MAX16831ATJ+T Maxim Integrated Products, MAX16831ATJ+T Datasheet - Page 12

MAX16831ATJ+T

Manufacturer Part Number

MAX16831ATJ+T

Description

IC LED DRIVR HIGH BRIGHT 32-TQFN

Manufacturer

Maxim Integrated Products

Type

HBLED Driverr

Datasheet

1.MAX16831ATJT.pdf (19 pages)

Specifications of MAX16831ATJ+T

Topology

PWM, Step-Down (Buck), Step-Up (Boost)

Number Of Outputs

Internal Driver

Type - Primary

Automotive

Type - Secondary

High Brightness LED (HBLED), RGB

Frequency

125kHz ~ 600kHz

Voltage - Supply

5.5 V ~ 76 V

Mounting Type

Surface Mount

Package / Case

32-TQFN Exposed Pad

Operating Temperature

-40°C ~ 125°C

Internal Switch(s)

Yes

Efficiency

90%

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Voltage - Output

Current - Output / Channel

Lead Free Status / Rohs Status

Details

Current page: 12 of 19
Download datasheet (243Kb)

Connect the clock signal to the RTSYNC input. The

MAX16831 synchronizes to the external clock signal

after the detection of five successive clock edges at

RTSYNC.

A buffered clock output, CLKOUT, is capable of driving

the RTSYNC input of an external PWM controller for

multichannel applications. CLKOUT is capable of dri-

ving capacitive loads up to 500pF.

The MAX16831 is capable of multichannel operation.

Connect CLKOUT to the SYNC input of an external

device to use the MAX16831 as a master clock signal.

Connect an external clock signal to RTSYNC to config-

ure the MAX16831 as a slave. To setup two or more

MAX16831 devices in a daisy-chain/peer-to-peer con-

figuration, drive the RTSYNC input of one MAX16831

with the CLKOUT buffer of another (Figure 3).

switching. The differential voltage across R

compared to the 200mV voltage trip limit of the current-

limit comparator, ILIM. Set the current limit 20% higher

than the peak switch current at the rated output power

and minimum voltage. Use the following equation to

calculate R

where V

between SNS+ and SNS- and I

tor current at full load and minimum input voltage.

When the voltage drop across R

ILIM threshold, the MOSFET driver (DRV) terminates

the on-cycle and turns the switch off, reducing the cur-

rent through the inductor. The FET is turned back on at

the beginning of the next switching cycle.

When the voltage across R

(typ) HICCUP threshold, the HIC comparator terminates

the on-cycle of the device, turning the switching

MOSFET off. Following a startup delay of 4ms (typ), the

MAX16831 re-initiates soft-start. The device will contin-

ue to operate in HICCUP mode until the overcurrent

condition is removed.

A built-in 40ns leading-edge blanking circuit of the cur-

rent-sense signal prevents these comparators from pre-

maturely terminating the on-cycle of the external

switching MOSFET (Q

time may not be adequate and an additional RC filter

may be required to prevent spurious turn-off.

High-Voltage, High-Power LED Driver with

Analog and PWM Dimming Control

SENSE

______________________________________________________________________________________

sets the peak current through the inductor for

SENSE

ILIM and HICCUP Comparator

is the 200mV differential voltage

= V

Multichannel Configuration

SENSE

). In some cases, this blanking

SENSE

/ (1.2 x I

PEAK

SENSE

exceeds the 300mV

is the peak induc-

PEAK

exceeds the

)

SENSE

The load-sense resistor, R

through the LEDs. The internal floating current-sense

amplifier, CSA, measures the differential voltage across

current through R

referred to AGND. The closed loop regulates the LED

current to a value, I

The MAX16831 uses an internal ramp generator for

slope compensation. The internal ramp signal is reset

to zero at the beginning of each cycle and has a peak-

to-peak voltage of 120mV per switching cycle. Use an

external resistor, R

where f

MAX16831 is synchronized to an external clock, the

slope compensation ramp has a slope of 15mV/µs.

The MAX16831 includes a built-in voltage amplifier,

with tri-state output, which can be used to close the

feedback loop. The buffered output current-sense sig-

nal appears at CS, which is connected to the inverting

input, FB, of the error amplifier through resistor R

noninverting input is connected to an internally trimmed

current reference.

The output of the error amplifier is controlled by the sig-

nal applied to DIM. When DIM is high, the output of the

amplifier is connected to COMP. The amplifier output is

open when DIM is low. This enables the integrating

Figure 3. Master-Slave/Peer-Peer Clock Configuration

SLOPE

, and calculate the slope of the compensating ramp,

, and generates a voltage proportional to the LED

Internal Voltage-Error Amplifier (EAMP)

, using the following equation:

RTSYNC

is the switching frequency in Hz. When the

MASTER/PEER

MAX16831

SLOPE

LED

, to set the switching frequency,

CLKOUT

, given by the following equation:

= 0.107V / R

= 120 x f

at CS. This voltage on CS is

Slope Compensation

Load Current Sense

RTSYNC

, monitors the current

[mV/s]

SLAVE/PEER

MAX16831

CLKOUT

. The

MAX16831ATJ+T Maxim Integrated Products, MAX16831ATJ+T Datasheet - Page 12

MAX16831ATJ+T

Specifications of MAX16831ATJ+T

Related parts for MAX16831ATJ+T