Rainbow Electronics MAX1685 User Manual

MAX1684/MAX1685

Low-Noise, 14V Input, 1A, PWM
Step-Down Converters

10

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inductor peak current during the first half of each cycle,
based on the output error voltage. The MAX1684/
MAX1685s’ loop gain is relatively low to enable the use
of a small, low-value output filter capacitor. The 1.4%
transient load regulation from 0 to 1A is compensated
by an integrator circuit that lowers DC load regulation
to 0.01% typical. Slope compensation accounts for the
inductor-current waveform’s down slope during the
second half of each cycle, and eliminates the inductor-
current staircasing characteristic of current-mode con-
trollers at high duty cycles.

PFM Control

In low-power mode, the MAX1684/MAX1685 switch
only as needed to service the load. This reduces the
switching frequency and associated losses in the
P-channel switch, the synchronous rectifier, and the
external inductor. During this PFM operation, a switch-
ing cycle initiates when the PFM comparator senses
that the output voltage has dropped too low. The
P-channel MOSFET switch turns on and conducts cur-
rent to the output-filter capacitor and load. The
MAX1684/MAX1685 then wait until the PFM comparator
senses a low-output voltage again.

In normal mode at light load (<150mA), the device also
operates in PFM. The PFM current comparator controls
both entry into PWM mode and the peak switch current
during PFM operation. Consequently, some jitter is nor-
mal during transition from PFM to PWM with loads
around 150mA, and it has no adverse impact on regu-
lation.

100% Duty-Cycle Operation

As the input voltage drops, the duty cycle increases
until the P-channel MOSFET turns on continuously,
achieving 100% duty cycle. Dropout voltage in 100%
duty cycle is the output current multiplied by the on-
resistance of the internal switch and inductor, approxi-
mately 0.35V (I

OUT

= 1A).

Very Low Duty-Cycle Operation

Because of the P-channel minimum on-time and dead-
time (duration when both switches are off), the
MAX1684/MAX1685s’ switching frequency must
decrease in PWM or normal mode to maintain regula-
tion at a very low duty cycle. The total P-channel on-
time and dead-time is 290ns typical. As a result, the
MAX1684/MAX1685 maintain fixed-frequency regula-
tion at no load for V

IN

up to 10V

OUT

and 5V

OUT

,

respectively (see PWM Fixed-Frequency Operation
Area graph in the Typical Operating Characteristics).

For higher V

IN

at no load, the frequency decreases

based on the following equation:

f = V

OUT

/ (V

IN

× 290ns)

At medium- to full-load current (>100mA), V

IN

can

increase slightly higher before the frequency decreas-
es.

Synchronous Rectification

Although the primary rectifier is an external Schottky
diode, a small internal N-channel synchronous rectifier
allows PWM operation at light loads. During the second
half of each cycle, when the inductor current ramps
below the zero-crossing threshold or when the oscilla-
tor period ends, the synchronous rectifier turns off. This
keeps excess current from flowing backward through
the inductor. Choose an appropriate inductor to limit
the PWM ripple current through the N-channel FET to
400mA

P-P

.

Current Limit and Soft-Start

The voltage at ILIM/SS sets the PWM current limit
(I

LIM

= 1.75A) and the low-power current limit (I

LIMLP

=

380mA). The PWM current limit applies when the
device is in PWM mode, in synchronized PWM mode,
or delivering a heavy load in normal mode (Table 1).
The I

LIMLP

limit applies when the device is in low-power

mode. An internal 4µA current source pulls ILIM/SS up
to CVL. To use the maximum current-limit thresholds,
leave ILIM/SS unconnected or connect it to a soft-start
capacitor. Connect an external resistor from ILIM/SS to
AGND to adjust the current-limit thresholds.

The PWM current-limit threshold is (I

LIM

✕

R

ILIM/SS

✕

4µA) / V

REF

and is adjustable from 0.5A to 1.75A.

The low-power current-limit threshold is equal to (I

LIMLP

✕

R

ILIM/SS

✕

4µA) / V

REF

and is adjustable from 110mA

to 380mA.

For example, when R

ILIM/SS

is 156k

Ω, the PWM current

limit threshold is 0.88A and the low-power current limit
threshold is 0.19A.

Connect a low-value capacitor from ILIM/SS to AGND
to achieve soft-start, limiting inrush current. ILIM/SS
internally shorts to AGND in shutdown to discharge the
soft-start capacitor. Do not connect ILIM/SS to REF or
CVL. Determine the soft-start duration by:

t

SOFT-START

= C

ILIM/SS

(1.25V / 4µA)

where t

SOFT-START

is the time from SHDN going high to

the regulator being able to supply full load current. For
example, a 0.1µF capacitor yields 31ms of soft-start.