Page 1
Soft Recovery Diode
The data sheet
M1494NC160
on
the subsequent pages
to M1494NC250
of
this document
is
a scanned copy of existing
data for this product.
(Rating Report 82NR8
Issue 3)
This data reflects the old part number for this product which is: SW16-25CXC924. This part
number must
NOT be used for ordering purposes - please use the ordering particulars
detailed below.
Please
use the following link to view an up to date outline drawing for this device
Outline W5
Where any information on the product matrix page differs from that
in
the following data,
the product matrix must be considered correct
An
electronic data sheet for this product is presently in preparation.
For further information on this product,
please contact your local ASM or distributor.
Alternatively, please contact Westcode as detailed below.
Ordering Particulars
M1494 NC
Fixed Type Code Fixed
Typical Order Code: M1494NC200, 27.7mm clamp height,
IXYS Semiconductor GmbH
Edisonstra~e
D-68623 Lampertheim
Tel:
+496206503-0
Fax: +49 6206 503-627
E-mail:
IXYS Corporation
3540 Bassett Street
Santa
Tel:
+1
Fax:
E-mail: sales@ixys.net
The
information contained herein
permission
In
the interest
Devices
and
limits contained in this report.
15
marcom@ixys.de
Clara CA 95054 USA
(408) 982 0700
+1
(408) 496 0670
of
and
in the
manner
of
product improvement,
with a suffix code
(2-le"er,
is
confidential
permitted
Westcode
3-letter
and
is
by
the proprietors
reserves the right
or
letter/digitl1etter combination) added to
Outline Code V
E E
An
protected
Westcode
L~nXYS
by
Company
www.westcode.com
www.ixys.com
Copyright.
The
information
Semiconductors
to
change
Ltd.
specifications
their
at
generic
may
not
any time
code
be
used
or
without
prior notice.
are
not
necessarily subject to the
••
Voltage code
/100
DRM
16-25
2000VV
disdosed
except
with
RRM
the
conditions
0
Fixed Code
Westcode Semiconductors Ltd
Langley Park Way, Langley Park,
Chippenham, Wiltshire, SN15 1GE.
E-mail: WSL.sales@westcode.com
E-mail:
written
Tel: +44 (0)1249 444524
Fax: +44
Westcode Semiconductors Inc
Long Beach CA
WSl.sales@westcode.com
(0)1249 659448
3270 Cherry Avenue
Tel:
Fax:
©
Westcode
90807
+1
(562) 595 6971
+1
(562) 595 8182
Semiconductors
USA
Ltd.
Page 2
Issue :- 1
QUALITY
Rating Report No: 81NR8 issue
QEL.
Written by:
manufacturing reference FFJFXC.
Double Side Cooled
PAR94076
1
b.
Checked:
The
CXC924
This
issue supersedes rating report 82NR8 issue 2. dated 15th January. 1987.
Grades ) A
}
of
) to this de>ice
0.13%
,oltage
per Celsius
for
l
(Note 1 &
50
HL, 180"
AND
:;
EVALUATION
LABORATORY
Date:
Appro\cd:/
sl~ries
oft1sl
mounted
Ieemcry
in
diodes is based
a cold weld capsule.
on
a diffused 50
factor
is
applicable
Ti below
:2
half
=
55'(.
25T
page 4) : 1600 -
sinewa\e;
lOOT
9th
June. 1995
30
mm
diameter
•
16
- 25
• 1700 - 2600 V
1495 A. 705 A
silkon
2500
sEce.
V
Single Side Cooled = lOOT t02 A
TITS
2ye
: t'"" tOms
: t
•.
'" lOms
: !
"',
Wms: TJ (initial) 125"C: V
-,
I"'t
: t =
Operating
: Non-operating
3IllS:
) Double
half
sincwavc: TJ (initial) 125'C
half
T
(initial) 115"C:
J
Range
T
(initial)
J
\i
side cooled
s~
RM
::0
Rtv1
125C
lOY
lOY
=
06V
510V
RRMi
MAX)
2984 A
:
250(}
.19.6
: 21.56
:
2.32"
:
-.l-O
. -
..
HI
A
kA
kA
To 125
To
.L
l50
"('
''c:
Page 3
:
RR.
RR
No.
Issue
82NR;;;;CXC92-1
Issue : 1
-2-
i\1a'\imum ,alues unless olil.::misc ,(aied)
:
U5V
r
s
: 0.265
mn
A
B :
TJ"
25C
C
=25T
D
Tr'"
25'C
A .
Constant
B In(iF)
C
IF
D .
vi
!
Double
Vfr . at dlld!
Reverse
recovery at IFM
-1500
A
side
cooled
side
cooled
0=
WOO
Al}lS
JOOI)
diR/dt 60N}ts: V
Valid
Valid
!
A: lp =
.=
HM
range
rang.::
<l>
a.c.
50 V
WOO
100 A
lOO
A.
d..C.
resistiYe
ftS
1.0
to
and
load
8000 A
700n
A
6J)59912
-I.
9.-192610E-5
1
-5.-185326E-2
1.612135E-l
E-1
837078E-2
1230-iOE-2
227-10-i-iE-i
2.917716E--I
2~q
V
0.022
KfW
00-1-1
KIW
85
rnA
uv
Orm.
(total
ORA
tn
(50'%,
lRM
Ivtounting
Ouiline
JEDEC
area)
chord)
chord)
Force
Dwwing
Outline
No.
NOTE: All ci1araelcristi;:s arc 3t
Tlm::x opt-Tating
unle,s
Slated otherwise.
378
175 A
'19-26kN
(1900 - 2600
:
100A2-19
DO-200A(-
kgJ)
Page 4
:
82'N'R8fCXC92+
3
o
-
,)
...
Ratings and Characteristics
Contents
Grade Table
Extension
Changes
of
to
82NRS issue 2
(a) Square-waye Ratings
(b)
Energy per Pulse Characteristics
ABCD
Cd)
Reyerse
(a)
Determination by Measurement
Grades
Constants
Recovery
Determination without Measurement
Measurement
Limit On-state Characteristics
Transient Thermal Impedance
Surge Rating
Forward Recmcry Voltage
Recmered Charge
50%,
Chord
Total Recovered Charge
Peak
RC\"Cfse
Recovered Current
Maximum Recovery Time 50% Chord
Reverse Recoycry Energy per Pulse
Square Wayc Frequency Rating
Square Waye Frequency Rating
Square
Waw
Frequency Rating 55"C Sink 500
Square
Waye
frequency Rating
Energy per Pulse 100
Energy per Pulse 500
Al~lS
A/j.l.S
SSC Sink
~i5"C
Sink
SST
Siuk
Sinc \Vayc Frequency Ralings 55'(' Sink
Sine Waye
Frequency Ratings 85"('
SilLIi.
Sine Wave Energy per Pulse
Outline Drawings
tRR
iOO
100
500
Alf1.S
Alp's
Alj.l.S
Al~tS
L2
-I
-I
5
5
5
5
6
6
7
8.9JCUl
!2
J3
.le!-
IS
16
17
18
19
20
21
22
23
2-1
25
26
27
2S
29
30
Page 5
-
-+-
RR
No. : 8:2NR8!CXC924
RwR.
Issue
Issue : 1
3
Vol
Class
16
18
20 2,000 2,100
22 2,200
24
25
1.
This Report is applicable to higher or lower
2.
A blocking \oHage derating factor ofO.
I
Page
2.
Page
3,
Pages 5,6. ReWlittcn with addition
8.9.10. J
12.
Page
Page
13.
P;lgc
1·1.
PagelS.
Page
16.
Page
17.
Page
1.8
Page
.19.
Page 20.
Pages 21-29 Replace issue 2 pages 13·21.
ABCD coefficients. V
Contents page rewrit1en
Notes
I.
Computer modelling section added.
ABCD coefficients added replacing issue 2
Rlh
curve replaces issne:2 page
Same
as
Formud
Q
:\
cun'es extended to
R
Q
curve added.
RR
IR\!
cune
lRR
curve added.
Same as issue 2 page
IF
"H;;HI~;!;U.
1 and 2 added.
issue 2 page
recovery
added. Replaces issue 2 page
cun
L3~o
FR'
QrUlUotal
9.
e 3dded.
-1-S0NW;
12
V V
1,600
1,800
2,400 2,500
2,500 2,600
when supply has been
per deg. Celsius is applicable
area).
7.
8.
added.
issue 2 page
11
'so
factor cun·e.
to
RthO_!!S)
10.
lhis
.
IRRM
deYlee
1,700
1,900
2,300
by
Sales/Production.
for below 25"('.
Page 6
- 5 -
R.R. No. : 82NR8/CXC92+
R.R. Issue j
Issue I
This diode series
controlled reverse recovery characteristics with
These
These curves enable rapid estimation
frequency ratings.
Let: Ep be the
in Hertz. Let R rhJ-HS
(''''nnri~(>"
1.3.st
recovery
for linear rates
:per
pulse for a current. and pulse width, in joules. Let f be tbe repetition rate.
be
the state d.c. thcrmal resistance (junction to heat sink).
deyices with
good
"K" factors.
of
device dissipation
Ep*/
TWNK
These constants (applicable only over current range
the expression for the forward characteristic given below:
~
TI(A1A;t) - (E p * / *
RthJ-H5)
aU
diffused silicon slices. All these diodes have
and
are particularly suitable for use in free-wheel
of
rise
of
fomard
to
be obtaincd for conditions not covered by the
of
V F characteristic OIl page 12) are the coefficients
current
of
100
and
SOO
of
I/~f
= A +
B.
In
(Jf) +
C.
if
+
D.
fif : where iF = instantaneous forward current.
Page 7
-6-
, 82NR8!CXC924
Isslle
Issue
(ii) ORR is based
i,c,
(iii)
K I'actor =
The
Prom
\\a\eforms
present during
this waveform be E joules
recovery,
QRR
It
on
= f
of
TSINK(new)
where k =
(J,,)12
E'"
Area under
f = Rated in Hi
RthJ-HS
reverse
""
dx.
thcrmal resistance (KJW)
a 150
,u.s
dt
itm.
t 0
Ll
t2
is
recommended
recowry
an
per
currcnl obtained from a high frequency ':ihunt (sec Note I)
instantaneous re\'erse rcco\cry
A new
time
for
usc
sink
temperature
\\ bere it
loss
is
necessary
wan:form must
can
then be
TS1NK(ori?,inal) - R th(J--!l.S)
loss
w3yeformper
at
the original sink temperatufe,
pulse
in
joules
(W.$.)
to
include reyerse fceon::r)
be
constructed. Let the area
e\aluated
from:
loss.
and
reverse voltage
under
The
totIiI dissipation is now by TV{tOl)
In circumstances where it is not possible to
the additional losses E
Let E be the value ofenerg:- per reverse eycle
Let t be the
then
TSINK(new)
where
T~lNK(ne';j)
temperature with the frequency ratings.
A suitable R-C snubber network is conllected across the diode to restrict the transient fC\Cfse
10
a peak, Yalue
of
Gradc_
the
rc\crse
curves,
injoulcs
operating
may be estimated
frequent)· in
= TSINK(origil7af) -
is the required
(V
\1)
of
0.67
of
the
R
loss may be approximated by a
maximnm
Hz
maximum
rV(
original) + E * f
measure
as
in
(E
grade,
\'oHage and current conditions,
fol!O\\s.
joules (curycs on p 20
*
i*
Rth)
heat
SlIlh
temperature
If
a different grade
pro
rata adjustment
).
and
T'VNK(origil1a!) is the heal
IS
being used
of
the maxinmlH \ J!lle obtained from the
Of
for design purposes.
\o!wge
or
V
is other [ban 0.67
RM
Slflk
wmcfonn
Page 8
NOTE I
-7-
RR
RR.
Page
No.
Issue
Issue
:
82:h.'R8/CXC924
: 3
: 1
Reyerse
care
forward
Recoyery
dC\ice
This
must
(a)
has a
be taken to ensure that:
a.c.
coupled
current.
(b) A
suitable,
Loss
bv Measurement
low
reverse
dC\iccs
such as current transformers are
polarised. clipping circuit
oycrloading the internal amplifiers
(c)
10
ohms
Measurement
connected
of
reverse
recovery
across diode anode
recovered
by
the
waveform
to
charge
must
relatively
cathode.
and
peak
reverse
not
be
connected
lligh amplitude
slrould
be carried
recovery
affected
to
the input of
forward
out
by
current
prior
When
passage
the
mC<lSUring
measuring the charge
of high amplitude
oscilloscope
current signal.
with an appropriate snubber of
to avoid
O.22J.tF,
Page 9
] . Device Dissipation Calculations
-8-
Computer Modelling Parameters
RR
RR.
Page
No.
: 82NR8fCXC924
Issue:
Issue
3
: 1
Where
I . _
Vo=
L15V, 's=0.265 mn.
W
Rth
If
AV=-
AT
R,h
= Supplementary thermal impedance, see table
=
Form
Conduction
Side
-V!J+jv~-4~D2*rs*(-WAV)
AV
- 2*.!f*rs
t1.T
= tJMax -
factor, see table
Angle
Cooled
30"
0.0353 0.0313 0.0288
0.0586 0.0542 0.0516 0.0498
0.0313 0.0272 0.0253
0.0540
tHS
below.
60"
0.0496
below.
90" 120"
0.0271
0.02414
0.0478
0.0467
0
180
0.0251
0.0478
0.0220
0.0440
d.c.
0.0220
0.0440
Form
30" 60"
3.46 2.45 2 1.73
3.98 2.78 2.22 1.88
90"
120°
0
180
1.41 1
1.57
d.c.
Page 10
-9-
R.R.
No.
R.R. Issue
Issue
. 82N'R8ICXC924
3
The OIl-state characteristic
tangent used for purposes
""luaH\.'"for V
The constants. derived by curve
where possible. The resnlting values for Vf agree with the tme device characteristic
limited to iliat plolted,
If
"s
VI'
OIl
and
(d) a set
in terms below:
f
f.T
= A + B *
f
125°C
A
B
C
D
Coefficients
-5.485326E-2
1.612135 E-1
2.274044 E-4
2.917716 E-4
page 1 0 is in two ways; (i) the well established
of
constants
In
(II) C * (ft) + D *
A.
B.
C, D. fonning the co-efficients
Jif
in
this report for
25()C
both
Coefiicients
A
B
C
D
)
Where p = 1
to'
n.
!l
is the number
t = Duration
r
= Thermal resistance al time
t
rp
= Amplitude
fp"" Time Constant
of
heating pulse
of
P;h term.
of
P1h
of
terms
tenn.
in
in
seconds.
t.
the series.
of
the
hot
and
cold characteristics
O'ver
a current range which is
6.059922E-l
4.837078E-2
9.492610E-5
L 123040E-2
V()
and
fs
Term
r
l1
to
Teml
r
1I
t()
1
2.60493E-2
1 2
1.152177E-2 6.032362E-3
9232490E-1 1.483395E-1
2
6.
12466E-3 5.71829E-3 3.44264E-3
5.55958EO 2.63592EO
Double Side Cooled
D.C.
D.C. Single Side
~
J
2,45341E-l
-'
2.882934E-3
2.110802E-2
Cooled
4
6.75165E-2
..
4
1.857708E-3
1870581E-3
5 6
1.92072E-3
L33211E-2
171033E-3
1.65029E-3
Page 11
-Hl-
RR
No. : 32NR8/CXC924
RR
Issue
Issue
3
Maximum recon:ry parameters
v =
"'\'
,,£...Jp=O
.c-o
recovcry
k[l
==
coefficient found
ri
= number of tenns in Ihe series.
p tenI! number
P
~
2
1
0
p
parameter.
5.083269E-5 .1
-3.953077E-2
9.273132E+0
3.79943E+2
in
the table
500
500 A
3 2.895264E-5
')
...
-2.280912E-2
1 5.499176E+0
0
8.090851E+1
may
p=n-J
A
be
cak1Jlated.
kp
Values
Values
the
(diR I dt'lP
of
k{)
J
for IFl\
1000 A
6.579564E-5
-5. 264897E-2
1.324478E+I
3.306376E+2
of
kJ)
for
1000 A
2.460573E-5
-2.101659E-2
6.003377E+0
8.8 1
422E+1
polynomial
expreSS:lOn:
2000
A
5.972116E-5
846796E-2
-4.
1.356689E+ 1
3.475717E+2
5.894028E-5
-4.626518E-2
1339473E+]
3.50 1400E+2
IFl\
A 5000 A
2000
2.500057E-5
-2.178191E-2
-2.009119,£-2
6.637549E+0 6.738425E+0
8.8576177E+1
9.30851
5000 A
2.28597E-5
OE+
1
p
3
2
500 A
-3.218559E-7
2.481001£-4
1 -5.696799E-2
0 699444E+O
Values
of
1000 A
-}.837966E-7
2935139E-4
-6.633167E-2
7.936150E+0
k
for IFM
n
A
2000
-3
503843E-7
2.700988E-4
-6.210 147E-2
8.129416E+0
5000 A
-3630683E-7
2.775587E-4
-6.269295E-2
8.240789E+0
Page 12
-ll-
RR
No.
:
RR
Issue:
Page Issue : 1
82NR8!CXC~924
3
IR\l .Peak
Reoovery
p
3
2
1
0
current (Valid
diR"dt
range 40 to
Values
500 A
3.779148E-6
-4.705173E-3
2.441796E+0
2.961458E+1 3.47634E+1
3.841128E-6
-4.23269E-3
2.494077E+0
450AlJ.lS)
of
ktJ
for
1000 A
IFI\
2000 A 5000 A
6.218172E-6 2.612124E-6
-5.43688E-3 -3.01578E-3
2.74643E+0 2.531726E+0
2.844385E+1 3.338904E+ 1
Page 13
Page No. 12
Page Issue 1
R.R.
No.
82NR8
R.R.
Issue 3
10000
en
-
~
Q)
a.
E
~
.....
c
~
'-
::s
()
'"0
L...
1000
~
0
tL
en
::s
0
Q)
.C
:s
c
CO
.....
en
c
Forward Characteristic
j
1
;
i
i
!
i
I I I
i
I
I
125°C
[-I
2SoC
i
!
I I
.1
i
Il_}
/ /
/ V
i/_
/
;
J
i
i
iY
/'
/,
1
j
I
I
I
!
of
Umit Device
,
/V
A = -5.485326E-2
B = 1.612135
C = 2.274044 E-4
D = 2.917716 E-4
A = 6.059922
B = 4.837078 E-2
C = 9.492610 E-5
D = 1.123040 E-2
I ! I
/1'
1250C
25°C
i
I
1/
/"
~
!
i
!
I
E-1
E-1
i
J
,..
I
...
--~,-
~
i
l
-
...
i
I
1
i
I
..
-.
-
!
:/:1
/
)
100
0.6 0.8 1 1.2 1.4 1.6 1.8 2 2.2 2.4 2.6 2.8 3
/
I I
,/
I
I
I i
Maximum Instantaneous Forward Voltage (Volts)
i
I
I
\
!
L
i
!
:
I
I
i
:
1
I
1
I
J
i
I
,
!
I
i
:
Page 14
Transient
Thermal
Impedance
(Junction
to
Heat
Sink)
0.1
~
'-"
(J)
()
c:
co
0.01
"0
(J)
0...
E
CO
E
I-
(J)
..c:
f-
I~~
•........... j ........
I~'.\I~~
l~
."+~~~.
,
t·
.
I'~"
~..m
j
...
r+··-
.
I···
I'~~
,~
..~..
L+.
;.~
.. , ...
I
.m!
Il
I I
! I
tm
1/1111
! ! !
! ! I i ; I
V~'~I~'
v;'"
vV'
~~~--+-
vV
.~~.
..
+.
III
I"~
II
i
I
I·~
.....
0.022 KlW
O.S.C
0.001
1/
0.OQ1
0.01
1
,
I I III1
0.1
II
Time
,I
! i ! I
(Seconds)
• I i
1
10
ill
1 I
;;U
:;0
;U
;U
(j)
0,
~ ~
<.»
I\J
Z
100
~
~
?
(ij' Z
(l)
....
.....
<.»
Page 15
1.00E+05
*'
1::
@
....
.-..
'-
<1l
::,:
(\j
U «
a; 1.00E<04
.£:
I/)
"-
'ii
:::c
.;><;
(\'l
(I)
0..
ii:l
'0
I-
Maximum
@
Initial
'r--"'---:~'-ri-:-rT~--T-""""-"""""::'"'1--:-r-----:-----:---:---:-""",""""""':-r---""""'-""""--""""''''''''''''''''''''''''''-'
Non-Repetitive
Junction
Temperature
Surge
Current
125°C
1.00[+03
Duration of Surge
(ms)
1 5
10
50
100
;:0 ;:0
~ ~
Ui Z
U>
?
c
(!)
co
<.N
N
Z
;:0
Q:l
- Z
~
c::
(!)
.....
p
-'
-1>-
Page 16
Recovery Voltage
(Maximum
Peak)
Page
Page
RR
No.
RR
Issue 3
Issue 1
15
82NR8
100··r-----------------------~------~------------~~
10
.L-
100
____
~
__
L_~
________
~~
1000
Applied Ramp Rate
___________
~
__________
(AJ~ts)
__J
10000
Page 17
Page
No
Page Issue 1
RRNo.
RR
Issue
16
82NRB
3
Maximum Recovered Charge Ora 50
10000
.,---------.,,----.....,--.,---,--------,----:-----:------"1
@125
°c
Junction
Chord
100
~-----~----------~--~~----------~----~~~~~
10
100
Commutation Rate
1000
(AI~ts)
Page 18
. T R d
Maximum otal ecovere arge
Ch
Page
No.
Page
Issue 1
RR.
No.
Q~.R.
rr
t,gt
Issue 3
17
82NR8
10000
---
o
:t
--
.
.,._
--_
125°C
.
.,
...
.,.
.
.,
.
.,-
I
!
..
-
i
i
J~
~~i
/1
\ .
.,-.,.,.,
..
_.
~
Junction Temperature
I
, i
I
I
i
\
I I I :
, i
iii
!
!
i :
I I
I i
,
; f I
I
! I
!
I
1
!
~~I
:--ti
W'::I
12~:
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r-
I I I
i I :
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....
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__
L--+-~
i
i
!
~
i
i
;
i
:
5000
I
i I
I
i
A
?2000~,
I
. ,:.cAl
!
;
I
SODA
V
J
100
10
Iii
i
i
I
I
I
I !
\
i
1
Commutation
! i
! i '
\ i
I
j
I
!
,
II
; I
\ I
i •
! i I
; I
100
Rate
I
(AI).1s)
I
I
I
i I
!
!
I
i
\
j
I
i : !
1000
Page 19
Page
No.
Page Issue 1
RR
No.
RRlssue
18
82NR8
3
Maximum Peak Recovered Current
@
125°C
Junction Temperature
IRM
10
100
Commutation Rate diR/dt
1000
(AlJ.ls)
Page 20
Page
RRNo.
RR
Maximum Recovery Time trr
No
Issue 1
Issue 3
19
82NR8
@125
10
~------------------~----~--------~------~---------,
°c
Junction Temperature,
50%
Chord
10
100
Commutation Rate (Ahts)
1000
Page 21
Page 20
Page Issue
RR
No.
82NRB
RRlssue
1
3
Maximum Reverse recovered Energy Loss Per Pulse
@
10
Snubber
..... , .....
i
!
125°C
0.22
j
i
J1F
,
Junction Temperature
& 10
j
,
Q.
i
VRM
!
=0.67 Voltage Grade
j
!
i
J !
I
!
I
!
I
!
:
i
i
i
~_A
!
! !
; I
I I
!
ER
!
!
1·,,;-·
2
Z
o
0.1
••........
,
10
I
/v~
~
i·~::
i
/.J..-
~Y1"J,~
&'~~
~~~
!/~~v
:;;.!'
500
A
i I ;
i I
i
I j
I
lL
I
!
VL
~
...
I i I !
. !
..
1.L
I !
I
I
Commutation
i
!
J
i
I
100
j
1
Rate
I
(A1Jls)
I
I
I
I
j
,
I
:
i !
i .
I I
j
1000
Page 22
Frequency
vs
Pulse
Width
Page
No.
Page Issue 1
RR
No.
RRlssue
21
82NR8
3
~
<l)
:r:
--
~
c:
~
1.0E+03
0-
~
u..
-f-'--,---,---'-----t-
Heat
Sink
Temperature
5S0C,
di/dt
100
Ai'tJ,s
1
.OE+01
+-_--'-_...:.---'--'--'--'-
1.0E·05
..........
!--_--'-_-'---'-~--'-_"_+--'---'-.l...-'---!o.-'--'--""-'--'-..y
1.0E-04 1.0E-03
Pulse
Width
(Seconds)
1.0E-02
Page 23
Frequency
vs
Pulse
Width
Page
Page
RR
RR
No.
Issue
No.
Issue
22
1
82NRS
3.
¥
Q}
:c
--
()'
c
~
0"
:~
u..
1.0E+03
Heat
+."--,,--,,.--+--"'-,,-+--4---1-
Sink
Temperature
85°C,
di/dt
100
A/JlS
1
,OE+01
+-----'--~-'---'----'---'-+-----'--_'__-'--.J...-l.....J_iI....l...f--'-_.r.....-~
1.0E-05
1.0E-04 1.0E-03
Pulse
Width
(Seconds)
___
_'__~__'__"''"''_l
1.0E-02
Page 24
Frequency Pulse Width
Page No. 23
Issue 1
RR
No,
82NR8
RR
Issue 3
1,OE+05
1,5kA
2kA
1.0E+04
Heat Sink Temperature 55°C, di/dt 500
,.......-----,-----------,--....,-----,..----~---....,--~-.,..,
Alp.s
{)
c:
(!)
:::.J
cr
~
u..
1.0E+03
1.0E+02
1.0E+01
1,OE-OS
,I--_--'
__
--'--_---'-
_____
1.0E-04
-'--_-'--_-'--
__
1,OE-03
L-_~_..:.~_..:.~....;.J
1.0E-02
Pulse Width (Seconds)
Page 25
Frequency vs Pulse Width
Page
No.
Page Issue 1
RR.
No.
R.R
Issue 3
24
82NR8
.6-
c:
(!)
:J
0-
~
u..
1.0E+05
1.0E+04
1.0E+03
Heat Sink Temperature 85°C, di/dt 500
x---~-~...,....-:---...,....----,-----~--,---,------r------..,...,
A/IJ-s
1.0E+02
1.0E+01
i.0E-OS
1.0E-04 1.0E-03 1.0E-02
Pulse Width (Seconds)
Page 26
Page
Page
RR
RR
No.
Issue
No,
Issue
25
1
82NR8
3
Junction
Energy
vs
Temperature
Pulse
125°C,
Width
di/dt
100
A/JlS
1. OE-02
1.0E-OS
+----'--'---'--'--'-'-..-...l..--'----'---'--'-~--'-""-'-+__---'---'---'---'----'-'_"_l
1.0E-04 1.0E-03
Pulse
Width
(Seconds)
1.0E-02
Page 27
Energy vs Pulse Width
Page No.
Page Issue 1
R.R. No.
26
84NRB
1.0E+02
,..,.......
m
!!!.
::I
0.. 1.0E+01
....
m
0..
en
m
::I
o
2-
>.
e>
(j)
c
LU
1.0E+OO
Junction Temperature 125
OCt
di/dt500 AJj.1S
21<A
i.5kA
1kA
i.DE-Oi
1.
OE-02
1.0E-05
'---_---'-_-'--~--'----'---'-----'-----'--'-"-"-------'--'---'--I
1.0E-04
1.0E-03
1.0E-02
Pulse Width (Seconds)
Page 28
RR
No.
RR
Issue 3
No.
27
Issue 1
82NR8
2kA
JkA
1.0E+04
4kA
5kA
6kA
Frequency
Pu
Width
Sink Temperature 55°C, Sine Wave
12kA
151<A
1.0E+02
1.0E+01
1.0E-05
1.0E-04
Pulse Width (Seconds)
1.0E-03
1.0E-02
Page 29
Page
No.
Issu.e!
Page
R.R
No. 82NR8
Issue 3
R.R.
Frequency vs Pulse Width
Heat Sink Temperature 85°C, Sine Wave
28
.--...
N
1::
(!)
::r:
-.-
1.0E+05
1.5kA
2kA
1.0E+04
lkA
4kA
5kA
6kA
10kA
_----.----,--,-,--,-,-----,---~-........,.-----~~__,___,
1
..
0E+02
12kA
151<A
i
.DE-OS
1.0E-D4
Pulse
VVidth
1.0E-02
(Seconds)
Page 30
Energy vs Pulse Width
No. 29
Page Issue 1
RR
No. 82NR8
RR
Issue 3
..-...
<l)
(f)
::l
a..
'-
<l)
a..
(f)
<D
::l
o
.,
--
>-
e>
~
LI.1
1.0E+03
1.0E+02
1.0E+01
10E+QO
Junction Temperature
.---------,....,...------,--~-------,--,--,-----,
125°C,
Sine Wave
1kA
1.0E-01
1.0E-02
10E-05
L-.._---'_---'_~._:......;
_
_'_
_____
1.0E-04
:....-
Pulse Width (Seconds)
__
__'_
________
i .OE-03
~
1.0E-02
Page 31
1--
,
i
f
1
----_
..
I
--
~'.!
: . . "
~.
_~.
___
J~
__ • ___ • _"
_._
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I
JL
I,'I'D.
EKe L\j\; D
Page 32
Drawing Number – W5
Outline Number – 100A249
Not recommended for new designs
Weight 510g
Westcode Customer Services email: wsl.sales@westcode.com Telephone: +44 (0)1249 444524 Fax: +44 (0)1249 659448
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