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MAX16831_09 Datasheet, PDF (9/19 Pages) Maxim Integrated Products – High-Voltage, High-Power LED Driver with Analog and PWM Dimming Control
High-Voltage, High-Power LED Driver with
Analog and PWM Dimming Control
Pin Description (continued)
PIN
NAME
FUNCTION
Low-Voltage Input. LO is the return point for the LED current. When using the MAX16831 in a buck-
25
LO
boost configuration, connect LO to VCC. When using the device in a boost configuration only,
connect LO to SGND. Connect LO to the junction of the inductor and LED current-sense resistor,
RCS, when using a buck configuration.
26
CS+
Noninverting Current-Sense Amplifier Input. Connect CS+ to the positive side of an external sense
resistor, RCS, connected in series with the load (LEDs).
27
CS-
Inverting Current-Sense Amplifier Input. Connect CS- to the negative side of an external sense
resistor, RCS, connected in series with the load (LEDs).
Internal CLMP Regulator Output. CLMP supplies an 8V (typ) output when VHI ≥ 9V. If VHI is lower than
9V, VCLMP is one diode drop below VHI. The CLMP regulator powers the current-sense amplifier and
28
CLMP provides the high reference for the dimming driver. VCLMP must be at least 2.5V higher than VLO to
enable the current-sense amplifier and dimming MOSFET driver. Bypass CLMP to LO with a 0.1µF
ceramic capacitor.
29
HI
High-Voltage Input. HI is referred to LO. HI supplies power to the current-sense amplifier and
dimming MOSFET gate driver through the CLMP regulator.
Internal Regulator Output. REG2 is an internal voltage regulator that generates a 7V output and
30
REG2 supplies power to internal circuitry. Connect REG2 to DRI to power the switching MOSFET driver
during normal operation. Bypass REG2 to AGND with a 10µF ceramic capacitor.
31
VCC
Supply Voltage Input
Internally Connected. This pin is internally pulled to REG1 through a 10kΩ resistor. Leave this pin
32
I.C.
unconnected or connect it to QGND using a resistor of any value. If it is directly connected to QGND,
400µA to 600µA of current will flow out of this pin from VCC. Any resistor between this pin and QGND
will reduce the current accordingly.
—
EP
Exposed Pad. Connect EP to AGND. EP also functions as a heatsink to maximize thermal dissipation.
Do not use as a ground connection.
Detailed Description
The MAX16831 is a current-mode PWM LED driver
used for driving HBLEDs. By using two current regula-
tion loops, 5% output current accuracy is achieved.
One current regulation loop controls the external
switching MOSFET peak current through a sense resis-
tor, RSENSE, from SNS+ to SNS-, while the other current
regulation loop controls the average LED string current
through the sense resistor RCS in series with the LEDs.
The wide operating supply range of (6.0V/5.5V
ON/OFF) up to 76V makes the MAX16831 ideal in auto-
motive applications.
The MAX16831 features a programmable undervoltage
lockout (UVEN) that ensures predictable operation dur-
ing brownout conditions. The input UVEN circuit monitors
the supply voltage, VCC, and turns the driver off when
VCC drops below the UVLO threshold. Connect UVEN to
VCC to use the 5.7V (typ) default UVLO threshold. The
MAX16831 includes a cycle-by-cycle current limit that
turns off the gate drive to the external switching MOS-
FET (QS) during an overcurrent condition. The
MAX16831 features a programmable oscillator that sim-
plifies and optimizes the design of external magnetics.
The MAX16831 includes three internal voltage regula-
tors, REG1, REG2, and CLMP, and a 3V buffered refer-
ence output, REF. Connect REG2 to the driver supply,
DRI, to power the switching MOSFET driver.
The MAX16831 is capable of synchronizing with an
external clock or operating in stand-alone mode. A sin-
gle resistor, RT, can be used to adjust the switching fre-
quency from 125kHz to 600kHz for stand-alone
operation. To synchronize the device with an external
clock, apply a clock signal directly to the RTSYNC
input. A buffered clock output, CLKOUT, is available to
configure the MAX16831 in multichannel applications.
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