/’-’-+
I
L---N
I
!
SWITCHMODE POWER RECTIFIERS
. . . designed for use in switching power supplies, inverters and
as free wheeling diodes, these state-of-the-art devices have the
following features:
Ultrafast 2!5, 50 and 75 Nanosecond Recovery Times
.175°C Operating Junction Temperature ~,~:.i,+
LOW Forward Voltage >}$.
@,
Low Leakage Current .p.~?&..
JQJ
.High Temperature Glass Passivated Junction +~p..
~a,.
.<<) i,!
,>>~W:)>+\
Reverse Voltage to 1000 Volts ~%!.
‘$l\:\
..>+~Y:$&,\\
,,q
,>?\ ),$
,:$,~‘~:$,.,Ji
\+&,..;,*,,,.
.f:~,:~\.t&)
-(*J,
-i,.
~,.$.,
,. ,>
,~i)::~’
\,\~.,,
..y.i):\\
,...
~&,,
......*$8
‘X<?+y.,.,,+,t)..i,
,$:;..
-F,tj.+
,,.,.>.*. <,,
.:,},...
.,-,,. ,..,.,Ji:l
MUR105 MUR150
MUR11O MUR160
MUR115 MUR170
MUR120 MUR180
MUR130 MuR~90
MUR140 MUl$i?100
~$
.f.’,~,.$
CASE 59-04
PLASTIC PACKAGE
,.+
e:.
,,.,l.PP:Y
Rating ,d$ya$**
{$ ‘.. Symbol 105 110 115 120 130 140 150 160 170 180 190 1100 Unit
,,>
Peak Repetitive Reverse voltage@.p.$
‘?+{i\,\., VRRM 50 100 150 200 300 400 500 600 700 800 900 1000 volts
Working Peak Reverse Volta@,i$$# VRWM
DC Blocking Voltage ,~”)k?t~”
,@ VR
Average Rectified Forw@~: Cu$~nt (Square Wave IF(AV) l. O@TA= l.O@TA =12WC l.O@TA =9VC Amps
Mounting Method #&#er,$@ote 1) 13(Y’C
Nonrepetitive Pe~~~Q~&eCurrent IFSM 35 Amps
(Surge applied$$fat~d load condition% halfwave,
single pha~~.alHl)
–65to +175 ‘c
Ma&%um Thermal Resistance, Junction to Ambient RgJA See Note 1“CM
/
,/
,/”
/’
ELECTRICAL CHARACTERISTICS
Maximum Instantaneous Forward Voltage (1) vF
(iF=l.O Amp, T.J=1500C) 0.710 1.05
(iF=l.O Amp, TJ=2Y’C) 0.875 1.25
Maximum Instantaneous Reverse Current (1) iu
(Rated dc Voltage, TJ =150”C) 50 150
(Rated dc Voltage, TJ =25C) 2.0 5.0
Maximum Reverse Recovery Time trr
(IF= 1.0 Amp, di/dt= 50 Amp/pa) 35 75
(IF=O.5 Amp, iR= 1.0 Amp, IREC=O.25 A) 25 50
Maximum Forward Recovery Time tfr 25 50
(IF=I.O A, di/dt =100 /Vps, IREC to 1.0 V)
(1)PulseTest: PulseWidth =300 KS, Duty Cycle <2.0% ~MOTOROLA INC 1984
Switchmode is atrademark of Motorola Inc.
A/.LA
600
10
+-----
DS3533R2
MURI05, 110 AND 115
FIGURE 1TYPICAL FORWARD VOLTAGE
10 1I / 1/ /
/
7.0 1/ /
,// /
5.0 / //
// ‘/
3.0 r
TJ = 175°C
2.0
/, ‘k –’ 25°C
1.0
~I I
I I I
~0.7 I
i= i II
50.5 I II
a
Ki{ I
3
u
20.3 // /
://, ~
~0.2 I
cn
2iH
~
z
$
=0.1 / //
</
gI
z0.07 / / 1
,& / I /
0.05 /
// / >,,,*,~
,..%,
/’ / k,
0.03
0.02 Id
/ //
/H‘:t~,,
0.01
0.3 0.4 0.5 0.6 0.7 0.8 O.* ii 1.1 1.2 1.3
VF,INSTANTANEOUS V@@~@bLTS)
\ ..
lF(Av),AVERAGE FORWARD CURRENT (AMPS)
@MOTOROLA
FIGURE 2TYPICAL REVERSE CURRENT*
80 1
1{ [ 1 1I
40 II
20 \!!TJ = f7&~
8.0 ...
11
~4,0
s2.0 !
=0,8 -
%0.4 I
30.2 rI I
*The curves shown are typical for the higheaf VOI
%0.08
Edevice in the voltage grouping. Typical reverse cu
%0.04 for lower voltage seletiions can be aatim?@d
gf).lJ2 these same curves if ‘JR i
—F O.OO8
-1 I
r
0.004
0.002 t
0.001020 40
050 100 150 200
TA, AMBlENT TEMPERATURE
FIGURE 5TYPICAL CAPACITANCE
50 -
40 1
TJ =250c
30 \
20 \
\
8’.: \~ ~
8.0
7.0
8.0
5.0-o 10 20 30 40 50
VR,REVERSEVOLTAGE (VOLTS)
Semiconductor Products Inc.
,-----
/’--= MUR120, 130, 140, 150, 160
-.
.“--%
FIGURE 6TYPICAL FORWARD VOLTAGE
10 // /
// /
7.0 {//
/ //
5.0 -// ‘/
//, [
3.0 / //
TJ =175°c/+-/ 100°c
2.0 -/ /, I&
I25°C
1.0 I
II/
I
0.7 I
II
I1
I
0.5 I
1//
0.3 / //
I
FIGURE 7TYPICAL REVERSE CURRENT*
400 r
II I III I I
VFlNSTANTANEw~~?~GE (VOLTS)
,J, .~~
~,:<.,..l.?
FIGURQ&- POWER DISSIPATION
~5.0
i=
$
z
n
w
w
<i
~
~1.0
~
z
~= o00.5 1.0 1.5 2.0 2.5
IF(AV),AVERAGE FORWARD CURRENT (AMPS)
1)
,,
II
Rated VR
ROJA =500ChV
SquarW
Wave \
\
u50 100 150 200 250
TA, AMBlENT TEMPERATURE
FIGURE 10 TYPICAL CAPACITANCE
20
TJ =25°C
8! \_ _ _ _ _ _ _ _ _
z8.0 ~
s7.0
z6.0 \>
a
~5.0
~4,0 \ \
v\
“- 3.0 \
2.0 ~_
o10 20 30 40 50
VR, REVERSEVOLTAGE (VOLTS)
MOTOROLA Semiconductor Products Inc.
FIGURE 11 TYPICAL FORWARD VOLTAGE
/1 /II I
IIIIII/1/ I
TJ =175°C 1
—25°C
sI/L /I
%1111//1/1/1/11
1,r11 v1111I
I/1 A
1fII rI11 1
I
vF, lNsTANTANEO,y#~T~i (VOLTS)
.. ,$
L
o0.5 1.0 1.5 2.0 2.5
lF(Av),AVERAGE FORWARD CURRENT (AMPS]
@MOTOROLA
FIGURE 12 TYPICAL REVERSE CURRENT*
800 1[#I17
400 I{
200 iII
z801 I1t
II
;2.0/ I I II .....*J,
$.,.:*..... ,.,. I I
,,,:3,.\,
,..,%.,,+
:alfor the highest ~~ge W. r[I
-., j
K0.80
~0.40
_& 0.20
0.08
0.04
002
rII
_The curves shown ara typic,
device in the voltage grouping. !yp!cal rev~se curm&:
_for lower voltage selections can ke@+l@d from II1/
_these same curves if VR ia sufficient~ m~d VR.
1III I I
IIII I
I I ~~);...$,$I
0.01IIII>., , ,,,. I1I11I
o200 “$yao 600 800 1000
TA, AMBlENT TEMPERATURE
FIGURE 15 TYPICAL CAPACITANCE
20
TJ =25°C
10
cn\
=7.0 \
~6.0 \
E5.0
G\
~4.0
u
‘- 3.0 --
2.0,
010 20 30 40 50
VR, REVERSEVOLTAGE [VOLTS)
Semiconductor Products Inc.
NOTE 1AMBlENT MOUNTING DATA
Data shown for thermal resistance junction-to-
ambient (ROJA) for the mountings shown is to be used
as typical guideline values for preliminary engineering
or in case the tie point temperature cannot be measured.
TYPICAL VALUES FOR R~A IN STILL AIR
MOUNTING LEAD LENGTH, L
METHOD 1/8 1/4 1/2 UNITS
152 65 72 ‘c/w
2ROJA 67 80 87 “VW
350 “CAN
MOUNTING METHOD 1
:4, P.C. Board with
1-1/2 x1-1/2” Copper Surface
MECHANICAL CHARACTERISTICS
Case: Transfer Molded Plastic .!~,,,.
Finish: External Leads are Plated, Leads are k$q :&$
.,,:,, ‘$*
readily Solderable ‘“‘ ~,ski,,
Polarity: Indicated by Cathode Band &J#
Weight: 1.1 Grams (Approximately~j:.,~,$,;”
Maximum Lead Temperature for.$$k$d~~$ng
Purposes: 24fYC, 1/8 from cae@$?’ ~W
seconds at 5.0 1bs. tensi q~i$?%,~$.:’”
-- k-B
[
r
K- D
L
A
+A
CATHODE
BAND 1
K
1
CASE 59-04
PLASTIC PACKAGE
Motorola reserves the right to make changes without further notice to any products herein to Improve reliability, funct!on or design. Motorola does
not assume any Iiab!l(ty arising out of the application or use of any product or c!rcuit described herein: ne!ther does It convey any license under Its
patent rights nor the rights of others. Motorola and@ are registered trademarks of Motorola, Inc Motorola, Inc man Equal Employment Opportunity/
Affirmative Action Employer.
(m MOTOROLA Semiconductor Products Inc.