MAX4272ESA Maxim Integrated Products, MAX4272ESA Datasheet - Page 19
MAX4272ESA
Manufacturer Part Number
MAX4272ESA
Description
Hot Swap & Power Distribution
Manufacturer
Maxim Integrated Products
Datasheet
1.MAX4271ESA.pdf
(26 pages)
Specifications of MAX4272ESA
Lead Free Status / Rohs Status
Lead free / RoHS Compliant
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MOSFET with a duty cycle equal to t
a current equal to I
has to be taken when choosing between immediate
retry and board space needed to manage the power
dissipation capabilities of the MOSFET (see Thermal
Considerations). The duty cycle is fixed to 1/32 for the
MAX4272, but can be varied in the MAX4273 by choos-
ing CTIM and C
An external gate capacitance can be connected at
GATE. This increases the time required to enhance the
MOSFET and further limits the output rise time. In the
MAX4271/MAX4272, connect the external capacitor
between GATE and GND. In the MAX4273, the external
capacitor can be connected between GATE and CEXT
or GND. If the capacitor is connected to CEXT, it is dis-
charged to ground during a slow comparator fault but it
is left floating during a fast comparator fault; this allows
the device to turn off the external MOSFET faster during
critical faults. (CEXT is biased at V
nonpolarized capacitor). Capacitance connected from
GATE to CEXT does little to decrease the regulated cur-
rent ripple. Add a small capacitor (5nF) from GATE to
GND. See the charging and discharging time vs. C
graphs in the Typical Operating Characteristics.
The slow comparator threshold is set at 50mV, and its
response time is determined by the external capacitor
connected to CSPD (Figure 10).
A minimum response time of 20µs (typ) is achieved by
leaving this pin floating. This time is determined inter-
nally and is not affected by stray capacitance at CSPD
(up to 100pF).
Figure 10. Slow Comparator Response Time vs. CSPD
with Autoretry, DualSpeed/BiLevel Fault Protection
3V to 12V Current-Limiting Hot-Swap Controllers
Additional External Gate Capacitance (CEXT)
1000
0.01
100
0.1
10
Slow Comparator Response Time (CSPD)
1
0.01
TON
______________________________________________________________________________________
0.1
RESPONSE TIME vs. CSPD
FAST,SET
independently.
SLOW COMPARATOR
t
CSPD
(ms) = 0.2 x CSPD (nF)
1
CSPD (nF)
. Therefore, particular care
10
IN
100
ON/
; therefore, use a
t
RETRY
1000
and with
GATE
Set the slow comparator response time to be longer
than the normal operation load transients (see Slow
Comparator).
The ON comparator controls the ON/OFF function of
these devices. The ON comparator is a precision volt-
age comparator that can be used for temperature moni-
toring or as an additional UVLO (Figure 11). The
MAX4273 also features an uncommitted delayed com-
parator. This comparator can be used for voltage moni-
toring, power sequencing, or for generating a power-on
reset signal for on-card microprocessors (Figure 12).
Both comparator threshold voltages are set at V
0.6V with a 3mV (typ) hysteresis.
The uncommitted comparator OUTC output is an open-
drain output, and it is asserted low when its input volt-
age (INC) is below the threshold voltage. It goes into a
high-impedance state 150ms after the voltage has risen
above the threshold. The delay for negative-going
edges is 10µs.
Figure 13 shows the MAX4273 used to monitor precise-
ly the temperature of an external device such as the
MOSFET. This configuration uses the uncommitted
comparator to set the UVLO at a higher level by running
its output into the ON comparator’s input.
The ON comparator initiates startup when its input volt-
age (V
off the MOSFET when the voltage falls below the thresh-
old. The propagation delay is 10µs going high or low.
The ON comparator is also used to reset the
MAX4271/MAX4273 (when CTIM = V
condition (see Latched/Autoretry).
Figure 11. Temperature Monitoring and Protection
NTC
ON
V
R1 = R2
R2 = VALUE OF THE NTC RESISTOR AT THE LIMIT TEMPERATURE
V
REF
) rises above the threshold voltage and turns
REF
R1
= ANY REFERENCE VOLTAGE AVAILABLE OR V
R2
✕
ON
(V
REF
/ O.6 - 1)
ON and Reset Comparators
0.6V
MAX4271
MAX4272
MAX4273
IN
IN
) after a fault
CONTROL
LOGIC
REF
/2 =
19
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