MAX16816ATJ+T Maxim Integrated Products, MAX16816ATJ+T Datasheet - Page 17

MAX16816ATJ+T

Manufacturer Part Number

MAX16816ATJ+T

Description

IC LED DRIVR HIGH BRIGHT 32-TQFN

Manufacturer

Maxim Integrated Products

Type

HBLED Driverr

Datasheet

1.MAX16816ATJ.pdf (33 pages)

Specifications of MAX16816ATJ+T

Topology

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

Number Of Outputs

Internal Driver

Yes

Type - Primary

Automotive

Type - Secondary

High Brightness LED (HBLED)

Frequency

125kHz ~ 500kHz

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%

Low Level Output Current

76 mA

High Level Output Current

67 mA

Operating Supply Voltage

5.5 V to 76 V

Maximum Supply Current

4.5 mA

Maximum Power Dissipation

2758 mW

Maximum Operating Temperature

+ 125 C

Mounting Style

SMD/SMT

Minimum Operating Temperature

- 40 C

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Voltage - Output

Current - Output / Channel

Lead Free Status / Rohs Status

Details

Current page: 17 of 33
Download datasheet (343Kb)

an analog control signal is applied to DIM, the

MAX16816 compares the DC input to an internally gen-

erated 200Hz ramp to pulse-width modulate the LED

current (f

linearly adjustable from 0 to 100% (0.2V < V

Use the following formula to calculate voltage, V

necessary for a given output current duty cycle, D:

where V

Connect DIM to REF through a resistive voltage-divider

to apply a DC DIM control signal (Figure 2). Use the

required dimming input voltage, V

above and select appropriate resistor values using the

following equation:

where V

15kΩ ≤ R

A minimum 20µs pulse width is necessary for proper

operation during dimming.

The MAX16816 is capable of stand-alone operation, of

synchronizing to an external clock, and of driving exter-

nal devices in SYNC mode. For stand-alone operation,

set the EEPROM Oscillator Enable/Disable (RTOF) bit

to ‘1’ to use the fixed internal 125kHz oscillator or set

RTOF to ‘0’ and program the switching frequency by

connecting a single external resistor, R

RTSYNC and ground. Select a switching frequency,

using the following formula:

where the switching frequency is in kHz and R

Figure 2. Creating DIM Input Signal from REF

, between 125kHz and 500kHz and calculate R

Oscillator, Clock, and Synchronization

DIM

REF

DIM

+ R

is the voltage applied to DIM in volts.

= 200Hz). The output current duty cycle is

is the 3V reference output voltage and

= R

≤ 150kΩ.

DIM

______________________________________________________________________________________

Programmable Switch-Mode LED Driver

x V

= (D x 2.6) + 0.2V

DIM

REF

DIM

with Analog-Controlled PWM Dimming

500kHz

MAX16816

/ (V

AGND

REF

2 k

- V

5 Ω

DIM

)

, calculated

DIM

, between

is in kΩ.

< 2.8V).

DIM

To synchronize the MAX16816 with an external clock

signal ranging from 125kHz to 500kHz, set the RTOF bit

to ‘0’ and connect the clock signal to the RTSYNC

input. The MAX16816 synchronizes to the clock signal

after the detection of 5 successive clock edges at

RTSYNC.

A buffered clock output, CLKOUT, can drive the

RTSYNC input of an external PWM controller for multi-

channel applications. CLKOUT can drive capacitive

loads up to 500pF.

If the PWM switching frequency is set to 125kHz, the

RTSYNC oscillator can be temporarily disabled by setting

the EEPROM RTOF bit to ‘1’. In this case, the internal

125kHz frequency-fixed oscillator drives the PWM. See the

EEPROM and Programming section for more information

on setting the Oscillator Enable/Disable bit in the EEPROM.

The MAX16816 is capable of multichannel operation

and is configurable as a master or slave in a Master-

Slave configuration, or in a Peer-to-Peer configuration.

Connect CLKOUT to the SYNC input of an external

device to use the MAX16816 as a master clock signal.

Connect an external clock signal to RTSYNC to config-

ure the MAX16816 as a slave. To setup two MAX16816

devices in a daisy-chain configuration, drive the

RTSYNC input of one MAX16816 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

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

SENSE

sets the peak current through the inductor for

RTSYNC

SENSE

MASTER/PEER

MAX16816

ILIM and HICCUP Comparator

= V

CLKOUT

Multichannel Configuration

SENSE

/ (1.2 x I

RTSYNC

MAX16816

SLAVE/PEER

PEAK

CLKOUT

)

SENSE

MAX16816ATJ+T Maxim Integrated Products, MAX16816ATJ+T Datasheet - Page 17

MAX16816ATJ+T

Specifications of MAX16816ATJ+T

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