ORGANIC SEMICONDUCTOR SOLID ELECTROLYTIC CAPACITORS
APRO-CAP
(Organic Semiconductor Solid Electrolytic Capacitors)
APRO-CAP
is an electrolytic capacitor that use organic semiconductor with high conductivity as it s electrolyte. Using
an organic semiconductor has a high conductivity, low impedance at high frequency and long life.
APRO-CAP
is
roughly the same construction as an aluminum electrolytic capacitor but differs from in that place of the electrolyte
solution, organic semiconductor crystal is impregnated and is encased with an epoxy resin instead of rubber encasing.
1. Electrical characteristics
(1) The greatest feature of the APRO-CAP is its excellent frequency characteristic nearly equal to that of film capacitors.
(2) The temperature characteristic of the APRO-CAP is that it features little change in temperature for the ESR.
(3) APRO-CAP has a small ESR, and compared to other electrolytic capacitors, can allow far more ripple current.
(4) APRO-CAP has extremely longer life in practical use even for 105 C 2000h guaranteed products. The load life
continues permanently, as it is not generate dry-up phenomenon such that aluminum electrolytic capacitor.
2. Application guidelines
(1) Polarity
APRO-CAP is a solid electrolytic capacitor with positive and negative electrodes. Do not reserve the polarity when
using. If it is used with the polarities reserved, increased leakage current or a decreased life span may result.
(2) Prohibited circuits
Since problems can be expected due to the leakage current fluctuations that occur during soldering and other
processes, APRO-CAP cannot be used on the following circuits.
High impedance voltage retention circuits
Coupling circuits
Time constant circuits
In addition to the leakage current fluctuation above, the operational conditions such as characteristics of
temperature, anti-humidity and high temperature loads stipulated in the delivery specifications will affect the
electrostatic capacity. The electrostatic capacity fluctuation may cause problem if it is used as a time constant
capacitor, which is extremely sensitive to the fluctuation of electrostatic capacity. Do not use it as a time
constant capacitor.
Circuits greatly affected by leakage current
The circuit in which two or more of APRO-CAP is connected in series so as to raise the endurance voltage of them
(3) Overvoltage prohibited during design
Overvoltage exceeding the rated voltage may not be applied even for an instant as it may cause a short circuit.
(4) Sudden charge and discharge restricted
Sudden charge and discharge restricted (for maintenance of high-proof reliability) A protection circuit is
recommended for when a sudden charge or discharge causes excessive rush current because this is a main cause
of short circuits and large leakage current.
(5) Temperature derating voltage
Fundamentally, lifetime is not affected whether voltage is applied to it or not, but apply the following temperature
derating voltage to the 25WV products. 6.3~20WV products do not require the application.
(6) Considerations when soldering
Do not use reflow soldering of APRO-CAP (Lead wire type)
The soldering process of lead wire type should be done with following conditions or more gentle one (when
soldering phenolic board of 1.6mm in thickness) : 260 C 10 seconds. The leakage current value after soldering
to several hundred ) depending on the soldering conditions (preheating and
may increase a little (from a few
solder temperature and time, PC boards material and thickness).
The leakage current can be reduced through self-repair by applying voltage.
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ORGANIC SEMICONDUCTOR SOLID ELECTROLYTIC CAPACITORS
FD
Lead type, High CV
Series
APRO-CAP
Large capacitance and low ESR compared
with FX series
High CV value
Suitable for high frequency switching power supplies, computer,
audio equipment etc.
Item
Operating temperature range
Leakage current max.
Capacitance tolerance
Dissipation factor max.
(at 120Hz, 20 )
ESR
Low temperature characteristics
(Impedance ratio at 100kHz)
Load life*
(after application of the rated
voltage for 2000 hours at 105
-55 ~ +105
Capacitance
330
I = 0.02CV (after 2 minutes)
20% at 120Hz, 20
Capacitance
330
0.07max.
Characteristics
Capacitance
470
I = 0.1CV (after 2 minutes)
Capacitance
470
0.08max.
Z+105
/ Z+20
0.75~1.0
Less than specified value
Within 20% of initial value
Less than 150% of specified value
Less than specified value
Within 20% of initial value
Less than 200% of specified value
Not more than the values in dimensions table
Z-55
/ Z+20
1.0~1.25
Leakage current
Capacitance change
tan
Leakage current
Capacitance change
tan
Less than 20% of the reted voltage.
.
)
Moisture resistance
(after leaving capacitors under no load
at 60
for 1000 hours 90~95% R.H.)
Reverse voltage guarantee
Note : If any doubt arises, measure the current after applying voltage (voltage treatment) for 30 minutes at 105
The rated voltage should be applied.
DRAWING
(Unit : mm)
PART NUMBER SYSTEM (Example : 6.3V 47 F)
FD 0J 476 M 6L 06H PA
Insulating sleeve
D 0.5max.
d
0.05
B
P 0.5
A
C
B
A
G
K
P
Internal control code
Lead configuration(Taping)
Case height(L:6.8)
Diameter(
D:6.3
Capacitance tolerance( 20%)
Capacitance(47 F)
Rated voltage(6.3V)
Series name
15min.
L 1max.
20min.
4min.
D L
6.3
6.3
8
10
6.8
9.8
10.5
10.5
Code
6L06H
6L09H
0810M
1010M
P
2.5
2.5
3.5
5.0
d
0.5
0.5
0.6
0.6
G max. K max.
0.5
0.5
0.8
0.8
0.5
0.5
0.8
0.8
DIMENSIONS & MAXIMUM PERMISSIBLE RIPPLE CURRENT
F
15
22
33
47
68
100
150
220
330
470
560
680
820
WV
4
6.3
10
16
6.3
6.3
6.3
8
8
10
20
6.8
6.8
9.8
10.5
10.5
10.5
90
70
70
40
36
30
1200
1300
1710
2450
2600
3210
6.3
6.3
6.3
8
8
10
10
8
10
10.5
10.5
14
12
4080
10
5040
10.5
13
4840
6.8
9.8
10.5
10.5
10.5
10.5
60
50
30
30
27
25
1430
2000
2670
2780
3370
3500
6.3
8
10
10
10
6.8
9.8
10.5
10.5
10.5
10.5
70
50
30
28
27
15
1370
2000
2670
3260
3370
4510
6.3
6.3
8
8
10
6.8
9.8
10.5
10.5
10.5
70
60
36
30
28
1370
1830
2600
2740
3260
Ripple current (mA rms) at 45 , 100kHz
ESR (m ) max. at 20 , 100~300kHz
Case size D L(mm)
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