‘T1+’’I’J-MT2
PLASTIC SIDAC
t!4KH-1 OLTAGE BILATERAL TRIGGER —
V
l-m-l VOLTAGE ‘TRIGGERS
. . .
designed for direct interface with the ac power line. Upon
reaching the breakover voltage in each direction, the device
switches from a blocking state to a low voltage on-state. Con-
duction
will continue like an SCR until the main terminal current
drops
vation
below
high
insures
the holding
pulse
reliable
current.
The
plastic
axial
are:
lead
package
passi-
provides
current
capability
at low cost.
Glass
operation.
Applications
High Pressure Sodium Vapor Lighting
Strobes and Flashers
+
,,>,,
‘{.;*:,,
...,*
o
it,
–o
Off-State Repetitive Voltage
,$;{~:.t,,*,*’
.“*?:<>
-
~.,v ‘+:4. VDRM
“
IT(RMS)
t
90
0.9
+180
volts
Amps
A,
On-State Current RMS (TL = ,,*~~;Qs~’
LL = %“, conduction angl&&
~$
:)~>&
180”,
60
Hz Sine Wav@F
On-State Surge Curr.@?&@epetitive)
(60 Hz One Cyc&S@~ Wave, Peak
~ y$
‘*\:.., .*., “*
Value)
\,+\
Maximum J@t$f/!%ange
Currents-
...
R,”
..
of On-State
ITSM
I
dildt
4,0
I
Amps
I
NOTES:
1. ALL
WITH
RULES
JEOEC
AND
00-41
OENOTEO
NOT
NOTES
ASSOCIATEO
SHALL
OUTLINE
90
Amps/~s
%
~~~
0per4~r&~~nction
St$~5~&emperature
Lea’&older
Temperature
Range
Range
TJ
Tstg
—
–40to
–40to
230
+125
+150
“c
“c
Temperature
“c
APPLY.
2. POLARITY
BANO.
3. LEAO
WITHIN
OIAMETER
“F”
CO NTROLLEO
OIMENSION.
BY CATHOOE
(Lead Length a 1/16 from case,
10 seconds max)
THERMAL
CHARACTERISTICS
Characteristic
Thermal
Resistance, Junction to Lead
3/8”
I
LL =
I Symbol
RdJL
I
Unit
40
II
“Clw
Q
CASE
59-04
@
MOTOROLA
INC ,1984
DS3625
EL~CT%3!~#L
CHPJ%’ACTT331STUCS
Characteristic
(T. I = 25°C unless
otherwise
noted;
both directions)
Min
Typ
Max
125
135
250
270
280
hit
symbol
VBO
Breakover
Voltage
L4KP9V120
MKP9V130
MKP9V240
kJlKP9V260
MKP9V270
Repetitive
Peak Off-State
Current
(60 Hz Sine Wave, V =
VDRM)
TJ = 125°C
Forward
‘“On” Voltage
(IT = 1.0A)
Dynamic
Holding flrrrent
(60 Hz Sine Wave)
Switching
Breakover
Resistance
Current
(60 Hz Sine
Wave)
110
120
220
240
250
IDRM
—
—
—
—
.
volts
—
—
VTH
—
.
—
1.3
—
5.0
50
IH
RS
iB(j
0.1
> ‘% ~,
~
—
!+*;I: ;$)t
,
—
...+ .>
~ ,,?,<: ‘.!
.i.~%,
*,,\~~.::,:::Zi>
?
,
200
b,,
kil
@
FIGURE 1 — MAXIMUM LEAD TEMPERATURE
,.....
=
I
I
!
I
I
RPxirn=I
\
\
\
I
\
\
l=--
1-’-1-1
I
I
I
%
\
TJ = 12YC
Sine Wave
Conduction Angle = 18fY
a,,
Assembled in
PCB
Lead Length = %“
1
,1
I
I
I
I
i
1
1
1
I
1
1
1
1
1
1
1=
1
1
o
20
TA, M;XIMUM
100
~~BIENT T~MPERATURE PC)
120
140
I
FIGURE 4 — POWER DISSIPATION
1.25
—
g
~
z
g
~
a
z
~
0
&
3
:
1,00 —
. TJ = 25°C
I
I
Conduction Angle = 18Cf’C.
/
0.75
/
0.50
/
/
/
‘
y
/ Y
“
/
“
‘
U.1
s
I
0,3
1
I
1#
r
B
I
1
I
1
I
I
1
I
I
1
I
1
I
I
1
I
I
1
I
z 0.2
&u,ll
—
1
I
!
I
1
I
1
1
~ 0.25
&
I
I
I
I
I
I
I
o
2.0
V~NSTANTANEOUS
3.0
4.0
5.0
o
0.2
ON-STATE VOLTAGE (VOLTS)
0.4
0.6
IT(RMS), ON-STATE CURRENT (AMPS)
0.8
1.0
Semiconductor Products Inc.
@
THERMAL
CHARACTERISTICS
RESPONSE
FKNJRE 5 — THERMAL
,,
:
0,03
where
cTj~
. the
increase In junction
temperature
2002
.
z
s
E
0.01
0.1
0.2
0.5
1.0
2.0
5.0
10
20
..:>,+,, v,,,..
\
,,,,
,,.;.:
abov?:~e 1/$ temperature
.-
-it
$,:
*.,
’
,
r(i) = normal !zed value of transient thermal r~$ten/&@W time, t, from Figure 5,1e
r[tl + {p] = normalized value of traq$@S~ armal resistance at t!ma, tl +!P.
* .y. *.F,.
50
100
200
*,,*! 5oi3 ii:,,::
.
““f’
l.Ok
2,0 k
5.0 k
10 k
60
-40
–20
O
20
40
60
80
TJ, JUNCTION TEMPERATURE (“C)
100
120
140
FIGURE 9 — V-1 CHARACTERISTICS
ITM
IH:
k
VT M
‘c’
-..
-.-~
\
/
IDRM
Slope=
Rs
VDRM
‘(BO)
L
----
-.~~
-.
/
Rs =
(VW-
‘s)
(&l,
0.1
Be))
1.0
tw,
PULSE WIDTH
(ins)
10
100
Motorofa
not assume
patent
reserves
any
rights
the
liability
right
to make
out
of others,
changes
Motorola
without
and
further
notice
to any
product
products
or circuit
herein
to improve
herein;
Inc
reliability,
neither
Inc
function
does
is an Equal
or design
Employment
Motorola
does
its
arising
of the application
or use of any
M are registered
described
it convey
any license
under
nor the rights
Action
trademarks
of Motorola,
Motorola,
Opportunity/
Affirmative
Employer.
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