charged at a
constant current of 4µA (typ). During this time, the SS
voltage directly controls the peak inductor current, allow-
ing 0A at V

SS

= 0.5V to the full current limit at V

SS

= 1.5V.

The maximum load current is available after the soft-start

cycle is completed. When the shutdown pin is taken low,
the soft-start capacitor is discharged to ground.

Frequency Selection

The MAX1790’s frequency can be user selected to
operate at either 640kHz or 1.2MHz. Tie FREQ to GND
for 640kHz operation. For a 1.2MHz switching frequen-
cy, tie FREQ to IN. This allows the use of small, mini-
mum-height external components while maintaining low
output noise. FREQ has an internal pull-down, allowing
the user the option of leaving FREQ unconnected for
640kHz operation.

Shutdown

The MAX1790 shuts down to reduce the supply current
to 0.1µA when SHDN is low. In this mode, the internal
reference, error amplifier, comparators, and biasing cir-
cuitry turn off while the N-channel MOSFET is turned
off. The boost converter’s output is connected to IN via
the external inductor and catch diode.

Applications Information

Boost DC-DC converters using the MAX1790 can be
designed by performing simple calculations for a first
iteration. All designs should be prototyped and tested
prior to production. Table 1 provides a list of compo-
nents for a range of standard applications. Table 2 lists
component suppliers.

GND

LX

IN

FREQ

FB

COMP

4

µA

5

µA

N

ERROR
COMPARATOR

ERROR
AMPLIFIER

ENABLE
COMPARATOR

SS

CLOCK

ENABLE

BIAS

SHDN

MAX1790

Σ

CURRENT

SENSE

CONTROL

AND DRIVER

LOGIC

SOFT-

START

SLOPE

COMPEN-

SATION

OSCILLATOR

∞

1.24V

Figure 2. Functional Diagram