ROHM TCFGA0J475M8R

Chip tantalum capacitors (Fail-safe open structure type)
TCFG Series A Case
Dimensions (Unit : mm)
Features
1) Safety design by open function built - in.
2) Wide capacitance range
3) Screening by thermal shock.
Anode mark
L
W1
H
(Unit : mm)
W2
S
+
S
−
Dimensions
Size
L
3.2 +
− 0.2
W1
1.6 +
− 0.2
W2
1.2 +
− 0.2
H
1.6 +
− 0.2
S
0.8 +
− 0.3
Part No. Explanation
T C F G A 0 J 1 0 6 M 8 R
1
2
1 Series name
4
3
5
6
4 Capacitance
TCFG
Nominal capacitance in pF in 3 digits : 2significant
figure representing the number of 0's.
2 Case code
A
5 Capacitance tolerance
M : ±20%
3 Rated voltage
Rated voltage (V)
CODE
4 6.3 10 16 20 25
0G 0J 1A 1C 1D 1E
6 Taping
8 : Reel width (8mm)
R : Positive electrode on the side opposite to sprocket hole
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1/7
2012.03 - Rev.H
TCFG Series A Case
Data Sheet
Capacitance range
Rated voltage (V.DC)
(μF)
4
6.3
10
1.0 (105)
16
20
25
A
A
A
1.5 (155)
A
A
A
A
2.2 (225)
A
A
A
A
3.3 (335)
A
A
A
A
A
4.7 (475)
A
A
A
A
A
A
6.8 (685)
A
A
A
A
10 (106)
A
A
A
A
15 (156)
A
A
A
22 (226)
A
A
A
33 (336)
A
A
47 (476)
A
A
68 (686)
A
Remark) Case size codes (A) in the above show each size products line-up.
Marking
The indications listed below should be given on the surface of a capacitor.
Polarity
: The polarity should be shown by bar. (on the anode side)
Rated DC voltage : Due to the small size of A case, a voltage code is used as shown below.
Nominal capacitance
Voltage Code Rated Voltage(V)
Capacitance Code Nominal Capacitance (F)
G
4
105
1.0
J
6.3
155
1.5
A
10
225
2.2
C
16
335
3.3
D
20
475
4.7
E
25
685
6.8
106
10
156
15
226
22
[A Case]
336
33
476
47
686
68
note 1) Visual typical example (1)voltage code (2) capacitance code
J 106
− −
(1) (2)
J106
manufacture code
note 2) voltage code and capacitance code are variable with parts number
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2/7
2012.03 - Rev.H
TCFG Series A Case
Data Sheet
Item
Test conditions
(based on JIS C5101-1 and JIS C5101-3)
Performance
Operating Temperature
−55 °C to +125 °C
Voltage reduction when temperature exceeds +85°C
Maximum operating temperature +85 °C
with no voltage derating
4 6.3 10 16 20 25
at 85°C
Category Voltage (V.DC)
2.5 4 6.3 10 13 16
at 125°C
Surge Voltage
5.0 8
at 85°C
Rated Voltage (V.DC)
DC leakage current
Capacitance tolerance
13 20 26 32
0.5μA or 0.01CV whichever is greater
(Shown in "Standard list")
As per 4.9 JIS C 5101-1
As per 4.5.1 JIS C 5101-3
Voltage : Rated voltage for 1min
Shall be satisfied allowance range.
As per 4.7 JIS C 5101-1
As per 4.5.2 JIS C 5101-3
Measuring frequency : 120±12Hz
Measuring voltage
: 0.5Vrms, +1.5V.DC
Measuring circuit
: DC Equivalent series circuit
±20%
Tangent of loss angle
(Df, tanδ)
Shall be satisfied the voltage on "Standard list"
As per 4.8 JIS C 5101-1
As per 4.5.3 JIS C 5101-3
Measuring frequency : 120±12Hz
Measuring voltage
: 0.5Vrms, +1.5V.DC
Measuring circuit
: DC Equivalent series circuit
Impedance
Shall be satisfied the voltage on "Standard list"
As per 4.10 JIS C 5101-1
As per 4.5.4 JIS C 5101-3
Measuring frequency : 100±10kHz
Measuring voltage
: 0.5Vrms or less
Resistance to Appearance There should be no significant abnormality.
The indications should be clear.
soldering heat
L.C
Less than initial limit
ΔC / C
Within ±5% of initial value
tanδ
Less than initial limit
Dip in the solder bath
Solder temp : 320±5°C
Fail-Safe open unit actuation Within 320°C − 20s
Temperature
cycle
Appearance There should be no significant abnormality.
The indications should be clear.
L.C
Less than initial limit
ΔC / C
TCFGA1A226M8R : Within ±15% of initial value
TCFGA0J476M8R : Within ±15% of initial value
TCFGA0G686M8R : Within ±15% of initial value
: Within ±10% of initial value
Others
tanδ
As per 4.14 JIS C 5101-1
As per 4.6 JIS C 5101-3
Dip in the solder bath
Solder temp : 260±5°C
Duration
: 5±0.5s
Repetition
:1
After the specimens, leave it at room temperature for
over 24h and then measure the sample.
As per 4.16 JIS C 5101-1
As per 4.10 JIS C 5101-3
Repetition : 5 cycles (1 cycle : steps 1 to 4)
without discontinuation.
Step
Temp.
Time
1
−55 +
− 3°C
30 +
−3min
2
3
Less than initial limit
4
Room temp. 3min. or less
125 +
30 +
− 2°C
−3min
Room temp. 3min. or less
After the specimens, leave it at room temperature for
over 24h and then measure the sample.
Moisture
resistance
Appearance There should be no significant abnormality.
The indications should be clear.
L.C
Less than initial limit
ΔC / C
Within ±10% of initial value
tanδ
Less than initial limit
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3/7
As per 4.12 JIS C 5101-1
As per 4.12 JIS C 5101-3
After leaving the sample under such atmospheric
condition that the temperature and humidity are
60±2°C and 90 to 95%RH, respectively, for
500±12h level it at room temperature for over
24h and then measure the sample.
2012.03 - Rev.H
TCFG Series A Case
Data Sheet
Item
Temperature Temp.
Stability
ΔC / C
tanδ
−55°C
As per 4.29 JIS C 5101-1
As per 4.13 JIS C 5101-3
Within 0/−12%of initial value
Shall be satisfied the voltage on "Standard list"
−
L.C
Surge
Voltage
Test conditions
(based on JIS C5101-1 and JIS C5101-3)
Performance
Temp.
+85°C
ΔC / C
Within +10/0%of initial value
tanδ
Shall be satisfied the voltage on "Standard list"
L.C
Less than 1000% of initial limit
Temp.
+125°C
ΔC / C
Within +15/0%of initial value
tanδ
Shall be satisfied the voltage on "Standard list"
L.C
Less than 1250% of initial limit
Appearance There should be no significant abnormality.
The indications should be clear.
L.C
Less than initial limit
ΔC / C
Within ±10%of initial value
tanδ
Less than initial limit
Loading at Appearance There should be no significant abnormality.
High
The indications should be clear.
temperature
L.C
Less than initial limit
Terminal
Strength
ΔC / C
TCFGA1A226M8R : Within ±15% of initial value
TCFGA0J476M8R : Within ±15% of initial value
TCFGA0G686M8R : Within ±15% of initial value
: Within ±10% of initial value
Others
tanδ
Less than initial limit
Capacitance The measured value should be stable.
Appearance There should be no significant abnormality.
As per 4.26 JIS C 5101-1
As per 4.14 JIS C 5101-3
Apply the specified surge voltage via the serial
resistance of 1kΩ every 5±0.5min.
for 30±5 s. each time in the atmospheric condition
of 85±2°C.
Repeat this procedure 1,000 times.
After the specimens, leave it at room temperature
for over 24h and then measure the sample.
As per 4.23 JIS C 5101-1
As per 4.15 JIS C 5101-3
After applying the rated voltage for 2000+72/0h
without discontinuation via the serial resistance
of 3Ω or less at a temperature of 85±2°C, leave
the sample at room temperature/humidity for
over 24h and measure the value.
As per 4.35 JIS C 5101-1
As per 4.9 JIS C 5101-3
A force is applied to the terminal until it bends
to 1mm and by a prescribed tool maintain the
condition for 5s. (See the figure below.)
(Unit : mm)
20
50
F (Apply force)
R230
1
Thickness 1.6mm
45
Adhesiveness
The terminal should not come off.
45
As per 4.34 JIS C 5101-1
As per 4.8 JIS C 5101-3
Apply force of 5N in the two directions shown
in the figure below for 10±1s after mounting
the terminal on a circuit board.
product
YAA
C105
Apply force
a circuit board
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4/7
2012.03 - Rev.H
TCFG Series A Case
Data Sheet
Item
Test conditions
(based on JIS C5101-1 and JIS C5101-3)
Performance
Dimensions
Be based on "External dimensions"
Measure using a caliper of JIS B 7505
Class 2 or higher grade.
Resistance to solvents
The indication should be clear.
As per 4.32 JIS C 5101-1
As per 4.18 JIS C 5101-3
Dip in the isopropyl alcohol for 30±5s,
at room temperature.
Solderability
3/4 or more surface area of the solder coated
terminal dipped in the soldering bath should be
covered with the new solder.
As per 4.15.2 JIS C 5101-1
As per 4.7 JIS C 5101-3
Dip speed = 25±2.5mm/s
Pre-treatment (accelerated aging) : Leave the
sample on the boiling distilled water for 1h.
Solder temp. : 245±5°C
Duration : 3±0.5s
Solder : M705
Flux : Rosin 25%, IPA 75%
Vibration Capacitance The measured value should be stable.
Appearance
There should be no significant abnormality.
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5/7
As per 4.17 JIS C 5101-1
Frequency : 10 to 55 to 10Hz/min.
Amplitude : 1.5mm
Time : 2h each in X and Y directions
Mounting : The terminal is soldered on a print
circuit board.
2012.03 - Rev.H
TCFG Series A Case
Data Sheet
Standard list, TCFG series A Cases
Part No.
TCFG A 0G 475 M8R
Leakage
Rated Derated Surge
DF 120Hz
Impedance
current
Voltage Voltage Voltage Capacitance
(%)
100kHz Case
Tolerance
25
°C
120Hz
@85°C @125°C @85°C
code
(%)
1WV.60s
25
°C
125
°C
−55
°C
(μF)
(V)
(V)
(Ω)
(V)
(μA)
85°C
4
2.5
5
4.7
±20
0.5
10
6
8
5.6
A
TCFG A 0G 685 M8R
4
2.5
5
6.8
±20
0.5
12
8
10
4.9
A
TCFG A 0G 106 M8R
4
2.5
5
10
±20
0.5
12
8
10
4.2
A
TCFG A 0G 156 M8R
4
2.5
5
15
±20
0.6
12
8
10
4.0
A
TCFG A 0G 226 M8R
4
2.5
5
22
±20
0.9
12
8
10
3.0
A
TCFG A 0G 336 M8R
4
2.5
5
33
±20
1.3
14
10
12
3.5
A
TCFG A 0G 476 M8R
4
2.5
5
47
±20
1.9
30
12
16
3.2
A
TCFG A 0G 686 M8R
4
2.5
5
68
±20
3.0
32
16
20
3.0
A
TCFG A 0J 335 M8R
6.3
4
8
3.3
±20
0.5
10
6
8
5.6
A
TCFG A 0J 475 M8R
6.3
4
8
4.7
±20
0.5
12
8
10
4.9
A
TCFG A 0J 685 M8R
6.3
4
8
6.8
±20
0.5
12
8
10
4.2
A
TCFG A 0J 106 M8R
6.3
4
8
10
±20
0.6
12
8
10
4.0
A
TCFG A 0J 156 M8R
6.3
4
8
15
±20
0.9
12
8
10
3.0
A
TCFG A 0J 226 M8R
6.3
4
8
22
±20
1.4
14
10
12
3.5
A
TCFG A 0J 336 M8R
6.3
4
8
33
±20
2.1
30
12
16
3.2
A
TCFG A 0J 476 M8R
6.3
4
8
47
±20
3.0
34
18
24
3.2
A
TCFG A 1A 155 M8R
10
6.3
13
1.5
±20
0.5
10
6
8
8.8
A
TCFG A 1A 225 M8R
10
6.3
13
2.2
±20
0.5
10
6
8
5.6
A
TCFG A 1A 335 M8R
10
6.3
13
3.3
±20
0.5
12
8
10
4.9
A
TCFG A 1A 475 M8R
10
6.3
13
4.7
±20
0.5
12
8
10
4.2
A
TCFG A 1A 685 M8R
10
6.3
13
6.8
±20
0.7
12
8
10
4.0
A
TCFG A 1A 106 M8R
10
6.3
13
10
±20
1.0
12
8
10
3.0
A
TCFG A 1A 156 M8R
10
6.3
13
15
±20
1.5
14
10
12
3.5
A
TCFG A 1A 226 M8R
10
6.3
13
22
±20
2.2
30
12
16
3.2
A
TCFG A 1C 105 M8R
16
10
20
1.0
±20
0.5
10
6
8
7
A
TCFG A 1C 155 M8R
16
10
20
1.5
±20
0.5
10
6
8
5.6
A
TCFG A 1C 225 M8R
16
10
20
2.2
±20
0.5
10
6
8
4.9
A
TCFG A 1C 335 M8R
16
10
20
3.3
±20
0.5
10
6
8
4.8
A
TCFG A 1C 475 M8R
16
10
20
4.7
±20
0.8
10
6
8
3.9
A
TCFG A 1C 685 M8R
16
10
20
6.8
±20
1.1
10
6
8
3.8
A
TCFG A 1C 106 M8R
16
10
20
10
±20
1.6
12
8
10
3.5
A
TCFG A 1D 105 M8R
20
13
26
1.0
±20
0.5
10
6
8
7
A
TCFG A 1D 155 M8R
20
13
26
1.5
±20
0.5
10
6
8
6.0
A
TCFG A 1D 255 M8R
20
13
26
2.2
±20
0.5
10
6
8
5.2
A
TCFG A 1D 335 M8R
20
13
26
3.3
±20
0.7
10
6
8
4.8
A
TCFG A 1D 475 M8R
20
13
26
4.7
±20
0.9
10
6
8
3.9
A
TCFG A 1E 105 M8R
25
16
32
1.0
±20
0.5
10
6
8
7
A
TCFG A 1E 155 M8R
25
16
32
1.5
±20
0.5
10
6
8
6.0
A
TCFG A 1E 255 M8R
25
16
32
2.2
±20
0.6
10
6
8
5.2
A
TCFG A 1E 335 M8R
25
16
32
3.3
±20
0.8
10
6
8
4.8
A
TCFG A 1E 475 M8R
25
16
32
4.7
±20
1.2
12
8
10
3.4
A
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6/7
2012.03 - Rev.H
TCFG Series A Case
Data Sheet
Packaging specifications
Case code
A±0.1
B±0.1
t1±0.05
t2±0.1
A (3216)
1.9
3.5
0.25
1.9
Taping
1.75 +
− 0.1
A case
φ1.5 +0.1
− 0
3.5 +
− 0.05
8.0 +
− 0.2
A
t1
B
4.0 +
− 0.1
4.0 +
− 0.1
Component is loaded
2.0 +
− 0.05
t2
Pull-out direction
Packaging style
Case code
Packaging
A Case
Taping
Packaging style
Plastic taping
φ180mm reel
Symbol
Basic ordering unit
8R
2,000
Reel
9.0 +1.00
Plastic reel
φ 180 −1.50
φ 60
+1
0
φ13±0.2
11.4±1.0
Label sticking position
EIAJ ET - 7200A
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2012.03 - Rev.H
Notice
Notes
No copying or reproduction of this document, in part or in whole, is permitted without the
consent of ROHM Co.,Ltd.
The content specified herein is subject to change for improvement without notice.
The content specified herein is for the purpose of introducing ROHM's products (hereinafter
"Products"). If you wish to use any such Product, please be sure to refer to the specifications,
which can be obtained from ROHM upon request.
Examples of application circuits, circuit constants and any other information contained herein
illustrate the standard usage and operations of the Products. The peripheral conditions must
be taken into account when designing circuits for mass production.
Great care was taken in ensuring the accuracy of the information specified in this document.
However, should you incur any damage arising from any inaccuracy or misprint of such
information, ROHM shall bear no responsibility for such damage.
The technical information specified herein is intended only to show the typical functions of and
examples of application circuits for the Products. ROHM does not grant you, explicitly or
implicitly, any license to use or exercise intellectual property or other rights held by ROHM and
other parties. ROHM shall bear no responsibility whatsoever for any dispute arising from the
use of such technical information.
The Products specified in this document are intended to be used with general-use electronic
equipment or devices (such as audio visual equipment, office-automation equipment, communication devices, electronic appliances and amusement devices).
The Products specified in this document are not designed to be radiation tolerant.
While ROHM always makes efforts to enhance the quality and reliability of its Products, a
Product may fail or malfunction for a variety of reasons.
Please be sure to implement in your equipment using the Products safety measures to guard
against the possibility of physical injury, fire or any other damage caused in the event of the
failure of any Product, such as derating, redundancy, fire control and fail-safe designs. ROHM
shall bear no responsibility whatsoever for your use of any Product outside of the prescribed
scope or not in accordance with the instruction manual.
The Products are not designed or manufactured to be used with any equipment, device or
system which requires an extremely high level of reliability the failure or malfunction of which
may result in a direct threat to human life or create a risk of human injury (such as a medical
instrument, transportation equipment, aerospace machinery, nuclear-reactor controller, fuelcontroller or other safety device). ROHM shall bear no responsibility in any way for use of any
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More detail product informations and catalogs are available, please contact us.
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R1120A