MAX16836EVKIT+ Maxim Integrated Products, MAX16836EVKIT+ Datasheet - Page 2
MAX16836EVKIT+
Manufacturer Part Number
MAX16836EVKIT+
Description
KIT EVAL FOR MAZ16832 LED DRIVER
Manufacturer
Maxim Integrated Products
Specifications of MAX16836EVKIT+
Current - Output / Channel
350mA
Outputs And Type
1, Non-Isolated
Voltage - Output
5V
Features
Dimmable, Extra 5V Output
Voltage - Input
6.5 ~ 40V
Utilized Ic / Part
MAX16836
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
Before beginning, the following equipment is needed:
• 0 to 30V or above, 0.5A power supply
The MAX16836 EV kit is fully assembled and tested.
Follow the steps below to verify board operation.
Caution: Do not turn on the power supply until all
connections are completed.
1) Connect a DC power supply (0 to 30V or above,
2) Verify that a shunt is not installed across jumper
3) Verify that a shunt is installed across pins 1-2 of
4) Connect a 350mA-rated LED between LED+ and
5) Turn on the power supply and increase the input
6) Increase the supply voltage and measure the LED
7) Measure the voltage across V5, which should be
The MAX16836 EV kit demonstrates a high-output-
current LED driver with accurate current control based
on the MAX16836 current regulator. The MAX16836 EV
kit is capable of supplying regulated output currents of
up to 350mA and runs at supply voltages between
6.5V to 40V. If the supply voltage is above the LED
operating voltage by more than 7V, the maximum out-
put current should be limited to prevent the device
from entering into thermal shutdown due to excessive
power dissipation.
The MAX16836 EV kit features PWM dimming to control
the LED brightness by varying the duty cycle of the
PWM input signal. Users can select between three lev-
MAX16836 Evaluation Kit
2
Detailed Description of Hardware
0.5A) to VIN.
JU1 to enable U1.
jumper JU2 to select 350mA output current.
LED-.
voltage to above 6.5V. The LED should glow with
full brightness. Measure the LED current, which
should be 350mA ±3.5%.
current, which should be 350mA ±3.5%. Note that
the maximum voltage drop between IN and OUT
should be ~7V to limit the maximum power dissipa-
tion to approximately 2.5W.
5V ±4%.
_______________________________________________________________________________________
Recommended Equipment
Quick Start
Procedure
els of output LED currents by setting jumper JU2 (see
Table 1 for jumper settings). The MAX16836 EV kit also
includes a connection for the 5V regulated output and
access to the on-board current-sense resistor.
The output current can be adjusted by replacing resis-
tors R2 or R3 with values calculated using the following
equation:
where R
between CS+ and GND, I
rent, and V
The PWM dimming controls the LED brightness by
adjusting the duty cycle of the PWM input signal con-
nected to the DIM input. A high at the DIM input turns
on the output current and a low turns off the output cur-
rent. Connect a signal with peak amplitude between 5V
and 40V, frequency between 100Hz and 2kHz, and
vary the duty cycle to adjust the LED brightness. LED
brightness increases when duty cycle increases and
vice versa. Duty cycle can be as low as 10% even at a
PWM frequency of 2kHz.
The 5V regulator can be used to power other compo-
nents from the V5 test point. The 5V output supplies up
to 4mA of current.
Two-pin jumper JU1 controls the EN pin of the
MAX16836 and enables or disables the device. Three-
pin jumper JU2 selects between three different output
current settings. Table 1 lists the jumper options.
Table 1. Jumper JU1 and JU2 Functions
* Default position.
JUMPER
JU1
JU2
SENSE
SENSE
1-2 (installed)
is the external current-sense resistance
U1 disabled
350mA*
is 200mV (typ).
R
SHUNT POSITION AND FUNCTION
SENSE
LED
Output Current Setting
=
Jumper Selection
V
5V Regulated Output
SENSE
I
is the desired output cur-
LED
250mA
2-3
—
PWM Dimming
U1 enabled*
150mA
Open
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