PC123/PC123F
European Safety Standard
Approved Type Long Creepage
Dstance Photocou~r
PC123/PC123F
x IIIN 1 DE0884 appro\
ed t~ pe (PCl 23Y/PCl 23FY)
IS
also al adable as an option
■ -ne Dimensbns
1. Conform to European Safetty Standard
2.
3.
4.
,5.
PCl 23
(Refer to page 38)
Internal isolation distance : 0.4mm or more
High collector-emitter voltage
(v,,,, : 70V)
Long creepage distance type
Recognized by UL, file No. E64380
Approved by VDE (DIN -1~DE83601)
Approved by BSI
( BS415 No. 7 0 8 7 , BS7002 No, 7409)
Approved by SEMCO (No. 9216212)
Appro\’ed by DEMCO (No. 108954)
Approved by EI (No. 155030)
PC123
PC123F
Creepage distance
6.4mm or more
Rmm or more ~
Space distance
6.4mm or more
8mm or more
Internal connection diagram
$3
‘1)
Anoda mark
~
m
:1.
~i
y, Lo
PC123
= %
~!w
Tt—
-!
q i ? ~F,
q
0 0 .
,- ~,5*03 J 3
+1
+1
ruo
.
.
4=*O3
7.62*
D 3
(=!
~
0.26+01 -.
Internal connection diagram
i
H Applications
1. Po\ver supplies
2. OA ec]uiprnent
2
Symbol
1[:
I F\l
VR
P
VL’F()
\’ Eco
Ir
Pc
Plot
L’,.<>
T<),),
T.,x
T<),
Ratings
jo
Unit
mll
1
11
6
70
70
6
50
150
2io
5
-311 to -lUO
–i5 to -1?5
260
‘i
--05,01
PCl 23F
H Absolute Maximum Ratings (Ta = 25°C )
,,
L
“ Anode
!.
.2 Cathode
Q Emitter
,~ Collector
@
Anode mark
Parameter
~F(~r~vard c u r r e n t
* 1 Peak forw,ard current
Inpol
ReL,erse }o[tage
Po~~,er ‘diwipation
Collector emitter voltage
Emitter collector voltage
otltpLi[
_C(jllector current
i Collector po!ver dissipation”
Total po~rer dissipationr
‘<isolation I,cjltage
( )perating Lemperdture
Stora~Z temperatur~
*{Soldering temperature
(Unit : mm)
.,.!m~$:
I
+
00
+,
m ‘~
:
+
~;;s
4
n
3
I Anode
2 Cathode
3 Emitter
4 Collector
+
$:,
\;
m~~
\~
.
t016=05
0.2610 ~
-
;-o.5~01
mA
mlt:
mL!~–
kV,,,,.
.U
“c
“c
In tie ab%nce of con f(matlon by dev[ce spwlficat(on sheets WARP fakes no ~apnsibll!V for any deleck that recur n equipment ustng any of SHARPS dev[ces shown In caml~s
data books, etc. Contact SHARP In order to obbln the latest versaon 01 he devtce spec!flcat(on shack befors uatng any SHARPs devtce
I
293
FC123/PC123F
9 Elactroel Characta*
Parameter
Forward voltage
Input
Reverse current
Terminal capacitance
Collector dark current
output
Collector -emitter breakdown voltage
Emitter-collector breakdovn voltage
Collector current
Collector -emitter saturation voltage
Isolation resistance
:;;;a$; Floating capacitance
risitics
c,
ICEO
BVc~:()
B VE CO
Ic
VCE(WO
UIS()
Cf
f.
Cut -off frequency
Rise time
Fall time
Response time
(Ta=25”C)
Symbol
VF
IR
t,
tf
MIN
Conditions
Il:=20mA
TYP.
1.2
MAX
1.4
30
10
250
I 00
VR=4V
V=O, f=lkHz
—.
\’CE. = 50\’, IF= ()_
Ic=O.lmA, 1~=0
70
~
I~=lOy A, IF=O
IF=~mA, Vc~=5V
2.5
—
I~=20mA, Ic= lmA
5X IOJ(J
DC500V, 4 0 to 60~RH
—
V=O, f=lMHz
VCF = 5V, Ic = ~mA
—
RL=1OOQ, –3dB
—
VCE=2V, Ir=2mA
—
RL=1OOQ
v
—
v
mA
—
20
0,1
10I1
0.6
().2
v
1.0
Q
pF
80
—
kHz
4
3
18
18
/s
,uS
~. 1 Forward Currant vs.
Ambient Temperature
60
—
—
40
—
—
30
—
20
—
10
—
—
\
—
r
100
— —
50
0
20
0
~~
50
i
.4mhient tvmperat[xre “[a (“(:
d
J
o
Unit
v
,uA
pF
nA
Ambient temperat[~re T,, (“c)
PC1231PC123F
4 Power em vs.
Ambkmt Tem~
230
?00
150
1 ()()
5(}
o
L, I
0
-30
Ambient temperattlrc T,, (“C)
I
;~
50
I 00
25
Ambier]t temperature T, (“C)
125
Fw. 6 Forward ~t vs.
Forward VoItags
1(1[)()
I
I
500
200”
z
I
T-75°C
100 -
-“
1
/ +25°C
,
I
50
50”C
m
20 1()
m’
5;
ml
5
)
1
‘()
().1
1
10
Fom,ard current IF (mA)
100
“o
0.5
1
1.0
1.5
2.()
~,j
~
9
:345678
C{]llectc) r-emitter voltage \’c~ (1’)
30
10
PC123/PC123F
Va.
– o-
i
30
()
25
.50
75
Ambient temperature Ta (“C)
t
100
.~ 0.04
?
~ 0.02
:
g 000
– 30
0
20
40
60
80
Ambient temperature T, (“c)
100
5.
10
–5
1000
.5
6
5
I
00
7
5
-8
10
5
Y
5
1
10
5
10
11[
– 30
I
I
I I I I 1 I I I I
()
20
40
60
80
Ambient temperature T, (“C)
I
I
100
0.1
0.01
1
0.1
10
Load resistance (kQ)
100
50
4.5
4.0
3.5
3.0
2.5
2.0
1.5
1.0
0.5
0
0
2
● Please refer to the chapter “Precautions for Us” (Page 78 to 9 3 ) .
296
4
68101214161820
Foward cument IF (mA)