MAX15059EVKIT+ Maxim Integrated Products, MAX15059EVKIT+ Datasheet - Page 14
MAX15059EVKIT+
Manufacturer Part Number
MAX15059EVKIT+
Description
EVAL KIT FOR MAX15059
Manufacturer
Maxim Integrated Products
Specifications of MAX15059EVKIT+
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
76V, 300mW Boost Converter and Current
Monitor for APD Bias Applications
The MAX15059’s high switching frequency demands a
high-speed rectifier. Schottky diodes are recommended
for most applications because of their fast recovery time
and low forward-voltage drop. Ensure that the diode’s
peak current rating is greater than the peak inductor cur-
rent. Also, the diode breakdown voltage must be greater
than V
For most applications, use a small output capacitor of
0.1FF or greater. To achieve low output ripple, a capaci-
tor with low ESR, low ESL, and high capacitance value
should be selected. If tantalum or electrolytic capacitors
are used to achieve high capacitance values, always
add a smaller ceramic capacitor in parallel to bypass the
high-frequency components of the diode current. The
higher ESR and ESL of electrolytic capacitors increase
the output ripple and peak-to-peak transient voltage.
Assuming the contribution from the ESR and capacitor
discharge equals 50% (proportions may vary), calculate
the output capacitance and ESR required for a specified
ripple using the following equations:
For very-low-output-ripple applications, the output of the
boost converter can be followed by an RC filter to further
reduce the ripple. Figure 2 shows a 100I, 0.1FF (R F
C F ) filter used to reduce the switching output ripple to
1mV
The output voltage regulation resistive divider must
remain connected to the diode/output capacitor node.
Use X7R ceramic capacitors for more stability over the
full temperature range.
14
C
OUT
P-P
_____________________________________________________________________________________
OUT
[ F]
with a 0.1mA load or 1mV
µ
.
=
Output Filter Capacitor Selection
0.5 x V
ESR m
I
OUT
∆
[
W =
OUT
]
0.5 x V
t
S
I
−
OUT
∆
I
LPEAK
(V
P-P
OUT
Diode Selection
OUT
with a 4mA load.
x L
−
V
OPTIMUM
IN_MIN
)
Figure 2. Typical Operating Circuit with RC Filter
Bypass IN to PGND with a 1FF (min) ceramic capacitor.
Depending on the supply source impedance, higher val-
ues may be needed. Make sure that the input capacitors
are close enough to the IC to provide adequate decou-
pling at IN as well. If the layout cannot achieve this,
add another 0.1FF ceramic capacitor between IN and
PGND in the immediate vicinity of the IC. Bulk aluminum
electrolytic capacitors may be needed to avoid chatter-
ing at low-input voltage. In case of aluminum electrolytic
capacitors, calculate the capacitor value and ESR of the
input capacitor using the following equations:
V
TO 5.5V
C [ F]
IN
C
IN
= 2.8V
IN
µ
=
η
CNTRL
x V
SHDN
PGND
IN_MIN
V
OUT
IN
ESR m
MAX15059
[
x I
x 0.5 x V
W =
OUT
]
C
SGND
IN
L1
Input-Capacitor Selection
0.5 x V
∆
IN
∆
LX
FB
BIAS
V
t
OUT
IN
S
−
x
I
x I
LPEAK
η
D1
V
OUT
x V
IN_MIN
IN_MIN
R
R
x L
2
1
(V
OPTIMUM
OUT
C
OUT
R
−
F
V
IN_MIN
x V
OUT
)
V
OUT
C
F
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