MAX6497ATA+T Maxim Integrated Products, MAX6497ATA+T Datasheet - Page 7
MAX6497ATA+T
Manufacturer Part Number
MAX6497ATA+T
Description
IC CNTRLR PROT SW 8-TDFN
Manufacturer
Maxim Integrated Products
Datasheet
1.MAX6499ATAT.pdf
(16 pages)
Specifications of MAX6497ATA+T
Voltage - Working
72V
Technology
Mixed Technology
Power (watts)
1.45W
Number Of Circuits
1
Applications
General Purpose
Package / Case
8-TDFN Exposed Pad
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
Voltage - Clamping
-
When operating in overvoltage mode, the MAX6495–
MAX6499 feedback path (Figure 1) consists of IN,
OVSET’s internal comparator, the internal gate charge
pump, and the external n-channel MOSFET, resulting in
a switch-on/off function. When the programmed over-
voltage threshold is tripped, the internal fast compara-
tor turns off the external MOSFET, clamping GATE to
OUTFB within 0.5µs and disconnecting the power
source from the load. When IN decreases below the
adjusted overvoltage threshold, the MAX6495–MAX6499
slowly enhance GATE above OUTFB, reconnecting the
load to the power source.
When operating in overvoltage-limiter mode, the
MAX6495/MAX6496/MAX6499 feedback path (Figure 2)
consists of OUTFB, OVSET’s internal comparator, the
internal gate charge pump, and the external n-channel
MOSFET, resulting in the external MOSFET operating
as a voltage regulator.
During normal operation, GATE is enhanced 10V above
OUTFB. The external MOSFET source voltage is moni-
tored through a resistive divider between OUTFB and
OVSET. When OUTFB rises above the adjusted over-
voltage threshold, an internal comparator sinks the
charge-pump current, discharging the external GATE,
regulating OUTFB at the OVSET overvoltage threshold.
OUTFB remains active during the overvoltage transients
and the MOSFET continues to conduct during the over-
voltage event, operating in switched-linear mode.
As the transient begins decreasing, OUTFB fall time will
depend on the MOSFET’s GATE charge, the internal
charge-pump current, the output load, and the tank
capacitor at OUTFB.
For fast-rising transients and very large-sized MOSFETs,
add an additional bypass capacitor from GATE to GND to
reduce the effect of the fast-rising voltages at IN. The
external capacitor acts as a voltage-divider working
against the MOSFET’s drain-to-gate capacitance. For a
6000pF gate-to-source capacitance, a 0.1µF capacitor at
GATE will reduce the impact of the fast-rising V
Caution must be exercised when operating the
MAX6495/MAX6496/MAX6499 in voltage-limiting mode
for long durations. If the V
the MOSFET’s maximum gate voltage, the MOSFET dis-
sipates power continuously. To prevent damage to the
external MOSFET, proper heatsinking should be imple-
mented.
Limiter Controllers with an External MOSFET
(MAX6495/MAX6496/MAX6499)
_______________________________________________________________________________________
Detailed Description
72V, Overvoltage-Protection Switches/
IN
Overvoltage Monitoring
is a DC voltage greater than
Overvoltage Limiter
IN
input.
The MAX6495–MAX6499 use a high-efficiency charge
pump to generate the GATE voltage. Upon V
ing the 5V (typ) UVLO threshold, GATE enhances 10V
above V
An overvoltage condition occurs when the voltage at
OVSET goes above its V
threshold is crossed, GATE falls to OUTFB within 0.5µs
with a 100mA pulldown current. The MAX6495–MAX6499
include an internal clamp to OUTFB that ensures GATE
is limited to 18V (max) above OUTFB to prevent gate-
to-source damage of the external MOSFET.
Figure 1. Overvoltage Threshold (MAX6495–MAX6499)
Figure 2. Overvoltage-Limiter Protection Switch Configuration
V
IN
V
IN
IN
R1
R2
(for V
IN
IN
MAX6495
MAX6496
MAX6499
≥ 14V) with a 100µA pullup current.
IN
OVSET
GATE
GND
MAX6495–
MAX6499
OVSET
OUTFB
GATE
GND
TH+
OUTFB
threshold. When the
GATE Voltage
R1
R2
IN
C
V
OUT
OUT
exceed-
V
OUT
7
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