CUSTOMER:
卓尚
Doc No: MES003106
Rev:
A1
承認書
RoHS Comp.
Halogen Free
APPROVAL SHEET
Specifications description
:
APAQ P/N
:
Customer P/N
AREP Series
:
Approved by
Date
Checked by
APAQ R&D
2017.03.08
APPROVAL
Approved by Customer
(Signing or stamping here)
:
Approved Date
:
鈺邦科技股份有限公司
APAQ TECHNOLOGY CO., LTD
竹南科學園區
苗栗縣竹南鎮科東三路 2&6 號 4 樓
4F., No.2 & 6, Kedong 3rd Rd., Chunan
Science Park, Miaoli County 350,
Taiwan ,( R.O.C.)
PAGE
1
OF 16
AP-CON AREP SERIES SPECIFICATION
1. Application
This specification shall be specified to conductive polymer aluminum solid electrolytic capacitors
of AREP series.
2. Composition of part number
3R0
AREP
821
Rated voltage Series code Capacitance
M
Cap tolerance
08A2
Size code
2.1 Rated voltage code
Table 1 Rated voltage and surge voltage
Rated voltage code Rated voltage (V) Surge voltage (V)
3R0
3
3.4
6R3
6.3
7.2
100
10
11.5
160
16
18.4
2.2 Capacitance code
Table 2 Rated capacitance
Capacitance code Capacitance (uF)
3R3
3.3
100
10
821
820
2.3 Capacitance tolerance code
Table 3
Capacitance tolerance
Cap tolerance code
Cap tolerance
M
20%
鈺邦科技股份有限公司
THIS DRAWINGS AND SPECIFICATIONS ARE THE PROPERTY OF APAQ
TECHNOLOGY CO. LTD AND SHALL NOT BE REPRODUCT OR USED
AS THE BASIC FOR THE MANUFACTURE OR SALE OF APPARATUS OR
DEVICES WITHOUT PERMISSION.
DESIGNED BY:陳明宗
DRAWN BY:鍾佳玲
TITLE:AP-CON AREP SERIES SPECIFICATION
APAQ
CHECKED
TECHNOLOGY
BY:林軒逸
DOCUMENT
NO.
CO.,
LTD
APPROVED BY:高良民
REV
MES003106
A1
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2
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23
2.4 Size code
Table 4 Dimension of radial type capacitors
Size code
Diameter
(mm)
Case length
(mm)
04X5
4
5
05X7
5
7
05X8
5
8
05X9
5
9
06X5
6.3
5
06X7
6.3
7
06X8
6.3
8
06X9
6.3
9
06A0
6.3
10
06A1
6.3
11
08X6
8
6
08X8
8
8
08A2
8
11.5
08A6
8
16
08B0
8
20
10X7
10
7
10A0
10
10
10A2
10
11.5
10A6
10
16
10B0
10
20
3. Rating
3.1 Category temperature range
-55 to +105 oC
3.2 Surge voltage
Rated voltage * 1.15
3.3 Rated ripple current
Rated ripple current shall be in accordance with standard ratings list. These current are rms
values of sine wave of 100kHz at 105 oC.
鈺邦科技股份有限公司
THIS DRAWINGS AND SPECIFICATIONS ARE THE PROPERTY OF APAQ
TECHNOLOGY CO. LTD AND SHALL NOT BE REPRODUCT OR USED
AS THE BASIC FOR THE MANUFACTURE OR SALE OF APPARATUS OR
DEVICES WITHOUT PERMISSION.
DESIGNED BY:陳明宗
DRAWN BY:鍾佳玲
TITLE:AP-CON AREP SERIES SPECIFICATION
APAQ
CHECKED
TECHNOLOGY
BY:林軒逸
DOCUMENT
NO.
CO.,
LTD
APPROVED BY:高良民
REV
MES003106
A1
PAGE
3
OF
23
3.4 Standard ratings
Table 5 Standard ratings
Leakage
ESR
WV/Vdc
Cap
Size
(SV)
(μF)
Code
220
05X6
277
0.10
12
3,500
6R3AREP221M05X6
220
06X5
277
0.10
15
3,160
6R3AREP221M06X5
270
05X7
340
0.10
12
3,500
6R3AREP271M05X7
330
05X8
500
0.10
8
4,050
6R3AREP331M05X8
330
06X5
500
0.10
17
3,390
6R3AREP331M06X5
330
06X8
500
0.10
8
4,700
6R3AREP331M06X8
390
05X8
500
0.10
11
3,700
6R3AREP391M05X8
470
05X8
592
0.10
8
4,050
6R3AREP471M05X8
470
06X7
592
0.10
8
4,700
6R3AREP471M06X7
470
06X8
592
0.10
8
4,700
6R3AREP471M06X8
470
08X8
592
0.10
8
5,700
6R3AREP471M08X8
560
06X8
705
0.10
8
4,700
6R3AREP561M06X8
560
08X8
705
0.10
7
6,100
6R3AREP561M08X8
680
06X8
857
0.10
8
4,700
6R3AREP681M06X8
680
08X8
857
0.10
8
5,700
6R3AREP681M08X8
820
06X8
1,033
0.10
8
4,700
6R3AREP821M06X8
820
06X9
1,033
0.10
8
4,700
6R3AREP821M06X9
820
06A0
1,033
0.10
8
4,700
6R3AREP821M06A0
820
08X8
1,033
0.10
7
6,100
6R3AREP821M08X8
820
08A2
1,033
0.10
12
4,710
6R3AREP821M08A2
1000 06A0
1,260
0.10
8
4,700
6R3AREP102M06A0
1000 06A1
1,260
0.10
8
4,700
6R3AREP102M06A1
1000 08A2
1,260
0.10
7
6,100
6R3AREP102M08A2
1200 08A2
1,512
0.10
7
6,100
6R3AREP122M08A2
1200 10A2
3,840
0.10
10
6,100
6R3AREP122M10A2
1500 08A2
1,890
0.10
7
6,100
6R3AREP152M08A2
1500 10A0
1,890
0.10
12
5,025
6R3AREP152M10A0
1500 10A2
1,890
0.10
7
6,640
6R3AREP152M10A2
2200 10A2
2,772
0.10
7
6,640
6R3AREP222M10A2
6.3
(7.2)
Current
tanδ
(μA)
(mΩmax/20%,
100k to300kHz)
Rated Ripple Current
鈺邦科技股份有限公司
THIS DRAWINGS AND SPECIFICATIONS ARE THE PROPERTY OF APAQ
TECHNOLOGY CO. LTD AND SHALL NOT BE REPRODUCT OR USED
AS THE BASIC FOR THE MANUFACTURE OR SALE OF APPARATUS OR
DEVICES WITHOUT PERMISSION.
DESIGNED BY:陳明宗
DRAWN BY:鍾佳玲
TITLE:AP-CON AREP SERIES SPECIFICATION
Part No.
(mArms/ 105℃/100kHz)
APAQ
CHECKED
TECHNOLOGY
BY:林軒逸
DOCUMENT
NO.
CO.,
LTD
APPROVED BY:高良民
REV
MES003106
A1
PAGE
4
OF
23
Leakage
ESR
WV/Vdc
Cap
Size
(SV)
(μF)
Code
270
05X7
367
0.10
12
3,500
6R8AREP271M05X7
330
05X8
449
0.10
11
3,800
6R8AREP331M05X8
390
05X8
530
0.10
8
3,200
6R8AREP391M05X8
820
06X8
1,115
0.10
8
5,500
6R8AREP821M06X8
1000 06A0
1,360
0.10
8
5,500
6R8AREP102M06A0
820
06A0
1,148
0.10
9
5,030
7R0AREP821M06A0
270
05X7
405
0.10
12
3,500
7R5AREP271M05X7
390
05X8
585
0.10
11
3,800
7R5AREP391M05X8
470
05X9
705
0.10
12
3,500
7R5AREP471M05X9
470
06X7
705
0.10
30
3,000
7R5AREP471M06X7
7.5
500
05X8
750
0.10
12
3,500
7R5AREP501M05X8
(8.6)
500
05X9
750
0.10
15
3,100
7R5AREP501M05X9
560
06X8
705
0.10
8
4,700
7R5AREP561M06X8
680
06X8
1,020
0.10
12
4,780
7R5AREP681M06X8
820
06A1
1,230
0.10
10
5,200
7R5AREP821M06A1
1000 06A1
1,500
0.10
10
5,200
7R5AREP102M06A1
6.8
(7.8)
7.0
(8.1)
10
(11.5)
Current
tanδ
(μA)
(mΩmax/20%,
100k to300kHz)
Rated Ripple Current
Part No.
(mArms/ 105℃/100kHz)
220
05X9
440
0.10
20
2,800
100AREP221M05X9
220
06X7
440
0.10
10
3,100
100AREP221M06X7
220
06X8
440
0.10
10
4,500
100AREP221M06X8
220
08X8
440
0.10
20
3,400
100AREP221M08X8
330
08A2
660
0.10
14
4,420
100AREP331M08A2
470
06A0
940
0.10
10
4,700
100AREP471M06A0
470
08X8
940
0.10
12
4,700
100AREP471M08X8
560
06A0
1,120
0.10
10
4,700
100AREP561M06A0
680
08X8
1,360
0.10
12
4,700
100AREP681M08X8
820
08A2
1,640
0.10
7
6,100
100AREP821M08A2
1000 08A2
2,000
0.10
8
6,100
100AREP102M08A2
1000 10A2
2,000
0.10
9
5,650
100AREP102M10A2
1500 10A2
3,000
0.10
9
5,650
100AREP152M10A2
鈺邦科技股份有限公司
THIS DRAWINGS AND SPECIFICATIONS ARE THE PROPERTY OF APAQ
TECHNOLOGY CO. LTD AND SHALL NOT BE REPRODUCT OR USED
AS THE BASIC FOR THE MANUFACTURE OR SALE OF APPARATUS OR
DEVICES WITHOUT PERMISSION.
DESIGNED BY:陳明宗
DRAWN BY:鍾佳玲
TITLE:AP-CON AREP SERIES SPECIFICATION
APAQ
CHECKED
TECHNOLOGY
BY:林軒逸
DOCUMENT
NO.
CO.,
LTD
APPROVED BY:高良民
REV
MES003106
A1
PAGE
5
OF
23
Leakage
ESR
WV/Vdc
Cap
Size
(SV)
(μF)
Code
330
05X9
792
0.10
20
2,800
120AREP331M05X9
100
06X5
320
0.10
24
2,490
160AREP101M06X5
100
06X7
320
0.10
25
2,820
160AREP101M06X7
100
06X8
320
0.10
25
2,820
160AREP101M06X8
220
06X8
704
0.10
15
3,200
160AREP221M06X8
270
05X9
864
0.10
20
2,750
160AREP271M05X9
270
06X8
864
0.10
15
3,800
160AREP271M06X8
270
08X8
864
0.10
10
5,000
160AREP271M08X8
270
08A2
864
0.10
10
5,230
160AREP271M08A2
330
06X8
1,056
0.10
20
2,800
160AREP331M06X8
330
06X9
1,056
0.10
20
3,100
160AREP331M06X9
330
06A0
1,056
0.10
16
4,000
160AREP331M06A0
330
08X8
1,056
0.10
10
5,000
160AREP331M08X8
330
08A2
1,056
0.10
10
5,230
160AREP331M08A2
330
10A0
1,056
0.10
10
4,350
160AREP331M10A0
330
10A2
1,056
0.10
10
6,100
160AREP331M10A2
16
470
06A1
1,505
0.10
16
4,000
160AREP471M06A1
(18.4)
470
08X8
1,505
0.10
16
4,000
160AREP471M08X8
470
08A2
1,505
0.10
10
5,230
160AREP471M08A2
470
10A0
1,505
0.10
10
4,350
160AREP471M10A0
470
10A2
1,505
0.10
10
6,100
160AREP471M10A2
560
08A2
1,792
0.10
14
4,950
160AREP561M08A2
680
08A2
2,176
0.10
10
5,230
160AREP681M08A2
820
08A2
2,624
0.10
10
5,230
160AREP821M08A2
820
08A6
2,624
0.10
10
6,100
160AREP821M08A6
820
10A2
2,624
0.10
10
6,100
160AREP821M10A2
1000 08A6
3,200
0.10
10
4,700
160AREP102M08A6
1000 10A2
3,200
0.10
12
5,400
160AREP102M10A2
1200 08B0
3,840
0.10
11
7,500
160AREP122M08B0
1200 10A2
3,840
0.10
10
6,100
160AREP122M10A2
1200 10B0
3,840
0.10
11
8,100
160AREP122M10B0
2200 10B0
7,040
0.10
8
8,100
160AREP222M10B0
2500 10B1
8,000
0.10
8
8,100
160AREP252M10B1
12
(13.8)
Current
tanδ
(μA)
(mΩmax/20%,
100k to300kHz)
Rated Ripple Current
鈺邦科技股份有限公司
THIS DRAWINGS AND SPECIFICATIONS ARE THE PROPERTY OF APAQ
TECHNOLOGY CO. LTD AND SHALL NOT BE REPRODUCT OR USED
AS THE BASIC FOR THE MANUFACTURE OR SALE OF APPARATUS OR
DEVICES WITHOUT PERMISSION.
DESIGNED BY:陳明宗
DRAWN BY:鍾佳玲
TITLE:AP-CON AREP SERIES SPECIFICATION
Part No.
(mArms/ 105℃/100kHz)
APAQ
CHECKED
TECHNOLOGY
BY:林軒逸
DOCUMENT
NO.
CO.,
LTD
APPROVED BY:高良民
REV
MES003106
A1
PAGE
6
OF
23
Leakage
ESR
WV/Vdc
Cap
Size
(SV)
(μF)
Code
180
06X7
720
0.10
18
3,460
200AREP181M06X7
180
06X8
720
0.10
25
2,800
200AREP181M06X8
270
06A0
1,080
0.10
18
4,000
200AREP271M06A0
330
08X8
1,320
0.10
17
3,880
200AREP331M08X8
390
08A0
1,560
0.10
14
4,970
200AREP391M08A0
390
08A2
1,560
0.10
14
4,970
200AREP391M08A2
470
08A2
1,880
0.10
14
4,970
200AREP471M08A2
680
08A6
1,360
0.10
16
4,650
200AREP681M08A6
680
10A2
2,720
0.10
12
5,400
200AREP681M10A2
20
(23)
Current
tanδ
(μA)
(mΩmax/20%,
100k to300kHz)
Rated Ripple Current
鈺邦科技股份有限公司
THIS DRAWINGS AND SPECIFICATIONS ARE THE PROPERTY OF APAQ
TECHNOLOGY CO. LTD AND SHALL NOT BE REPRODUCT OR USED
AS THE BASIC FOR THE MANUFACTURE OR SALE OF APPARATUS OR
DEVICES WITHOUT PERMISSION.
DESIGNED BY:陳明宗
DRAWN BY:鍾佳玲
TITLE:AP-CON AREP SERIES SPECIFICATION
Part No.
(mArms/ 105℃/100kHz)
APAQ
CHECKED
TECHNOLOGY
BY:林軒逸
DOCUMENT
NO.
CO.,
LTD
APPROVED BY:高良民
REV
MES003106
A1
PAGE
7
OF
23
4. Construction and dimensions.
4.1 Construction
Radial type capacitors shall be enclosed wound element, where anode and cathode foils
with lead wire termination shall be winded together with separator, with conductive polymer
electrolyte in a plastic coated aluminum case and sealed up tightly with rubber.
Fig. 1
Cross-section view
Table 6 Construction
Compositions
Anode foil
Materials
Aluminum
1 Element Cathode foil Aluminum
Separator
Synthetic fiber
2 Seal
Rubber
3 Aluminum tab
Aluminum
4 Lead wire
Tinned Lead
5 Case
Plastic coated aluminum
4.2 Outer dimensions
Outer dimensions shall be in accordance with Fig. 2, and the dimensions in each size shall
be specified on Table 7.
鈺邦科技股份有限公司
THIS DRAWINGS AND SPECIFICATIONS ARE THE PROPERTY OF APAQ
TECHNOLOGY CO. LTD AND SHALL NOT BE REPRODUCT OR USED
AS THE BASIC FOR THE MANUFACTURE OR SALE OF APPARATUS OR
DEVICES WITHOUT PERMISSION.
DESIGNED BY:陳明宗
DRAWN BY:鍾佳玲
TITLE:AP-CON AREP SERIES SPECIFICATION
APAQ
CHECKED
TECHNOLOGY
BY:林軒逸
DOCUMENT
NO.
CO.,
LTD
APPROVED BY:高良民
REV
MES003106
A1
PAGE
8
OF
23
Table 7
Size
code
D±0.5max
Dimension
(mm)
L
(mm)
α
(mm)
d0.05
(mm)
F±0.4
(mm)
H0.3
(mm)
04X5
4
5
1
0.45
1.5
3.2
05X6
5
6
1
0.5
2
3.2
05X7
5
7
1
0.5
2
3.2
05X8
5
8
1
0.5
2
3.2
05X9
5
9
1
0.5
2
3.2
05A1
5
11
1
0.5
2
3.2
06X5
6.3
5
1
0.45
2.5
3.2
06X7
6.3
7
1
0.6
2.5
3.2
06X8
6.3
8
1
0.6
2.5
3.2
06X9
6.3
9
1
0.6
2.5
3.2
06A0
6.3
10
1
0.6
2.5
3.2
06A1
6.3
11
1
0.6
2.5
3.2
08X6
8
6
1
0.6
3.5
3.2
08X8
8
8
1
0.6
3.5
3.2
08A2
8
11.5
1.5
0.6
3.5
3.2
08A6
8
16
1.5
0.6
3.5
3.2
08B0
8
20
1.5
0.6
3.5
3.2
10X7
10
7
1
0.6
5
3.2
10A0
10
10
1
0.6
5
3.2
10A2
10
11.5
1.5
0.6
5
3.2
10A3
10
12.5
1.5
0.6
5
3.2
10A6
10
16
1.5
0.6
5
3.2
10B0
10
20
1.5
0.6
5
3.2
鈺邦科技股份有限公司
THIS DRAWINGS AND SPECIFICATIONS ARE THE PROPERTY OF APAQ
TECHNOLOGY CO. LTD AND SHALL NOT BE REPRODUCT OR USED
AS THE BASIC FOR THE MANUFACTURE OR SALE OF APPARATUS OR
DEVICES WITHOUT PERMISSION.
DESIGNED BY:陳明宗
DRAWN BY:鍾佳玲
TITLE:AP-CON AREP SERIES SPECIFICATION
APAQ
CHECKED
TECHNOLOGY
BY:林軒逸
DOCUMENT
NO.
CO.,
LTD
APPROVED BY:高良民
REV
MES003106
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23
5. Marking
The following items shall be marked on each capacitor, as showed in Fig. 3.
(1) Polarity
(2) Series
(3) Year code: U-2014,V-2015,W-2016,X-2017
(4) Production period code
(5) Manufacturer's identification mark
(6) Rated capacitance
(7) Rated voltage
(8) The color of marking ink is red
Figure 3 Marking
6. The electrical and mechanical performance and testing method
6.1 Measurement condition
Each measurement shall be conducted at a temperature of 15 to 35 oC, and relative
humidity of 45 to 85%. Furthermore, these measurements shall be preferably conducted at
a temperature of 202 oC, and relative humidity of 60 to 70%, while the capacitors shall be
kept enough time in the measuring temperature.
6.2 Voltage treatment
If leakage current is doubtful, measure it after performing voltage treatment, which shall
contain the following steps:
(1) Applied DC rated voltage to the capacitors for 60 minutes at 1052 oC.
(2) Cooled down to room temperature with applying voltage.
(3) Discharged through a resistor of approximately 1/V.
6.3 Electrical performance
6.3.1 Tolerance on rated capacitance
Rated capacitance shall meet within -20% to +20% (M) tolerance against the rated
capacitance measured at 120Hz10% at 202 oC.
鈺邦科技股份有限公司
THIS DRAWINGS AND SPECIFICATIONS ARE THE PROPERTY OF APAQ
TECHNOLOGY CO. LTD AND SHALL NOT BE REPRODUCT OR USED
AS THE BASIC FOR THE MANUFACTURE OR SALE OF APPARATUS OR
DEVICES WITHOUT PERMISSION.
DESIGNED BY:陳明宗
DRAWN BY:鍾佳玲
TITLE:AP-CON AREP SERIES SPECIFICATION
APAQ
CHECKED
TECHNOLOGY
BY:林軒逸
DOCUMENT
NO.
CO.,
LTD
APPROVED BY:高良民
REV
MES003106
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PAGE
10
OF
23
6.3.2 Leakage current
DC rated voltage shall be applied between anode and cathode lead wire terminations of
a capacitor through 1k protective resistance, and the leakage current shall be less
than or equal to the value listed in table 5 after 2 minutes with the voltage reaching the
rated value at 202 oC.
If the value is doubtful, measure the leakage current after performing voltage treatment
as described in section 6.2.
6.3.3 Tangent of loss angle (tan)
Tan values shall be less than or equal to 0.1 measured at 120Hz10% at 202 oC.
6.3.4 Equivalent Series Resistance (ESR)
ESR at 100kHz measured under the following conditions listed in Table 8 shall be less
than or equal to the value in Table 5.
Table 8
Measurement requirement of ESR
Equipment
Agilent Technology 4263B or equivalent
Test Fixture
Agilent Technology 16047E or equivalent
Compensation
Short and Open compensation would be required.
Short correction is performed using the shorting
plate made of 0.5 thickness copper plate with gold
coating.
Signal Level
500mV
Frequency
100kHz
Measurement Point Point of lead wire within 1mm form the body
6.3.5 Impedance at high and low temperature
Impedance at 100kHz at -553 oC or 1052 oC shall meet the values listed in Table 9.
Table 9 Impedance at low or high temperature
Impedance ratio
Performance
Z(-55 oC)/Z(+20 oC)
1.25
Z(105 oC)/Z(+20 oC)
1.25
6.4 Mechanical performance
6.4.1 Pull strength of lead wire terminations
With the body of a capacitor fixed, the load listed in Table 10 shall be applied to the lead
wire termination in its draw out direction, gradually up to the specified value and held for
101 seconds. After this test, that capacitor shall not appear any change defective in
use.
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THIS DRAWINGS AND SPECIFICATIONS ARE THE PROPERTY OF APAQ
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Table 10
Pull strength load of lead wire terminations
Case diameter (mm) Load strength (N) Load strength (kgf)
4
2.5
0.255
5
5
0.51
6.3
5
0.51
8
10
1.0
10
10
1.0
6.4.2 Bending strength of lead wire terminations
Bending strength load listed in Table 11 shall be hung at the end of the lead wire
termination, and the body of a capacitor shall be bent 90o and return to its original
position. This operation shall be performed around 2 to 3 seconds. Then the body shall
be bent 90°at the opposite direction and return to its original position at same speed. At
this test, that capacitor shall no appear any change defective in use.
Table 11
Bending strength load of lead wire terminations
Case diameter (mm) Load strength (N) Load strength (kgf)
4
1.25
0.127
5
5
0.51
6.3
2.5
0.255
8
5
0.51
10
5
0.51
6.4.3 Vibration
Vibration cycle should vary from 10 to 55Hz with total amplitude of 1.5mm and return to
10Hz in about 1 minute. Vibration applied to a capacitor should be three directions,
which each perpendicular to the other two as longitudinal axis of capacitor set as z axis,
and last for 2 hours in each direction. During this test, measured electrical value shall be
stabilized when that capacitor is measured 5 times within 30 minutes before completion
of test, and the appearance shall not appear any remarkable abnormality. A capacitor
shall be fixed at the point of 4mm or less from the body as shown in Figure 4.
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Figure 4
Vibration test
6.4.4 Solderability
A lead wire termination shall be dipped for 20.5 seconds in the flux of ethanol or
isopropylalcohol solution (252%) of colophonium. Then that lead wire terminations
shall be immersed to a solder (H60A, H60S or H63A) of 2355 oC and up to the point 1.5
to 2.0mm from the body and kept for 20.5 seconds, and pulling it out. After this test, at
least 95% of circumferential surface of the dipped portion of termination shall be
covered with new solder.
6.4.5 Resistance to soldering heat
A Capacitor shall be inserted to a printed circuit board having a thickness of 1.6mm up
to the point 1.5 to 2.0mm from the body. Then the lead wire termination shall be dipped
for 5 to 10 seconds in the flux of ethanol solution (252%) of colophonium. And then the
lead wire termination shall be immersed to the solder (H60A, H60S or H63A) of 2605
o
C and up to the point of the Printed circuit board and kept for 101 seconds, and pulling
it out. After this test, characteristics shall meet the value in Table 12.
Table12
Characteristics
Soldering heat resistance
Performance
Capacitance change Within 5% of the value before test
tan
Leakage current
Not exceed than the value in Table 6
Visual
No remarkable abnormality
Not exceed than the value in Table 6
6.4.6 Resistance to solvent
A Capacitor shall be immersed for 305 seconds in isopropylalcohol at 20 to 25 oC and
then pull it out. After this test, marking and visual shall meet the requirement in Table 13.
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Table 13
Solvent resistance
Characteristics
Performance
Marking
Easily readable
Appearance
Not appear any abnormality
6.5 Environmental performance
6.5.1 Damp heat, steady state
A capacitor shall be subjected to a temperature of 602 oC and relative humidity of 90 to
95% without voltage applied for a period of 1000+24/-0 hours. Then that capacitor shall
be take out from the above condition to a temperature of 20 oC and it shall meet the
characteristics in Table 14.
Table 14 Damp heat performance
Characteristics
Performance
Appearance
No significant damage
Capacitance change 20% of the initial value
tan
150% of the initial specified value
ESR
150% of the initial specified value
Leakage current
the initial specified value
6.5.2 Endurance
A capacitor shall be subjected to a temperature of 1052 oC with test voltage applied for
a period of 3,000+72/-0 hours and take out from the above condition to a temperature of
20 oC. After this test, that capacitor shall meet the characteristics in Table 15.
Besides, the applied voltage shall increase up from 0V to test voltage step by step
(maximum 5 minutes), and the impedance of the source shall be equal to about 3/V.
Table 15 Endurance performance
Characteristics
Performance
Appearance
No significant damage
Capacitance change 20% of the initial value
tan
ESR
150% of the initial specified value
Leakage current
the initial specified value
150% of the initial specified value
6.5.3 Surge voltage
The following specifications in Table 16 shall be satisfied when the capacitors are
restored to +20 oC after the surge voltage is applied at a cycle of 360 seconds which
consists charge for 30±5 seconds through a protective resistor of 1k and discharge for
330 seconds, for 1000 cycles at 1052 oC.
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Table 16
Surge voltage performance
Characteristics
Performance
Appearance
No significant damage
Capacitance change 20% of the initial value
tan
ESR
150% of the initial specified value
Leakage current
the initial specified value
150% of the initial specified value
Fig. 5
Surge voltage circuit
6.5.4 Rapid temperature change
The characteristics of a capacitor kept under the temperature cycle indicated in Figure 6
for 5 cycles and followed the voltage treatment as described in section 6.2 shall meet
the characteristics in Table 17.
Fig. 6
Table 17
Rapid temperature change profile
Rapid temperature change performance
Characteristics
Performance
Appearance
No significant damage
Capacitance change 10% of the initial value
tan
the initial specified value
ESR
the initial specified value
Leakage current
the initial specified value
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7. Instructions of Capacitors
7.1 Cautions on use of Capacitor
7.1.1 Polarity
Solid electrolytic capacitors are polarized capacitors. Use capacitors after verifying their
positive and negative polarities. If these capacitors are installed in the reverse polarity,
its life may shorten because of increasing leakage current or short circuit.
7.1.2 Types of circuits in which capacitors are prohibited from being used AREP series may
be heated by soldering to increase in its leakage current slightly. This may have some
influence on the characteristics capacitors in the following circuits.
(1) Time constant circuit
(2) Coupling circuit
(3) High impedance voltage holding circuit
(4) Connection of two or more capacitors in series for higher withstand voltage.
7.1.3 Over voltage
If AREP series is applied a voltage higher than the rated voltage for an instantaneous
period, it may be defected due to short circuit. Note that the voltage over the rated
voltage must not be applied to capacitors.
7.1.4 Repeat of rapid charging and discharging
If AREP series is used in a rapid charging and discharging circuit or receive the flow of
excess rush current, its life may shorten by large leakage current or short circuit. The
charging and discharging current through AREP series should be less than 10A.
7.1.5 Soldering
Capacitors should be soldered under the soldering conditions defined in the delivery
specifications. Some improper soldering condition may cause the leakage current of
capacitors to increase or other parameters to change.
7.1.6 Use of capacitors for industrial equipment
When capacitors are used for industrial equipment, the circuits should be designed to
have sufficient margins in the ratings of capacitors including capacitance and
impedance. Without sufficient margins in the characteristics, the reliability of the
capacitors may be reduced by their shorter life. Always contact us if you want to use
capacitors for equipment affecting human lives such as space, aviation, atomic power,
and medical devices. Never use capacitors for the used without our prior approval.
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7.2 Notes on circuit designs for capacitors
7.2.1 Rating and performance
Use capacitors within the rating and performance ranges defined in the brochures and
delivery specification of capacitors after checking the operating and installation
environments.
7.2.2 Operating temperature
If AREP series is used at a temperature higher than the upper specified temperature
(105oC), its life may be remarkably shortened or the leakage current may increase to
cause defective.
7.2.3 Ripple current
Never make current larger than the rated ripple current through AREP series. If excess
ripple current flows through AREP series, internal heat may be generated largely to
make its life shortened or cause it to be defected due to short circuit.
7.2.4 Leakage current
Depending on the soldering conditions, the leakage current of AREP series may
increase slightly. The application of DC voltage enables the capacitors to be repaired by
itself. This leads the leakage current to be smaller gradually. The leakage current can be
reduced fast if the DC voltage, which is less than the rating voltage, is applied at the
temperature close to the upper specified temperature.
7.2.5 Applied voltage
(1) To secure the reliability of capacitors, it is recommended that the voltage applied to
them should be less than 80% of the rated voltage.
(2) The peak value of the ripple voltage superimposed with the DC voltage should be
less than the rated voltage.
7.2.6 Failure mode
AREP series contains a conductive polymer as material of cathode electrode.
Therefore, like other solid electrolyte capacitors, the life ends mostly due to random
failure mode, mainly short circuit. If a current continuously flow through the capacitor
due to short circuit, the capacitor would be overheated higher than 300°C and then
aluminum case of the capacitor would be removed by increasing internal pressure due
to the vaporization of materials.
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7.2.7 Insulation
(1) Plastic coated case of capacitors is not secured to insulate. Do not use capacitors in
areas requiring insulation.
(2) Isolate the case of AREP series from the positive and negative terminals and
adjacent circuit patterns.
7.2.8 Design of printed circuit board
Take note on the following subjects when capacitors are installed on printed circuit
boards:
(1) Verify that the lead spacing fit hole pitches on printed circuit board.
(2) Do not place heating components on boards to be close to capacitors or in the
backside of them.
(3) If capacitors are mounted on a double-sided PC board, design the board so that
extra or through holes may not be opened below them.
7.2.9 Parallel connection
If AREP series is connected with another type of a capacitor in parallel, larger ripple
current may flow through one of capacitors. Take the current balance among them into
account in circuit designs.
7.2.10 Using temperature and frequency
The electric characteristics of capacitors depend on the variations of the ambient
temperature and frequency. Check the variations in designing circuits.
7.3 Notes on installation of capacitors
7.3.1 Notes on pre-installation of capacitors
(1) Do not reuse capacitors installed in a unit with the power supply turned on for
another unit. No used capacitors shall be reused excluding those removed to
measure their electric characteristics in periodical inspection.
(2) If AREP series stored for a long period may often increase in its leakage current,
connect a resistor of approximately 1k to the capacitors for voltage treatment.
7.3.2 Notes at installation of capacitors
(1) Install capacitors in a unit after confirming that their ratings (rated capacitance and
rated voltages) meet the conditions of the unit.
(2) Install capacitors in the correct polarities.
(3) Take care not to drop capacitors on floors. Do not use capacitors dropped on floors.
(4) Do not deform capacitors to install them in units.
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(5) Install AREP series on a printed circuit board after confirming that its lead pitch is
equivalent to the corresponding hole pitch.
(6) At the picking, mounting, and locating by an automatic inserter or the cutting of the
leads of AREP series by an automatic mounter, some stress may be applied to the
AREP series. Take note on the shock.
(7) Do not apply any excess force with the terminals of capacitors.
7.3.3 Heating
In preheating or heating for adhesion and fixing of other electronic components, the
temperature put to capacitors should be less than 120°C. The total heating period
should be shorter the 90 seconds.
7.3.4 Soldering by soldering iron
(1) Capacitors should be soldered under the conditions as follows:
The iron tip at the temperature of 40010°C or less may be put to each lead of AREP
series for shorter than 3+1 seconds.
(2) The lead wire terminations of capacitors may be required to be processed because
the distance between the terminals is not equivalent to that of corresponding holes
on the printed circuit board. Process the terminations so that no stress may be
applied to the capacitors itself before soldering.
(3) Do not make the tip of a soldering iron be in contact with capacitors themselves.
(4) The leakage current of soldered capacitors may increase slightly depending on
several conditions including pre-heating, soldering temperature and period, and
board material and thickness. However, the leakage current decreases gradually by
the self-repair characteristic of capacitors when they are used with voltage
application.
7.3.5 Flow soldering
(1) Do not dip capacitors themselves into melted solder in soldering. Only provide
soldering for the board surface in the backside of the surface on which the capacitors
are mount
(2) Solder capacitors under the soldering conditions as follows.
(a) Pre-heat condition: atmosphere temperature 120°C or less for up to 90 seconds
(b) Soldering condition: solder temperature 260°C or less for up to 10 seconds.
(3) Note that flux may not adhere to any substances except lead wires.
(4) Do not make any other components fallen at capacitors in soldering.
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Figure 7
Flow Curve
7.3.6 Handling of capacitors after soldering
(1) Do not incline, bend, and twist capacitors.
(2) Do not grab capacitors as a handle to carry the printed circuit board.
(3) Do not hit objects against capacitors. When printed circuit boards are piled up, do not
make them and/or other components be in contact with capacitors.
(4) Do not drop printed circuit boards with capacitors installed.
7.3.7 Cleaning of printed circuit board
As long as the cleaning agents prescribed in the catalogue or the specification sheet are
used, the cleaning does not give the capacitors any damage. For CFCs substitutions
and other cleaning agents, consult us before actual use.
7.3.8 Fixing and coating materials
Contact us for fixing and coating materials appropriate for capacitors and their heat
curing conditions.
7.4 Notes on use of capacitors in unit
(1) Never make your fingers contact with the lead wire terminations of capacitors.
(2) Do not make lead wire terminations of AREP series be in contact with each other
through an conductor. Do not put conductive liquid such as acid and alkali solutions on
capacitors.
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(3) Confirm that the unit including capacitors is placed in proper conditions. Do not place
the unit in the following areas:
(a) Area in which they are directly exposed to water, brine, or oil or in condensation
status.
(b) Area filled with poisonous gases including hydrogen sulfide, sulfurous acid, nitrous
acid, chlorine and ammonia.
(c) Area to which ultraviolet and/or radial rays are radiated
(4) Provide aging for a unit containing capacitors within the period defined for them.
(5) It is recommended to use a unit containing capacitors in the normal temperature range
of 15oC to 35oC and the normal humidity range of 75% or less.
7.5 Action at emergency
(1) At the occurrence of short circuit in AREP series, some heat is generated from it if the
short-current rather small. If the short current exceeds the above value, the capacitors is
heated excessively. If so, turn off the power of the unit without your face and hands
being close to the capacitors.
(2) Never lick the electrolyte of conductive polymer in capacitors. If the electrolyte is put on
your skin, wash it away carefully with soap.
(3) The materials of seal rubber used for capacitors are flammable. If an adjacent
component is burned, seal rubber of the capacitors may burn. Take sufficient note on
the installation procedures and locations of capacitors and the pattern designs of printed
circuit boards.
7.6 Storage
(1) Store capacitors in an area in the temperature range between 15°C to 35°C and the
relative humidity of 75% or less without direct sunshine. In addition, store them in the
package states if possible.
(2) Capacitors should be stored for up to three years to maintain their good soldering
features and characteristics.
(3) Capacitors are recommended that you shall open the bag just before use and capacitors
shall be used up. If some quantity was not need, please seal it with adhesive tape.
(4) Never store capacitors in any area in which they are directly exposed to water, brine, or
oil or in condensation status.
(5) Never store capacitors in any area filled with poisonous gases including hydrogen
sulfide, sulfurous acid, nitrous acid, chlorine, and ammonia.
(6) Never store capacitors in any area to which ultraviolet and/or radial rays are radiated.
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7.7 Exhaustion of capacitors
Capacitors are composed of organic compounds, resins and metals. Request an industrial
dispose company to dispose of used capacitors.
8. Export Trade Control Ordinance
Item 41-4 in Section 2 of Appendix Table 1 (Section 49 in Chapter 1 of MITI' s Ordinance) and
Item 7 in Section 7 of Appendix Table 1 (Section 6 in Chapter 6 of MITI' s Ordinance) state
export regulations on pulse use capacitors (750V of higher) and high voltage use
capacitors(5,000V or higher).
However, aluminum electrolytic capacitors are less than 750V in their voltage range, so that
the regulations do not apply to the aluminum electrolytic capacitors.
9. Package
The capacitors should be packed in the following quantities listed in Table 19.
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Table 19
Case size
PE bag
ψ4
1,000 PCS
ψ5
500 PCS
06X5
500 PCS
06X7
500 PCS
06X8
500 PCS
06X9
500 PCS
06A0
500 PCS
06A1
500 PCS
08X6
500 PCS
08X8
500 PCS
08A2
500 PCS
08A6
500 PCS
08B0
400 PCS
10A2
500 PCS
10A6
400 PCS
10B0
350 PCS
Quantity of package
inner box
outer box
24 bags
5 inner boxes
(24,000 PCS)
(120,000 PCS)
8 bags
5 inner boxes
(4,000 PCS)
(20,000 PCS)
12 bags
5 inner boxes
(6,000 PCS)
(30,000 PCS)
8 bags
5 inner boxes
(4,000 PCS)
(20,000 PCS)
8 bags
5 inner boxes
(4,000 PCS)
(20,000 PCS)
8 bags
5 inner boxes
(4,000 PCS)
(20,000 PCS)
6 bags
5 inner boxes
(3,000 PCS)
(15,000 PCS)
6 bags
5 inner boxes
(3,000 PCS)
(15,000 PCS)
6 bags
5 inner boxes
(3,000 PCS)
(15,000 PCS)
6 bags
5 inner boxes
(3,000 PCS)
(15,000 PCS)
4 bags
5 inner boxes
(2,000 PCS)
(10,000 PCS)
4 bags
5 inner boxes
(2,000 PCS)
(10,000 PCS)
4 bags
5 inner boxes
(1,600 PCS)
(8,000 PCS)
4 bags
5 inner boxes
(2,000 PCS)
(10,000 PCS)
4 bags
5 inner boxes
(1,600 PCS)
(8,000 PCS)
4 bags
5 inner boxes
(1,400 PCS)
(7,000 PCS)
鈺邦科技股份有限公司
THIS DRAWINGS AND SPECIFICATIONS ARE THE PROPERTY OF APAQ
TECHNOLOGY CO. LTD AND SHALL NOT BE REPRODUCT OR USED
AS THE BASIC FOR THE MANUFACTURE OR SALE OF APPARATUS OR
DEVICES WITHOUT PERMISSION.
DESIGNED BY:陳明宗
DRAWN BY:鍾佳玲
TITLE:AP-CON AREP SERIES SPECIFICATION
APAQ
CHECKED
TECHNOLOGY
BY:林軒逸
DOCUMENT
NO.
CO.,
LTD
APPROVED BY:高良民
REV
MES003106
A1
PAGE
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