MAX1808EUB+ Maxim Integrated, MAX1808EUB+ Datasheet - Page 12
MAX1808EUB+
Manufacturer Part Number
MAX1808EUB+
Description
Current & Power Monitors & Regulators
Manufacturer
Maxim Integrated
Datasheet
1.MAX1808EUB.pdf
(23 pages)
Sink current limit is implemented by monitoring the volt-
age drop across the low-side MOSFET when LX is more
positive than GND. When the voltage drop across the
low-side MOSFET exceeds 1/20th of the voltage at LIM
at any time during the low-side MOSFET on-time, the
low-side MOSFET turns off, and the inductor current
flows from the output through the body diode of the high-
side MOSFET. When the sink current limit activates, the
DH/DL switching sequence is no longer complementary.
Carefully observe the PCB layout guidelines to ensure
that noise and DC errors do not corrupt the current-
sense signals at LX and GND. Mount the MAX15026
close to the low-side MOSFET with short, direct traces
making a Kelvin-sense connection so that trace resis-
tance does not add to the intended sense resistance of
the low-side MOSFET.
Hiccup-mode overcurrent protection reduces power dis-
sipation during prolonged short-circuit or deep overload
conditions. An internal three-bit counter counts up on
each switching cycle when the valley current-limit
threshold is reached. The counter counts down on each
switching cycle when the threshold is not reached, and
stops at zero (000). The counter reaches 111 (= 7
events) when the valley mode current-limit condition
persists. The MAX15026 stops both DL and DH drivers
and waits for 4096 switching cycles (hiccup timeout
delay) before attempting a new soft-start sequence. The
hiccup-mode protection remains active during the soft-
start time.
The MAX15026 provides an internal undervoltage lockout
(UVLO) circuit to monitor the voltage on V
circuit prevents the MAX15026 from operating when V
is lower than V
400mV hysteresis to prevent chattering on the rising/falling
edge of the supply voltage. DL and DH stay low to inhibit
switching when the device is in undervoltage lockout.
Thermal-overload protection limits total power dissipation
in the MAX15026. When the junction temperature of the
device exceeds +150°C, an on-chip thermal sensor shuts
down the device, forcing DL and DH low, allowing the
device to cool. The thermal sensor turns the device on
again after the junction temperature cools by 20°C. The
regulator shuts down and soft-start resets during thermal
shutdown. Power dissipation in the LDO regulator and
excessive driving losses at DH/DL trigger thermal-over-
load protection. Carefully evaluate the total power dissi-
pation (see the Power Dissipation section) to avoid
Low-Cost, Small, 4.5V to 28V Wide Operating
Range, DC-DC Synchronous Buck Controller
MAX15026
12
Hiccup-Mode Overcurrent Protection
UVLO
Thermal-Overload Protection
. The UVLO threshold is 4V, with
Undervoltage Lockout
CC
. The UVLO
CC
unwanted triggering of the thermal-overload protection in
normal operation.
The MAX15026 operates from input supplies up to 28V
and regulates down to 0.6V. The minimum voltage con-
version ratio (V
trollable on-time. For proper fixed-frequency PWM
operation, the voltage conversion ratio must obey the
following condition,
where t
quency in Hertz. Pulse-skipping occurs to decrease the
effective duty cycle when the desired voltage conver-
sion does not meet the above condition. Decrease the
switching frequency or lower V
The maximum voltage conversion ratio is limited by the
maximum duty cycle (D
where V
in the inductor discharge path, including synchronous
rectifier, inductor, and PCB resistance. V
sum of the resistance in the charging path, including
high-side switch, inductor, and PCB resistance. In
practice, provide adequate margin to the above condi-
tions for good load-transient response.
Set the MAX15026 output voltage by connecting a
resistive divider from the output to FB to GND (Figure
2). Select R
R
where V
table) and V
Resistor R
compensation network. Review the values of R
when using a Type III compensation network (see the
Type III Compensation Network (See Figure 4) section).
1
V
with the following equation:
V
OUT
IN
ON(MIN)
DROP1
FB
<
1
D
= 0.591V (see the Electrical Characteristics
also plays a role in the design of the Type III
max
OUT
2
from between 1kΩ and 50kΩ. Calculate
OUT
is the sum of the parasitic voltage drops
Applications Information
−
is 125ns and f
can range from 0.591V to (0.85 x V
Effective Input Voltage Range
V
D
R
OUT
V
1
/V
max
I
N
=
Setting the Output Voltage
IN
R
) is limited by the minimum con-
>
×
max
2
V
t
⎡
⎢
⎢
⎣
ON(MIN)
DROP2
⎛
⎝ ⎜
):
V
V
OUT
FB
IN
SW
to avoid pulse skipping.
+
⎞
⎠ ⎟
×
V
(1 D
−
IN
f
is the switching fre-
SW
1
−
⎤
⎥
⎥
⎦
max
Maxim Integrated
DROP2
) V
×
DROP1
1
and R
is the
IN
).
2
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