MAX16818ETI+ Maxim Integrated Products, MAX16818ETI+ Datasheet - Page 15

MAX16818ETI+

Manufacturer Part Number

MAX16818ETI+

Description

IC LED DRIVR PWM CONTROL 28-TQFN

Manufacturer

Maxim Integrated Products

Type

PWM Controlr

Datasheet

1.MAX16818ETI.pdf (25 pages)

Specifications of MAX16818ETI+

Topology

High Side, Low Side, PWM, SEPIC, Step-Down (Buck), Step-Up (Boost)

Number Of Outputs

Internal Driver

Type - Primary

Automotive, Backlight

Type - Secondary

High Brightness LED (HBLED)

Frequency

125kHz ~ 1.5MHz

Voltage - Supply

4.75 V ~ 5.5 V, 7 V ~ 28 V

Voltage - Output

5.1V

Mounting Type

Surface Mount

Package / Case

28-TQFN Exposed Pad

Operating Temperature

-40°C ~ 85°C

Current - Output / Channel

30A

Internal Switch(s)

Yes

Low Level Output Current

4 A

High Level Output Current

4000000 uA (Typ)

Operating Supply Voltage

7 V to 28 V

Maximum Supply Current

5.5 mA

Maximum Power Dissipation

2758 mW

Maximum Operating Temperature

+ 85 C

Mounting Style

SMD/SMT

Minimum Operating Temperature

- 40 C

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Efficiency

Lead Free Status / Rohs Status

Lead free / RoHS Compliant

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The MAX16818 is a high-performance average-current-

mode PWM controller for high-power, high-brightness

LEDs (HBLEDs). Average current-mode control is the

ideal method for driving HBLEDs. This technique offers

inherently stable operation, reduces component derat-

ing and size by accurately controlling the inductor cur-

rent. The device achieves high efficiency at high

current (up to 30A) with a minimum number of external

components. The high- and low-side drivers source

and sink up to 4A for lower switching losses while dri-

ving high-gate-charge MOSFETs. The MAX16818’s

CLKOUT output is 180° out-of-phase with respect to the

high-side driver. CLKOUT drives a second MAX16818

LED driver out of phase, reducing the input-capacitor

ripple current.

The MAX16818 consists of an inner average current loop

representing inductor current and an outer voltage loop

voltage-error amplifier (VEA) that directly controls LED

current. The combined action of the two loops results in

a tightly regulated LED current. The inductor current is

sensed across a current-sense resistor. The differential

amplifier senses LED current through a sense resistor in

series with the LEDs and the resulting sensed voltage is

compared against an internal 0.6V reference at the error-

amplifier input. The MAX16818 will adjust the LED cur-

rent to within 1% accuracy to maintain emitted spectrum

of the light in HBLEDs.

The MAX16818 accepts either a 4.75V to 5.5V or 7V to

28V input voltage range. All internal control circuitry

operates from an internally regulated nominal voltage of

5V (V

nal V

sourcing up to 60mA. Bypass the V

4.7µF and 0.1µF low-ESR ceramic capacitors for high-

frequency noise rejection and stable operation.

The MAX16818 uses V

high-side drivers. Isolate V

tor and put a 1µF capacitor in parallel with a 0.1µF

capacitor to ground to prevent high-current noise spikes

created by the driver from disrupting internal circuitry.

The TQFN is a thermally enhanced package and can

dissipate up to 2.7W. The high-power packages allow

the high-frequency, high-current converter to operate

from a 12V or 24V bus. Calculate power dissipation in

the MAX16818 as a product of the input voltage and the

total V

escent current (I

output voltage is a regulated 5V output capable of

). For input voltages of 7V or greater, the inter-

regulator steps the voltage down to 5V. The

regulator output current (I

) and gate-drive current (I

______________________________________________________________________________________

1.5MHz, 30A High-Efficiency, LED Driver

Detailed Description

to power the low-side and

from V

IN, V

). I

with Rapid LED Current Pulsing

with a 1Ω resis-

to SGND with

includes qui-

, and V

where Q

low-side and high-side external MOSFETs at V

5V, I

cy of the converter.

The MAX16818 includes an undervoltage lockout with

hysteresis and a power-on-reset circuit for converter

turn-on. The UVLO rising threshold is internally set at

4.35V with a 200mV hysteresis. Hysteresis at UVLO

eliminates chattering during startup.

Most of the internal circuitry, including the oscillator,

turns on when the input voltage reaches 4V. The

MAX16818 draws up to 3.5mA of current before the

input voltage reaches the UVLO threshold.

The MAX16818 has an internal digital soft-start for a

monotonic, glitch-free rise of the output current. Soft-

start is achieved by the controlled rise of the error

amplifier dominant input in steps using a 5-bit counter

and a 5-bit DAC. The soft-start DAC generates a linear

ramp from 0 to 0.7V. This voltage is applied to the error

amplifier at a third (noninverting) input. As long as the

soft-start voltage is lower than the reference voltage,

the system converges to that lower reference value.

Once the soft-start DAC output reaches 0.6V, the refer-

ence takes over and the DAC output continues to climb

to 0.7V, assuring that it does not interfere with the refer-

ence voltage.

The internal oscillator generates a clock with the fre-

quency proportional to the inverse of R

frequency is adjustable from 125kHz to 1.5MHz with

better than 8% accuracy using a single resistor con-

nected from RT/SYNC to SGND. The frequency accura-

cy avoids the over-design, size, and cost of passive

filter components like inductors and capacitors. Use

the following equation to calculate the oscillator fre-

quency:

For 120kΩ ≤ R

For 40kΩ ≤ R

is 3.5mA (typ), and f

and Q

≤ 120kΩ:

≤ 500kΩ:

= I

Undervoltage Lockout (UVLO)

+ [f

are the total gate charge of the

6 40

= V

6 25

x (Q

x I

is the switching frequen-

Internal Oscillator

+ Q

. The oscillator

)]

Soft-Start

GATE

MAX16818ETI+ Maxim Integrated Products, MAX16818ETI+ Datasheet - Page 15

MAX16818ETI+

Specifications of MAX16818ETI+

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