MAX17014EVKIT+ Maxim Integrated Products, MAX17014EVKIT+ Datasheet - Page 19

MAX17014EVKIT+

Manufacturer Part Number

MAX17014EVKIT+

Description

KIT EVAL FOR MAX17014

Manufacturer

Maxim Integrated Products

Datasheets

1.MAX17014ETM.pdf (33 pages)

2.MAX17014EVKIT.pdf (11 pages)

Specifications of MAX17014EVKIT+

Main Purpose

Special Purpose DC/DC, LCD Supply

Outputs And Type

4, Non-Isolated

Power - Output

32.9W

Voltage - Output

3.3V, 16V, -6V, 35V

Current - Output

2A, 1.5A, 100mA, 50mA

Voltage - Input

10.8 ~ 13.2V

Regulator Topology

Boost, Buck

Frequency - Switching

1.2MHz

Board Type

Fully Populated

Utilized Ic / Part

MAX17014

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

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The heart of the PWM control block is a multi-input,

open-loop comparator that sums three signals: the out-

put voltage signal with respect to the reference voltage,

the current-sense signal, and the slope compensation.

The PWM controller is a direct-summing type, lacking a

traditional error amplifier and the phase shift associated

with it. This direct-summing configuration approaches

ideal cycle-by-cycle control over the output voltage.

When EN1 and EN2 are high, the controller always

operates in fixed-frequency PWM mode. Each pulse

from the oscillator sets the main PWM latch that turns

on the high-side switch until the PWM comparator

changes state.

When EN1 is high and EN2 is low, the controller oper-

ates in skip mode. The skip mode dramatically

improves light-load efficiency by reducing the effective

frequency, which reduces switching losses. It keeps

the peak inductor current at about 0.9A (typ) in an

active cycle, allowing subsequent cycles to be

skipped. Skip mode transitions seamlessly to fixed-

frequency PWM operation as load current increases.

The current-limit circuit turns off the high-side MOSFET

switch whenever the voltage across the high-side

MOSFET exceeds an internal threshold. The actual

current limit is 3A (typ).

For current-mode control, an internal lossless sense

network derives a current-sense signal from the induc-

tor DCR. The time constant of the current-sense net-

work is not required to match the time constant of the

inductor and has been chosen to provide sufficient cur-

rent ramp signal for stable operation at both operating

frequencies. The current-sense signal is AC-coupled

into the PWM comparator, eliminating most DC output-

voltage variation with load current.

The step-down regulator of the MAX17014 enters into

low-frequency operating mode if the voltage on OUT is

below 0.8V. In the low-frequency mode, the switching

frequency of the step-down regulator is 1/6 the oscilla-

tor frequency. This feature prevents potentially uncon-

trolled inductor current if OUT is overloaded or shorted

to ground.

The step-down regulator of the MAX17014 supports

both fixed and adjustable output voltages. Connect

FB2 to GND to enable the 3.3V fixed output voltage.

Connect a resistive voltage-divider between OUT and

Current Limiting and Lossless Current Sensing

______________________________________________________________________________________

Low-Frequency Operation

PWM Controller Block

Dual-Mode Feedback

Power Supply for LCD TVs

Low-Cost Multiple-Output

GND with the center tap connected to FB2 to adjust the

output voltage. Choose RB (resistance from FB2 to

GND) to be between 5kΩ and 50kΩ, and solve for RA

(resistance from OUT1 to FB1) using the equation:

where V

Because of FB2’s (pin 21) close proximity to the noisy

BST (pin 22), a noise filter is required for FB2

adjustable-mode operation. Place a 100pF capacitor

from FB2 to GND to prevent unstable operation. No fil-

ter is required for 3.3V fixed-mode operation.

The step-down regulator includes a 7-bit soft-start DAC

that steps its internal reference voltage from 0 to 1.25V in

128 steps. The soft-start period is 3ms (typ) and FB1 fault

detection is disabled during this period. The soft-start fea-

ture effectively limits the inrush current during startup (see

the Step-Down Regulator Soft-Start (Heavy Load) wave-

forms in the Typical Operating Characteristics ).

The step-up regulator employs a current-mode, fixed-

frequency PWM architecture to maximize loop band-

width and provide fast-transient response to pulsed

loads typical of TFT LCD panel source drivers. The inte-

grated MOSFET and the built-in digital soft-start func-

tion reduce the number of external components

required while controlling inrush currents. The output

voltage can be set from V

resistive voltage-divider. The regulator controls the out-

put voltage and the power delivered to the output by

modulating the duty cycle (D) of the internal power

MOSFET in each switching cycle. The duty cycle of the

MOSFET is approximated by:

where V

An error amplifier compares the signal at FB1 to 1.25V

and changes the COMP output. The voltage at COMP

sets the peak inductor current. As the load varies, the

error amplifier sources or sinks current to the COMP

output accordingly to produce the inductor peak cur-

rent necessary to service the load. To maintain stability

at high duty cycles, a slope compensation signal is

summed with the current-sense signal.

AVDD

FB2

= 1.25V, and V

is the output voltage of the step-up regulator.

RA RB

≈

AVDD

OUT

VIN

AVDD

⎛

⎜

⎝

OUT

−

can vary from 1.25V to 5V.

to 20V with an external

Step-Up Regulator

PWM Controller Block

VIN

−

⎞

⎟

⎠

Soft-Start

MAX17014EVKIT+ Maxim Integrated Products, MAX17014EVKIT+ Datasheet - Page 19

MAX17014EVKIT+

Specifications of MAX17014EVKIT+

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