I"
(2jp
m
- %,j,®®&faa,
E?
Semiconductors
from
STC·CANNU :;:."?,"=
Foreword
This Semiconductor Short Form Catalogue is presented in loose leaf form to facilitate updating as additional types become
available. Market requirements may alter the mixture of local and imported products. All imported products shown need
not at any one time be ex stock items. Please contact your nearest STC. C.C. Representative for the latest information. The
list which appears below is a rationalization of "TT" Prefix Transistors and exact or near equivalents are shown for those
devices which are now, mainly, replacement types. The replacement types shown are from our preferred '°TT" Range,
Jedec (2N) Types or Pro-Electron Types. In order to conserve space we have omitted data on 2N Devices as the information is available from many sources. In a Short Form Publication of this nature complete information is not given but
further data on individual items is available on request. Shaded areas indicate obsolete devices. Information for reference.
/""'
'T T' REPLACEMENT GUIDE
TYPE
No.
REPLACE
WITH
TYPE
No.
REPLACE
WITH
TYPE
No.
REPLACE
WITH
TYPE
No.
REPLACE
WITH
TT13
TT16
TT18
TT19
TT20
TT21
TT24
TT25
TT26
TT30
TT31
TT32
TT33
TT34
TT35
TT36
TT37
TT38
TT39
TT40
TT41
TT42
TT43
TT44
TT45
TT46
TT47
TT48
TT49
TT50
TT51
TT52
TT53
TT54
TT55
TT56
TT57
TT58
TT59
TT6O
TT61
TT62
TT63
TT64
TT65
TT67
TT72
TT82
TT83
BC113
2N3962
2N918
TT101
TT104
TT105
TT106
TT107
TT108
TT1001
TT1OO1
TT3704
TT3702
TT107
TT108
TT227
TT228
TT247
TT248
TT257
TT268
TT227
BFY50
BC107
TT4248
TT299
2N2369A
TT421
TT422
TT435
TT461
TT462
TT468
TT801
TT800
TT356
TT753
BC107
2N3468
TT109
TT110
TT111
TT113
TT114
TT116
TT118
TT121
TT125
TT126
TT127
TT128
TT131
TT132
TT134
TT136
TT141
TT142
TT152
TT154
TT155
TT167
TT171
TT173
TT174
TT175
TT177
TT178
TT179
TT18O
TT109
TT638A
TT638A
TT638A
TT107
TT920
TT1104
TT809
TT798
TT920
BF127
TT128
TT641
TT107
TT318
BF127
TT141
TT641
TT3002
TT1010
TT1010
BF127
TT171
TT641
2N2220
TT4121
TT177
TT178
TT179
TT4249
TT269B
TT269G
TT270
TT271
TT272
TT273
TT275
TT298
TT299
TT3OO
TT301
TT310
TT311
TT318
TT320
TT321
TT325
TT328
TT329
TT330
TT331
TT341
TT343
TT354
TT355
TT356
TT357
TT358
TT359
TT360
2N744
2N744
2N744
2N744
2N744
TT299
2N2894
TT298
TT299
2N615
2N301
2N2222A
2N2222
TT318
TT3693
2N2222
2N2221
TT109
TT641
2N2481
2N3369A
TT1002
BF127
TT354
TT355
TT356
2N4027
2N4029
2N4028
2N4026
TT478
TT479
TT487
TT498
TT499
TT5OO
TT501
TT502
TT503
TT504
TT505
TT506
TT507
TT508
TT509
TT510
TT511
TT512
TT516
TT524
TT525
TT526
TT532
TT541
TT542
TT556
TT561
TT562
TT563
TT564
2N3478
TT479
TT748
TT5OO
TT500
TT5OO
BF127
BF127
BF127
2N2368
BF127
2N2221A
TT507
BF257
TT509
TT109
TT638
2N2838
BF127
BF127
BF127
2N2615
TT638A
2N3053
2N997
2N3232
2N997
BC107
TT3057
BC107
TT181
TT182
TT183
TT185
TT186
TT194
TT201
TT203
TT204
TT212
TT223
TT224
TT4248
TT4250
TT4249
TT4248
TT638A
TT194
2N2219
TT361
TT364
TT365
TT383
TT396A
TT402
TT403
TT405
TT406
TT408
TT409
TT3056
TT3646
2N4029
TT8143
2N396A
2N2838
TT403
2N4033
TT4121
TT4122
2N2219A
TT567
TT568
TT569
TT57O
TT572
TT596
TT601
TT603
TT604
TT605
TT606
TT608
TT567
TT568
TT569
TT567
2N3250
2N2222A
TT1113
TT643
TT644
2N3133
2N2219
TT608
BF121
2N3701
2N2221
2N3701
TT608
2N2222A
TT3563
TT3563
2N2615
2N2615
TT8106
2N3962
2N2218
TT1102
TT1001
TT1102
TT920
TT920
TT2270
TT1001
TT1102
TT1112
TT1102
TT1102
2N743
TT1OO1
TT1102
TT1112
TT1102
BF127
TT1OO1
TT1OO1
TT1102
TT1112
TT1OO1
TT641
TT567
TT641
TT354
2N4028
BF127
2N2838
2N3250
2N325O
2N4034
TT212
2N3701
2N3672
'T T" REPLACEMENT GUIDE (Continued)
TYPE
No.
REPLACE
WITH
TYPE
No.
REPLACE
WITH
TYPE
No.
REPLACE
WITH
TT623
TT638
TT638A
TT641
TT642
TT643
TT644
TT645
TT646
TT647
TT652
TT701
TT709
TT710
TT711
TT715
TT716
TT721
TT722
T'T723
TT724
TT724A
TT729
TT730
TT731
TT732
TT733
TT738
TT741
TT742
TT743
TT744
TT745
TT746
TT747
TT748
TT749
TT750
TT751
TT752
TT753
TT754
TT755
TT756
TT757
TT758
TT759
TT760
TT761
TT762
TT763
TT764
TT770
TT775
TT776
TT783
TT795
TT796
TT797
TT798
TT799
TT800
TT8OOA
TT801
TT801A
TT802
TT803
TT804
TT808
TT809
TT850
TT851
TT852
TT853
TT854
TT855
TT861
TT901
TT902
TT903
TT907
TT908
TT909
TT913
TT914
TT916
TT917
TT918
TT919
TT920
TT921
TT927
TT932
TT956
TT967
TT977
TT990
TT991
TT992
TT993
TT995
TT1001
TT1002
TT1010
TT1090
TT1101
TT1102
TT1103
2N4029
TT638
TT638A
TT641
TT642
TT643
TT644
TT645
TT3646
2N647
2N2222A
TT701
TT355
TT710
2N2194
TT638A
2N3108
TT721
TT722
TT723
TT641
TT724A
2N2615
TT109
TT1001
TT638
TT638A
TT567
2N4032
2N3666
TT753
TT744
TT642
2N2907
TT747
TT748
TT109
TT109
TT751
2N2838
TT753
TT1002
TT1002
TT751
TT641
TT638
2N3055
TT798
TT641
TT762
BF257
TT5OO
TT641
2N3666
2N2297
2N915
2N3251
TT638
TT800
TT801
TT799
TT8OO
TT8OOA
TT801
TT801A
TT641
2N4028
2N3700
TT808
TT809
2N869A
TT109
TT5OO
TT109
TT356
2N2615
2N861
TT1001
TT641
TT643
TT1106
TT3644
TT1002
TT643
TT3641
TT3641
TT1106
2N2616
TT919
TT920
TT921
TT641
TT644
TT3057
TT608
2N2907
BC107
BC107
BC107
BC107
2N3250
TT1001
TT1002
TT1010
BC109C
TT1001
TT1102
TT1103
TT1104
TT1105
TT1106
TT1107
TT1108
TT1109
TT1110
TT1112
TT1112A
TT1112B
TT1113
TT1 1 14
TT1115
TT1116
TT1117
TT1118
TT1119
TT1120
TT1121
TT1122
TT1126
TT1127
TT1129
TT1130
TT1131
TT1132
TT1137
TT1138
TT1139
TT1144
TT1145
TT1146
TT1147
TT1148
TT1149
TT1150
TT1151
TT1152
TT1153
TT1154
TT1157
TT1161
TT1166
TT1 167
TT1169
TT1170
TT1171
TT1172
TT1173
TT1174
TT1175
TT1176
TT1177
TT1179
TT1181
TT1182
TT1183
TT1184
TT1185
TT1186
TT1187
TT1191
TT1193
TT1194
TT1197
TT1199
TT12OO
TT1202
TT1205
TT1207
TT1209
TT1210
TT1211
TT1212
TT1214
TT1215
TT1216
TT1217
TT1218
TT1219
TT1220
TT1221
TT1222
TT1223
TT1224
TT1225
TT1226
TT1227
TT1228
TT1230
TT1231
TT1232
TT1233
TT1234
TT1235
TT1236
TT1237
TT1239
TT1240
TT1241
TT1242
TT1243
TT1 244
TT1245
TT1246
TT1247
TT1248
TT1249
TT1104
TT1105
TT1106
TT108
TT1108
TT3644
TT1110
TT1112
TT112A
TT1112B
TT1113
TT641
TT4248
TT3692
TT3002
TT1010
TT1002
TT109
TT748
TT3002
2N3117
TT1001
TT1104
TT1110
TT3643
TT1110
TT1104
TT3641
TT3564
TT1144
2N3117
TT1002
TT801
TT3645
TT742
TT3643
TT3644
TT3638
TT1001
TT109
TT4250
TT4122
TT109
TT3644
TT4356
TT3568
TT1001
TT1001
TT108
TT4121
TT1001
TT1001
TT3645
TT4354
TT3643
TT4354
2N3137
TT3568
TT3002
TT3567
TT3644
TT3638
TT4356
TT3461
TT1001
TT1104
TT4121
TT1010
TT3638
2N2369
TT4250
2N2219A
TT3644
TT3644
TT3638
TT3641
TT3638
TT4356
TT1001
TT3644
TT108
TT108
TT108
TT3568
TT3645
2N3072
TT3568
TT109
TT1001
TT1010
TT3567
TT3002
TT3643
TT3644
TT1002
TT4122
TT108
TT109
TT4122
TT4122
TT108
TT4121
TT3638
TT1001
TT108
TT3638A
TT109
TT4354
TT1255 2N2904
TT1256 TT3568
TT1613 2N2218
TT1614 2N2904
TT1691
TT1691
TT1708 2N1708
TT1711
2N2219
TT1712 2N2905
TT1956 TT753
TT1966 2N3252
TT2001
TT1001
TT2002 TT1002
TT2114 TT4121
TT2115 TT1002
TT2116 TT109
TT2117 TT638
TT2118 TT641
TT2119 TT641
TT2126 2N722
TT2121
TT1002
TT2122 TT109
TT2206 2N2206
TT2207 2N706
TT2270 TT2270
TT2351
2N3701
TT2351A 2N3701
TT2352 TT567
TT2352A TT567
TT2353 TT567
TT2353A TT567
TT2605 2N3962
TT2605A 2N3962
TT2613 TT641
TT2614 2N2906
TT2622 2N2221
TT2623 TT2623
TT2626 TT643
TT2695 2N722
TT2711
TT643
TT2712 TT645
TT2717 2N3302
TT2923 TT643
TT2923A TT643
TT2924 TT643
TT2925 BC107
TT2926 BC107
TT3001
TT3002
TT3002 TT3002
TT3003 2N2221
TT3053 2N3053
TT3054 TT8143
TT3055 TT3055
TT3055-1TT3055-1
TT3055-2TT3055-2
TT3055-3TT3055-3
TT3056 2N3701
TT3056A 2N3701
TT3057 TT3057
TT3057A TT3057
TT3116 2N722
TT3118 TT3118
TT3391
2N3391
TT3461
2N2369
TT3462 TT608
TT3463 2N2218
TT3464 2N722
TT3465 2N1132
TT3466 TT3466
TT3467 TT797
TT3468 TT3468
TT3469 TT3469
TT3484 2N4027
TT3485 2N2906A
TT3485A 2N2906A
TT3486 2N2907A
TT3486A 2N2907A
TT3560 TT645
TT3563 TT3563
TT3564 TT3564
TT3565 TT3565
TT3566 TT3566
TT3567 TT3567
TT3568 TT3568
TT3569 TT3569
TT3588 TT753
TT3589 2N4033
TT3596 2N2219A
TT3605 2N2369
TT3613 TT801
TT3638 TT3638
TT3638A TT3638A
TT3641
TT3641
TT3642 TT3642
TT3643 TT3643
TT36435 TT3643
TT3644 TT3644
TT36445 TT3644
TT3645 TT3645
TT3646 TT3646
TT3649 TT3645
TT3652 TT3118
TT3653 2N3299
TT3654 2N3299
TT3673 2N2907A
TT3792 TT3692
TT3693 TT3693
TT3694 TT3694
TT3702 TT3702
TYPE
No.
REPLACE
WITH
TT3704 TT3704
TT3705 2N3705
TT3706 TT641
TT3708 2N3708
TT3725 TT3725
TT3731
2N3731
TT3736 2N3736
TT3787 2N3302
TT4001
TT4001
TT4002 TT4002
TT4010 TT4010
TT40105 TT401O
TT4121
TT4121
TT4122 TT4122
TT4248 TT4248
TT4249 TT4249
TT4250 TT4250
TT425OA TT4249
TT4274 2N4274
TT4275 2N4275
TT4354 TT4354
TT4355 TT4355
TT4356 TT4356
TT4402 2N4402
TT4635 TT403
TT4636 TT748
TT5030 BF123
TT5656 2N914
TT5657 TT1002
TT5658 TT1001
TT5659 2N918
TT5660 2N2297
TT6010 2N2219A
TT6101
2N2218
TT6102 TT6102
TT6106 TT109
TT6107 TT567
TT6108 TT6108
TT6109 TT6109
TT6110 TT644
TT6113 2N2904A
TT6115 2N2218
TT6116 2N2904A
TT6118 TT6102
TT6119 2N3302
TT6120 TT6102
TT6122 TT4250
TT6123 2N3134
TT6126 2N3107
TT6127 TT109
TT6128 TT109
TT6135 TT3646
TT6138 TT2270
TT6139 TT403
TT6143 2N3137
TT6144 TT6102
TT6145 TT919
TT6150 2N2838
TT6152 2N4032
TT6153 2N4027
TT6711
TT6711
TT6712 TT6712
TT7101
TT1010
TT7104 TT1002
TT7105 2N2221
TT8001
TT298
TT8002 TT801
TT8105 TT3568
TT8106 TT8106
TT8107 TT801
TT8108 2N3671
TT8112 TT3567
TT8113 TT3569
TT8114 TT3568
TT8115 TT801A
TT8116
TT8117
TT8122 TT8143
TT8123 TT8141
TT8124 TT8143
TT8125 TT8141
TT8130 TT3055-2
TT8131 TT3055-1
TT8132 TT3055-2
TT8141
TT8141
TT8142 TT8142
TT8143 TT8143
TT8144 TT8144
TT8145 TT8145
TT8150 TT8OO
TT8510 TT800
TT8520 TT800
TT8521
TT8OOA
TT8520 TT8OO
TT8521
TT8OOA
TT8801
2N2218A
TT8801A 2N2219A
TT8802 2N2904A
TT8802A 2N2905A
TT8805 BF258
TT8806 BF257
TT8807 BF257
TT8810 BF258
TT8811
BF257
TT8812 TT3057
TT9067 2N3020
TT40362 2N4033
TT40410 TT747
-
b
"\
AUSTRALIAN MADE SILICON TRANSISTORS
PREFERRED RANGE
r"
VCBO VCEO VEBO
(V)
(V)
(V)
POWER
DlSS
TA=25°C
(mW)
MAX
|C
(mA)
|CES @VCE
nA
V
hFE
}C
mA
VCE
V
fT
MH,
(MIN)
Useage
Polarity Code
Type No.
Case
TT107
T018
45
45
5.0
360
25
-
-
40
120
1O(uA)
5.0
60
NPN
1
TT108
T018
30
25
6.0
360
25
-
-
150
450
1
10.0
60
NPN
1
TT109
T018
30
25
6.0
360
25
-
-
250
900
1
10.0
60
NPN
1
TT141
TO18
4Ot
40
5.0
360
100
25
30
70
200
10
1.0
300
PNP
1
TT171
T018
45
6.0
360
50
15
50
125*
500*
2
5.0
100
NPN
4
TT177
T018
35
40
5.0
360
25
-
-
50
300
0.1
5.0
50
PNP
1
TT178
T018
40
60
5.0
360
25
-
-
100
300
0.1
5.0
50
PNP
1
TT179
T018
40
40
5.0
360
25
-
-
250
700
0.1
5.0
50
PNP
1
TT194
T018
45
30
5.0
360
100
-
-
250
-
2.0
5.0
-
NPN
1
TT212
TO18
60
50
5.0
360
500
-
-
60
300
2.0
5.0
200
PNP
2
TT298
T039
60
30
7.0
800
1000
-
-
40
-
150
1.0
60
NPN
3
TT299
T018
60t
30
5.0
400
500
-
-
100
280
150
10.0
200
NPN
2
TT318
TO18
45t
45
4.0
360
50
-
-
100
400
10
10.0
200
NPN
4
TT354
T018
60
60
5.0
500
1000
-
-
40
120
100
5.0
100
PNP
2
TT355
TO18
60
60
5.0
500
1000
-
-
100
300
100
5.0
100
PNP
2
TT356
T018
80
80
5.0
500
1000
-
-
40
120
100
5.0
100
PNP
2
TT403
T039
80
80
5.0
BOO
1000
-
-
40
120
100
5.0
100
PNP
3
TT479
TO72
12
2.0
300
20
-
-
20
200
10.0
600
NPN
5
TT487
TO39
120
80
7.0
BOO
1000
-
-
40
120
1.0
60
NPN
3
TT500
TO18
150
140
5.0
450
100
-
-
25
-
10.0
10.0
-
NPN
6
TT507
T039
150
140
5.0
600
100
-
-
25
-
10.0
10.0
-
NPN
6
TT509
TO18
70t
50
5.0
360
50
-
-
50
200
10.0
5.0
200
NPN
4
TT567
TO18
80
40
5.0
500
1000
-
-
40
120
150
1.0
60
NPN
2
TT568
TO18
80
60
5.0
500
1000
·m
-
40
120
150
1.0
60
NPN
2
TT569
TO18
80
40
5.0
500
1000
-
-
100
300
150
1.0
60
NPN
2
TT608
TO18
30
30
5.0
400
500
-
-
80
-
10.0
10.0
-
PNP
2
TT638
T018
25
25
5.0
400
500
35
15
30
130
50
1.0
-
PNP
2
TT638A
TO18
25
25
5.0
400
500
35
15
115
300
50
1.0
-
PNP
2
TT641
TO18
6ot
30
5.0
400
500
-
-
40
120
150
10.0
200
NPN
2
TT642
TO18
6ot
45
5.0
400
500
-
-
40
120
150
10.0
200
NPN
2
TT643
TO18
6ot
30
5.0
400
500
-
-
100
280
150
10.0
200
NPN
2
TT644
T018
45
45
5.0
400
500
-
-
100
300
150
10.0
200
PNP
2
TT645
T018
60
60
5.0
400
500
-
-
100
300
150
10.0
200
PNP
2
TT701
T039
150
140
5.0
600
100
-
-
25
-
10.0
10.0
-
NPN
6
TT710
T039
150
140
5.0
600
100
-
-
25
-
10.0
10.0
-
6
TT721
T018
30
40
6.0
360
25
--
-
100
600
5.0
10.0
60
NPN
~
NPN
TT722
T018
4Ot
40
5.0
200
25
-
-
100
600
5.0
10.0
50
PNP
1
TT723
T018
6Ot
30
5.0
400
500
-
-
40
300
150
10.0
200
NPN
2
TT724A
T018
30
5.0
400
500
-
-
40
300
150
10.0
200
NPN
2
TT742
T039
100
60
7.0
BOO
1000
10
60
100
300
150
1.0
60
NPN
3
TT744
T039
120
120
(R)
5.0
BOO
1000
10
60
35
-
50
10.0
60
NPN
3
TT747
T039
80
80
5.0
800
1000
-
-
40
120
100
5.0
100
PNP
3
TT748
T039
120
80
7.0
800
1000
10
80
40
120
150
1.0
60
NPN
2
TT751
T018
30
25
6.0
360
25
-
-
150
450
10.0
60
NPN
1
TT753
TO18
80
40
5.0
500
1000
-
-
100
300
150
1.0
60
NPN
2
TT762
T018
60
60
4.0
360
50
-
-
100
130
10
5.0
200
NPN
4
TT797
T039F
60
60
5.0
800
1000
-
-
40
120
100
5.0
100
PNP
3
TT798
T039F
80
60
5.0
800
1000
-
-
40
120
150
1.0
60
NPN
3
TT799
T039
80
80
5.0
800
1000
-
-
70
100
10.0
10.0
100
PNP
3
TT799A
T039
80
80
5.0
800
1000
-
-
100
130
10.0
10.0
100
PNP
3
TT800
T039
60
60
5.0
BOO
1000
-
-
40
120
100
5.0
100
PNP
3
-
30t
6ot
MIN
@
MAX
8.0
150
1.0
1
^" .
TT800A
T039
60
60
5.0
800
1000
-
-
100
300
100
5.0
100
PNP
3
TT801
T039
80
60
5.0
800
1000
-
-
40
120
150
1.0
60
NPN
3
TT801A
T039
80
60
5.0
800
1000
-
-
100
300
150
1.0
60
NPN
3
TT808
T0180
30
25
6.0
360
25
-
-
150
450
10.0
60
NPN
1
t = BVCES. 0 LEADS SPREAD TO T039. F = FLANGE. R = BVCER· " = BVCEX. L 25°C CASE.
1.0
AUSTRALIAN MADE SILICON TRANSISTORS
PREFERRED RANGE
VQ3O VCEO VEBO
(V)
(V)
(V)
POWER
DlSS
MAX
TA=25°C
(mW)
|C
(mA)
fT
|CES@VCE
P'FE
nA
V
MIN
MAX
@
|C
mA
VCE
V
Use-
MH,
(MIN)
Polarity
age
Code
Type No.
Case
TT809
To18
4Ot
15
4.5
360
200
400
20
40
120
10.0
1.0
400
NPN
7
TT919
TO18
4Ot
15
4.5
360
200
400
20
20
60
10.0
1.0
400
NPN
7
TT920
TO39
45t
45
5.0
BOO
500
35
30
30
130
1.0
200
PNP
3
TT921
TO18
30
25
6.0
360
200
-
-
150
450
1.0
10.0
60
NPN
1
TT1001
TO18
45t
45
4.0
360
30
-
-
50
160
10.0
10.0
200
NPN
4
TT1002
TO18
45t
45
4.0
360
30
-
-
100
400
10.0
10.0
200
NPN
4
TT1010
TO17
3Ot
15
4.0
200
100
-
-
20
-
2.0
10.0
200
NPN
TT1102
TO18
15t
15
5.0
360
50
15
15
70
200
10.0
1.0
300
PNP
1
TT1103
T039
6ot
30
5.0
BOO
500
50
50
100
300
10.0
200
NPN
3
TT1104
TO39
45t
45
5.0
800
500
-
-
150
300
10
200
PNP
3
TT1105
TO39
60t
30
5.0
BOO
500
50
50
100
300
150
10.0
200
NPN
3
TT1106
TO39
25t
25
5.0
BOO
500
35
15
115
300
50
TT1108
T039
30
30
5.0
BOO
500
-
-
80
-
10.0
TT1110
TO39
25t
25
5.0
BOO
500
35
15
115
300
50
TT1112
T018
30
25
6.0
360
200
-
-
60
300
1.0
TT1112A
TO18
30
25
6.0
360
200
-
-
150
450
1.0
TT1113
T039
6ot
30
5.0
BOO
500
50
50
100
300
TT1691
TO18
80
60
7.0
500
1000
-
-
100
300
TT2270
TO39
100
60
7.0
BOO
1000
10
60
40
TT2623
TO39
Bot
80
5.0
BOO
1000
-
-
TT3002
TO18
3Ot
12
2.0
300
50
-
TT3055-1
TO3
7Oe
60
7.0
115W
15A
TT3055-2
TO3
5Oe
40
7.0
115W
15A.
TT3055-3
TO3
1OOe
80
12.0
115W
ISA
TT3057
TO18
120
80
7.0
BOO
1000
TT3118
TO39
85
60
4.0
800
TT3466
TO18
60
60
5.0
TT3468
TO18
80
60
5.0
TT3469
T039
80
60
TT3563
TO18
3Ot
TT3565
T018
30
TT3566
TO18
TT3567
T039
TT3568
TT3569
""\
50
150
1.0
200
PNP
3
10.0
200
PNP
3
1.0
200
PNP
3
10.0
60
NPN
1
10.0
60
NPN
1
150
10.0
200
NPN
3
150
1.0
60
NPN
2
120
150
1.0
60
NPN
3
100
300
100
5.0
100
PNP
3
-
20
200
8.0
10.0
600
NPN
5
-
-
20
-
4.0A
4.0
0.8
NPN
8
-
-
20
-
4.OA
4,0
0.8
NPN
8
-
-
20
-
4.OA
4.0
0.8
NPN
8
10
80
100
300
150
60
NPN
3
500
-
-
50
275
25
200
NPN
3
500
500
-
-
60
200
100
5.0
100
PNP
2
500
1000
-
-
60
200
150
1.0
60
NPN
2
5.0
BOO
1000
-
-
60
200
150
1.0
60
NPN
3
12
2.0
300
50
-
-
20
200
8.0
10.0
600
NPN
5
25
6.0
360
200
-
-
150
450
1.0
10.0
60
NPN
1
40
30
5.0
500
500
-
-
150
600
10.0
10.0
200
NPN
2
80
40
5.0
BOO
1000
-
-
40
120
1.0
60
NPN
3
TO39
80
60
5.0
800
1000
-
-
40
120
150
1.0
60
NPN
3
T039
80
40
5.0
BOO
1000
-
-
100
300
150
1.0
60
NPN
3
TT3638
TO39
25t
25
5.0
BOO
500
35
15
30
130
50
1.0
200
PNP
3
TT3638A
TO39
25t
25
5.0
800
500
35
15
115
300
50
1.0
200
PNP
3
TT3641
T039
6ot
30
5.0
BOO
500
50
50
40
120
150
10.0
200
NPN
3
TT3642
TO39
6ot
45
5.0
BOO
500
-
-
40
120
150
10.0
200
NPN
3
TT3643
T039
6Ot
30
5.0
BOO
500
50
50
100
300
150
10.0
200
NPN
3
TT3644
T039
45
45
5.0
BOO
500
-
-
100
300
150
10.0
200
PNP
3
TT3645
T039
60
60
5.0
BOO
500
-
-
100
300
150
10.0
200
PNP
3
TT3646
T018
4Ot
15
4.5
360
200
400
20
30
120
30
0.4
400
NPN
7
TT3692
TO18
45t
45
4.0
360
30
-
-
100
400
10.0
10.0
200
NPN
4
TT3693
T018
45t
45
4.0
360
30
-
-
50
160
10.0
10.0
200
NPN
4
TT3694
T018
45t
45
4.0
360
30
-
-
100
400
10.0
10.0
200
NPN
4
TT3702
T018
45t
45
5.0
360
500
35
30
115
300
50
1.0
200
PNP
2
TT3704
T018
60t
30
5.0
500
500
-
-
100
280
150
10.0
200
NPN
2
TT3725
TO39
80
80
5.0
800
1000
-
-
70
100
200
10.0
60
NPN
3
TT3725A
T039
80
80
5.0
BOO
1000
-
-
100
130
200
10.0
60
NPN
3
TT4001
T018
30
25
6.0
360
200
-
-
60
300
1.0
10.0
60
NPN
1
TT4002
T018
30
25
6.0
360
200
-
-
250
900
1.0
10.0
60
NPN
1
TT4010
T018
30
25
6.0
360
200
-
-
150
450
1.0
10.0
60
NPN
1
TT4121
T018
40t
40
5.0
360
50
25
30
70
200
10.0
1.0
300
PNP
1
150
t = BVCES. 0 LEADS SPREAD TO T039. F = FLANGE. R = BVCER- " = BVCEX. :1 25°C CASE.
1.0
16
"
"^
"m
AUSTRALIAN MADE SILICON TRANSISTORS
PREFERRED RANGE
POWER
DISS
VCBO VCEO VEBO
(V)
(V)
(V)
MAX
TA=25°C
(mW)
fT
|C
(mA)
|CES @ VCE
hFE
@
nA
V
MIN
MAX
|C
mA
VCE
V
Use-
MH,
(MIN)
Case
TT4122
TO18
4Ot
40
5.0
360
50
25
30
150
300
10.0
1.0
300
PNP
1
TT4248
TO18
35
40
5.0
360
100
-
-
50
300
0.1
5.0
50
PNP
1
TT4249
TO18
40
60
5.0
360
100
-
-
100
300
0.1
5.0
50
PNP
1
TT4250
TO18
40
40
5.0
360
25
-
-
250
700
0.1
5.0
50
PNP
1
TT4354
TO39
60
60
5.0
BOO
1000
-
-
40
120
100
5.0
100
PNP
3
TT4355
TO39
60
60
5.0
BOO
1000
-
-
100
300
100
5.0
100
PNP
3
TT4356
TO39
80
80
5.0
BOO
1000
-
-
40
120
100
5.0
100
PNP
3
TT6102
TO39
45
45
5.0
BOO
500
35
30
30
130
50
1.0
200
PNP
2
TT6108
TO18
60
30
5.0
500
1000
-
-
40
300
50
5.0
60
NPN
2
TT6109
TO18
60
60
5.0
500
1000
-
-
40
120
100
5.0
100
PNP
2
TT6711
TO18
6Ot
30
5.0
400
500
-
-
100
280
150
10.0
200
NPN
2
TT6712
TO18
25
25
5.0
400
500
35
15
30
130
50
1.0
PNP
2
TT8106
TO39
60
40
5.0
BOO
1000
-
-
40
120
100
1.0
NPN
3
TT8140
TO66
25
25
3.5
25W
1 5A
40
150
1.5A
2.5V
0.8
NPN
8
TT8141
TO66
-
55
5.0
25wA
15A
-
-
120
360
1A
4.0
0.8
NPN
8
TT8142
TO66
-
25
3.0
25WA
15A
-
-
120
360
1A
4.0
0.8
NPN
8
TT8143
TO66
-
55
5.0
25wjj
15A
-
-
50
150
1A
4.0
0.8
NPN
8
TT8144
TO66
-
25
3.0
25WA
15A
-
-
50
150
1A
4.0
0.8
NPN
8
TT8145
TO66
40
5.0
25WA
15A
-
-
25
100
1.5A
4.0
0.8
NPN
8
50
1OOµA 1OV
t = BVCES. 0 LEADS SPREAD TO T039. F = FLANGE. R = BVCER. " = BVCEX. L 25°C CASE.
Polarity
age
Code
Type No.
8ta = 45°C
USAGE CODE
1.
2.
3.
4.
i
LOW NOISE, LOW LEVEL, G.P. AMPLIFIER
LOW POWER G.P. AMPLIFIER & SWITCH
MEDIUM POWER G.P. AMPLIFIER & SWITCH
HIGH FREQUENCY AMPLIFIER AND SWITCH
5.
6.
7.
8.
LOW NOISE V.H.F. AMPLIFIER AND SWITCH
HIGH VOLTAGE SWITCH
HIGH SPEEDSWITCH
L.F. HIGH POWER SWITCH AND AUDIO AMP.
JEDEC TRANSISTORS FROM AUSTRALIAN MANUFACTURE
2N497
2N498
2N656
2N657
*2N698
2N699
2N699B
2N706
*2N706A
*2N706B
*2N721
2N722
*2N743
2N744
2N753
2N760
2N760A
*2N783
*2N784
*2N834
2N834A
*2N835
2N914
2N915
2N917
2N918
2N929
2N930
2N947
2N1132
2N1132A
2N 1682
2N1889
2N1890
2N1893
*2N 1973
*2N 1974
*2N 1975
*2N 1983
*2N 1894
*2N 1895
2N 1988
*2N978
*2N 1989
*2N 1131
*2N 1990
*2N1131A 2N1991
2N2192
2N2192A
2N2192B
2N2193
2N2193A
2N2193B
*2N2194
*2N2194A
*2N2194B
*2N2195
*2N 2195A
*2N2195B
2N2205
2N2219A
2N2221
2N2221A
2N2222
2N2222A
2N2242
2N2297
2N2303
*2N2368
2N2369
2N2369A
2N2443
2N2481
2N2510
2N2511
2N2586
2N2615
2N2616
2N2696
*2N2800
2N2801
*2N2837
2N2838
2N2868
2N2904
2N2904A
2N2906
2N906A
2N90)7
2N907A
2N2927
2N3011
2N3019
2N3020
2N3053
2N3055
2N3072
2N3073
2N3107
2N3117
2N3120
2N3121
2N3133
2N3134
2N3135
2N3137
2N3252
2N3253
2N3299
2N3300
2N3301
2N3302
2N3502 2N3963
2N3503 *2N3964
2N3504 *2N3965
2N3505 2N4013
2N3665 2N4014
2N3666 2N4026
2N3671 2N4027
2N3672 2N4028
2N3700 2N4029
2N3701 2N4030
2N3724 2N4031
2N3725 2N4032
2N3734 2N4033
2N2218
2N2218A
2N2219
2N2483
2N2484
2N2509
2N2905
2N2905A
2N3108
2N3109
2N3110
2N3326
2N3444
2N3945
2N3962
"INDICATES LOW YIELD TYPE. CONTACT STC CC FOR AVAILABILITY.
PRO-ELECTRON TRANSISTORS FROM AUSTRALIAN MANUFACTURE
BC107
BC266
BC108
BC340
BC109
BC341
BC140
BCY58
BC141
BCY59
BC143
BF120
BC160
BF257
BC161
BF258
NOTE SOME DEVICES MAY ALSO APPEAR IN IMPORTED DATA LISTING.
BC192
BF259
BC260
BFX29
BC261
BFX87
BC262
BFX88
BC263
2N4046
2N4047
IMPORTED
Type No.
Case
VCBOVCEOVEBO P°""'
Diss.
Max
(V)
(V)
(V) TA=25oC|C
(mW)
(mA)
TRANSISTORS
Max
|CES@ VCE
(nA)
hFE@
Min
Max
lC
(mA)
VCE ffT(min.)
(v)
(MHz)
15
50
125
260
2
5
85
15
50
240
500
2
5
85
15
30
125
260
2
5
85
15
30
240
500
2
5
85
1000
1000
1000
15
15
15
100
100
100
30 450
30 240
30 450
40
40
40
63
40 100
900
500
900
100
160
250
2
2
2
100
100
100
5
5
5
1
1
1
750
750
750
750
750
1000
1000
1000
1000
1000
100
100
100
100
100
60
60
60
40
40
40
63
100
40
63
100
160
250
100
160
100
100
100
100
100
5
5
5
5
5
750
750
750
750
300
1000
1000
1000
1000
100
100
100
100
100
40
60
60
60
100
40
63
100
250
100
160
250
-
-
70
20
20
45
45
25
5
5
5
5
5
300
300
300
300
300
100
100
200
200
200
15
15
15
3Ot
30t
30t
30t
70t
25
25
25
25
64
5
5
5
5
5
300
300
300
300
300
200
200
200
200
200
15
15
15
15
15
T092
TO18
T018
TO18
T092
70t
70t
70t
25
5Ot
64
64
64
25
45
5
5
5
5
5
300
300
300
400
300
200
200
200
600
200
15
15
15
100A
15
BC237B
BC238A
BC238B
BC238C
BC239B
T092
T092
T092
T092
T092
5Ot
30t
3Ot
30t
30t
45
25
25
25
25
5
5
5
5
5
300
300
300
300
300
200
200
200
200
200
BC239C
BC250A
BC250B
BC250C
BC251A
T092
T092
T092
T092
T092
3Ot
20
20
20
50t
25
20
20
220
45
5
5
5
5
5
300
300
300
300
300
BC251B
BC251C
BC252A
BC252B
BC252C
T092
TO92
TO92
TO92
T092
50t
50t
30t
30t
30t
45
45
25
25
25
5
5
5
5
5
BC253A
BC253B
BC253C
BC256A
BC256B
T092
T092
T092
T092
T092
30t
30t
3Ot
64t
64t
25
25
25
64
64
5
5
5
5
5
BC107A
BC107B
BC108A
BC108B
BC108C
BC109B
BC109C
BC1406
BC14OJO
BC14OJ6
T018
T018
T018
TO18
TO18
T018
T018
T039
T039
T039
50t
5Ot
30t
30t
30t
30t
30t
45
45
25
25
25
25
25
5
5
5
5
5
5
5
300
300
300
300
300
300
300
200
200
200
200
200
200
200
-
40
40
40
7
7
7
750
750
750
BC141-6
BC141-10
BC141-16
BC1686
BC16010
T039
T039
T039
T039
T039
-
60
60
60
40
40
7
7
7
5
5
BC16OJ6
BC161-6
BC161-10
BC161-16
BC17OA
T039
T039
TO39
T039
T092
20
40
60
60
60
20
BC170B
BC170C
BC171A
BC171B
BC172A
T092
T092
T092
T092
T092
20
20
50t
50t
30t
BC172B
BC172C
BC173B
BC173C
BC174A
T092
T092
T092
T092
T092
BC174B
BC190A
BC190B
BC192
BC237A
X=25°c case
Yvcev
tVCES
'
Polarity
Useage
Code
85
85
85
50
50
50
NPN
NPN
NPN
NPN
NPN
NPN
NPN
NPN
NPN
NPN
2
2
2
2
1
1
3
3
3
1
1
1
1
1
50
50
50
50
50
NPN
NPN
NPN
PNP
PNP
3
3
3
3
3
100
100
100
100
1
1
1
1
50
50
50
50
-
1
5
100
PNP
PNP
PNP
PNP
NPN
3
3
3
3
2
150
350
50 125
50 240
30 125
260
500
260
1
1
2
2
2
5
5
5
5
5
100
100
85
85
85
NPN
NPN
NPN
NPN
NPN
2
2
2
2
2
30 240
30 450
30 240
30 450
60 125
500
900
500
900
260
2
2
2
2
2
5
5
5
5
5
85
85
85
85
85
NPN
NPN
NPN
NPN
NPN
2
2
1
1
2
60
60
60
20
50
240
125
240
60
125
500
260
500
180
260
2
2
2
50
2
5
5
5
5
5
85
85
85
100
85
NPN
NPN
NPN
PNP
NPN
2
2
2
3
2
15
15
15
15
15
50 240
30 125
30 240
30 450
30 240
500
260
500
900
500
2
2
2
2
2
5
5'
5
5
5
85
85
85
85
85
NPN
NPN
NPN
NPN
NPN
2
2
2
2
1
200
200
200
200
200
15
100a
100A
100A
15
30 450
15d 35
15ci 80
15Cl 200
45 125
900
100
250
600
260
2
1
1
1
2
5
5
1
1
5
85
180
180
180
130
NPN
PNP
PNP
PNP
PNP
1
2
2
2
2
300
300
300
300
300
200
200
200
200
200
15
15
15
15
15
45 240
45 450
25 125
25 240
25 450
500
900
260
500
900
2
2
2
2
2
5
5
5
5
5
130
130
130
130
130
PNP
PNP
PNP
PNP
PNP
2
2
2
2
2
300
300
300
300
300
200
200
200
200
200
25
25
25
64
64
260
500
900
260
500
2
2
2
2
2
5
5
5
5
5
130
130
130
130
130
PNP
PNP
PNP
PNP
PNP
2
2
2
2
2
^|CBO"A
15
15
15
15
15
£ICBOuA
125
240
450
125
240
"VCB
STC-CANNON"=:=
Xtc=45°c
8ta=45°c
2
~
IMPORTED
Type No.
Case
VCBO
VCEO
(V)
BCY58A
BCY58B
BCY58C
BCY58D
BCY59A
T018
T018
T018
TO18
T018
(V)
32t
32t
32t
32t
45t
32
32
32
32
45
Power
VEBO Diss.
Max
(V) TA=25OC |C
(mW)
(mA)
TRANSISTORS
Max
|CES@
(nA)
VCE
(V)
1
hFE@
Min
Max
|C
(mA)
VCE
(V)
Useage
Code
fT(min)
(MHz)
Polarity
NPN
NPN
NPN
NPN
NPN
1
NPN
NPN
NPN
PNP
PNP
1
1
1
1
1
5
300
200
10
32
125
250
2
5
125
5
300
200
10
32
175
350
2
5
125
5
300
200
10
32
250
500
2
5
125
5
300
200
10
32
350
700
2
5
125
5
300
200
10
45
125
250
2
5
125
1
1
1
1
BCY59B
BCY59C
BCY59D
BCY78A
BCY78B
T018
T018
T018
T018
T018
45t
45t
45t
32t
32t
45
45
45
32
32
5
300
200
10
45
175
350
2
5
125
5
300
200
10
45
250
500
2
5
125
5
300
200
10
45
350
700
2
5
125
5
300
200
20
25
125
250
2
5
180
5
300
200
20
25
175
350
2
5
180
BCY78C
BCY78D
BCY79A
BCY79B
BCY79C
T018
T018
T018
T018
T018
32t
32t
45t
45t
45t
32
32
45
45
45
5
300
200
20
25
250
500
2
5
180
5
300
200
20
25
350
700
2
5
180
5
5
5
300
300
300
200
200
200
20
20
20
35
35
35
125
175
250
250
350
500
2
2
2
5
5
5
180
180
180
PNP
PNP
PNP
PNP
PNP
BD233
BD234
BD235
BD236
BD237
SOT32
SOT32
SOT32
SOT32
SOT32
45
45
60
60
100
45
45
60
60
80
5
5
5
5
5
25wZ
25wt
25wt
25wt
25wt
2A
2A
2A
2A
2A
100
100
100
100
100
45
45
60
60
100
40
40
40
40
40
250
250
250
250
160
150
150
150
150
150
2
2
2
2
2
3
3
3
3
3
NPN
PNP
NPN
PNP
NPN
8
8
8
8
8
BD238
BD433
BD434
BD435
BD436
SOT32
SOT32
SOT32
SOT32
SOT32
100
22
22
32
32
80
22
22
32
32
5
5
5
5
5
25Wt 2A
36wt 4A
36Wt 4A
36WL4A
36WF 4A
100
100
100
100
100
100
22
22
32
32
40
50
50
50
50
160
-
150
2A
2A
2A
2A
2
1
1
1
1
3
3
3
3
3
PNP
NPN
PNP
NPN
PNP
8
8
8
8
8
BD437
BD438
BD439
BD440
BD441
SOT32
SOT32
SOT32
SOT32
SOT32
45
45
60
60
80
45
45
60
60
80
5
5
5
5
5
36W+
36Wt
36wt
36W+
36wt
100
100
100
100
100
45
45
60
60
80
40
40
25
25
15
-
2A
2A
2A
2A
2A
1
1
1
1
1
3
3
3
3
3
NPN
PNP
NPN
PNP
NPN
8
8
8
8
8
BD442
BF120
BF198
BF199
BF240
SOT32
T018
T092
T092
T092
80
40
40
40
80
220
30
25
40
5
5
4
4
4
36wt 4A
300
30
250
25
250
25
255
25
100
200a
100A
100a
100A
80
200
40
40
20
15
20
27
38
67
220
2A
10
10
7
1
1
10
10
10
10
3
400
550
430
PNP
NPN
NPN
NPN
NPN
8
6
5
5
5
BF241
BF254
BF255
BF257
BF258
T092
TO92
T092
TO39
T039
40
30
30
160
250
40
20
30
160
250
4
5
5
5
5
255
220
220
5W
5W
25
30
30
100
100
100a
50A
5CA
20
100
200
36
115
67
25
25
125
-
1
1
1
30
30
10" 400
10
260
10
200
10
90
10
90
NPN
NPN
NPN
NPN
NPN
5
4
4
6
6
BF259
BF324
BF450
BF451
BF457
T039
TO92
TO92
T092
SOT32
300
30
40
40
160
300
30
40
40
160
5
4
4
4
4
5W 100
2508 25
150
25
150
25
106
100
5Oa
50a
50a
50A
50A
250
30
.30
30
100
25
25
60
30
25
160
-
30
4
1
1
30
10
10
10
10
10
90
350
325
325
90
NPN
PNP
PNP
PNP
NPN
6
4
4
4
6
BF458
BF459
BSW72
BSW73
BSW74
SOT32
SOT32
T018
T018
T018
250
300
40
40
75
250
300
25
25
40
4
4
5
5"
5
106
106
400
400
400
100
100
500
500
500
50A
50a
100a
100a
10a
200
250
30
30
50
25
25
40
100
40
120
300
120
30
30
150
150
150
10
10
5
5
5
90
90
150
150
150
NPN
NPN
PNP
PNP
PNP
6
6
3
3
3
BSW75
BSW82
BSW83
BSW84
BSW85
T018
T018
T018
T018
T018
75
40
40
75
75
40
25
25
40
40
5
5
5
5
5
400
500
500
500
500
500
500
500
500
500
10a
100a
100A
10A
10a
50
30
30
50
50
100
40
100
40
100
300
120
300
120
300
150
150
150
150
150
5
1
1
1
1
150
200
200
200
200
PNP
NPN
NPN
NPN
NPN
3
3
3
3
3
i =25°c case
Xvcev
4A
4A
4A
4A
4A
tvcES ^ |cbo"a
Z|cbo"a
ovcb
6tc=45°c
1
1
1
1
1
-- 6
8ta=45°c
TTL DIGITAL INTEGRATED CIRCUITS
t~"
General
The integrated digital circuits in TTL technique listed in the following table are available in MIC 54 . ., MIC 64 . . and MIC 74
. . configuration. They differ in the operating temperature range. Further, the configuration MIC 74 . . is available either in
ceramic package (suffix J to the type designation) or in plastic package (suffix N). The MIC 54 . . and MIC 64 . . configurations
will be delivered in ceramic package only (suffix J).
Temperature Ranges
Storage temperature Ts = —65 . . . +150°C, valid for all three series
Operating temperatures:
MIC 54 . . : Tamb = —55 . . . +125:C
MIC 64 .. : Tamb = -40 . . . " 85 C
MIC 74 . . : Tamb =
0 ....+ 70°C
Common Characteristics
Supply voltage:
Propagation delay:
Noise immunity:
Input clamping diodes
5V
13 ns typical
1 V typical
Description of circuit functions. Compatible with DTL 930 and TTL 9000 series.
i"
.r""
MIC . .00
MIC . .01
MIC. . 01 A
MIC . . 02
MIC . .03
MIC . . 03 A
MIC ..04
MIC . .05
MIC .. 05 A
MIC . .06
MIC .. 07
MIC .. 08
MIC .. 09
MIC .. 09 A
MIC.. 10
MIC .. 11
MIC .. 12
MIC .. 12 A
MIC.. 13
MIC. . 16
MIC .. 17
MIC.. 20
MIC . . 21
MIC . . 26
MIC .. 28
MIC . . 30
MIC . . 32
MIC . . 33
MIC .. 33 A
MIC . . 37
MIC .. 38
MIC . . 38 A
MIC. . 40
MIC . . 41 A')
MIC . . 42')
MIC . . 43')
MIC. .44')
MIC. .45')
MIC . . 46')
MIC. .46 A')
MIC . . 47 ')
MIC. .47 A')
MIC. .48')
MIC
MIC
MIC
MIC
MIC
MIC
MIC
MIC
MIC
MIC
MIC
. .
..
. .
..
. .
..
. .
. .
..
. .
. .
50
51
53
54
60
70
72
73
74
75')
76')
MIC . . 80
Quad 2-lnput NAND-Gate, standard output
Quad 2-Input NAND-Gate with open-collector output (5.5 V)
Quad 2-Input NAND-Gate with open-collector output (15 V)
Quad 2-Input NOR-Gate, standard output
Quad 2-lnput NAND-Gate with open-collector output (5.5 V)
Quad 2-Input NAND-Gate with open-collector output (15 V)
Hex Inverter, standard output
Hex Inverter with open-collector output (5.5 V)
Hex Inverter with open collector output (15 V)
Hex lnverter/Driver with open-collector output (30 V)
Hex Buffer/Driver with open-collector output (30 V)
Quad 2-Input AND-Gate, push-pull output
Quad 2-lnput AND-Gate, with open-collector output (5.5 V)
"
Quad 2-Input AND-Gate, with open-collector output (15 V)
Triple 3-lnput NAND-Gate, standard output
Triple 3-lnput AND-Gate, standard output
Triple 3-lnput NAND-Gate, with open-collector output (5.5 V)
Triple 3-lnput NAND-Gate, with open-collector output (15 V)
Dual 4-lnput Schmitt-triggered NAND-Gate, standard output
Hex lnverter/Driver with open-collector output (15 V)
Hex Buffer/Driver with open-collector output (15 V)
Dual 4-lnput NAND-Gate, standard output
Dual 4-lnput AND-Gate, standard output
Quad 2-lnput Interface NAND-Gate
Quad 2-lnput NOR-Buffer Gate
Single B-input NAND-Gate, standard output
Quad 2-Input OR-Gate, push-pull output
Quad 2-Input NOR-Buffer Gate, with open-collector output (5.5 V)
Quad 2-lnput NOR-Buffer Gate, with open-collector output (15 V)
Quad 2-lnput NAND-Buffer Gate, push-pull output
Quad 2-Input NAND-Buffer Gate, with open-collector output (5.5 V)
"
Quad 2-Input NAND-Buffer Gate, with open-collector output (15 V)
Dual 4-lnput NAND-Buffer Gate
BCD-to-Decimal Decoder with driver stages for driving numerical indicator tubes
BCD-to-Decimal Decoder, standard outputs for driving MIC 54 . ./MIC 64 . ./MIC 74 . . circuits
Excess 3-to-Decimal Decoder, standard outputs for driving MIC 54 . ./MlC 64 . ./MlC 74 . . circuits
Excess 3 Gray-to-Decimal Decoder, standard outputs for driving MIC 54 . ./MIC 64 . ./MlC 74 . . circuits
BCD-to-Decimal Decoder/Driver with open-collector output (30 V)
BCD-to-Seven Segment Decoder/Driver with open-collector output (30 V, 20 mA)
BCD-to-Seven Segment Decoder/Driver with open-collector output (30 V, 40 mA)
BCD-to-Seven Segment Decoder/Driver with open-collector output (15 V, 20 mA)
BCD-to-Seven Segment Decoder/Driver with open-collector output (15 V, 40 mA)
BCD-to-Seven Segment Decoder, outputs for driving MIC 54 . ./MlC 64 . ./MlC 74 . . circuits
Dual 2-Wide, 2-lnput AN D-NOR-Gate, standard output (expandable by MIC 5460/MIC 6460/MlC 7460)
Dual 2-Wide, 2-lnput AND-NOR-Gate, standard output
4-Wide, 2-lnput AN D-NOR-Gate, standard output (expandable by MIC 5460/MlC 6460/MlC 7460)
4-Wide, 2-lnput AND-NOR-Gate, standard output
Dual 4-1 nput Expander
DC-Clocked J-K Flip-Flop, one J-input, one K-input, two J-inputs, two K-inputs, standard outputs
J-K Master-Slave Flip-Flop with three J-inputs and three K-inputs, standard outputs
Dual J-K Master-Slave Flip-Flop, standard outputs
Dual D-FI1p-FIop, standard outputs
Quad D-FI1p-FIop, standard outputs
Dual J-K Master-Slave Flip-FIop, standard outputs
I-Bit Full Adder, standard outputs
TTL DIGITAL INTEGRATED CIRCUITS
MIC. .81
MIC . .82
MIC ..83')
MIC ..86
MIC . . 90
MIC . . 91 A
MIC . .92
MIC .. 93
MIC . . 94')
MIC . .
MIC . .
MIC . .
MIC..
95
95 A
96' )
100')
MIC. . 104
MIC . . 105
MIC . . 107
MIC.. 109')
MIC..
MIC . .
MIC ..
MIC..
118
121
122
123')
MIC . .
MIC ..
MIC . .
MIC . .
MIC . .
MIC. .
MIC . .
MIC..
MIC..
MIC ..
MIC . .
MIC..
MIC ..
MIC..
MIC..
MIC..
MIC..
MIC ..
MIC..
MIC. .
124
130
131
135
137
138
139
141')
145')
150')
151')
153')
154')
155')
156')
157')
160')
161')
162')
163')
MIC. .
MIC . .
MIC ..
MIC ..
164
165')
166')
174')
MIC ..
MIC..
MIC . .
MIC..
MIC..
180
192')
193')
194')
195')
16-Bit Memory with active elements (RAM)
2-Bit Full Adder, standard outputs
4-Bit Full Adder, standard outputs
Quad 2-lnput Exclusive OR-Gate, standard outputs
Decade Counter, standard outputs
B-Bit Shift Register, data serial-in and serial-out, standard outputs
Divide by 12 Counter (divide by two and divide by six), standard outputs
4-Bit Binary Counter, standard outputs
4-Bit Shift Register, data serial-in or parallel-in and serial-out
4-Bit Shift Register, data-in and data-out serial or parallel, standard outputs
4-Bit Shift Register, data-in and data-out serial or parallel, push-pull outputs
5-Bit Shift Register, data-in and data-out serial or para||el
Dual Quad D-F11p-FIop, standard outputs
J-K Master-Slave Flip-Flop, three J-inputs, three K-inputs, one JK-input, push-pull outputs
J-K Master-Slave Flip-Flop, two J-inputs, two K-inputs, one J-input and one K-input, one JK-input,
push-pull outputs
Dual J-K Master-Slave Flip-Flop, electrical characteristics equal to MIC . . 73, standard outputs
Dual JK-(or D-) Flip-Flop, standard outputs
6-B it Set-Reset Latch
Monostable Multivibrator, standard outputs
Monostable Multivibrator, retriggerable, push-pull outputs
Dual Monostable Multivibrator, retriggerable, push-pull outputs
Universal Pulse Generator, pulse duration 35 ns . . . 40 s
Quad 2-Input AND-Buffer with open-collector output (30 V, 100 mA)
Quad 2-lnput AND-Buffer with open-collector output (15 V, 100 mA)
Quad 2-Input Positive NAN D Schmitt Trigger, push-pull outputs
Hex Inverter Schmitt Trigger with high input impedance, push-pull output
Quad 2-lnput OR-Buffer with open-collector output (30 V, 100 mA)
Quad 2-lnput OR-Buffer with open-collector output (15 V, 100 mA)
BCD-to-Decimal Decoder with transistor output stages for driving numerical indicator tubes
BCD-to-Oecimal Decoder/Driver with open-collector output (15 V)
16-Bit Dataselector/Multiplexer, push-pull outputs
B-Bit Dataselector/Multiplexer, standard outputs
Dual 4-Bit Dataselector/Multiplexer, push-pull output
4-Line to 16-Line Decoder/Demultiplexer
Dual 2-Line-to-4-Line Decoder/Demultiplexer, standard outputs
Dual 2-Line-to-4-Line Decoder/Demultiplexer, open-collector outputs (5.5 V)
Quad 2-Bit Dataselector/Multiplexer, push-pull output
Synchronous Decade Counter with direct clear, push-pull outputs
Synchronous 4-Bit Binary Counter with direct clear, push-pull outputs
Synchronous Decade Counter with synchronous clear, push-pull outputs
Synchronous 4-Bit Binary Counter with synchronous clear, push-pull outputs
B-Bit Shift Register, data serial-in and parallel-out, push-pull outputs
B-Bit Shift Register, data parallel-in and serial-out, push-pull outputs
B-Bit Shift Register, data serial-in or parallel-in and serial-out, push-pull outputs
Hex D-FI1p-FIop with reser input
~
B-Bit Odd/Even Parity Generator/Checker
Synchronous BCD-Up/Down Counter
Synchronous Binary 4-Bit Up/Down Counter
4-Bit Shift Register for both shifting directions, data-in serial or parallel, data-out parallel, push-pull outputs
4-Bit Shift Register, data serial-in or parallel-in and parallel-out, push-pull outputs
6
">
i) These circuits have 16 pins
2) These circuits have 24 pins and are available in ceramic package only.
MIC 54, 64, 74 Series are completely pin compatible with 74 Series TTL of other brands.
"6
STC·CANN0N :;:."?,"=
INTEGRATED CIRCUITS
-
FOR
COLOUR TELEVISION
TBA 120
FM IF Amplifier and Demodulator
Moholithic integrated FM IF amplifier designed specifically for use in the sound IF stage of television receivers and the FM IF
stage of radio receivers. It comprises a broadband symmetrical amplifier and a coincidence circuit for the demodulation. Gain can
be varied within a wide range by variation of the emitter current of a differential amplifier stage; this means that the volume
potentiometer carries DC only.
TBA 120 S
FM IF Amplifier and Demodulator
The TBA 120 S is a further development of the TBA 120. It features improved electrical properties using the same basic concept.
Because of this and the identical terminal configuration the TBA 120 S is a plug-in replacement for the TBA 120.
As an additional feature the TBA 120 S contains a transistor (|C = max. 5mA) which can be used as AF amplifier or as remotecontrolled tone switch. Furthermore it contains a Zener diode (Vz = 12 V, |z = max. 15mA) which can be used for example to
stabilize the supply voltage of the TBA 120 S. Terminals of the transistor: No 1 emitter, No 3 collector, No 4 base. Terminals of
the Zener diode: No 1 anode, No 12 cathode.
TBA 500 N, TBA 500 P
Luminance Combination
The monolithic integrated circuit TBA 500 is designed for application in colour TV receivers and incorporates a luminance amplifier circuit and a keyed AGC circuit for generating the control voltages for the tuner (PNP) and the IF amplifier (NPN).
The luminance amplifier features brightness adjustment and DC operated contrast control by means of a linear electronic potentiometer which maintains a constant black level over its range of operation. A beam current limiting facility is provided, first reducing
the picture contrast and then the brightness. Horizontal and vertical flyback pulses may be applied.
Delay line matching stages are provided.
TBA 510
Chrominance Combination
The TBA 510 is a monolithic integrated chrominance amplifier circuit for colour TV receivers incorporating a variable stage with
automatic coIour control (ACC) for the chroma signal, a DC control for the chroma saturation, a coIour killer with Schmitt trigger,
a driver stage for the PAL 64 µs delay line, chroma blanking and burst gating functions including burst output transistor.
TAA 630 S, TBA 520
Synchronous CoIour Demodulators
The monolithic integrated coIour demodulator circuits TAA 630 S and TBA 520 are intended for use in TV receivers. Each device
incorporates two active synchronous demodulators for the (B-Y) and the (R-Y) chrominance signals, a matrix producing the (G-Y)
colour difference signal and the PAL switch including flip-flop.
/"
Both lCs are largely identical in design and function. However, in conjunction with the RGB circuit TBA 530 the TBA 520 is
mainly used for driving RGB output stages.
TBA 530
R-G-B Matrix Pre-Amplifier
The TBA 530 is a monolithic integrated R-G-B matrix pre-amplifier for colour TV receivers incorporating a matrix pre-amplifier
for R-G-B cathode or grid drive of the picture tube without clamping circuits. Identical layout of all three channels and tight
thermal coupling of all transistors in each channel ensures identical frequency behaviour and minimal thermal drift between each
channel.
TBA 540
Reference Combination
The TBA 540 is a monolithic integrated reference oscillator circuit for colour TV receivers incorporating an automatic phase and
amplitude controlled oscillator, together with a half-line frequency synchronous demodulator circuit, a circuit for generation of
automatic colour control (ACC) signal, colour killer and identification signals.
TBA 560
Luminance and Chrominance Control Combination
The TBA 560 is a monolithic integrated luminance and chrominance control circuit for colour TV receivers incorporating circuits
for the processing and control of the luminance and chrominance signals. The luminance part provides"delay line matching, DC
contrast control, black level clamp circuit, brightness control, flyback blanking and beam current limiting by reduction of picture
contrast. The chrominance part provides chroma amplification with ACC, DC chroma gain control which tracks the coRtract corr
trol, separate saturation control, burst gate, chroma signal flyback blanking, colour killer and PAL delay line driver.
TBA 940, TBA 950
Controlled Pulse Generators
Monolithic integrated circuits for pulse separation and line synchronization in television receivers with thyristor line output stage
(TBA 940), or transistor line output stage (TBA 950).
Each of these lC's comprises the sync separator with noise suppression, the frame integration network, the phase comparator, a
switching stage for automatic changeover of noise immunity, the line oscillator with frequency range limiter, a phase control
circuit, and the output stage.
Both types deliver a prepared frame sync pulse for triggering the frame oscillator. The phase comparator may be switched for video
recording operation. Due to the large scale of integration few external components are needed.
The TBA 950 will be supplied in two groups with different output pulse duration.
/"
TAA 790
Controlled Pulse Generator
Monolithic integrated circuit intended for pulse separation and line synchronization in TV sets.
This device, comprising the sync separator with noise suppression, the phase detector, a switching stage for automatic changeover
of noise immunity, and the line oscillator, is designed to replace similar discrete functions. The feedback of the reference pulse
from line transformer to phase detector is no longer required, since the control loop for the line synchronization is located within
the TAA 790. Thus synchronization is not dependent on the shape of the flyback pulse.
LINEAR
INTEGRATED CIRCUITS
MIC 709 High Gain Operational Amplifier
Low offset, high input impedance, large input common mode range, high output swing under load and low power consumption. The amplifier is intended for use in DC servo systems, high input impedance analogue computers, low-level instrumentation applications and for the generation of special linear and nonlinear transfer functions.
Operating
' temperature range T ,mb = 0 · · , +70oC o
T ,mb = -55 . . . +125 C
"\
1st suffix -5
1st suffix
. -1
Package TO-99 metal case
2nd suffix
, C
MIC 710 Differential Voltage Comparator
Very good offset voltage matching and fast pulse response time. The device is useful as a variable threshold. Schmitt trigger,
a pulse height discriminator, a voltage comparator in high-speed analogue-digital converters, a memory sense amplifier or a
line receiver with high noise immunity. The output of the comparator is compatible with all integrated logic forms.
Operating
temperature range Tamb "- 0 · · , +70oC o
'
T ,mb = —55 . . . +125 C
MIC 711
1st suffix -5
1st suffix -1
Package TO-99 metal case
2nd suffix
. C
Dual Voltage Comparator with high accuracy and fast response time
Common OR-gated output. Primarily intended for magnetic core memory sense amplifier applications. The threshold voltage
can be adjusted over a wide range, almost independent of the integrated circuit characteristics. Independent strobing of each
comparator channel is provided, and pulse stretching is easily accomplished. Good compatibility with all integrated logic
forms. Other applications: Window discriminator in pulse height detectors, and double-ended limit detector for automatic
Go/No-go test equipments. The MIC 711 is particularly suitable in all cases where two MIC 710 would be required.
Operating
temperature range Tamb -_ 0 · . · +70oC o
'
T,mb = -55 . . . +125 C
MIC 712
1st suffix -5
1st suffix -1
Package TO-100 metal case 2nd suffix C
Wide-Band Operational Amplifier
Typical applications: Operational amplifiers in high-speed analogue computers and in all other applications requiring a feedback amplifier useful in the range of 0 . . . 30 MHZ.
Operating
' temperature range T amb = 0 · · , +70°C o
T,mb = —55 . . . +125 C
1st suffix -5
1st suffix
, -1
Package TO-99 metal case
2nd suffix C
MIC 723 Precision Voltage Regulator
Monolithic voltage regulator adjustable from 2 to 37 V. Additional NPN or PNP pass transistors may be used when output
currents exceeding 150mA are required. Provisions are made for adjustable current limiting and remote shutdown by using
terminals 1 and 10. Considerably higher voltages can be regulated when floating operation is applied.
Operating
° temperature range T amb = 0 · · , +70OC o
T ,mb= —55 . . . +125 C
1st suffix -5
1st suffix -1
Package TO-100 metal case
""\
2nd suffix C
MIC 726 Temperature Controlled Differential Transistor Pair
Monolithic integrated transistor pair for input stages of DC amplifiers with very low zero-drift. Besides the transistor pair the
silicon chip incorporates an active temperature regulator circuit which keeps the device at a constant temperature independent of the ambient temperature. It is intended as replacement for complex chopper-stabilized amplifiers or as a nonlinear
element in logarithmic amplifiers and multipliers where the highly predictable exponential relation between emitter-base
voltage and collector current is employed.
Operating temperature range T amb"- 0 · ' , +70°C O
T ,mb= —55 . . . +125 C
MIC 741
1st suffix -5
1st suffix
. -1
Package TO-100 metal case
2nd suffix
. C
High Performance Operational Amplifier with Internal Frequency Compensation
No frequency compensation is required. The high gain and wide range of operating voltages provide superior performance to
the MIC 709 in integrators, summing amplifiers, and general feedback applications. The pin configuration is the same as that
of the MIC 709.
Operating
" temperature range Tamb = 0 · · · +70oC o
T ,mb= -55 . . . +125 C
1st suffix -5
1st suffix
, -1
Package TO-99 metal case
2nd suffix C
"">
STC·
COMPONENTS
PTY. LIMITED
CLOCK AND WATCH INTEGRATED CIRCUITS
TBA 840, TCA 840
Single Coil Watch-Driving Circuits for Wrist Watches
Monolithic integrated circuits for driving wrist watches with single coil balance systems.
Besides the driving coil the TBA 840 requires only one external capacitor and allows for an extremely space-saving assembly of
the electronic watch circuitry. Self-starting is guaranteed for oscillation systems with sufficient induced voltage. The mechanical
oscillation amplitude is stabilized against external influences. Within the specified temperature range, the amplitude variation is
only a few degrees. The circuits are operated from the conventional mercury or silver oxide batteries. The TCA 840 A (green) is
designed for watches with light-weight balance systems. For watches with tuning fork oscillators or relatively inert balance
systems the use of TCA 840 B (red) is recommended.
SAJ 220 H
Fifteen Stage Frequency Divider with Oscillator and Motor Control Circuit for QuartzControlled Wrist Watches
The monolithic integrated circuit SAJ 220 H is intended for use in quartz-controlled wrist watches. It comprises an oscillator circuit, 15 divider stages, a pulse shaper, a motor driving circuit, a clock setting stage and a stabilizing circuit.
Apart from the oscillator quartz and the trimmer capacitor for the frequency correction the symmetrical oscillator requires no
additional components. With an oscillator frequency of 32,768 Hz the output stage supplies monopolar pulses with a repetition
rate of 1 Hz and a duration of 8 ms. By closing the reset contact (pin 1 to ground) the frequency divider may be stopped definite.
By opening this contact the watch can be started exactly within fractions of a second. Current consumption of the circuit is programmed by an external resistor and stabilized against supply voltage variations.
Other values of oscillator frequency, divider ratio, output circuitry and output pulse duration are available in the same package
upon request.
SAJ 220 S
Fifteen Stage Frequency Divider with Oscillator and Motor Control Circuit for Quartz-Controlled Clocks
The monolithic integrated circuit SAJ 220 S is intended for use in quartz clocks. It comprises an oscillator circuit, 15 divider
stages, a pulse shaper, a motor driving circuit, a stabilizing circuit and a limitation circuit.
Apart from the oscillator quartz and the trimmer capacitor for the frequency correction the symmetrical oscillator requires no
additional components. With an oscillator frequency of 32,768 Hz the output stage supplies monopolar pulses with a repetition
frequency of 1 Hz and 32 ms duration. A limitation circuit renders the output pulse voltage independent from the supply voltage
variations. Current consumption of the circuit is programmed by an external resistor and stabilized against supply voltage variations.
Other values of oscillator frequency, divider ratio, output circuitry and output pulse duration are available in the same package
upon request.
TAA 780
1.1 V Stabilizing Circuit
Monolithic integrated circuit for the voltage-stabilized drive of clocks and for the stabilisation of the operating point in transistor
circuits. The circuit comprises the operating transistor T1 and a control circuit for the stabilization of the output voltage to 1.1 V.
SPECIAL
INTEGRATED CIRCUITS
UAA 110
Control Circuit for Still Cameras
Monolithic integrated circuit for the control and monitoring of all functions of an electronic still camera.
In order to avoid over-exposures in brightly-lit scenes and blurred pictures in dim light, a measurement phase precedes the automatic setting of the exposure time. In this phase the light intensity is measured as the shutter release is depressed half way. The
indicator lamps Lu (over-exposure indicator) and Ls (tripod indicator) show respectively whether the aperture must be reduced
or a tripod (or a larger aperture) should be used. For this purpose two voltage comparators are used which are controlled during
the measurement phase by the photoresistor RF. In addition the state of the battery can be checked by blocking the light (e.g.
with the finger) to the photoresistor. If the lamp does not light the battery is exhausted.
After the measurement phase if the shutter release is fully depressed, the photoresistor is connected to the integration capacitor at
the input of the threshold amplifier. At the same time the shutter is opened and held open by a latch during the exposure time.
The light dependance of the photoresistor determines the charging time of the capacitor CF and thus the exposure time. When
the voltage across the capacitor reaches the threshold voltage of the amplifier (determined by the voltage divider) the electromagnet is activated and the latch releases the shutter which closes by means of a spring.
r"
TCA 350
Delay Line for Analog Signals
Monolithic integrated circuit in MOS technology for the delay of analog signals in the range of low frequency up to 250 KHZ. It is
designed according to the principle of the bucket brigade circuit and comprises 185 series-connected field effect transistors and
185 integrated capacitors.
TBA 800
5 Watt Audio Power Amplifier
The monolithic integrated audio frequency power amplifier TBA 800 fulfils all functions of a conventional AF amplifier. It
comprises pre-stage, driver stage, phase inversion stage and a quasi-complementary Class AB push-pull output stage. The output
power of 5 W renders it appropriate for TV receivers, medium class radio sets, inter-office communicators, paging systems, door
intercoms, tape recorders and many other applications.
.
INTEGRATED CIRCUITS
FOR
ELECTRONIC ORGANS
SAH 190
Twelve Tone Generator
Three units of this monolithic integrated special LSl circuit in MOS technique are required to generate the twelve notes of the
highest octave in electronic organs.
A two-phase clock generator, which is in practice the master oscillator of the organ, is required for driving the SAH 190. This
generator delivers a frequency considerably higher than that of the highest octave. An SAH 190 generates four tones by dividing
the clock frequency. The frequency spacing of these tones corresponds to an interval of three semitones. By externally switching
the connection Option I these four notes can be lowered as desired by a semitone or by a whole tone so that the twelve master
oscillators required hitherto can be replaced by three SAH 190 units. By switching the connection Option ||, the output frequencies
of the SAH 190 can be modified by one octave. One can therefore choose whether the tones generated are to lie in the third octave
or the fourth octave above middle C, for instance.
"\
The outputs A to D of the SAH 190 are specially designed for directly driving the integrated frequency divider SAJ 110. In addition, a further load with a resistance greater than 10 kS2 can be connected. The output signal has a square wave form with a
pulse duty factor of 0.5. The greatest deviation of the twelve tones from the equal temperament scale is ± 0.03%.
SAJ 110
Seven Stage Frequency Divider
Monolithic integrated circuit in bipolar flip-flop technique, designed primarily for use in electronic organs. The device incorporates
seven flip-flops with externally accessible inputs and outputs.
An emitter follower is inserted between each flip-flop and the associated output pin to ensure that the output voltage is largely
independent of load. Because no internal emitter resistors are provided, the emitter followers deliver unidirectional output currents.
Individual flip-flops can be interconnected to form a divider chain. Two flip-flop pairs are already internally series-connected.
When used in electronic organs, the SAJ 110 may be dtiven by sinusoidal as well as by square wave input signals. The output is
always in the form of a square wave; this, however, can be modified by connection of an external RC network. These networks
should be connected via isolating diodes (e.g. type BA 170) to eliminate any interaction between stages.On application in counter
circuits resetting may be required. This can be accomplished by bringing all outputs to a potential less than 1.5 volts. The active
edge of the reset pulse has to be fast enough to complete the resetting within less than 0.1 ms, otherwise the device may be overloaded.
"
TCA 430-N
Quad Organ Oscillator
The monolithic integrated circuit TCA 430-N contains four RC oscillators in one package and is designed for use in electronic
organs. Three TCA 430-N integrated circuits give the twelve master oscillators of the highest octave. The symmetrical square wave
output signals of the oscillators are suitable for driving the integrated frequency divider SAJ 110, with which the lower octaves
are obtained.
The TCA 430-N is thermally neutral, that is, the integrated circuit itself does not have any effect on the oscillator frequency as a
function of temperature; the frequency stability is dependent only on the temperature coefficient of the frequency-determining
RC elements. A vibrato effect can be generated for all the oscillators together via the vibrato input pin 4.
">
TBA 470
Ten-input Gate
Monolithic integrated circuit in bipolar technique, designed primarily for use in electronic organs. The device incorporates ten
transistors, each replacing a mechanical key-contact. Thus it is possible to reduce the numerous mechanical key-contacts on conventional organs (up to ten per key) to one single contact per key.
Each tone-signal to be switched may be fed into one of the ten emitters as a driving current or connected to the two base pins.
The transfer of the different signals to the common collector is effected by DC voltages. The sum of all signals will be derived via
an integrated diode at pin 1. Any undesired peaks caused by blocked transistors are suppressed by this diode and an external
capacitor connected to pin 14 and ground.
AUTOMOTIVE
INTEGRATED CIRCUITS
SAK 115
Pulse Shaper for Rev'Counters
The monolithic integrated circuit SAK 115 is designed for use in revolution counters of cars. By use of suitable external circuitry the revolution counter can be adapted to engines with two to eight cylinders. It is designed for a nominal 12 V DC supply.
The heart of the SAK 115 is a monostable flip-flop which converts the input signal (for example, directly from the contact
breaker) into square wave pulses with constant voltage and duration. Using an 8 mA moving coil instrument it is possible to
design a simple frequency meter.
The circuit is so designed that with the use of a suitable instrument the readings will be practically independent of temperature.
The push-pull output allows for the use of instruments with a meter coil of high inductivity even at high frequencies. An integrated
diode which is parallel to the input pins 2 and 3 prevents triggering by negative pulses. The circuit can be triggered only by pulses
exceeding 8 V which can be derived via a voltage divider from the contact breaker. Thus good noise immunity is obtained.
SAY 115
Speedometer and Mileage Indicator
The monolithic integrated circuit SAY 115 is designed for use in electronic speedometer and mileage indicator systems in automobiles.
This Integrated Circuit comprises a monostable flip-flop with Schmitt trigger input and an output stage comprising a
current source whose current is indicated by a moving coil instrument. A binary five-stage divider followed by a double output
stage controls a stepping motor with two windings for mileage indication. An anologue output controlled by the monostable
flip-flop may be used to obtain an additional signal when an arbitrarily selected speed is exceeded or when the speed falls below
the desired level.
STC-CANNON =,°:':::
"">
ZENER
DIODES
Series ZX
Series ZD and ZY
All series
Common Maximum
Ratings:
Ptot /7bmb = 45OC)
1.3 W/10.5W')
Ptot (Tamb =45oC)
1.1 W')
Tj
150OC
Common
Characteristics:
RthA
<80grd/W
RthA
<95grd/W' )
Type
Characteristics @ Tamb = 25oC
RthC
<5grd/W
Maximum Ratings
DO-13
metal
Stud
mounted
Plastic
case
Zener
voltage
Dynamic
resistance
Temperatu re
coeff icient of
case
metal
case
3 O x 6.35
mm
@
|Z test
@
|Z test
Zener voltage
@
|Z test
'zj S2
avz 10"'/grd
%'yy"'
zx 3.9
zy 19
3.7 ... 4.1
3.8 (<7)
-7 ... +2
ZD 4.3
ZD 4.7
ZD 5.1
ZD 5.6
ZD 6.2
ZD 6.8
ZD 7.5
ZD 8.2
ZD 9.1
ZD 10
ZD 11
ZD 12
ZD 13
ZD 15
ZD 16
ZD 18
ZD 20
ZD 22
ZD 24
ZD 27
ZD 30
ZD 33
ZD 36
ZD 39
ZD 43
ZD 47
ZD 51
ZD 56
ZD 62
ZD 68
ZD 75
ZD 82
ZD 91
ZD 100
ZD 110
ZD 120
ZD 130
ZD 150
ZD 160
ZD 180
ZD 200
ZX
ZX
ZX
ZX
ZX
ZX
ZX
ZD
ZX
ZX
ZX
ZX
ZX
ZX
ZX
ZX
ZX
ZX
ZX
ZX
ZX
ZX
ZX
ZX
ZX
ZX
ZX
ZX
ZX
ZX
ZX
ZX
ZX
ZX
ZX
ZX
ZX
ZX
ZX
ZX
ZX
ZY 4.3
ZY 4.7
ZY 5.1
ZY 5.6
ZY 6.2
ZY 6.8
ZY 7.5
ZY 8.2
ZY 9.1
ZY 10
ZY 11
ZY 12
ZY 13
ZY 15
ZY 16
ZY 18
ZY 20
ZY 22
ZY 24
ZY 27
ZY 30
ZY 33
ZY 36
ZY 39
ZY 43
ZY 47
ZY 51
ZY 56
ZY 62
ZY 68
ZY 75
ZY 82
ZY 91
ZY 100
ZY 110
ZY 120
ZY 130
ZY 150
ZY 160
ZY 180
ZY 200
4.0 ... 4.6
4.4 ... 5.0
4.8 ... 5.4
5.3 ... 6.0
5.8 ... 6.6
6.4 ... 7.2
7.1 ... 7.9
7.7 ... 8,8
8.5 ... 9.6
9.4 ... 10,6
10.4 ...11.6
11.4 ...12.7
12.5 ... 14.0
13,8 ...15,8
15.3 ...17.0
16.8 ..,19.0
18.8 ... 21.0
20,8 ... 23.0
22.8 ... 25.6
25.4 .,, 28.6
28.4 ... 31.6
31.3 .,. 35
34 ... 38
37 ... 41
40 .,. 46
44 ... 50
48 ... 54
53 ... 60
58 ... 66
64 ,., 72
71 .., 79
77 ... 88
85 .,. 96
94 ... 106
104 ... 116
114 ... 127
125 ... 140
138 ... 155
153 .,. 170
168 ... 190
188 ... 210
3.8 (<7)
3.8 (<7)
2 (<5)
1 (<2)
1 (<2)
1 (<2)
1 (<2)
1 (<2)
2 (<4)
2 (<4)
4 (<7)
4 (<7)
5 (<10)
5 (<10)
6 (<15)
6 (<15)
6 (<15)
6 (< 15)
7 (<15)
7 (<15)
8 (<15)
8 (<15)
21 (<40)
21 (<40)
24 (<45)
24 (<45)
25 (<60)
25 (<60)
25 (<80)
25 (<80)
30 (< 100)
30 (< 100)
60 (< 200)
60 (< 200)
80 (<250)
80 (<250)
110 (<300)
110 (<300)
150 (<350)
150 (<350)
150 (<350)
-7
-7
-6
-3
-1
0
0
+3
+3
+5
+5
+5
+5
+5
"6
"6
"6
+6
"6
+6
"6
"6
+6
+6
"7
+7
+7
"7
+8
+8
"8
"8
+9
"9
"9
"9
+9
+9
"9
"9
+9
i )
')
4.3
4.7
5.1
5.6
6.2
6.8
7.5
8.2
9,1
10
11
12
13
15
16
18
20
22
24
27
30
33
36
39
43
47
51
56
62
68
75
82
91
100
110
120
130
150
160
180
200
... +3
...+4
... +5
... +5
... +6
... +7
... +7
... +8
... +8
... +9
... +10
...+10
... +10
... "10
... +11
... +11
... +11
... +11
... +11
...+11
..."11
..."11
... +11
... +11
... +12
... +12
... +12
... +12
... +13
...+13
... +13
..."13
... +13
... +13
... +13
...+13
... +13
... +13
... +13
... "13
... +13
Test
current
|Z test
mA
100
100
100
100
100
100
100
\ 100
100
50
50
50
50
50
50
25
25
25
25
25
25
25
25
10
10
10
10
10
10
10
10
10
10
5
5
5
5
5
5
5
5
5
Reverse
voltage
ZX =with
Zener current type
@ Tamb
45O G)
types ZD
@
|R = 1 µA
and Zy2)
without
heat sink
VR V
|Z mA
|Z mA
|Z mA
>1.5
>1.5
>2
>2
>3.5
>3.5
>5
>5
>7
>7
>10
>10
>10
>10
>12
>12
>14
>14
>17
>17
>20
>20
>24
>24
>28
>28
>34
>34
>41
MI
>50
>50
>60
>60
>75
>75
>90
>90
240
210
180
170
160
145
130
120
110
100
90
82
75
67
60
56
53
48
44
40
35
31
28
26
24
22
20
18
16.5
14
13
12
11
10
9
8.2
7.5
6.7
6
5.6
5.3
4.8
280
240
210
190
180
160
150
140
130
117
105
95
86
78
71
65
60
55
50
45
40
36
33
30
28
25
22
20
18.5
17
15.5
14
12.5
11.5
10.5
9.5
8.6
7.8
7.0
6.3
5.7
5.2
2100
1750
1500
1430
1350
1250
1150
1060
980
890
800
710
620
560
500
465
430
400
375
345
320
290
260
235
210
192
175
162
150
137
125
112
100
92
85
77
70
63
56
51
46
42
Heat sink aluminium 12.5 x 12.5 cm2 x 2 mm
Valid for all ZD and ZY types provided that leads are kept at ambient temperature at a distance of 10 mm from the case.
ZENER
DIODES
Silicon Planar Zener Diodes in DO-35 glass case
The Zener voltages are graded according to the international E 24 standard (tolerance ± 5%).
Smaller voltage tolerances on request. Junction temperature: Tj = max. 150OC, Thermal resistance: RthA < 0.31 grd/mW' )
Type
ZPD
ZPD
ZPD
ZPD
ZPD
ZPD
ZPD
ZPD
ZPD
ZPD
ZPD
ZPD
ZPD
ZPD
ZPD
ZPD
ZPD
ZPD
ZPD
ZPD
ZPD
ZPD
ZPD
ZPD
ZPD
ZPD
ZPD
')
2)
2.7
3
3.3
3.6
3.9
4.3
4.7
5.1
5.6
6.2
6.8
7.5
8.2
9.1
10
11
12
13
15
16
18
20
22
24
27
30
33
I, = 1 mA
Temp. coeff icient
of Zener voltage
@
I, = 5 mA
Reverse
voltage
@
|R = 100 nA
Admissible
Zener current i)
@
@
Tamb=25oC Tamb=45oC
'zj SI
'zj si
aVZ 10"4/oC
VR V
|Z mA
|Z mA
75 (<33)
80 (<90)
80 (<90)
80 (<90)
80 (<90)
80 (<90)
70 (<78)
30 (<60)
10 (<40)
4.8 (<10)
4.5 (<8)
4.0 (<7)
4.5 (<7)
4.8 (<10)
5.2 (<15)
6.0 (<20)
7.0 (<20)
9.0 (<25)
11 (<30)
13 (<40)
18 (<50)
20 (<50)
25 (<55)
28 (< 80)
30 (<80)
35 (<80)
40 (<30)
<500
<500
<500
<500
<500
<500
<500
<480
<400
<200
<150
<50
<50
<50
<70
<70
<90
<110
<110
<170
<170
<220
<220
<220
<250
<250
<250
-9
-9
-8
-8
-7
-6
-5
-3
-2
-1
+2
+3
+4
+5
+5
+5
+6
+7
+7
+8
+8
+8
+8
+8
+8
+8
+8
160
140
130
120
110
100
90
80
70
64
58
53
47
43
40
36
32
29
27
24
21
20
18
16
14
13
12
135
117
109
101
92
85
76
67
59
54
49
44
40
36
33
30
28
25
23
20
18
17
16
13
12
10
9
Zener
voltage 2)
@
I, = 5 mA
Dynamic
resistance
@
I, = mA
VZ V
2.5 ... 2.9
2.3 ... 3.2
3.1 ... 3.5
3.4 ... 3.8
3.7 ... 4.1
4.0 ... 4.6
4.4 ... 5.0
4.8 ... 5.4
5.2 ... 6.0
5.8 ... 6.6
6.4 ... 7.2
7.0 ... 7.9
7.7 ... 8.7
8.5 ... 9.6
9.4 ... 10.6
10.4 ... 11.6
11.4 ... 12.7
12.4 ... 14.1
13.8 ... 15.6
15.3 ... 17.1
16.8 ... 19.1
18.8 ... 21.2
20.8 ... 23.3
22.8 ... 25.6
25.1 ... 28.9
28.0 ... 32.0
31.0 ... 35.0
... -4
... -3
... -3
... -3
... -3
... -1
...+2
... +4
... +6
... +7
... +7
... +7
... +7
... +8
... +8
... +9
... +9
... +9
... +9
... +9.5
... +9.5
... +10
... +10
... +10
... +10
... +10
... +10
_
_
_
>0.8
>1
>2
>3
>5
>6
>7
>7.5
>8.5
>9
>10
>11
>12
>14
>15
>17
>18
>20
>22.5
>25
Valid provided that leads are kept at ambient temperature at a distance of 8 mm from case
Tested under pulse conditions
ZTK 6.8 . . . ZTK 33 (TAA 550)
Temperature-Compensated Zener Diodes
Monolithic linear integrated circuits producing an extremely constant temperature-compensated voltage, particularly suitable for
stabilizing the tuning voltage in radio and TV tuners employing voltage variable capacitance diodes.
Type
ZTK 6.8
ZTK 9
'ZTK 11
ZTK 18
ZTK 22
ZTK 27
ZTK 33
('"TAA550)
Zener
voltage
@
I, = 5 mA
Ta = 25OC
Temperature
Coefficient
|,=5±0.5mA
Dynamic
Resistance
@
|Z = 5 mA
Thermal
Resistance
VZ V
avz10"'/k
'zj S2
Rthµk/mW
tths
6.5 ... 7.2
9 ... 10
10 ... 12
16 ... 20
20 ... 24
24 ... 30
30 ... 36
-2(-10...+5)
-2(-10...+5)
-2(-10...+5)
-2(-10...+5)
-2(-10...+5)
-2(-10...+5)
-2(-10..."5)
10(<25)
10(<25)
10(<25)
11(<25)
11(<25)
12(<25)
12(<25)
<0.4
<0.4
<0.4
<0.4
<0.4
<0.4
<0.4
20
20
20
20
20
20
20
STC-CANNON=::::::
')
')
')
')
')
')
')
Zener
Current
1"a = 45oC
Junction
Temperature
|Z mA
TjOC
36
27
19
13
10
8
7
150
150
150
150
150
150
150
"
