MAX16814EVKIT+ Maxim Integrated Products, MAX16814EVKIT+ Datasheet - Page 18
MAX16814EVKIT+
Manufacturer Part Number
MAX16814EVKIT+
Description
KIT EAL FOR MAX16814
Manufacturer
Maxim Integrated Products
Specifications of MAX16814EVKIT+
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
Integrated, 4-Channel, High-Brightness LED
Driver with High-Voltage DC-DC Controller
Use the following equation to calculate the value of slope
compensation resistance, R
For boost configuration:
For SEPIC and coupled-inductor boost-buck:
where V
are in ohms, L
The value of the switch current-sense resistor, R
be calculated as follows:
For boost:
For SEPIC and boost-buck:
where 0.396 is the minimum value of the peak cur-
rent-sense threshold. The current-sense threshold also
includes the slope compensation component. The mini-
mum current-sense threshold of 0.396 is multiplied by
0.9 to take tolerances into account.
For all the three converter topologies, the output capaci-
tor supplies the load current when the main switch is
on. The function of the output capacitor is to reduce the
converter output ripple to acceptable levels. The entire
output-voltage ripple appears across constant current-
sink outputs because the LED string voltages are stable
due to the constant current. For the MAX16814, limit
the peak-to-peak output voltage ripple to 200mV to get
stable output current.
The ESR, ESL, and the bulk capacitance of the output
capacitor contribute to the output ripple. In most of the
applications, using low-ESR ceramic capacitors can
dramatically reduce the output ESR and ESL effects.
To reduce the ESL and ESR effects, connect multiple
ceramic capacitors in parallel to achieve the required
bulk capacitance. To minimize audible noise during
18
0.396 0.9 I
0.396 0.9 I
_____________________________________________________________________________________
×
×
LED
R
=
R
=
SCOMP
and V
LP
SCOMP
LP
MIN
×
×
R
R
CS
IN_MIN
CS
is in henries and f
=
=
(
+
+
V
(
(
(
LED
V
D
D
L
L
LED
MAX
MAX
MIN
MIN
are in volts, R
−
Output Capacitor Selection
−
SCOMP
2V
×
V
×
×
×
IN_MIN
(
50 A f
50 A f
IN_MIN
(
V
V
LED
F
F
LED
4 L
4 L
×
×
×
×
.
−
)
−
MN
)
SW
MN
×
SW
SW
V
×
2V
R
IN_MIN
R
×
CS
SCOMP
IN_MIN
×
×
×
CS
is in hertz.
f
SW
f
4
4
SW
×
×
3
3
)
×
)
R
×
and R
R
CS
CS
CS
×
, can
3
×
)
3
CS
)
PWM dimming, the amount of ceramic capacitors on the
output are usually minimized. In this case, an additional
electrolytic or tantalum capacitor provides most of the
bulk capacitance.
The external MOSFET should have a voltage rating suf-
ficient to withstand the maximum output voltage together
with the rectifier diode drop and any possible overshoot
due to ringing caused by parasitic inductances and
capacitances. The recommended MOSFET V
rating is 30% higher than the sum of the maximum output
voltage and the rectifier diode drop.
The recommended continuous drain current rating of the
MOSFET (ID), when the case temperature is at +70NC, is
greater than that calculated below:
The MOSFET dissipates power due to both switching
losses and conduction losses. Use the following equa-
tion to calculate the conduction losses in the MOSFET:
where R
of the MOSFET.
Use the following equation to calculate the switching
losses in the MOSFET:
where I
MOSFET in amperes, with V
in volts, when it is turned on and turned off, respectively.
C
Using a Schottky rectifier diode produces less forward
drop and puts the least burden on the MOSFET during
reverse recovery. A diode with considerable reverse-
recovery time increases the MOSFET switching loss.
Select a Schottky diode with a voltage rating 20% higher
than the maximum boost-converter output voltage and
current rating greater than that calculated in the follow-
ing equation:
P
GD
SW
is the gate-to-drain MOSFET capacitance in farads.
=
GON
DS(ON)
IL
AVG
P
ID
COND
and I
RMS
×
is the on-state drain-to-source resistance
V
LED
=
=
GOFF
IL
I
D
2
2
AVG
=
IL
×
1.2 IL
C
AVG
are the gate currents of the
2
1 D
External MOSFET Selection
GD
×
−
×
GS
D
2
Rectifier Diode Selection
×
MAX
MAX
×
AVG
f
at the threshold voltage
D
SW
MAX
×
×
R
DS (ON)
I
GON
×
1
1.3
+
DS
I
GOFF
voltage
1
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