MAX16833AUE/V+T Maxim Integrated Products, MAX16833AUE/V+T Datasheet - Page 14
MAX16833AUE/V+T
Manufacturer Part Number
MAX16833AUE/V+T
Description
IC HB LED DVR CURR SENSE 16TSSOP
Manufacturer
Maxim Integrated Products
Datasheet
1.MAX16833AUET.pdf
(22 pages)
Specifications of MAX16833AUE/V+T
Topology
Flyback, Low Side, PWM, SEPIC, Step-Down (Buck), Step-Up (Boost)
Number Of Outputs
1
Internal Driver
No
Type - Primary
Automotive, General Purpose
Type - Secondary
High Brightness LED (HBLED)
Frequency
100kHz ~ 1MHz
Voltage - Supply
5 V ~ 65 V
Mounting Type
Surface Mount
Package / Case
16-TSSOP (0.173", 4.40mm Width) Exposed pad
Operating Temperature
-40°C ~ 125°C
Current - Output / Channel
3A
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
Voltage - Output
-
Lead Free Status / Rohs Status
Details
High-Voltage HB LED Drivers with
Integrated High-Side Current Sense
The ICs feature thermal protection. When the junction
temperature exceeds +160NC, the ICs turn off the external
power MOSFETs by pulling the NDRV low and DIMOUT
high. External MOSFETs are enabled again after the junc-
tion temperature has cooled by 10°C. This results in a
cycled output during continuous thermal-overload condi-
tions. Thermal protection protects the ICs in the event of
fault conditions.
In the boost configuration, if the LED string is shorted
it causes the (ISENSE+ to ISENSE-) voltage to exceed
300mV. If this condition occurs for R 1Fs, the ICs activates
the hiccup timer for 8192 clock cycles during which:
U NDRV goes low and DIMOUT goes high.
U The error amplifier is disconnected from COMP.
U FLT is pulled to SGND.
After the hiccup time has elapsed, the ICs retry. During
this retry period, FLT is latched and is reset only if there is
no short detected after 20Fs of retrying.
In the case of the buck-boost configuration, once an
LED string short occurs the behavior is different. The
ICs maintain the programmed current across the short.
In this case, the short is detected when the voltage
between ISENSE+ and IN falls below 1.5V. A buck-boost
short fault starts an up counter and FLT is asserted only
after the counter has reached 8192 clock cycles con-
secutively. If for any reason (V
the counter starts down counting, resulting in FLT being
deasserted only after 8192 consecutive clock cycles of
(V
The ICs’ package features an exposed thermal pad on
its underside that should be used as a heatsink. This
pad lowers the package’s thermal resistance by provid-
ing a direct heat-conduction path from the die to the
PCB. Connect the exposed pad and GND to the system
ground using a large pad or ground plane, or multiple
vias to the ground plane layer.
14
ISENSE+
_____________________________________________________________________________________
- V
IN
> 1.5V) condition.
Short-Circuit Protection
Buck-Boost Configuration
Thermal Protection
ISENSE+
Boost Configuration
Exposed Paddle
- V
IN
> 1.5V),
The overvoltage threshold is set by resistors R5 and R11
(see the Typical Operating Circuits). The overvoltage
circuit in the ICs is activated when the voltage on OVP
with respect to GND exceeds 1.23V. Use the following
equation to set the desired overvoltage threshold:
Normal sensing of the LED current should be done on
the high side where the LED current-sense resistor is
connected to the boost output. The other side of the LED
current-sense resistor goes to the source of the p-channel
dimming MOSFET if PWM dimming is desired. The LED
current is programmed using R7. When V
the internal reference regulates the voltage across R7 to
200mV:
The LED current can also be programmed using the
voltage on ICTRL when V
The voltage on ICTRL can be set using a resistive divider
from the REF output in the case of the MAX16833B. The
current is given by:
where:
where V
ohms. At higher LED currents there can be noticeable
ripple on the voltage across R7. High-ripple voltages can
cause a noticeable difference between the programmed
value of the LED current and the measured value of the
LED current. To minimize this error, the ripple voltage
across R7 should be less than 40mV.
REF
Setting the Overvoltage Threshold
is 1.64V and resistors R8 and R9 are in
V
OV
Applications Information
Programming the LED Current
V
= 1.23V (R5 + R11)/R11
I
ICTRL
LED
I
LED
ICTRL
=
=
=
R7 6.15
200mV
V
(
V
R8 R9
REF
ICTRL
R7
×
< 1.2V (analog dimming).
+
×
R8
)
ICTRL
> 1.23V,
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