TMC1CB335MLLH [KOA]
CAPACITOR, TANTALUM, SOLID, POLARIZED, 16V, 3.3uF, SURFACE MOUNT, 1411, CHIP;型号: | TMC1CB335MLLH |
厂家: | KOA SPEER ELECTRONICS, INC. |
描述: | CAPACITOR, TANTALUM, SOLID, POLARIZED, 16V, 3.3uF, SURFACE MOUNT, 1411, CHIP |
文件: | 总22页 (文件大小:316K) |
中文: | 中文翻译 | 下载: | 下载PDF数据表文档文件 |
KOA SPEER ELECTRONICS, INC.
TN-190 R5
AHA 10/11/01
CERTIFIED
Tantalum Chip Capacitors
Type TMC: Standard Capacitance Range
1. Scope of Application
The TMC Series of molded tantalum chip capacitors offers an extensive range of values
in EIA - US and EIA - Japan compatible sizes. By design, strict process control and a commitment
to provide the most reliable product in the industry, the TMC has passed our customers’ most
severe humidity / temperature / pressure induced life stress testing. For surface mount applications,
the space saving, highly reliable TMC is the preferred tantalum chip capacitor.
2. Features
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Epoxy Molded Body, UL94V-0 Flammability
Extended Values Per Case Size
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EIA - US and EIA - Japan Compatible Sizes
100% Burn-in and End-of-Line Testing
Excellent Humidity and Solder Resistance
3. Type Designation
The type designation shall be the following form:
CASE DIMENSIONS
PAGE 1 OF 20
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Bolivar Drive
P.O. Box 547
Bradford, PA 16701
USA
814-362-5536
Fax 814-362-8883
www.koaspeer.com
KOA SPEER ELECTRONICS, INC.
TN-190 R5
PART MARKING
STANDARD RANGE
A & B Case
CASE SIZE (Table 1a)
Abbreviated Capacitance
A6: 1.0 µF
STANDARD VALUES VOLTAGE CODE
0G
4
5
0J
7
9
1A
10
13
1C
16
20
10
1D
20
26
13
1E
25
32
16
1V
35
46
23
1H
50
63
32
Production
Month,
RATED VOLTAGE (VDC)
A6
85°C
Year Code
SURGE VOLTAGE (VDC)
_
+
+
Belt Marking
for Anode
125°C
DERATED VOLTAGE (VDC)
2.5
4
6.3
CAPACITANCE (uF)
CAP CODE
104
C & E Case
0.1
0.15
0.22
0.33
0.47
0.68
1.0
1.5
2.2
3.3
4.7
6.8
10
A
A
A
A
B
B
B
C
C
C
E
E
A
B
B
B
C
C
C
E
E
Production
Month,
Year Code
10
16
154
224
334
474
684
105
155
225
335
475
685
106
_
Upper number indicates
capacitance in µF.
A
B
A
B
Lower number indicates
rated voltage (16V).
A
B
Marking
A5
Value (uF)
A
B
0.10
0.15
0.22
0.33
0.47
0.68
1.0
A
B
E5
J5
N5
S5
W5
A6
A
B
C
E
C
E
C
E
15
156
C
E
22
226
C
E
E6
1.5
33
47
68
336
476
686
C
E
J6
2.2
N6
3.3
S6
4.7
W6
A7
6.8
10.0
CASE SIZE (Table 1b) TMCP series
PART MARKING
STANDARD VALUES VOLTAGE CODE
RATED VOLTAGE (VDC)
OE
2.5
0G
4
0J
6.3
1A
10
1C
16
1D
20
1E
25
6.3V1 µF
Abbreviated Capacitance
(A6:1 µF)
CAPACITANCE (uF)
CAP CODE
104
0.10
0.15
0.22
0.33
0.47
0.68
1.0
P
P
P
P
P
P
A6
154
224
334
474
684
105
_
+
Belt Marking
for Anode
P
P
P
10V1 µF
P
P
P
P
P
P
Abbreviated Capacitance
P
P
P
P
P
P
P
(A:1 µF)
1.5
155
P
P
P
P
P
P
P
P
Belt Marking
for Anode
2.2
225
P
P
P
P
P
P
P
AA
3.3
335
_
+
4.7
475
Rated Voltage
6.8
685
Marking (A:10V)
10.0
15.0
22.0
106
156
226
In case that simple capacitance
symbol is same as case size,
rated voltage symbol is marking
on higher voltage one.
When marking the symbol of
rated voltage and capacitance,
a multipler of capacitance symbol
is omitted.
Simple symbol is referenced to
JIS C 5143 clause 10, and EIAJ
RC-3813 clause 7.1.
PAGE 2 OF 20
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Bolivar Drive
P.O. Box 547
Bradford, PA 16701
USA
814-362-5536
Fax 814-362-8883
www.koaspeer.com
KOA SPEER ELECTRONICS, INC.
CASE SIZE (Table 1c) Includes Standard and P case sizes
TN-190 R5
EXTENDED RANGE
PART MARKING
A,B & P Case
STANDARD VALUES VOLTAGE CODE
0E
2.5
3.2
1.6
0G
4
5
0J
7
9
1A
10
1C
16
20
10
1D
20
26
13
1E
25
32
16
1V
35
46
23
1H
50
63
32
Voltage Code G = 4 VDC
RATED VOLTAGE (VDC)
SURGE VOLTAGE (VDC)
Voltage Code
(same as TMC)
85°C
13
S 6 = 4.7 uF
Anode (+)
125°C
DERATED VOLTAGE (VDC)
2.5
4
6.3
CAPACITANCE (uF)
CAP CODE
104
154
224
334
474
684
105
155
225
335
475
685
106
156
226
336
476
686
107
157
227
337
477
0.10
0.15
0.22
0.33
0.47
0.68
1.0
1.5
2.2
3.3
4.7
P
P
P
P
P
AP
A
A
AB
AB
ABC
BC
BC
CE
CE
E
A
A
A
A
AB
AB
B
BC
BC
C
CE
CE
E
G S 6
A
Production Month,
Year Code
P
P
AP
A
A
A
A
AB
B
B
BC
C
CE
CE
E
AB
AB
AB
BC
BC
BC
CE
CE
CE
E
C & E Case
47
P
P
P
P
AP
AP
P
P
AP
AP
AP
AP
AP
ABP
AB
AB
ABC
BC
BCE
BCE
CE
CE
E
10 V
P
P
P
A
AB
AB
AB
ABC
BC
BCE
CE
CE
E
AP
E
Marking
Voltage
2.5
4
7
10
16
20
25
35
6.8
AP
AP
AP
ABP
AB
AB
BC
BC
CE
CE
E
AP
ABP
ABP
AB
ABC
ABC
BCE
BCE
BCE
BCE
E
e
G
J
A
C
D
E
V
H
10.0
15.0
22.0
33.0
47.0
68.0
100
150
220
330
470
ABP
ABP
ABP
ABC
ABC
BCE
BCE
CE
CE
E
E
E
E
E
50
E
NOTE: To obtain ENVIRON-
MENTAL SPECIFICATIONS
INFORMATION please
contact KOA Speer.
E
E
E
TECHNICAL DATA
ESR
Max (Ω)
ESR
Max (Ω)
µA (MAX) % max 100 kHz
EIA
Case
Leakage
TanD
EIA
Case
2.5 VDC @ 85°C continued
Leakage
TanD
Part No.
µF
µA (MAX) % max 100 kHz
Part No.
µF
2.5 VDC @ 85°C
TMCOEP225
TMCOEP335
TMCOEP475
TMCOEP685
TMCOEA685
TMCOEP106
TMCOEA106
TMCOEP156
TMCOEA156
TMCOEP226
TMCOEA226
TMCOEB226
TMCOEA336
TMCOEB336
TMCOGA476
TMCOEB476
TMCOEB686
TMCOEC686
TMCOEB107
TMCOEC107
TMCOEC157
P
P
P
P
A
P
A
P
A
P
A
B
A
B
A
B
B
C
B
C
C
2.2
3.3
4.7
6.8
6.8
10
10
15
15
22
22
22
33
33
47
47
68
68
0.50
0.50
0.50
0.50
0.50
0.50
0.50
0.50
0.50
0.55
0.55
0.55
0.83
0.83
1.18
1.18
1.70
1.70
2.50
2.50
3.75
8
8
8
8
6
8
8
8
8
8
8
8
8
8
12
8
8
8
25.0
25.0
12.0
10.0
6.5
9.0
6.0
8.0
4.0
7.0
2.8
2.5
4.0
2.8
3.0
2.4
1.8
1.6
0.9
0.9
0.9
TMCOEE157
TMCOEC227
TMCOEE227
TMCOEE337
TMCOEE477
4.0 VDC @ 85°C
TMCOGP155
TMCOGP225
TMCOGP335
TMCOGA335
TMCOGP475
TMCOGA475
TMCOGP685
TMCOGA685
TMCOGP106
TMCOGA106
TMCOGB106
TMCOGP156
TMCOGA156
TMCOGB156
D
C
D
D
D
150
220
220
330
470
3.75
5.50
5.50
8.25
11.75
8
8
8
10
10
0.9
0.9
0.9
0.9
0.5
P
P
P
A
P
A
P
A
P
A
B
P
A
B
1.5
2.2
3.3
3.3
4.7
4.7
6.8
6.8
10
10
10
15
15
0.50
0.50
0.50
0.50
0.50
0.50
0.50
0.50
0.50
0.50
0.50
0.60
0.60
0.60
8
8
8
6
8
6
8
6
8
6
6
8
8
8
25.0
25.0
20.0
9.0
12.0
7.5
10.0
6.5
9.0
3.0
4.0
8.0
4.0
100
100
150
12
8
8
15
3.0
PAGE 3 OF 20
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Bolivar Drive
P.O. Box 547
Bradford, PA 16701
USA
814-362-5536
Fax 814-362-8883
www.koaspeer.com
KOA SPEER ELECTRONICS, INC.
TN-190 R5
TECHNICAL DATA (continued)
ESR
Max (Ω)
µA (MAX) % max 100 kHz
ESR
Max (Ω)
µA (MAX) % max 100 kHz
EIA
Case
Leakage
TanD
EIA
Case
Leakage
TanD
Part No.
µF
Part No.
µF
4.0 VDC @ 85°C continued
7.0 VDC @ 85°C continued
TMCOGP226
TMCOGA226
TMCOGB226
TMCOGA336
TMCOGB336
TMCOGC336
TMCOGA476
TMCOGB476
TMCOGC476
TMCOGB686
TMCOGC686
TMCOGE686
TMCOGB107
TMCOGC107
TMCOGE107
TMCOGC157
TMCOGE157
TMCOGC227
TMCOGE227
TMCOGE337
TMCOGE477
7.0 VDC @ 85°C
TMCOJP105
TMCOJP155
TMCOJP225
TMCOJA225
TMCOJP335
TMCOJA335
TMCOJP475
TMCOJA475
TMCOJP685
TMCOJA685
TMCOJB685
TMCOJP106
TMCOJA106
TMCOJB106
TMCOJA156
TMCOJB156
TMCOJA226
TMCOJB226
TMCOJC226
TMCOJA336
TMCOJB336
TMCOJC336
TMCOJB476
TMCOJC476
TMCOJE476
TMCOJB686
TMCOJC686
TMCOJE686
TMCOJB107
TMCOJC107
TMCOJE107
TMCOJB157
TMCOJC157
TMCOJE157
TMCOJE227
P
A
B
A
B
C
A
B
C
B
C
D
B
C
D
C
D
C
D
D
D
22
22
22
33
33
33
47
47
47
0.88
0.88
0.88
1.32
1.32
1.32
1.88
1.88
1.88
2.72
2.72
2.72
4.00
4.00
4.00
6.00
6.00
8.80
8.80
13.20
18.80
8
8
8
8
8
6
12
8
8
8
8
6
12
8
8
8
8
12
8
10
10
6.0
2.8
2.5
4.0
2.8
2.0
4.0
2.4
1.8
1.8
1.6
1.1
4.0
0.9
0.9
0.9
0.9
4.0
0.9
0.9
0.5
TMCOJE337
10 VDC @ 85°C
TMC1AP684
TMC1AP105
TMC1AP155
TMC1AA155
TMC1AP225
TMC1AA225
TMC1AP335
TMC1AA335
TMC1AP475
TMC1AA475
TMC1AB475
TMC1AA685
TMC1AB685
TMC1AA106
TMC1AB106
TMC1AA156
TMC1AB156
TMC1AC156
TMC1AB226
TMC1AC226
TMC1AB336
TMC1AC336
TMC1AE336
TMC1AB476
TMC1AC476
TMC1AE476
TMC1AC686
TMC1AE686
TMC1AC107
TMC1AE107
TMC1AE157
TMC1AE227
16 VDC @ 85°C
TMC1CP474
TMC1CP684
TMC1CP105
TMC1CA105
TMC1CA155
TMC1CA225
TMC1CA335
TMC1CB335
TMC1CA475
TMC1CB475
TMC1CA685
TMC1CB685
TMC1CA106
TMC1CB106
TMC1CC106
TMC1CB156
TMC1CC156
TMC1CC226
TMC1CE226
TMC1CC336
TMC1CE336
D
330
23.10
10
0.5
P
P
P
A
P
A
P
A
P
A
B
A
B
A
B
A
B
C
B
C
B
C
D
B
C
D
C
D
C
D
D
D
0.68
1.0
1.5
1.5
2.2
2.2
3.3
3.3
4.7
4.7
4.7
6.8
6.8
10
10
15
15
15
22
22
33
33
33
47
47
47
68
68
100
100
150
220
0.50
0.50
0.50
0.50
0.50
0.50
0.50
0.50
0.50
0.50
0.50
0.68
0.68
1.00
1.00
1.50
1.50
1.50
2.20
2.20
3.30
3.30
3.30
4.70
4.70
4.70
6.80
6.80
10.00
10.00
15.00
22.00
6
6
8
6
8
6
8
6
8
6
6
6
6
8
8
8
8
6
8
8
8
8
6
10
8
8
8
8
10
8
8
8
25.0
25.0
20.0
10.0
15.0
7.0
10.0
5.5
9.0
5.0
4.0
3.6
3.0
2.8
2.5
3.2
2.8
2.0
2.0
1.8
1.8
1.6
1.1
4.0
1.1
0.9
0.9
0.9
4.0
0.9
0.9
0.6
68
68
68
100
100
100
150
150
220
220
330
470
P
P
P
A
P
A
P
A
P
A
B
P
A
B
A
B
A
B
C
A
B
C
B
C
D
B
C
D
B
C
D
B
C
D
D
1.0
1.5
2.2
2.2
3.3
3.3
4.7
4.7
6.8
6.8
6.8
10
10
10
15
15
22
22
22
33
33
33
47
47
47
68
68
68
100
100
100
150
150
150
220
0.50
0.50
0.50
0.50
0.50
0.50
0.50
0.50
0.50
0.50
0.50
0.50
0.70
0.70
1.05
1.05
1.54
1.54
1.54
2.31
2.31
2.31
3.29
3.29
3.29
4.28
4.76
4.76
6.30
7.00
7.00
6.00
9.45
10.50
15.40
6
6
8
6
8
6
8
6
8
6
6
8
8
8
8
8
8
8
6
10
8
8
8
8
6
10
8
8
8
8
8
8
10
8
8
25.0
25.0
25.0
8.0
12.0
7.0
10.0
6.0
9.0
5.0
4.0
8.0
4.0
3.0
2.8
2.5
4.0
2.3
2.0
4.0
2.0
1.8
1.8
1.6
1.1
4.0
1.5
0.9
4.0
0.9
0.9
4.0
4.0
0.9
0.9
P
P
P
A
A
A
A
B
A
B
A
B
A
B
C
B
C
C
D
C
D
0.47
0.68
1.0
1.0
1.5
2.2
3.3
3.3
4.7
4.7
6.8
6.8
10
10
10
15
15
22
22
33
33
0.50
0.50
0.50
0.50
0.50
0.50
0.53
0.53
0.75
0.75
1.09
1.09
1.60
1.60
1.60
2.40
2.40
3.52
3.52
5.28
5.28
6
6
6
4
6
6
6
6
6
6
6
6
8
8
6
8
8
8
6
8
8
25.0
25.0
20.0
11.0
8.0
6.5
5.0
4.5
4.0
3.5
3.0
2.5
4.0
2.8
2.0
2.0
1.8
1.6
1.1
1.1
0.9
PAGE 4 OF 20
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Bolivar Drive
P.O. Box 547
Bradford, PA 16701
USA
814-362-5536
Fax 814-362-8883
www.koaspeer.com
KOA SPEER ELECTRONICS, INC.
TN-190 R5
TECHNICAL DATA (continued)
ESR
Max (Ω)
µA (MAX) % max 100 kHz
ESR
Max (Ω)
µA (MAX) % max 100 kHz
EIA
Case
Leakage
TanD
EIA
Case
Leakage
TanD
Part No.
µF
Part No.
µF
16 VDC @ 85°C continued
35 VDC @ 85°C continued
TMC1CC476
TMC1CE476
TMC1CE686
TMC1CE107
20 VDC @ 85°C
TMC1DP104
TMC1DP154
TMC1DP224
TMC1DP334
TMC1DP474
TMC1DP684
TMC1DA684
TMC1DA105
TMC1DA155
TMC1DA225
TMC1DB225
TMC1DA335
TMC1DB335
TMC1DA475
TMC1DB475
TMC1DB685
TMC1DC685
TMC1DB106
TMC1DC106
TMC1DC156
TMC1DE156
TMC1DC226
TMC1DE226
TMC1DD336
TMC1DE336
TMC1DE476
25 VDC @ 85°C
TMC1EA474
TMC1EA684
TMC1EA105
TMC1EA155
TMC1EB155
TMC1EB225
TMC1EB335
TMC1EB475
TMC1EC475
TMC1EC685
TMC1EC106
TMC1EE106
TMC1EE156
TMC1EE226
TMC1EE336
35 VDC @ 85°C
TMC1VA104
TMC1VA154
TMC1VA224
TMC1VA334
TMC1VA474
C
D
D
D
47
47
68
7.52
7.52
10.90
16.00
8
8
8
8
1.2
0.9
0.9
0.9
TMC1VB474
TMC1VA684
TMC1VB684
TMC1VA105
TMC1VB105
TMC1VB155
TMC1VC155
TMC1VB225
TMC1VC225
TMC1VB335
TMC1VC335
TMC1VC475
TMC1VE475
TMC1VC685
TMC1VE685
TMC1VC106
TMC1VE106
TMC1VE156
TMC1VE226
50 VDC @ 85°C
TMC1HA104
TMC1HA154
TMC1HB154
TMC1HA224
TMC1HB224
TMC1HB334
TMC1HB474
TMC1HC474
TMC1HB684
TMC1HC684
TMC1HC105
TMC1HC155
TMC1HE155
TMC1HC225
TMC1HE225
TMC1HE335
TMC1HE475
B
A
B
A
B
B
C
B
C
B
C
C
D
C
D
C
D
D
D
0.47
0.68
0.68
1.0
1.0
1.5
1.5
2.2
2.2
3.3
3.3
4.7
4.7
6.8
6.8
10
0.50
0.50
0.50
0.50
0.50
0.53
0.53
0.77
0.77
1.16
1.16
1.65
1.65
2.38
2.38
3.5
4
4
4
4
4
6
6
6
6
6
6
6
6
6
6
8
8
8
6
10.0
8.0
8.0
7.0
6.5
5.2
4.5
4.2
3.5
3.0
2.5
2.2
1.5
1.5
1.3
1.6
1.0
1.0
0.9
100
P
P
P
P
P
P
A
A
A
A
B
A
B
A
B
B
C
B
C
C
D
C
D
J
0.10
0.15
0.22
0.33
0.47
0.68
0.68
1.0
1.5
2.2
2.2
3.3
3.3
4.7
4.7
6.8
6.8
10
10
15
15
22
22
33
33
47
0.50
0.50
0.50
0.50
0.50
0.50
0.50
0.50
0.50
0.50
0.50
0.66
0.66
0.94
0.94
1.36
1.36
2.00
2.00
3.00
3.00
4.40
4.40
6.60
6.60
9.40
6
6
6
6
6
6
4
4
6
6
6
6
6
6
6
6
6
8
8
8
6
8
8
8
8
8
25.0
25.0
25.0
25.0
25.0
25.0
12.0
8.0
6.5
5.0
3.5
3.5
3.0
3.0
3.0
2.5
2.0
2.0
1.9
1.7
10
15
22
3.50
5.25
7.70
A
A
B
A
B
B
B
C
B
C
C
C
D
C
D
D
D
0.1
0.15
0.15
0.22
0.22
0.33
0.47
0.47
0.68
0.68
1.0
1.5
1.5
2.2
2.2
3.3
4.7
0.50
0.50
0.50
0.50
0.50
0.50
0.50
0.50
0.50
0.50
0.50
0.75
0.75
1.10
1.10
1.65
3.35
4
4
4
4
4
4
4
4
4
4
4
6
6
6
6
6
6
22.0
16.0
17.0
18.0
14.0
12.0
10.0
8.0
7.0
7.0
5.5
4.0
1.1
1.1
0.9
0.9
0.9
0.9
D
D
A
A
A
A
B
B
B
B
C
C
C
D
D
D
D
0.47
0.68
1.0
1.5
1.5
2.2
3.3
4.7
4.7
6.8
10
0.50
0.50
0.50
0.50
0.50
0.55
0.83
1.18
1.18
1.70
2.50
2.50
3.75
5.50
8.25
4
4
4
6
6
6
6
6
6
6
8
6
8
8
8
14.0
10.0
8.0
7.5
5.0
4.5
3.5
3.0
2.4
2.0
1.8
1.2
1.0
0.9
0.9
4.0
2.5
2.5
2.0
1.4
10
15
22
33
A
A
A
A
A
0.1
0.50
0.50
0.50
0.50
0.50
4
4
4
4
4
24.0
21.0
18.0
15.0
12.0
0.15
0.22
0.33
0.47
PAGE 5 OF 20
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KOA SPEER ELECTRONICS, INC.
TN-190 R5
TYPICAL PERFORMANCE CHARACTERISITICS
TEMPERATURE CHARACTERISTICS
TMC 16V, 1µf
TEMPERATURE CHARACTERISTICS
TMC 20V, 0.68µf
TMC 20V, 2.2µf
TMC 16V, 3.3µf
PAGE 6 OF 20
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KOA SPEER ELECTRONICS, INC.
TN-190 R5
4. Characteristics
4.1 Electrical characteristics
No.
1
Items
Requirement
Test Method Guideline
-55°C to +85°C
2.5V to 50VDC
Rated Voltage
Keep the sum of peak DC voltage and ripple
voltage within the rated voltage and never go
over it.
Refer to page 18
Maximum
Permissible
Ripple Voltage
2
Measuring frequency: 120 12Hz
Measuring voltage: 0.5Vrms +0.5 ~ 2.0 VDC
Measurement circuit:
0.10µF to 470µF
( 10ꢀ or 20ꢀ)
Nominal Capacitance
3
Equivalent series circuit
(
)
Measurement shall be made under the same
conditions as those given for the measure-
ment of capacitance.
See techincal data tables for details.
Dissipation Factor (DF)
Tangent of Loss Angle
(tan )
4
5
Apply the rated voltage through 1000 100Ω
protective resistor, and measure the current
after 5 minutes voltage application.
Less than 0.01CV(µA) or 0.5 (µA),
whichever is the greater.
C=nominal capacitance (µF)
V=rated voltage (VDC)
D.C. Leakage
Current (CC)
A
+
D
S1
R
C
S2
V
Cx
_
R : Series Protective Resistor
A
: DC Current Meter or Electronic
Current Meter
V
: DC Voltage Meter
S1 : Switch
S2 : Protective Switch for Current Meter
Cx : Capacitor Sample
AC voltage (0.5Vrms or less) of a frequency
specified below, shall be applied and the volt-
age drop across the capacitor terminals shall
be measured. The impedance shall be
calculated by the following equation.
Frequency: 100 10kHz
Capacitance (µF)
Less than 0.47
0.68 to 1.5
Impedance Value
Impedance High
Frequency
6
—-
Less than 20Ω
Less than 10Ω
Less than 4Ω
2.2 to 6.8
More than 10
Impedance: (Z) = E/I
where
E:Voltage drop across the capacitor
terminals
I: Current flowing through the capacitor
Cx : Capacitor Sample
~ : AC Power Source
A : AC Current Meter
~
A
~
V : AC Voltage Meter
~
Cx
V
~
~
PAGE 7 OF 20
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KOA SPEER ELECTRONICS, INC.
TN-190 R5
4. Characteristics
4.1 Electrical Characteristics
No.
Items
Requirement
Test Method Guideline
Change in
Relative to the value
in step 1 - 10 to 0ꢀ
Temperature
Characteristics
7
Step
Temperature
Duration
capacitance
Step
2
1
2
3
4
5
20 2°C
-55 3°C
20 2°C
85 2°C
125 2°C
—
Tangent of
loss angle
Not more than the
value in Table 3
2 hours
0.25 hours
2 hours
2 hours
Change in
capacitance
Relative to the value
in step 1 - 0 to +10ꢀ
Step
4
Leakage
current
0.1CV or 5 µ A
or less
Table 3
Tangent of
loss angle
Not more than the
value in Table 3
Capacitance
(µF)
-55°C +85°C +125°C
Less than Less than Less than
Change in
capacitance
Relative to the value
in step 1 - 0 to +12ꢀ
0.047 to 1.0 0.09 0.07
0.09
Step
5
Leakage
current
0.125CV or 6.25 µ A
or less
Less than Less than Less than
1.5 to 6.8
10 to 470
0.10 0.08
Less than Less than Less than
0.10
Tangent of
loss angle
Not more than the
value in Table 3
0.12 0.10
0.12
Step 1:
Step 2:
Capacitance and tangent of loss angle shall be measured.
After the capacitor has been stored for 2 hours, capacitance and tangent of loss
angle shall be measured. The measurement shall be made at thermal equilibrium.
Step 4, 5: After the capacitor has been stored for 2 hours, capacitance, tangent of loss angle
and leakage current shall be measured. The measurement shall be made a thermal
equilibrium. However, measurement shall be made at a temperature derating
voltage in step 5.
8
Surge Test
The capacitor shall be subjected to the surge voltage as specified below in a cycle of 6 0.5min.
which consists of a charge period of 30 5 sec. followed by a discharge period of approx. 5 min.
30 sec. at 85 2°C for 1000 cycles. The capacitor shall be stored under standard atmospheric
conditions to obtain thermal equilibrium, after which measurement shall be made.
+
R1
Change in
Relative to the value
before test +5ꢀ
R1:
R2:
Series Protective Resistor
(33Ω)
Discharge Resistor
(33Ω)
DC Voltmeter
Test Capacitor
Switch
capacitance
Tangent of
loss angle
S
Clause 4.1.4 shall be satisfied
V
V :
Cx:
S:
Leakage current Clause 4.1.5 shall be satisfied
Cx
R2
_
Rated voltage (V) 2.5
Surge voltage (V) 3.2
4
5
7
8
10 16 20 25 35 50
13 20 26 32 45 63
9
When operating at an ambient temperature range from 85°C to 125°C, the operation shall be
carried out at a derating voltage or less as shown below.
Temperature Derated
Voltage
Derating voltage Vt at any temperature T between 85°C and
100
125°C shall be calculated by the following formula:
80
Vr - Vd
Vt = Vr - –––––– (T - 85)
40
Vr: Rated voltage
Vd: Derating voltage at 125°C
60
40
20
0
Temperature (°C)
Rated voltage (V)
2.5
4
7
10 16 20 25 35 50
-55
0 20
Temperature (°C)
85 125
Derating voltage
at 125°C (V)
1.6 2.5
4
6.3 10 13 16 22 32
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KOA SPEER ELECTRONICS, INC.
TN-190 R5
4. Characteristics
4.2 Endurance Characteristics (continued)
No.
Items
Conditions
Specifications
A new uniform coating of solder shall
cover a minimum of 75ꢀ of the surface
being immersed.
1
Test Temperature:
235 5°C for 2 0.5 seconds.
Others are based on JIS C 5102 clause 8.4.
(Test Method is according to Clause 1.)
Solderability
Change in
capacitance
Relative to the value
before test 5ꢀ
2
The methods are in accordance with JIS C
5143 Appendix I and II.
Resistance to
Soldering Heat
After preheat of 5 minutes at 150°C.
Immersion at 260 5°C
10 1 seconds for A, B cases.
Tangent of
loss angle
Clause 4.1.4
shall be satisfied
5
0.5 seconds for C, D, E cases.
Reflow at 260 5°C
10 1 seconds.
Leakage
current
Clause 4.1.5
shall be satisfied
Soldering iron method
(1) 25 watt soldering iron: Less than 3
+0
seconds at one side with 350 °C
-10
Appearance
There shall be no defoma-
tion of case or distinct
looseness of electrodes
(2) 30 watt soldering iron: Less than 3
seconds at one side with 300 10°C
Re-soldering shall be one time only.
Change in
capacitance
Relative to the value
before test 10ꢀ
3
After surface mounting by soldering (2 times),
if you do screening to heat capacitors, it is for
temperature process to establish to under
drawing of Temperature - Time. Leaving them
for 1~2 hours later, you measure them.
Surface Mounting
by Soldering
(2 times)
Tangent of
loss angle
Clause 4.1.4
shall be satisfied
↓
Screening
to Heat
120
Leakage
current
Not more than 125ꢀ of
initial value (Clause 4.1.5)
20
Appearance
No remarkable abnormality
and markings shall be legible
15
100
45 Time (min)
Change in
capacitance
Within +5ꢀ of initial value
4
5
The TMC capacitors will withstand 6 hours of
vibration testing, 2 hours in each of three mutual-
ly perpendicular planes. The frequency will vary
from 10 Hz to 55 Hz and back to 10 Hz over a
one minute period, continuously during each 2
hour test, with a total excursion of 1.5 mm.
During the last 30 minutes of vibration, in each
direction, electrical tests shall be conducted.
Vibration
Tangent of
loss angle
Leakage
Current
Within initial value specified
Within initial value specified
Appearance
All markings shall be legible,
no abnormalities
Change in
capacitance
Relative to the value
before test 10ꢀ
Damp Heat
(steady state)
The capacitor shall be stored at a temperature
of 40 2°C and relative humidity of 90ꢀ
to 95ꢀ for 500 +24 hours. Then the
0
Tangent of
loss angle
Clause 4.1.4 shall be satisfied
capacitor shall be subjected to standard
atmospheric conditions for 1 to 2 hours, after
which measurements shall be made.
Leakage
Clause 4.1.5 current
shall be satisfied
Appearance
No remarkable abnormality
and markings shall be legible
PAGE 9 OF 20
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KOA SPEER ELECTRONICS, INC.
TN-190 R5
4. Characteristics
4.2 Endurance Characteristics (continued)
No.
Items
Conditions
Specifications
Change in
capacitance
Relative to the value
before test 10ꢀ
6
Testing is conducted for 2,000 hours @
85°C 2°C with the rated voltage applied
through a 3Ω series protective resistor.
Measurements will be taken after stabilization
for 1 to 2 hours, at room temperature. The
readings shall comply with the required
specifications.
Electrical
Endurance
Tangent of
loss angle
Clause 4.1.4
shall be satisfied
Leakage
current
Not more than 125ꢀ of
initial value (Clause 4.1.5)
Appearance
No remarkable abnormality
and markings shall be legible
The capacitor shall be subjected to each
specified temperature for each specified period
shown in the table below. These 4 steps consti-
tutes one rotation. 5 continuous rotations shall
be carried out.
7
Change in
Temperature
Change in
capacitance
Relative to the value
before test 10ꢀ
Tangent of
loss angle
Clause 4.1.4
shall be satisfied
Step
Temperature (°C)
-55
Normal temperature
125
Normal temperature
Duration
30 3 min
3 max
1
2
3
4
3
Leakage
current
Clause 4.1.5
shall be satisfied
2
30 3 min
3 max
Change in
capacitance
Relative to the value
before test 10ꢀ
Expose the capacitor to 40 2°C at
8
Resistance to
Damp Heat
90~95ꢀ RH and apply DC voltage equal to
rated voltage through 1K ohm series protective
resistor 500 12 hours. Then expose it for
4 hours in the standard atmospheric conditions
and then, carry out the measurement.
Tangent of
loss angle
Not more than 150ꢀ of
initial value (Clause 4.1.4)
Leakage
current
Not more than 200ꢀ of
initial value (Clause 4.1.5)
Appearance
No remarkable abnormality
and markings shall be legible
There will be no evidence of mechanical
degradation in terminals and the unit.
The capacitor soldered to the alumina plate, is
pushed sideway horizontally with 1.5Kg.F ten-
sile load as shown below. For the other proce-
9
Terminal
Strength
dures, refer to JIS C 5143 accessories note 3.
Capacitor unit
Solder
Alumina plate
Change in
capacitance
Relative to the value
before test +3ꢀ
(1) Cleaning by Immersion I
Solvent: IPA
10
Resistance to
Solvent
Immersion time: 5 1 minutes
Temperature: 20~25°C
(2) Cleaning by Immersion II
Solvent: Water
Tangent of
loss angle
Clause 4.1.4
shall be satisfied
Immersion time: 5 1 minutes
Temperature: 55 5°C
Leakage
current
Clause 4.1.5
shall be satisfied
(3) Ultrasonic cleaning
+8
Frequency: 25 4kHz or 40 kHz
-4
Output power: Less than 20W/l
Time: 5 minutes
Temperature-IPA: 20~25°C Water: 55 5°C
Appearance
No abnormality between
the capacitor and terminals.
PAGE 10 OF 20
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KOA SPEER ELECTRONICS, INC.
TN-190 R5
5. Markings
5.1 Marking Methods
Markings are printed on the surface of the capacitor unit.
Table 4-Examples of markings on the unit
Lot Number Symbol
A, B cases
C, E cases
Month
1 2 3 4 5 6 7 8 9 10 11 12
Production
Month,
Year
Abbreviated Capacitance
10
16
A6: 1.0 µF
1999 a b c d e
2000 n p q r s
2001 A B C D E F G H J K
2002 N P Q R S T U V W X
f
t
g h
u v w x
j
k
l
m
Year Code
Production
y
L
Y
z
M
Z
Month,
Belt Marking
for Anode
_
A6
Year Code
+
Belt Marking
for Anode
Upper number indicates capacitance in µF.
Lower number indicates rated voltage (16V).
_
+
1999 Jan. fix as Code “a” and alphabetical
order follows. (I, i, O, o are not being used)
5.2 Label Descriptions in minimum package unit
(1) Manufacturer’s Name (2) Production Lot Number (3) Part Number (4) Rated Voltage
(5) Nominal Capacitance Value (6) Nominal Capacitance Tolerance (7) Quantity
Table-5 Tables of printed markings
WV
cap
0.10
2.5
0E
4
7
10
16
20
25
1E
35
1V
50
1H
0G
0J
1A
1C
1D
104
154
224
N5
A5
0.15
0.22
0.33
0.47
E5
J5
N5
S5
VS5
HS5V 0.47
50V
HW5V 0.68
50V
1
0.68
1.0
1.5
2.2
3.3
4.7
6.8
10
W5
DA6
DE6
DJ6
DN6
DS6
EW5
EA6
EE6
EJ6
EN6
VW5
VA6
A6
50
1.5
50V
2.2
50V
3.3
50V
4.7
50V
E6
CE6
CJ6
CN6
CS6
CW6
VE6V 1.5
35
VJ6V 2.2
35
J6
JN6
AJ6
AN6
AS6
AW6
AA7
N6
GS6
VN6V 3.3
35
JS6
ES6V 4.7
25V
6.8
4.7
35V
eW6
eA7
eE7
eJ7
GW6
JW6 V W6
JA7
V
DW6V 6.8
20V
6.8
25V
10
25V
15
25V
22
25V
35V
GA7V A7V
GE7
CA7V 10 DA7 V 10
10
16V
20V
35V
15
JE7
AE7V 15 CE7 V 15
15
20V
22
20V
33
20V
47
20V
15
10V
16V
35V
22
GJ7
JJ7V 22 AJ7V 22 CJ7 V 22
7V
10V
16V
33
16V
47
16V
68
16V
100
16V
33
eN7
eS7
GN7V 33
4V
JN7V 33 AN7V 33
7V
JS7V 47
7V
10V
47
GS7V
47
4V
47
10V
68
10V
100
10V
150
10V
220
10V
68
eW7V 68 GW7V 68
2.5
eA8V 100
2.5
150
68
7V
100
7V
150
7V
220
7V
330
7V
V
4V
100
150
220
330
470
100
4V
150
4V
220
4V
330
4V
V
2.5V
220
2.5V
330
2.5V
470
2.5V
470
4V
Refer to pages 2 & 3 for case sizes.
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KOA SPEER ELECTRONICS, INC.
TN-190 R5
5.3 Marking Methods (P series only)
Markings are printed on the surface of the capacitor unit.
Examples of marking
ꢀ
In case that simple capacitance symbol
is same as case size, rated voltage symbol
is marking on higher voltage one.
Capacitance Symbol (A6: 1µF)
Production Month, Year Code
Belt Marking for Anode
6.3V1µF
10V1µF
A6 D
ꢀ
ꢀ
When marking the symbol of rated voltage
and capacitance, a multipler of capacitance
symbol is omitted.
Capacitance Symbol (A: 1µF)
Production Month, Year Code
Belt Marking for Anode
AA D
Simple symbol is referenced to JIS C 5143
clause 10, and EIAJ RC-3813 clause 7.1.
Rated Voltage Symbol (A: 10V)
5.4 3-2 Label Descriptions in Minimum Package Unit
(1) Manufacturer’s Name (2) Production Lot Number (3) Part Number (4) Rated Voltage
(5) Nominal Capacitance (6) Nominal Capacitance Tolerance (7) Quantity
Table 5.A1-Table of Rated Values and Marking
V,DC
2.5
OE
4
OG
6.3
OJ
10
1A
16
1C
20
1D
25
1E
CAP
CODE
µF
0.047
ES
EW
473
683
104
154
224
334
474
684
105
155
225
335
475
685
106
156
226
0.068
0.10
0.15
0.22
0.33
0.47
0.68
1.0
1.5
2.2
3.3
4.7
DA
DE
DJ
DN
DS
DW
S5
CW
CA
W5
AA
AE
AJ
AN
AS
A6
JE
JJ
JN
JS
JW
JA
E6
GJ
J6
eN
eS
eW
eA
eE
eJ
GN
GS
GW
GA
GE
GJ
6.8
10
15
22
Refer to Page 2 for case sizes.
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P.O. Box 547
Bradford, PA 16701
USA
814-362-5536
Fax 814-362-8883
KOA SPEER ELECTRONICS, INC.
TN-190 R5
6. Quality
6.1 Failure Rate
Not more than 1.0ꢀ per 1,000 hours
6.2 Series Circuit Resistance
Obtain series circuit resistance from Figure 1 (Percentage of Failure Rate vs. Circuit
Resistance) and Figure 2 (Failure Rate Improvement Factors). As Failure Rate is based
on 1Ω/V of series circuit resistance, it is 0.38ꢀ for 1,000 hours in case of 3Ω/V, for example.
6.3 Quality Assurance Requirements
MIL - STD - 105D Inspection level II, Normal inspection, single sampling.
Table 6
Items
AQL
Short, open
0.1ꢀ
Capacitance,
Dissipation Factor, Leakage Current
0.4ꢀ
Appearance
Dimensions, Constructions
0.65ꢀ
6.4 Endurance Test
Table 7
Sample
Quantity
Permissible Number of
Defectives
Group
Items
1
Vibration
6
0
2
3
Solderability
Terminal Strength,
Humidity Resistance
6
0
0
Stability at Low and High Temperature
Surge Voltage
6
6
6
0
0
0
4
5
High Temperature Load
Resistance to Soldering Heat
7. Others
7.1 Based on JIS C 5143 (1991 Edition) Characteristic LB and EIAJ RC 3813
Characteristic B
7.2 Method of Testing: JIS C 5102 (1994 Edition) and EIAJ RC 3813
PAGE 13 OF 20
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Bolivar Drive
P.O. Box 547
Bradford, PA 16701
USA
814-362-5536
Fax 814-362-8883
www.koaspeer.com
KOA SPEER ELECTRONICS, INC.
TN-190 R5
7. Others (continued)
Figure 1 - Circuit Resistance vs. Percentage of Failure Rate
100
10
1
0.1
0.1
1
10
Circuit Resistance (Ω/V)
Figure 2 - Failure Rate Improvement Factors
1
K=1.0
K=0.8
0.1
Working Volt
Rated Volt
K =
(Circuit Resistance 1Ω/V)
K=0.6
K=0.4
0.01
K=0.2
0.001
0.0001
20
40
60
80
100
120
Ambient Temperature (C°)
PAGE 14 OF 20
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Bolivar Drive
P.O. Box 547
Bradford, PA 16701
USA
814-362-5536
Fax 814-362-8883
KOA SPEER ELECTRONICS, INC.
TN-190 R5
Carrier Tape Packaging Specifications
8. Product Symbol
TMC OG
A
Case
Size
475
M
L
R
H
Leader
Length
Series
Code
Rated
Nominal
Capacitance Carrier Tape
Packaging
Polarity
Voltage
Capacitance Tolerance
Orientation
9. Dimensions of the carrier tape and standard parts quantity per reel
9.1 Dimensions
Pocket
J
Perforation
E
D
C
B
H
F
G
A
t
K
Direction of Tape Flow
Description
Symbol
CASE SIZE
B
Tol.
%
0.1
0.1
0.1
0.1
+0.1-0.0
0.1
0.1
0.1
P
1.5
2.2
4.0
4.0
1.5
1.75
3.5
2.0
8.0
0.2
1.6
A
1.9
C
E
Pocket Width
Pocket Length
Pocket Pitch
Feed Hole Pitch
Feed Hole Diameter
Feed Hole Position
Feed Hole to
Pocket Center
Tape Width
A
B
F
H
J
E
D
G
C
T
K
3.1
3.9
4.0
4.0
1.5
1.75
3.6
2.0
8.0
3.7
6.3
8.0
4.0
1.5
1.75
5.5
2.0
12.0
0.3
3
4.8
7.7
8.0
4.0
1.5
1.75
5.5
2.0
12.0
0.3
3.4
3.5
4.0
4.0
1.5
1.75
3.5
2.0
8.0
0.2
2.5
0.3
MAX
MAX
Tape Thickness
Overall Thickness
0.2
2.5
9.2 Inserting Direction (Polarity Orientation)
Polarity L: To be inserted with
the positive side to the feed hole.
Polarity R: To be inserted with
the negative side to the feed hole.
Direction of
Tape Flow
Direction of
Tape Flow
9.3 Reel Dimensions
(Unit: mm)
Tape width
8
12
0
A -3
ø 180
ø 60
ø 13
ø 21
2.0
←
←
←
←
←
Label
B +1
0
D
R
C
D
E
W
t
0.2
0.8
0.5
0.3
0.4
0.4
B
A
C
E
9.0
13.0
1.3
←
←
R
10.5
W
t
PAGE 15 OF 20
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Bolivar Drive
P.O. Box 547
Bradford, PA 16701
USA
814-362-5536
Fax 814-362-8883
www.koaspeer.com
KOA SPEER ELECTRONICS, INC.
TN-190 R5
9.4 Tape leader and Trailer
Tape Leader
More than 40 mm
Components Inserted
More than 200 mm
Tape Trailer
More than 40 mm
10. Packaging Specifications
10.1 Peel - off Strength of Cover Tape
In the following method, F + 0.294 0.196N shall be maintained, when cover tape is peeled off.
Ø = 10 to 15 degrees
F = 0.294 0.196N
Ø
Peel - off
Speed 0.005m/s
10.2 Component Insertion on Reel
(1)
It is required that the number of empty places in the tape per reel shall not exceed two per
1,000 pcs without consecutive empty places.
(2)
Components in the tape are to be prevented from overturning, reverse turning and side
turning in the pocket holes.
10.3 Splicing (Cover Tape)
The method of correcting improperly inserted component on reel.
(A)
Cut three sides of a cover tape over the pocket hole where the component is improperly
inserted and put the transparent adhesive tape on it. The adhesive tape shall not go over
the sealing width of a cover tape.
Adhesive cover patch for repair
Splice cutting
Place for repair
The patch covers each three
pockets before and after the
center pocket for repair.
Adhesive cover patch for repair
Cover tape
Carrier tape
11. Marking on Reel
Principally, markings on reel cover following items on label.
(1) Nominal Capacitance Value
(5) Production Lot Number
Lot Number Description
(2) Nominal Capacitance Tolerance (6) Manufacturer’s Name
(Example)
(3) Rated Voltage
(4) Quantity
(7) Product Type Symbol
0 1 0 1 2 3
Production
Control Number
Production Month
Production Year
PAGE 16 OF 20
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Bolivar Drive
P.O. Box 547
Bradford, PA 16701
USA
814-362-5536
Fax 814-362-8883
www.koaspeer.com
KOA SPEER ELECTRONICS, INC.
TN-190 R5
12. Materials of Tape and Reel
(1) Reel (Shape and dimensions as per 2.3)
(2) Embossed Carrier (Shape and dimensions as per 2.1)
(3) Cover tape
13. Packaging
Capacitors must be packaged prior to shipment so as to prevent damage during transportation or storage.
The period of storage at a normal room temperature and humidity is two years after production.
14. Inner Structure and Constituent Materials
6
5
7
4
diagonal line
diagonal line
8
9
3
2
1
Table - 1
No.
Item
Material
Tantalum
Note
1
2
3
4
5
6
7
8
9
Element
Electrolyte
Cathode layer
Manganese oxide (Mn02)
Carbon, Silver
Silver
Conductive adhesive
Anode lead wire
Supporter
Tantalum
Teflon
Mold resin
Epoxy
Positive terminal
Negative terminal
Nickel silver (0.1t)
Nickel silver (0.1t)
Diagonal line: Sn90, Pb10
solder plating
PAGE 17 OF 20
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Bolivar Drive
P.O. Box 547
Bradford, PA 16701
USA
814-362-5536
Fax 814-362-8883
KOA SPEER ELECTRONICS, INC.
TN-190 R5
15. Handling cautions for use of TMC Type Tantalum Solid Electrolytic Capacitors
15.1 Ripple Voltage
A. Keep the sum of peak DC voltage and ripple voltage within the rated voltage and never go over it
B. When ripple voltage applied, use less value than shown below
Maximum Permissible Ripple Voltage (Vrms)
Frequency (kHz)
In case of high temperature use, calculate permissible ripple voltage by using the following formula:
Vrms (at 50°C) = 0.7 x Vrms (at 25°C)
Vrms (at 85°C) = 0.5 x Vrms (at 25°C)
15.2 Reverse Polarity Voltage
A. TMC Type Solid tantalium capacitors are polar and reverse polarity voltage must not be applied.
But, for short time application, the peak reverse polarity voltage applied to the capacitor must not exceed:
at 25°C - 10ꢀ of rated voltage or 1V, whichever is smaller.
at 85°C - 5ꢀ of rated voltage or 0.5V, whichever is smaller.
B. Careless contact of the tester to the capacitor will cause reverse polarity voltage and excessive voltage.
15.3 Voltage Derating
Have voltage derating ratio as large as possible. Especially, in case of low impedance circuit use, not more than
1/3 of rated voltage is recommended. For moment heavy current run like switching or pulse voltage. The value
of resistor is recommended to be more than 3 ohms per volt. (Limit to less than 300mA for rush current).
15.4 Applications
A. Limit of Stress
Stress given to the capacitor by sucking tools and centering tweezers must not exceed 4.9N (stress time not
more than 5 sec.) with the 1.5Ø point. Especially, the setting position of sucking tools is too low will cause
not only overloading to the capacitor, but also wire - snapping on PC boards and scattering of capacitors
and other parts, when consolidated mounting with other chip components of less than 1mm in height.
PAGE 18 OF 20
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Bolivar Drive
P.O. Box 547
Bradford, PA 16701
USA
814-362-5536
Fax 814-362-8883
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KOA SPEER ELECTRONICS, INC.
TN-190 R5
15.4 Applications (continued)
B. Recommended Soldering Pattern Dimensions
The recommended chip soldering pattern dimensions are as shown in Table 2 and Fig. 1. Note, however,
that they are affected by such factors as reflow conditions, solder type, and circuit board size.
If the pattern area is significantly larger than the capacitor terminal area, the capacitor in place may
be displaced when the solder melts.
Fig. 1 - Recommended soldering pattern dimensions
L
y
Capacitor
z
W
x
x
Table 2 - Recommended soldering pattern
Dimensions Capacitor size Pattern dimensions
Case size
L
W
1.25
1.6
2.8
3.2
4.3
x
y
z
P
A
B
C
E
2.0
3.2
3.5
5.8
7.3
1.2
1.6
1.6
2.3
2.3
1.1
1.2
2.2
2.4
2.6
0.8
1.2
1.4
2.4
3.8
C. Flux
Use login - family flux and avoid the use of strong acid and high activational materials.
D. Solderability
Carry out soldering under following conditions. We recommend soldering at a lower temperature and at a
shorter time.
50
1) Soldering Iron
40
Temperature at the point of soldering iron: Not higher than +350°C
30
Soldering Time: Less than 3 seconds
Output: Less than 30W
20
2) Reflow (Atomospheric and Hot - Plate)
10
Capacitor Body Temperature: Not higher than +260°C
Time: Not more than 10 seconds
0
200
Fig. 2
220
240
260
Temperature (°C)
A permissible range for peak temperature and time as per Fig. 2.
a)
There is no problem in such a hot - plate heating method which will heat the bottom side,
but in case of the top side heating by infra-red, the temperature of capacitor body becomes
higher than the surface of PC boards. Caution must be taken.
PAGE 19 OF 20
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Bolivar Drive
P.O. Box 547
Bradford, PA 16701
USA
814-362-5536
Fax 814-362-8883
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KOA SPEER ELECTRONICS, INC.
TN-190 R5
D. Solderability (continued)
b)
In case of near infra-red heating with big power output, sudden temperature increase will
occur and preheating at 130°C - 160°C for more than one minute is recommended. Please
be sure that the temperature between maximum reflow temperature and the one used will
remain less than 100°C
c)
If solder land is bigger than the capacitor terminal, slipping off of the capacitor in its position
will happen. Please take care that this does not happen.
20
3) Solder Immersion
Solder Bath Temperature: Not higher than 260°C
Time: A, B, P Cases: Not more than 10 seconds
C, E Cases: Not more than 5 seconds
A, B, P cases
C, E cases
10
0
A permissible range for peak temperature and
time as per Fig. 3
200
Fig. 3
220
240
260
Temperature (°C)
a)
Consideration must be taken to remove “gas” because
solderability is sometimes bad for high density of components.
b)
Pre-heat as much as possible and avoid sudden heating to the capacitor.
Recommended pre-heat temp. is 130~160°C for more than one minute and
the temperature between peak temp. and pre-heat is less than 100°C.
E. Cleaning
Allow board surface temperature to drop to normal temperature fully, after which cleaning shall be made.
Usable solvent are as follows:
• Halogen system organic solvent (HCFC225, methylene chloride and the like.)
• Alcohol type solvent (IPA, ethylalcohol and the like.)
• Petroleum type solvent, alkaline saponification agent, water and the like.
Cleaning must me made under the following conditions.
Temperature: Not higher than +50°C
Immersion Time: Not more than 30 minutes
In case of ultrasonic cleaning, it must be made with a frequency of less than 45kHz, an output of less than
0.02W/cm3 within 5 minutes at less than +40°C.
1) Ultrasonic cleaning should be avoided as much as possible, but when above cleaning is carried
out, please see to it that mounted capacitors do not bump against other parts and no hard brush
will be used to rub circuit boards.
2) Ultrasonic cleanings mentioned above are based on thyrister - inveter method. So, for cleanings
with other methods, please carry out much of pre-tests.
F. Conductive Adhesive
The use of conductive adhesive for capacitor mounting should be avoided. Please consult KOA Speer
for use if necessary.
PAGE 20 OF 20
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Bolivar Drive
P.O. Box 547
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USA
814-362-5536
Fax 814-362-8883
www.koaspeer.com
Notice: The information contained in this Tech Note is believed to be accurate and up-to-date. KOA Speer Electronics reserves this right to change these specifications without notice.
TMC
standard tantalum chip capacitor
features
• Epoxy molded body, UL94V-0 flammability
• EIA - US and EIA - Japan compatible sizes
• 100% burn-in and end-of-line testing
• Extended values per case size
• Excellent humidity and solder resistance
• Marking: Black body color with white marking
dimensions and construction
L
W1
Case Size
(Inch Size Code)
Dimensions inches (mmꢀ
W2
L
W1
t
d
g
P
.079±.008 .049±.008 .035±.004 .047 Max. .020±.012 .031 Min.
(2.±±±.2ꢀ (1.25±±.2ꢀ (0.9±±.1ꢀ (1.2 Max.ꢀ (0.5±±.3ꢀ (±.8 Min.ꢀ
t
(2012)
A
.126±.008 .063±.008 .047±.008 .063±.008 .028±.012 .055±.008
(3.2±±.2ꢀ (1.6±±.2ꢀ (1.2±±.2ꢀ (1.6±±.2ꢀ (±.7±±.3ꢀ (1.4±±.2ꢀ
(3216)
Side
End
B
.138±.008 .110±.008 .087±.008 .073±.008 .031±.012 .055±.008
(3.5±±.2ꢀ (2.8±±.2ꢀ (2.2±±.2ꢀ (1.9±±.2ꢀ (±.8±±.3ꢀ (1.4±±.2ꢀ
(3528)
C
.236±.012 .126±.008 .087±.008 .098±.008 .051±.012 .094±.008
(6.±±±.3ꢀ (3.2±±.2ꢀ (2.2±±.2ꢀ (2.5±±.2ꢀ (1.3±±.3ꢀ (2.4±±.2ꢀ
(6032)
W2
E
.287±.012 .169±.012 .094±.004 .110±.008 .051±.012 .15±.008
(7.3±±.3ꢀ (4.3±±.3ꢀ (2.4±±.1ꢀ (2.8±±.2ꢀ (1.3±±.3ꢀ (3.8±±.2ꢀ
(EIA-D)
d
g
d
Bottom
ordering information
Old Part #
TMC
1E
C
475
M
L
R
H
Voltage
Code
Nominal
Capacitance
Polarity
Orientation
Leader Length
Cover/Carrier
Type
Case Size
Tolerance
Packaging
New Part #
TMC
Type
1E
C
L
TE
475
M
R
Voltage
Code
Termination
Material
Nominal
Capacitance
Polarity
Orientation
Case Size
Packaging
Tolerance
0E: 2.5V
0G: 4V
P: 2012
A: 3216
B: 3528
C: 6032
E: EIA-D
L: SnPb
T: Sn
TE: 7" embossed
plastic
Reference
capacitance
ranges and
case sizes
chart
K: ±10%
M:±20%
0J: 7V
1A: 10V
1C: 16V
1D: 20V
1E: 25V
1V: 35V
1H: 50V
For further information on packaging,
please refer to Appendix A.
Specifications given herein may be changed at any time without prior notice. Please confirm technical specifications before you order and/or use.
130
KOA Speer Electronics, Inc. • Bolivar Drive • P.O. Box 547 • Bradford, PA 16701 • USA • 814-362-5536 • Fax: 814-362-8883 • www.koaspeer.com
TMC
standard tantalum chip capacitor
capacitance ranges and case sizes
Standard Range
Extended Range
STANDARD VALUES VOLTAGE CODE
0E
2.5
3.2
1.6
0G
4
0J
7
1A
10
1C
16
20
10
1D
20
26
13
1E
25
32
16
1V
35
46
23
1H
50
63
32
STANDARD VALUES VOLTAGE CODE 0G 0J 1A 1C 1D 1E 1V 1H
85ºC
Rated Voltage (VDC)
Surge Voltage (VDC)
Derated Voltage (VDC)
4
5
7
9
4
10 16 20 25 35 50
13 20 26 32 46 63
6.3 10 13 16 23 32
85ºC
Rated Voltage (VDC)
Surge Voltage (VDC)
Derated Voltage (VDC)
5
9
13
125ºC
2.5
4
6.3
125ºC
2.5
Capcode
473
683
104
154
224
334
474
684
105
155
225
335
475
685
106
156
226
336
476
686
107
157
227
337
477
Capacitance (µF)
Capacitance (µF)
Capcode
104
.047
.068
.1
P
P
0.1
0.15
0.22
0.33
0.47
0.68
1.0
1.5
2.2
3.3
4.7
6.8
10
A
A
A
A
B
B
B
C
C
C
E
E
A
B
B
B
C
C
C
E
E
154
P
P
A
A
A
A
A
224
.15
.22
.33
.47
.68
1.0
1.5
2.2
3.3
4.7
6.8
10
A,B
A,B
B
334
474
684
105
155
225
335
475
685
106
156
226
336
476
686
P
P
A
B
P
P
P
A
A
A
A,B B,C
A,B B,C
A
B
P
P
A,P
A
A
B
P
P
A,P
A
A,B
C
A
B
P
P
A,P
A
A,B B,C C,E
A
B
P
P
P
A,P A,P
A
A,B
B
B
B,C C,E
A,P A,P A,P A,B A,B
B,C
E
E
A
A,P A,P A,B,P A,B A,B,C B,C C,E
C
E
A,P A,P A,B,P A,B,C A,B B,C
C
C,E
E
C
E
A,P A,B,P A,B,P A,B,C A,B,C B,C C,E
A,P A,B,P A,B B,C A,B,C C,E C,E
A,B
C
E
15
E
15
C
E
22
A,B,P A,B,P A,B,C B,C B,C,E C,E
E
33
A,B A,B,C A,B,C B,C,E C,E
A,B,C B,C,E B,C,E C,E
E
E
22
C
E
47
B
33
C
E
68
B,C B,C,E B,C,E C,E
B,C B,C,E B,C,E C,E
C,E C,E C,E C,E
E
E
47
100
150
220
330
470
68
C,E C,E
E
E
E
E
E
E
E
part marking
Standard Range
Lot Number Symbol
Capacitance symbol (A6:1µF)
Belt marking anode
Lot number symbol is expressed “a” as January
1999 as a starting month and year in an
alphabetical order and in a small letter to a capital
(Letters of I, i, O, and o are excluded)
A & B Case
A 6
Production month/year code
Month
1
a
2
b
p
B
P
3
c
4
d
r
5
e
s
6
7
g
8
h
9
j
10 11 12
Value (µf)
Marking
.1 .15 .22 .33 .47 .68 1.0 1.5 2.2 3.3 4.7 6.8 10.0
A5 E5 J5 N5 S5 W5 A6 E6 J6 N6 S6 W6 A7
1999
2000
2001
2002
f
k
x
l
m
z
n
q
t
u
v
w
J
y
L
Y
A
N
C
Q
D
R
E
S
F
T
G
U
H
V
K
X
M
Z
W
Extended Range
Nominal capacitance (10µF)
Belt marking (positive)
Voltage code G = 4 VDC
Value code (same as TMC)
(S6 = 4.7 µf)
C & E Case
Anode (positive)
10
25
Production month/year code
Rated voltage (VDC)
G S 6
Production month/year code
C & E Case
47
10
Same marking as standard TMC
A, B & P Case
Voltage
Marking
2.5
e
4
7
J
10
A
16
C
20
D
25
E
35
50
H
G
V
Specifications given herein may be changed at any time without prior notice. Please confirm technical specifications before you order and/or use.
131
KOA Speer Electronics, Inc. • Bolivar Drive • P.O. Box 547 • Bradford, PA 16701 • USA • 814-362-5536 • Fax: 814-362-8883 • www.koaspeer.com
相关型号:
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TMC1CB475KLRH
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TMC1CBLTE106KR
Tantalum Capacitor, Polarized, Tantalum (dry/solid), 16V, 10% +Tol, 10% -Tol, 10uF, Surface Mount, 1411, CHIP
KOA
TMC1CBLTE106MR
Tantalum Capacitor, Polarized, Tantalum (dry/solid), 16V, 20% +Tol, 20% -Tol, 10uF, Surface Mount, 1411, CHIP
KOA
TMC1CBLTE156KR
Tantalum Capacitor, Polarized, Tantalum (dry/solid), 16V, 10% +Tol, 10% -Tol, 15uF, Surface Mount, 1411, CHIP
KOA
TMC1CBLTE156MR
Tantalum Capacitor, Polarized, Tantalum (dry/solid), 16V, 20% +Tol, 20% -Tol, 15uF, Surface Mount, 1411, CHIP
KOA
TMC1CBLTE226KR
Tantalum Capacitor, Polarized, Tantalum (dry/solid), 16V, 10% +Tol, 10% -Tol, 22uF, Surface Mount, 1411, CHIP
KOA
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