max5936anesat Maxim Integrated Products, Inc., max5936anesat Datasheet - Page 16
max5936anesat
Manufacturer Part Number
max5936anesat
Description
-48v Hot-swap Controllers With Vin Step Immunity And No Rsense
Manufacturer
Maxim Integrated Products, Inc.
Datasheet
1.MAX5936ANESAT.pdf
(23 pages)
The default slew rate is set internally for 9V/ms. The
slew rate can be reduced by placing an external
capacitor from the drain of the power MOSFET to the
GATE output of the MAX5936/MAX5937. Figure 15
shows a graph of Slew Rate vs. C
shows that for C
to the addition of external slew-rate control capaci-
tance. This is intended so the GATE output can drive
large MOSFETs with significant gate capacitance and
still achieve the default slew rate. To select a slew-rate
control capacitor, go into the graph with the desired
slew rate and find the value of the miller capacitance.
When C
related. Given the desired slew rate, the required
C
From the data sheet of the power MOSFET find the
reverse transfer capacitance (gate-to-drain capacitance)
above 10V. If the reverse transfer capacitance of the
external power MOSFET is 5% or more of C
should be subtracted from C
Figure 16 gives an example of the external circuit for
controlling slew rate. Depending on the parasitics asso-
-48V Hot-Swap Controllers with V
Step Immunity and No R
Figure 14. Load Probe Functional Diagram
16
SLEW
______________________________________________________________________________________
is found as follows:
SLEW
C
> 4700pF, SR and C
SLEW
SLEW
Adjusting the V
V
IN
(nF) = 23 / SR (V/ms)
< 4700pF there is very little effect
SLEW
GND
V
EE
in the equation above.
Q1
200mV
SLEW
OUT
SLEW
Slew Rate
are inversely
. This graph
SLEW
GATE
R
MAX5936
MAX5937
ON
, then it
SENSE
ciated with the selected power MOSFET, the addition of
C
GATE control are in the linear range. If this is an issue, an
external resistor, R
MOSFET is recommended to prevent possible oscilla-
tion. It should be as small as possible, e.g., 5Ω to 10Ω, to
avoid impacting the MOSFET turn-off performance of the
MAX5936/MAX5937.
To benefit from the temperature compensation designed
into the MAX5936/MAX5937, the part should be placed
as close as possible to the power MOSFET that it is con-
trolling. The V
be placed close to the source pin of the power MOSFET
and they should share a wide trace. A common top layer
plane would service both the thermal and electrical
requirements. The load-probe current must be taken into
account. If this current is high, the layout traces and cur-
rent-limiting resistor must be sized appropriately. Stray
inductance must be minimized in the traces of the over-
all layout of the hot-swap controller, the power MOSFET,
and the load capacitor. Starting from the board con-
tacts, all high-current traces should be short, wide, and
direct. The potentially high pulse current pins of the
MAX5936/MAX5937 are GATE (when pulling GATE low),
SLEW
LOAD
OK
TIMING
V
LOGIC
OUT
may lead to oscillation while the MOSFET and
EE
R
LP
pin of the MAX5936/ MAX5937 should
I
TEST
GATE
IN
I
C
, in series with the gate of the
LOAD
LOAD
LOAD
Layout Guidelines
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