ISL6141IB Intersil, ISL6141IB Datasheet - Page 17
ISL6141IB
Manufacturer Part Number
ISL6141IB
Description
IC CTRLR HOT PLUG NEG VOLT 8SOIC
Manufacturer
Intersil
Type
Hot-Swap Controllerr
Datasheet
1.ISL6151CBZA.pdf
(19 pages)
Specifications of ISL6141IB
Applications
General Purpose, VoIP
Internal Switch(s)
No
Voltage - Supply
36 V ~ 72 V
Operating Temperature
-40°C ~ 85°C
Mounting Type
Surface Mount
Package / Case
8-SOIC (0.154", 3.90mm Width)
Linear Misc Type
Negative Voltage
Package Type
SOIC N
Operating Supply Voltage (max)
80V
Operating Temperature (min)
-40C
Operating Temperature (max)
85C
Operating Temperature Classification
Industrial
Product Depth (mm)
4mm
Product Height (mm)
1.5mm
Product Length (mm)
5mm
Mounting
Surface Mount
Pin Count
8
Lead Free Status / RoHS Status
Contains lead / RoHS non-compliant
Available stocks
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Quantity:
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Part Number:
ISL6141IBZA
Manufacturer:
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Quantity:
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The brick’s output capacitance is also determined by the
system, including load regulation considerations. However, it
can affect the ISL6141/51, depending upon how it is
enabled. For example, if the PWRGD signal is not used to
enable the brick, the following could occur. Sometime during
the inrush current time, as the main power supply starts
charging the brick input capacitors, the brick itself will start
working, and start charging its output capacitors and load;
that current has to be added to the inrush current. In some
cases, the sum could exceed the Over-Current shutdown,
which would shut down the whole system! Therefore,
whenever practical, it is advantageous to use the PWRGD
output to keep the brick off at least until the input caps are
charged up, and then start-up the brick to charge its output
caps.
Typical brick regulators include models such as Lucent
JW050A1-E or Vicor VI-J30-CY. These are nominal -48V
input, and 5V outputs, with some isolation between the input
and output.
Applications: Optional Components
In addition to the typical application, and the variations
already mentioned, there are a few other possible
components that might be used in specific cases. See Figure
34 for some possibilities.
If the input power supply exceeds the 100V absolute
maximum rating, even for a short transient, that could cause
permanent damage to the IC, as well as other components
on the board. If this cannot be guaranteed, a voltage
suppressor (such as the SMAT70A, D1) is recommended.
-V IN
GND
GND
(SHORT PIN)
NFET*
(INSTEAD
OF SW1)
G
17
C4*
FIGURE 34. ISL6141/51 OPTIONAL COMPONENTS (SHOWN WITH *)
D1*
SW1*
R4
R5
R6
UV
OV
ISL6141, ISL6151
ISL6141, ISL6151
V
V
DD
EE
R10*
R1
SENSE
ISL6141 (L)
C1
When placed from V
voltage.
If transients on the input power supply occur when the
supply is near either the OV or UV trip points, the GATE
could turn on or off momentarily. One possible solution is to
add a filter cap C4 to the V
R10. A large value of R10 is better for the filtering, but be
aware of the voltage drop across it. For example, a 1kΩ
resistor, with 2.4mA of I
dissipate 2.4mW. Since the UV and OV comparators are
referenced with respect to the V
be affected. But the GATE clamp voltage could be offset by
the voltage across the extra resistor.
The switch SW1 is shown as a simple push button. It can be
replaced by an active switch, such as an NPN or NFET; the
principle is the same; pull the UV node below its trip point,
and then release it (toggle low). To connect an NFET, for
example, the DRAIN goes to UV; the source to V
GATE is the input; if it goes high (relative to V
NFET on, and UV is pulled low. Just make sure the NFET
resistance is low compared to the resistor divider, so that it
has no problem pulling down against it.
R8 is a pull-up resistor for PWRGD, if there is no other
component acting as a pull-up device. The value of R8 is
determined by how much current is needed when the pin is
pulled low (also affected by the V
be pulled low enough for a good logic low level. An LED can
also be placed in series with R8, if desired. In that case, the
criteria is the LED brightness versus current.
GATE
Q1
R2
R3
PWRGD
C2
DRAIN
DD
R8*
DD
to V
DD
would have 2.4V across it and
EE
pin, through isolation resistor
on the board, it will clamp the
EE
DD
-V OUT
supply, they should not
CL*
voltage); and it should
GND
EE
), it turns the
EE
, and the
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