MIC2595-2BM Micrel Inc, MIC2595-2BM Datasheet - Page 20
MIC2595-2BM
Manufacturer Part Number
MIC2595-2BM
Description
IC CTRLR HOT SWAP NEG HV 14-SOIC
Manufacturer
Micrel Inc
Type
Hot-Swap Controllerr
Datasheet
1.MIC2589R-1YM_TR.pdf
(29 pages)
Specifications of MIC2595-2BM
Applications
General Purpose
Internal Switch(s)
No
Voltage - Supply
-19 V ~ -80 V
Operating Temperature
-40°C ~ 85°C
Mounting Type
Surface Mount
Package / Case
14-SOIC (0.154", 3.90mm Width)
Lead Free Status / RoHS Status
Contains lead / RoHS non-compliant
Available stocks
Company
Part Number
Manufacturer
Quantity
Price
Company:
Part Number:
MIC2595-2BM
Manufacturer:
MICREL
Quantity:
4 197
December 2005
Application Information
Optional External Circuits for Added
Protection/Performance
In many telecom applications, it is very common for
circuit boards to encounter large-scale supply-voltage
transients
backplanes
environment, these transients can be as high as 2.5
times steady-state levels, or 120V in worst-case
situations. In addition, a sudden load dump anywhere
on the circuit card can generate a very high voltage
spike at the drain of the output MOSFET that will
appear at the DRAIN pin of the MIC2589/MIC2595. In
both cases, it is good engineering practice to include
protective measures to avoid damaging sensitive ICs
or the hot swap controller from these large-scale
transients. Two typical scenarios in which large-scale
transients occur are described below:
1. An output current load dump with no bypass
(charge bucket or bulk) capacitance to V
For example, if L
t
current prior to the MOSFET turning off
would reach:
If there is no other path for this current to
take when the MOSFET turns off, it will
avalanche the drain-source junction of the
MOSFET.
represented
sturdiness of modern power MOSFETs, it’s
unlikely that this will damage the transistor.
However, the actual avalanche voltage is
unknown; all that can be guaranteed is that
it
V
transistor is connected to the DRAIN pin of
OFF
BD(D-S)
(
56
= 0.7µs, the resulting peak short-circuit
in
will
V
5
×
of the MOSFET. The drain of the
present
µH
backplane
0
7 .
µs
be
Since
is
)
=
LOAD
small
7
a
8 .
greater
= 5µH, V
A
environments.
the
complex
relative
total
IN
than
= 56V and
to
impedance
energy
Because
the
the
EE
.
20
For many applications, the use of additional circuit
components can be implemented for optimum system
performance and/or protection. The circuit, shown in
Figure 7, includes several components to address
some the following system (dynamic) responses
and/or functions: 1) suppression of transient voltage
spikes, 2) elimination of false “tripping” of the circuit
breaker due to undervoltage and overcurrent glitches,
and 3) the implementation of an external reset circuit.
It is not mandatory that these techniques be utilized,
however, the application environment will dictate
suitability. For protection against sudden on-card load
dumps at the DRAIN pin of the MIC2589/MIC2595
controller, a 68V, 1W, 5% Zener diode clamp (D2)
connected from the DRAIN to the VEE of the
controller can be implemented as shown. To protect
the controller from large-scale transients at the card
input, a 100V clamp diode (D1, SMAT70A or
equivalent) can be used. In either case, very short
lead lengths and compact layout design is strongly
recommended to prevent unwanted transients in the
protection circuitry.
produces
transients during a turn-off event.
repeated voltage stresses with sufficient input bulk
capacitance
clamps is highly recommended for maximizing the life
of the hot swap controller(s).
2. If the load’s bypass capacitance (for
the MIC2589/MIC2595, and the resulting
transient does have enough voltage and
energy to damage this, or any, high-voltage
hot swap controller.
example, the input filter capacitors for DC-
DC converter module(s)) is on a board from
which the board with the MIC2589/MIC2595
and the MOSFET can be unplugged, the
same type of inductive transient damage
can occur to the MIC2589/MIC2595.
localized
and/or
Power buss inductance often
transient
(plug-in
card)
suppressing
Managing these
(408) 955-1690
M9999-120505
high-voltage
diode
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