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Rev. 02/2009
DATA BOOK
2008/2010
Rev. 02/2009
PRODUCT SUMMARY
Pag. 2
1. ELECTRICAL CHARACTERISTICS
1.1 Capacitance
1.2 Equivalent Series Resistance (ESR)
1.3 Disssipation Factor
1.4 Impedance
1.5.Superimposed Alternating Current (Iripple)
1.6 Voltage
1.7 Reverse Voltage
1.8 Expected Life
1.9 Marking
1.10 Capacitance Tolerance
1.11 Leakage current
1.12 Outgoing Leakage Current
1.13 Operating Leakage Current
1.14 Leakage Current Multipliers
1.15 Leakage Current Decrease Vs.Voltage
Derating
1.16 Leakage current At Voltage-free Storage
1.17 Storage Temperature
1.18 Shelf life
1.17 Reageing method
Pag.
7
2. RELIABILITY
2.1 Operational Life
2.2 Confidence Level
2.3 Assessed Failure Rate
2.4 Failure Rate
2.5 Failure in Time “fit”
2.6 Typical fit Values
2.7 Mean Time Between Failure (MTBF)
2.8 Mean Time To The First Failed Component (MTTF)
Pag. 11
3. TESTS
3.1
3.2
3.3
3.4
3.5
3.6
3.7
3.8
Pag. 13
Shelf Test
Surge Voltage Test
Vibration Test
Sealing Test
Low Pressure
Life Tests
Operating Life Time and Voltage Derating
Useful Life Calculation
ITELCOND Aluminium Electrolytic Capacitors
Rev. 01/2009
4. CAPACITOR CONNECTIONS
Pag. 17
5. INSULATION STRENGHT
Pag. 17
6. SELF RECHARGING (DIELECTRID ABSORBTION)
Pag. 17
7. CLEANING AGENTS
Pag. 17
8. PACKAGING
Pag. 17
9. WAVEFORMS
Pag. 18
10. DATABOOK NUMBERING SYSTEM
Pag. 19
11. ELECTROLYTES
Pag. 19
12. NON FLAMMABLE MATERIAL
Pag. 20
13. FLAMMABILITY
Pag. 21
14. DANGEROUS MATERIAL
Pag. 21
15. PRODUCTION LINE FLOW CHART
Pag. 22
16. CAPACITOR ASSEMBLY
Pag. 25
17. PRECAUTIONS
Pag. 26
18. QUALITY WARRANTY
Pag. 27
SCREW-TERMINAL CAPACITORS
Ambient Temperature 85 ° C
AR / ARU
AR-HG / ARU –HG
AY-HR / AYU-HR
AP / APU
AS / AS
Ambient Temperature 105 ° C
AZ / AZU
AT / ATU
Pag.
Pag.
Pag.
Pag.
Pag.
31
31
47
57
63
Pag. 73
Pag. 79
PCB - MOUNTING CAPACITORS
Ambient Temperature 85 ° C
AKS
ACC / ACS
APK / APC / APS
Pag. 87
Pag. 93
Pag.101
Ambient Temperature 105 ° C
AZK
ATK
AZC / AZS
ATC
Pag.111
Pag.117
Pag.123
Pag.129
HARDWARE FACILITIES
Pag.135
GENERAL CONDITIONS
Pag.139
Specifications, dimensions and drawings are subjected to change without prior information
All information given in the data book is valid from September 2008; the expiration date is December 2010.
ITELCOND Aluminium Electrolytic Capacitors
Pag. 3
SCREW INSERT SERIES
Series
Capacitance Voltage
Range
range
Temperature
range
Applications
High capacitance,reduced
volume, long life, industrial
applications
AR /
ARU
150 –
330000
25- 450 -40 °+85°C
35 x 56
76 x 147 High CV product for
applications where
dimensions are very
important
AY-HR
AYU-HR
10001000000
16- 450 -40 °+85°C
51 x 105 High ripple current
90 x 222 High reliability
Low ESR
AP
APU
100015000
350-450 -40 °C +85°C
AS
ASU
150150000
25- 500 -40 °C +85°C
AZ
AZU
100033000
100-450 -25°C +105°C 51 x 105 Wide temperature range
AT
ATU
330 33000
63- 350 -55°C,+105°C 51 x 105 Extended temperature
76 x 217 range
High surge voltage
High reliability
Telecom, Railways
applications
AR-HG
ARU-HG
Pag. 4
Case
ΦxH
Long life
64 x 107
76 x 217 High reliability
Wind,Solar, Railways
applications
35 x 56 Long life
76 x 217 High reliability
Telecom, Railways
applications
76 x 217 Long life
High reliability
Telecom, Railways
applications
ITELCOND Aluminium Electrolytic Capacitors
SOLDER PIN SERIES
Series
Capacitance
range
Voltage
range
Temperature Case
range
ΦxH
AKS
100 - 47000
40 - 450
-40°C+85°C
ACC
ACS
150 - 33000
25 - 500
-40°C+85°C
30 x 40
45 x 100
Solder pin mounting
Industrial applications
30 x 40
Snap-in type, 2-4 pins configuration
Solder pin mounting
Industrial applications
45 x 100
APK
APC
APS
APS
AZK
470-2200
400-500
-40°C+85°C
30x40
45x100
100 - 2200
200 450
-25°C+105°C 30 x40
40 x 100
ATK
100 - 2200
160 450
-25°C ,
+105°C
30 x40
40 x 100
AZC
AZS
ATC
ATS
30 x 40
100 - 4700
200 450
-25°C ,
+105°C
200 450
-40°C ,
+105°C
40 x 100
30 x 40
100 - 1500
ITELCOND Aluminium Electrolytic Capacitors
Applications
35 x 75
Snap-in type, 5 and 2-4 pins
configuration
Solder pin mounting Solar , wind
application
Extended temperature range
Low ESR
Solder pin mounting
Industrial applications
Long life
Extended temperature range
Low ESR
Solder pin mounting
Industrial applications
Snap-in type, 2-4 pins configuration
Extended temperature range
Solder pin mounting
Industrial applications
Long life
Snap-in type, 2-4 pins configuration
Extended temperature range
Solder pin mounting
Industrial applications
Pag. 5
1.ELECTRICAL CHARACTERISTICS
1.1 CAPACITANCE
The capacitance of a capacitor is the number of Coulomb/Volt that a capacitor may store.
The DC equivalent circuit of an aluminium electrolytic capacitor is:
CDC
ESR
DC leakage
DC leakage= If
= leakage current
It is normally expressed in microFarad (1µF = 10-6 F) and the rated value is marked on the capacitor.
The capacitance value depends on the ambient temperature in which the capacitor shall operate: the
possible variations for every ITELCOND type are indicated in the graphs of individual data sheets: the
largest deviations are at low temperature while at high temperature they are negligible.
It should be mentioned that the capacitance varies not only according to the temperature and frequency
but even to the operational life of the capacitor: during the service life of the capacitor capacitance
shows a regular decay determined by a series of concomitant causes; such drift is less marked if the
operational voltage decreases.
The percent values of capacitance drift for ITELCOND capacitors, after life tests of 2000 / 5000 /
10000 hrs according to the type, are largely within the tolerance limits indicated in our catalogue but
they are definitely inferior to what stated by DIN or CECC specifications.
MEASUREMENT: shall be made at frequency of 100 Hz. and at a temperature of 25°C ± 2°C
1.2 EQUIVALENT SERIES RESISTANCE (ESR)
The equivalent series resistance of a capacitor is the resistance that a capacitor opposes to the
passage of the alternating current and represents the "component producing heat when an alternating
current is seen by a capacitor”. Its percent variation vs. frequency and temperature is shown on Fig. 2
and 3.
F ig .3 - ES R vs. F re q u e n cy a n d T e m p e ra tu re
percent variation
1.5
1.0
0.5
0.0
0.10 k Hz
0.12 k Hz
1.00 k Hz
10.00 k Hz
20.00 k Hz
100.00 k Hz
20.00 k Hz
100.00 k Hz
f r e q u e n cy
25° C
45°C
65°C
F i g .2 - ES R v s. F re q u e n c y in H z
percent variation
1,5
1,0
0,5
0,0
0.10 k Hz
0.12 k Hz
1 .0 0 k H z
1 0 .0 0 k H z
fr e q u e n cy
a ve ra g e
ITELCOND Aluminium Electrolytic Capacitors
Pag. 7
1.3 DISSIPATION FACTOR
It is the ratio of the equivalent series resistance to the capacitive reactance:
DF = TG δ = ESR / X c
the dissipation factor depends on temperature and frequency. Considering the formula:
Xc = 1 /(2 ∗π ∗ F ∗C)
the dissipation factor becomes:
DF = TG δ = 2∗ π ∗f C∗ ESR
This relation shows the variation of the dissipation factor with the ESR and the capacitance.
MEASUREMENT: shall be made at frequency of 100 Hz and at a temperature of 25°C ± 2°C
1.4 IMPEDANCE
The impedance of an electrolytic capacitor depends on capacitance, ESR and ESL in accordance with
the equation:
√
Z=
((ESR)2 +[-(2∗π ∗f ∗ESL)+(1/2 ∗π∗ f ∗C)]2
where: E.S.L. = equivalent series inductance
1.5 SUPERIMPOSED ALTERNATING CURRENT (I ripple)
The superimposed alternating current is the rms value (see Fig.8 on pag. 16) of the alternating current
which may be applied to the capacitor; the maximum value tabulated in each data sheets for the
different ITELCOND types applies at frequency of 100Hz and ambient temperature of 85 °C and with sine
waveforms.
The conversion coefficients given for each type must be applied if temperature and used frequency differ
from the conventional one. If, moreover, even the waveform is not sinusoidal the new waveform and the
rms values are to be considered.
The maximum value of the alternating current that may be applied to the capacitor shall be determined
by the formula:
P = Iripple2 ∗ESR + V∗ Ιf
The value V∗If is negligible compared with Irip2 ∗ESR so the above equation can be simplified
P = Iripple2 ∗ESR = ∆T ∗S ∗ µ
Iripple =
√ µ∗ ∆T∗ S ∗ω ∗C / TG δ = √ µ ∗ ∆T ∗S / ESR
where:
∆T =difference between ambient temperature and the temperature of capacitor surface (° C)
S
= capacitor surface (cm2)
ω = 2 π f (Hz)
TG δ = value of dissipation factor
µ
= Dissipation coefficient (Watt / cm2 *°C)
f
= frequency (Hz)
Iripple = superimposed alternating current (A)
ESR= equivalent series resistance (Ω)
P = dissipated power (Watt)
Temperature variation influences the dissipation coefficient while the dissipation factor (or TGδ) is
influenced by the variation both of temperature and frequency (see par.1.2).
The DIN (41332, 41270, 42348, 41250) and CECC (30300-016 and 30300-017) specifications give
the maximum values of superimposed alternating current that may be applied to the capacitor: the
values correspond or are even inferior to those indicated for the ITELCOND capacitors.
When the ripple current is a sum of rms-values at different frequencies, the equivalent current seen by
the capacitor is calculated as follows:
I2rip (100Hz.) = [Irip ∗(f1) / Kf1)] 2 +. . + [Irip ∗(fn) / Kfn]2
Kf …….Kfn = is listed for each product family
Pag. 8
ITELCOND Aluminium Electrolytic Capacitors
1.6 VOLTAGE:
RATED VOLTAGE (Vn):
Is the maximum operating voltage for continuos duty at the rated temperature.
SURGE VOLTAGE (Vs):
The overvoltages due to transients or peaks due to superimposed alternating component must be
always inferior to surge voltage. The surge voltage maximum value for each rated voltage is given in
the table of electrical data
1.7 REVERSE VOLTAGE:
Reverse voltage not exceeding 1,5 Volts may be applied to the capacitors without significant change in
normal performance characteristics.
NOTE: for special applications (e.g. magnetising equipment) where a certain percentage of reverse
voltage shall be applied, capacitors in accordance with customer requirements may be designed.
1.8 EXPECTED LIFE
From the life test and the life test procedure (see introduction) the life expectancy graphs have been
drawn. These graphs correlate ambient temperature, applied ripple current and expected life: the
ripple current is expressed as a ratio between the ripple current at the ambient temperature and the
ripple current at the category temperature.
1.9 MARKING
ITELCOND capacitors shall be marked:
ITELCOND
Series
Rated capacitance (µF) (∗)
Rated DC working voltage
P/N (∗∗)
Date code of manufacture
(∗) = capacitance tolerance if different from standard ( see capacitance tolerance paragraph )
(∗∗) = when required
1.10 CAPACITANCE TOLERANCE
Capacitance tolerances can differ in accordance with customer requirement.Standard tolerances are :
Screw terminal
X =-10%, +30 %
M = + , - 20%
standard
on request
Solder pins
X=-10%,+30 %
M = + , - 20%
on request
standard
Customer request
A = Special Tolerance
1.11 LEAKAGE CURRENT
This is the current flowing through the insulation resistance when a direct voltage is applied to the
capacitor.
NOTE: the insulation resistance is the resistance to the flow of a direct current offered by two
conductors separated by a layer of insulating material.
Due to the special features of the aluminium oxide layer acting as dielectric, a small current always
flows, in electrolytic capacitors, even after applying a direct current for a very long period.
It should be mentioned that a gradual increase of direct voltage applied to the capacitors, till a well fixed
value (which must be in no case higher than the working voltage of the capacitor) causes at the two
poles of the capacitor a high current flow at first, then the leakage current decreases rapidly as the
voltage reaches its maximum rated value.
Just after the first sharp decrease the current goes on diminishing in intensity following a nearly
exponential curve till it reaches an asymptotic value largely inferior to the initial one.
The curve gradient of the leakage current decrease versus time can be considered as a measure of the
quality of the capacitor: the steeper is the curve gradient the better is the capacitor; curves showing a
slow decrease of leakage current in a due time indicates that the capacitor doesn't meet high quality
standards.
ITELCOND Aluminium Electrolytic Capacitors
Pag. 9
The ITELCOND capacitors of all types, but especially the "GENERAL PURPOSE" or the "LONG LIFE"
series, have leakage current values largely inferior to the maximum values requested by international
and national specifications
Anyway during the first period (minutes) of the equipment turning-on the leakage current rating can be
sensibly higher than normal and this is to be taken into account for a correct design of the circuit.
1.12 OUTGOING LEAKAGE CURRENT
Is the leakage current measured at the acceptance test: in accordance with IEC 60384 the leakage
current is to be measured at 20°c after the rated voltage of units has been applied for 5 minutes.
When the ambient (or capacitor’s body) temperature differs from 20°C the tables on par. 1.14 apply
1.13 OPERATING LEAKAGE CURRENT
Is the leakage current that is reached by the capacitor after a continuous operation.
The maximum limit for operating limit current is to be found on each section.
1.14 LEAKAGE CURRENT MULTIPLIERS
The leakage current value of an aluminium electrolytic capacitor is influenced by ambient temperature
and by ratio of working voltage to rated voltage. The following tables give some indication of the
multipliers that can be generally applied to each series
Operating leakage current multiplier
Tamb (°C)
AR-AY
AP
AS
AZ
AT
AKS
ACC
AZC / AZK
ATC /ATK
20
30
40
50
60
70
85
95
105
1
1.2
1.4
1.8
2.5
3.5
5.0
N.A.
N.A.
1
1.2
1.2
1.6
2.2
2,8
3,8
N.A.
N.A.
1
1.2
1.4
1.8
2.4
3.0
4.0
N.A.
N.A.
1
1.2
1.4
1.8
2.4
3.0
4.5
6.8
9.0
1
1.2
1.4
1.8
2.2
2.8
4.0
5.5
8.0
1
1.2
1.4
1.8
2.5
3.5
5.0
N.A.
N.A.
1
1.2
1.4
1.8
2.5
3.5
5.0
N.A.
N.A.
1
1.2
1.4
1.8
2.4
3.2
4.7
7.0
9.5
1
1.2
1.4
1.8
2.4
3.0
4.5
6.2
8.3
1.15 LEAKAGE CURRENT DECREASE vs. VOLTAGE DERATING
If the voltage applied to the capacitor is lower than the rated one, the leakage current decreases
accordingly and the approximate reduction factor is:
V
/V
Multiplier
APPLIED
RATED
1
1
0,9
0,75
0,8
0,70
0,7
0,55
0,6
0,45
0,5
0,30
0,4
0,20
1.16 LEAKAGE CURRENT AT VOLTAGE-FREE STORAGE
The capacitors can be stored voltage-free for 2 years at least without any reduction in reliability.
If these storage periods have not been exceeded, the capacitors can be operated at rated voltage
directly without a re-anodization process.
During the first minutes of the turning-on period, however, the current ratings can be extremely
superior to normal ones. This has to be taken into account when designing the circuit.
Due to long period of storage (in particular at high storage temperature) the leakage current may
increase and this phenomenon becomes more noticeable in high voltage capacitors. It's possible, reapplying voltage with a series resistor for a short period (one-two hours could be enough), to re-obtain
the initial value.
1.17 STORAGE TEMPERATURE
Aluminium Electrolytic Capacitors can be stored up to the maximum category temperature with no
voltage applied.
It must be considered that storage at high temperature can affect electrical characteristics (namely
leakage current) and consequently reliability of the unit.
To avoid these undesirable inconvenient, the suggested stock temperature should be higher than +25°C
and not exceeding +40°C.Temperature as low as minimum category temperature ( - 60°C) does not
damage the units.
Pag. 10
ITELCOND Aluminium Electrolytic Capacitors
1.18 SHELF LIFE
The shelf life of aluminium electrolytic capacitors is limited and depends from stock conditions.
In a normal warehouse situation ( i.e max 35°C,60% R.H.) the following limits apply
years
Limits
1
Units will meet initial electrical parameters level
2
Electrical parameters check is required to understand if re-ageing is required
3-5
Re-ageing is required before use
>5
End of shelf life
1.19 RE-AGEING PROCEDURE
The re-ageing procedure must be done @ room temperature and following the steps a through e :
a – connect unit to a DC power supply through a resistor of
a.1 10 KΩ for units having working voltage lower than 100 V
a.2 100 KΩ for units having working voltage lower higher 100 V
b – increase the voltage checking that the charging current is not exciding the maximum initial DC
leakage limit of the unit
c – when the rated voltage is reachd keep it for at least 4 (four) hours
d – discharge the unit through a 10KΩ keeping the voltage
decrease under control till the value of 0V seen by the voltmeter
e – test units for DC leakage according to the specification
IMPORTANT
• when performing re-ageing operation of units keep in mind the operator is exposed to live
voltage if unit is not properly insulated from surrounding.
• when operator is handling units must wear insulating glooves and glasses to prevent any body
damage due to possible and sudden unit explosion
2. RELIABILITY
Technical data given for capacitors of different ITELCOND types agree with CECC norms ( whre
applicable and/or available) : see following table
Series
Screw terminal type
Solder pin type
CECC
30301-802 / 807 / 810
30301-805 / 808 / 809 / 811
The relative failure rate given in DIN specifications and fully met by ITELCOND capacitors of different
series are reported here below:
GENERAL SPECIFICATION REQUIREMENTS
Working Voltage
Failure Rate
Series
< 25 Vdc
0.5 %
Long life
30 < Vdc < 450
0.2 %
Long life
6.3< Vdc < 450
2.0 %
General use
In the following paragraphs there are the main terms occurring when considering problems concerned
with reliability.
It should be considered that the values each parameter assumes in reliability are statistical figures and
so they are valid only if great numbers or lots are considered.
2.1 OPERATIONAL LIFE
The OPERATIONAL LIFE is the period of time in which a capacitor reaches the maximum accepted
values of modification of its electrical parameters.
To forecast the predictable operational life, MIL-STD-690 specifications with a "confidence level" of 60%
(see par.2.2) are considered.
The following Fig. 11 and 12 ( pag.24) based on the before said specifications, indicate both the "failure
rate" versus the testing time and the way to forecast the likely “failure rate" versus the number of "unithour", the "confidence level" and number of faulty ones.
Fig. 12 shows the relation among the various factors already considered:
ITELCOND Aluminium Electrolytic Capacitors
Pag. 11
-
Unit-hours
Confidence level
Failure rate
Number of defective units
Example: it may be considered, for example, a test period of 108 unit-hours, in which only a defective
unit has been found on all the samples tested. If a line between the scale of the component-hours (108)
and the scale of the faulty ones is drawn, the different combinations between "failure rate" and
"confidence level" can be obtained, as below:
FAILURE RATE
CONFIDENCE LEVEL
0.005
95 %
0.004
90 %
0.002
60 %
Clearly the same nomogram (based on MIL-STD) can be used to obtain the lowest number of
"component-hour" to predict the maximum number of defectives with a certain confidence level etc.
For every ITELCOND type for which a rated operational life is given at rated temperature the figures in
the detail section show the variation of the operational life according to a certain decrease of the
ambient temperature on a load of full category voltage; obviously a decrease of the ambient
temperature and a reduced voltage improve the given data.
As a further guarantee it should be mentioned that:
-Every series of capacitors undergoes regularly operational life test for a period of time longer than that
in catalogue
-The variations of the electrical parameters found at the end of the before said ITELCOND tests, are well
within the limits given for the individual types at the end of standard internal tests.
2.2 CONFIDENCE LEVEL
The term "confidence level" indicates a probability that a component will fail the homologation when its
assessed failure rate (see par 2.3) is equal to the failure rate required for the homologation.
2.4 FAILURE RATE (λ
λ)
The failure rate is the number of failed units indicated in percent for every 1000 hrs test: this definition
is valid only for a well-defined confidence level. The failure rate values depend on ambient temperature
and on ratio of applied voltage to rated voltage: in general the reference conditions are
T = 40 °C
VAPPLIED/VRATED = 0.50
Fig.4 and 5 show the variation of λ (or fit, see next paragraph) as function of applied voltage (in %)
F ig .4 - fit v s . T a n d V o lta g e ra tio
1 0 0 ,0 0
1 0 ,0 0
f.i.t .
1 ,0 0
0 ,1 0
0
20
30
40
50
60
70
80
90
10 5
te m p e r a tu r e
V /V n = 0 .2
V /V n = 0 ,3
V /V n = 0 , 4
V /V n = 0 , 5
V /V n = 0 , 6
V /V n = 1
Fig.5 - fit vs. T and Voltage ratio
100,00
10,00
f.i.t.
1,00
0,10
0
20
30
40
50
60
70
80
90
105
tem perature
V/Vn = 0.7
Pag. 12
V/Vn = 0,8
V/Vn = 0,9
V/Vn = 1
ITELCOND Aluminium Electrolytic Capacitors
2.3 ASSESSED FAILURE RATE
The term indicates the failure that should be found if all the units produced in a process "under control"
would actually be tested.
NOTE: a "under control process" is a process in which there are random variations of the average failure ra
2.5. FAILURE IN TIME "fit"
"fit" is the general expression of the failure rate with a confidence level of 60 % (MIL-STD-690).
It's a calculation from field observation and results of periodical tests in our laboratory.
The failure rate mainly depends from failure criteria and the operating and ambient conditions.
Fit = number of failures ( confidence level 60%) / numer of tested componenets x test duration
1 fit = 1 * 10-9 / hrs
Example:
100 fit = 1*10-7/hrs
= 0.01%*10-3/hrs
= 0.01% / 1000 hrs
2.6 TYPICAL FIT VALUES
Years of experience have shown that these values can be considered as an average
ITELCOND SERIES
VOLTAGE
FIT
AP
<150 Vdc
≥150 Vdc
<150 Vdc
≥150 Vdc
ALL VOLTAGES
40
70
45
45
45
ACC
AZ/AT
ALL VOLTAGES
20
AZC
AKS
<150 Vdc
50
ATC
AR,AY
AS
ITELCOND SERIES
AZK
ATK
VOLTAGE
FIT
<150 Vdc
≥150 Vdc
<150 Vdc
≥150 Vdc
ALL VOLTAGES
≥150 Vdc
<150 Vdc
≥150 Vdc
50
80
40
70
50
80
40
70
2.7 MEAN TIME BETWEEN FAILURE (MTBF)
The MTBF is given as below
MTBF= 1/ λ
where λ = Failure rate
2.8 MEAN TIME TO THE FIRST FAILED COMPONENT (MTTF)
The value of MTTF is : MTBF = 100.0000 /( %/1000 hr) = 100.000 / λ
3. TESTS
3.1 SHELF TEST
Capacitors shall be subjected to the maximum operating temperature ± 1°C for 96 ± 4 hours.
No voltage shall be applied and the electrical parameters must be within the specified range
(see IEC 68-2-2 and subq.)
3.2 SURGE VOLTAGE TEST
1) A series resistor with the value of
• 1000 ohm for C < 3300 µF
6
• R = (2.5∗ 10 )/C ohms for C > 3300 µF
must be connected in series to a capacitor
2) The capacitors shall be subjected to 1000 cycles each consisting of 30 sec charge, followed by a
no load period of 330 sec
3) Test temperature
• room temperature for general use capacitors
• upper category temperature for long life capacitors(series AS AT)
Applied voltage = see detailed specification.
After test a recovery period of 2hrs is required before taking any measurement. The requirements are:
• no electrolyte leakage,
• leakage current lower than stated limit
• tangent of the loss angle lower than stated limit
• ∆C/C = 15% (CECC 30300-4.14)
ITELCOND Aluminium Electrolytic Capacitors
Pag. 13
3.3 VIBRATION TEST
• Screw inserts
Capacitors, mounted with a proper ring clip (or with the mounting stud) shall be subjected to a vibration
test in accordance with IEC 60684-2-6/test Fc [3 x 2 hours (2 hours x axis), over a frequency range of
10 to 55 Hz. with an amplitude of 0,75 mm.]
All parameters, measured after each cycle, must be within the limits and the leakage current must be
lower than the maximum limits.
• Solder pins
Capacitors, mounted on to a printed wiring board shall be subjected to a vibration test in
accordance with IEC60684 -2-6/test Fc [ 3 x 2 hours (2 hours x axis)], over a frequency range of 10 to
55 Hz. with an amplitude of
0.75 mm for Φ≤ 25 mm
0.35 mm for Φ≥ 30 mm
All parameters, measured after each cycle, must be within the limits and the leakage current must be
lower than the maximum limits
3.4 SEALING TEST
The capacitors shall be tested for seal tightness in accordance with the following procedure:
-Take out the sleeve from the capacitor body
-Place capacitors in water maintained at 90 °C for a period of 5 minutes. During the immersion there
shall be no chain or repetitive bubbling from any part of the capacitor ( IEC 68-2-17).
3.5 LOW PRESSURE
In accordance with IEC 60384-4 subclause 4.11.4 ( 5 minutes at 25°C ± 10°C at atmospheric
pressure of 8.5 kPa; Vn applied during the last minute) capacitors can operate at a minimum pressure
of 8.5 kPa for short period.
Note :
• Continous operation at extreme altitude can impair useful life.
• The capability to withstand to low pressure is for unit mounted in accordance with related
specification.
3.6 LIFE TEST
3.6.1 LIFE TEST PROCEDURES
The following notes are intended as a clarification of tests employed at ITELCOND Quality Control
Laboratory to ascertain the quality of the finished products along the years. The life test duration for
each series is in accordance with IEC 60384-4 requirements.
LONG LIFE SERIES = 2000 hours at maximum category temperature
GENERAL USE = 1000 hours at maximum category temperature
In addition, ITELCOND quality program provides that life tests are performed for a minimum number of
hours, usually higher than required by IEC, in accordance with the table on the following page:
Series
AR
AR
AS
AS
AY/AP
AZ
AT
Working Voltage
< 150
> 150
< 150
> 150
All voltages
All voltages
All voltages
Temperature
85°
85°
85°
85°
85°
105°
105°
Hours of test
2000
2000
10000
5000
2000
2000
5000
Series
AKS
AZK
ATK
ACC
AZC
ATC
Working Voltage
All
All
All
All
All
All
voltages
voltages
voltages
voltages
voltages
voltages
Temperature
85°
105°
105°
85°
105°
105°
Hours of Test
2000
2000
2000
2000
2000
2000
From the data obtained performing these life tests ITELCOND Quality Control had the possibility to draw
the tables shown for each series. The "EXPECTED LIFE TABLES" are calculated with the same "electrical
parameters changes» used for life test procedure and shown here below.
3.6.2 ELECTRICAL PARAMETERS CHANGE
The electrical parameters variations during life test are strictly connected with the quality of finished
units and must be within the following maximum limits
Pag. 14
ITELCOND Aluminium Electrolytic Capacitors
Dc Working
Voltage
< 150
Vdc
≥150 Vdc
< 150 Vdc
≥150 Vdc
< 150 Vdc
All voltages
Capacitance Change
+,-15 % %)
initial value
+,-10 % initial value
+,-15 % initial value
+,-15 % initial value
+,-15 % initial value
+,-10 % initial value
D.F. or ESR
Maximum
Increase
1,3 x data
book
1.3 x data book
1.3 x data book
1.3 x data book
1.5 x data book
2.0 x data book
Dc Leakage Current
Less than initial value
Less than initial value
Less than initial value
Less than initial value
Less than initial value
Less than initial value
SERIES
Screw terminal
Screw terminal
Screw terminal
Screw terminal
Screw
Solder pins
The above electrical parameter changes are considered as final limits when the expected life curves are
drawn. From the data obtained performing these life tests ITELCOND Quality Control had drawn the
tablesnamed "EXPECTED LIFE TABLES and shown for each series. The "EXPECTED LIFE TABLES are
calculated with the same "electrical parameters changes» used for life test procedure and here
indicated.
The expected life values that appear on standard graphs must be multiplied by 2.0 for all series if the
parameter’s change is:
-Capacitance Variation:
-ESR variation
-DC leakage variation
-Total failure in percent
VDC < 150 VDC: +, ≤ 3 x data book limit
≤Data book limit
Vdc ≤ 150 Vdc: <= 1%
VDC ≥ 150 VDC: +, -10 %
≤ 3 x data book limit
≤Data book limit
Vdc > 150 Vdc: <= 3%
3.7 OPERATING LIFE TIME AND VOLTAGE DERATING
Operating life time depends on the capacitor general working conditions; if the capacitor is subjected to
a temperature or to a voltage lower than rated (see par.1.8) there is a consistent increase in life.
Assuming that life is doubled at every temperature decrease of 10°C, when the applied voltage is lower
than the rated one the expected life increase is shown on Fig. 6 and 7 ( pag.14)
F ig . 6 - E xp ec te d life v s. v o ltag e ra tio (V w o rkin g /V rated )
U n its ra te d @ 8 5 °C
expected life
800000
600000
400000
200000
0
200 0@ 85
4000@ 75
8000@ 65
16 000@ 55
3200 0@ 45
64000@ 35
Life @ Tem p eratu re
0,5
ITELCOND Aluminium Electrolytic Capacitors
0,7
0,8
Pag. 15
F ig . 8 - Ex p e cte d li fe vs. vo lta g e ra tio (V w o rkin g /V ra te d )
U n i ts ra te d @ 105 °C
1 80 0 0 00
1 60 0 0 00
expected life
1 40 0 0 00
1 20 0 0 00
1 00 0 0 00
80 0 0 00
60 0 0 00
40 0 0 00
20 0 0 00
0
5 0 0 0 @ 10 5
10 0 0 0 @ 8 5
20000@ 75
40000@ 65
80000@ 55
16 0 0 0 0 @ 4 5
L if e @ T e m p e r a t u r e
0 .5
0 .7
0 .8
3.8 USEFUL LIFE CALCULATION
The useful life of a capacitor is calculated in accordance with the tables of expected life per each series.
The rated ripple current at upper category is listed in the data sheets, while the ripple current at
different temperature can be calculated using the tables shown on each series.
To know the useful life proceed as follows :
• calculate the ratio [IR]/[I85°C] or [IR]/[I105°C]
• find on to the table the crossing between the working temperature an the calculated ratio
• on top of the table it appears the useful life in hour
The example does not consider the frequency dependence of ripple current : the corresponding factor
listed on each type must be used as an additional factor.
Example :
Capacitor AYUX-HR 4700 – 350
If working conditions are : IR = 25 A
Ambient temperature = 70 °C Frequency = 100 Hz
CAP
Rated Case
Φxh
Voltage Code
(µF)
(Vn)
TG δ
ESR
ESR
Z
max
typ
max
I ripple I ripple
55°C
85°C
CATALOGUE NUMBER
100Hz 100Hz 10Khz 100Hz 100Hz
(mm)
100Hz (mOhm) (mOhm) (mOhm)
4700 350 DF 76X147 0.08 22
20
(A)
(A)
Flat bottom
26 23.9 17.1 AYXHR472X350DF1
Mounting stud
AYUXHR472X350DF1
1. [IR]/[I85°C] = 25 / 17,1 = 1,46
Crossing 1,46 and T = 70 °C expected life is about 10000 hours
2. If frequency becomes 500 Hz ( being equal IR anf T°C) the correspondent ripple current is
IR = 25 A/1,32 = 18,9
[IR]/[I85°C] = 18,9 / 17,1 = 1,10
Crossing 1,10 and T = 70 °C expected life is about 14000 hours
3. If frequency becomes 500 Hz ( being equal IR) and temperature becomes 60 °C
IR = 25 A/1,32 = 18,9
[IR]/[I85°C] = 18,9 / 17,1 = 1,10
Crossing 1,10 and T = 60 °C expected life is about 36000 hours
Pag. 16
ITELCOND Aluminium Electrolytic Capacitors
4. CAPACITOR CONNECTION
The aluminium electrolytic capacitors can be connected in parallel : the connection must e as such that
the current flows equally through each unit
The aluminium electrolytic capacitors can be connected in series: use balancing resistors to control the
voltage distribution across each unit.
For more detailed information contact our engineering service
5. INSULATION STRENGHT
-Insulation resistance at 100 Vdc. 1 Min. between terminals and mounting hardware =100 Mohm.
-Dielectric strength of the sleeve =2500 Vdc.
6. SELF RECHARGING (DIELECTRIC ABSORPTION)
It is important to take note that Aluminium Electrolytic Capacitors undergo to the phenomenon of self
recharging .
Generally speaking it is impossible to give a precise rule to predict which voltage an unit, even when
completely charged and discharged, can reach if left open circuit.
Itelcond has observed a maximum of 50 volt across the terminals but sometimes the value could be
higher and not predictable.
It is therefore suggested to discharge the units before touching or connect ing the terminals. See also
par. 17
7. CLEANING AGENTS
Halogenated solvents are not recommended for use in cleaning capacitors, while many solvents such as
alcohol are suitable. It must be remembered that many solvents given, as chemically stable in the most
varied conditions may on the contrary be electrochemically dissociated, producing chemical products
extremely dangerous to the capacitor life. The following list contains critical halogenated solvents
(unsafe) used as cleaning agents in electrical industry:
• Trichloroethane (ex. Chlorotene)
• Freon
• Trichloroethylene
• Tetrachloroetylene
• Chloroform
• Methylene chloride
• Methyl ethyl Ketone
• Acetone
In case of wetting capacitors with those solvents, a safe cleaning agent must be used to eliminate
residues of non-safe agents, even it is not possible to control if unsafe agent entered into tha capacitor
unless an accurate search is done.
It should be considered that the unsafe agent possible damage can be seen during capacitor’s life and
possibly not on newly produced units
List of solvents without halogen (safe):
Methanol
Propanol
Isobutane
8. PACKAGING
Units are packed in cartoon boxes and the number of units per box is in accordance with following
table. Units are packed in cartoon boxes and EUR dimensions wooden pallet ( plastic on request ).
The shown weight values depend from the type of unit packed into the box : the weight of units is a
function of the capacitance value of the capacitor ( e.g. into the same can size a capacitor having a
capacitance of 2200 mfd units differs substantially from one having a capacitance of 10000 mfd.
Following table indicates approximate weight per package.
The exact weight and pallet dimensions ( if needed) can be required when goods are ready to be
shipped.
Some countries require to receive goods on plastic pallet: this special packaging has to be required
when placing order
ITELCOND Aluminium Electrolytic Capacitors
Pag. 17
Diameter
code
Can length
(mm)
Screw terminal
Pcs / box Diameter (mm) Can length (mm) Approx.
weight / box
A = 35
A = 55
50/100 A = 35 mm
A = 55
4-7
50
50
30
30
20
20
12
12
8
6
6
6
B = 80
C= 107
B = 80
C= 107
C= 107
F= 147
C= 107
F= 147
J= 217
C= 108
F= 149
J= 222
4-6
6-8
5-7
6-9
6-8
9-10
5-7
6-14
9-11
7-9
9-11
8-12
B = 80
C=105
B = 80
C=107
C=107
F= 147
C=107
F= 147
J= 217
C C=108
F= 149
J= 222
B = 51
C = 65
D = 76
E = 90
Diameter
code
Can length
(mm)
M = 30
B = 40
C = 50
B = 40
C = 50
N = 60
E = 75
B = 40
C = 50
E = 75
G= 100
C = 50
E = 75
G = 100
N = 35
P = 40
Q = 45
B = 51 mm
C = 65 mm
D = 76 mm
E = 90 mm
Solder pin
Pcs / box Diameter ( mm)
100
100
100
100
50
50
100
100
50
50
30
30
30
M = 30
N = 35
P = 40
Q = 45
Can length (mm) Approx.
weight / box
B = 40
C = 50
B = 40
C = 50
N = 60
E = 75
B = 40
C = 50
E = 75
G= 100
C = 50
E = 75
G = 100
4-6
4-6
6-8
6-8
5-7
6-8
6-8
8-9
9-11
6-8
6-8
7-9
8-10
9. WAVEFORMS
The Fig.8 indicates the most popular waveforms and the applicable current both as average and rms.
value.
Wavefor
m
Mean value
R.m.s value
Wavefor
m
Mean value
R.m.s value
1
A/2
A/3
4
0
A
2
A ∗t1/T
A∗√(2t1/3T)
5
(A/2) ∗(t1/T)
A√(t1/3T)
3
A∗(t1/T)
A∗√(t1 / T)
6
2A/(π∗(t1/T)
A∗√(t1/2T)
Fig. 8
Pag. 18
ITELCOND Aluminium Electrolytic Capacitors
1
4
2
5
3
6
10. DATABOOK NUMBERING SYSTEM
SERIES
AR
INSERT’S
CODE
X/M (+)
CAPACITANCE
332(**)
CAPACITANCE
TOLERANCE
X/M (*)
WORKING
VOLTAGE
350
CASE
CODSE
DF
SLEEVE
1
SPECIAL
REQUIREMENT
XXXX
(+) = see series
(∗) = third digit represents the number of zeros ( 332 = 3300 microfarad )
(**) X = -10.+30% M= +,-20%
11. ELECTROLYTES
Electrolytes used in aluminium capacitors manufacturing are produced in accordance with Itelcond
internal specifications
Since its foundation ITELCOND never used in its electrolytes formulation dangerous or potentially poisonous
chemicals. So all electrolytes were and are free from:
Dimethylformamide (DMF)
Dimethylacetamide (DMAC)
Polychlorinated byphenil (PCB)
ITELCOND Aluminium Electrolytic Capacitors
Pag. 19
12. NON FLAMMABLE MATERIALS
12.1 RAW MATERIAL FOR SCREW TERMINAL
ITELCOND capacitors are manufactured with outside raw materials that can meet UL specifications:
more precisely
COMPONENT
MATERIAL
Cover
THERMOSETTING
UL
RATING
V0
Plastic sleeve
Bottom
insulating disk
Plastic washers
Hex nut
PVC
PVC
V0
V0
THERMOPLASTIC
THERMOPLASTIC
V0
V0
Aluminium insert
Cover in UL94-V0 material
Connecting tabs
Safety vent
Aluminium can
Non-flammable sleeve
Rolled section
Scotch tape
Non-flammable insulating disk
Aluminium spigot
Hex nut in UL94-V0 material
Metal mounting stud
Fig. 9
12.2 RAW MATERIAL FOR SOLDER PIN TYPES
The above concept can be also applied to all series having solder pins except for cover material (made
in Rubber-Bakelite) which does not meet UL requirements
Pag. 20
COMPONENT
MATERIAL
UL RATING
Cover
RUBBER-BAKELITE
HB
Plastic sleeve
Bottom insulating disk
PVC
PVC
V0
V0
ITELCOND Aluminium Electrolytic Capacitors
13. FLAMMABILITY
These notes are intended to clarify the “flammability concept” that is concerning most of Aluminium
Electrolytic Capacitors users
Considering fire and possible fire hazard, the design engineer should know that:UL detail specification
concerning DC Aluminium Electrolytic Capacitors doesn’t exist
UL specifications cover fire hazard and test on not flammable material.
The test that can be used to control outside material used in Aluminium Electrolytic Capacitors
European is covered by the specifications ( IEC 60695-2-2)
The tests done on finished capacitors are to be considered useful only for comparison as it strongly
depend on material dimensions and also by other materials that can be in contact : external material
itself are UL approved as V0 or HB rated
Under standard applications ( when soldering heat is not in excess, if the beading is not damaged, if an
abnormous use conditions are not applied, if there has been an incorrect polarity application etc.) there
is no leakage of the liquid that impregnates the rolled section
( “ the capacitor’s body”): if that happens and if there is a possible fire source around the unit the
ignition of the rolled section can start and will continue until the fire ( or the flame or whatsoever is the
possible ignition reason) stays in contact with the inside part of the capacitor.
As soon as the fire source is removed the rolled section stops to burn generally in less than 15
seconds.
It is of great importance to underline that the fire stops as soon as the source is removed ; if source of
fire is newly applied the fire can restart.
14. DANGEROUS MATERIAL
To the best of Itelcond knowledge Alumnium Electrolyitc capacitors manufactured in his plant complains to :
DIRECTIVE 2002/95/EC - JANUARY 2003
DIRECTIVE 2003/11/EC – FEBRUARY 2003
AMENDMENT OF DIRECTIVE 2002/95/EC – AUGUST 2005
DIRECTIVE 2006/122/EC – 12 DECEMBER 2006
Itelcond certificates that during designing and/or manufacturing of aluminium electrolytic capacitors:
Asbestos,
Lead (Pb)
Mercury (Hg),
Chromium VI ( CrVI),
Dimethylacetamide (DMAC)
Dimethylformamide (DMF)
Polychlorinated Biphenyl (PCB),
Polychlorinated Triphenyl (PCT),
Polybrominated Biphenyl (PBB),
Polybrominated Diphenyl (PBD),
Polybrominated Diphenyl Ethers(PBDE)
PentaBDE / OctaBDE / DecaBDE
Materials currently listed as carcinogenic
Materials currently listed as mutagenic
Materials currently listed as teratogenic
are not intentionally added or used
Itelcond received also written assurance from suppliers that they don’t use the above chemicals or
substances in the manufacture of products Itelcond is currently buying to produce its own components.
However we don’t perform (or we require our suppliers to do) analysis on their products.
Therefore we are confident that the maximum content in our products of the above mentioned
substances are below the limits of the European directives
Itelcond also certifies that :
• all exhaust liquid are safely stored and collected by specialized company to be treated as code
CER 070701
• all finished units or part of them scraped during the production circuit are safely stored and
collected by specialized company to be treated as code CER 160214
ITELCOND Aluminium Electrolytic Capacitors
Pag. 21
15. PRODUCTION LINE FLOW CHART
The figure 10 shows the aluminium electrolytic capacitor flow chart.
It has to be observed that all materials come from approved suppliers and cannot be used in
production line unless specifically approved. All scrapped chemicals and/or electrolytes are stored in a
controlled area and are sent to a plant that can treat them avoiding soil and water pollution.
Same procedure ( as per ISO EN 14001 requirement) is followed for finished units or raw materials
that must be, for some reasons, scrapped.
Pag. 22
ITELCOND Aluminium Electrolytic Capacitors
Supplier
Aluminium
Formed Foil
Aluminium
Foil
Paper
Supplier Conformance report
Chemicals
Cover
Can
Box
Supplier Conformance report
Dimensional test
Incoming
material test
Quality report
Electrolyte
preparation
Rolling
Core materials and operations report
Chemical
test
Visual
inspection
Chemical data
report
Non NONConformity
Report
Non Conformity
Report
Waste treatment
Impregnation
Operations report
Inspection
Assembling
Inspection
Burn in
Inspection
Operations report
Final test
Operations report
Palletizing
Customer
ITELCOND Aluminium Electrolytic Capacitors
Pag. 23
Fig. 12
Pag. 24
ITELCOND Aluminium Electrolytic Capacitors
16. CAPACITORS ASSEMBLY
16.1 MECHANICAL ASSEMBLY
•
When using high-capacitance and high-voltage electrolytic capacitors it is important to
remember that the inner part (the rolled section) is not insulated from can: between the
negative pole and the aluminium can there is a variable and not defined resistance essentially
due to the electrolyte used in capacitor manufacture.
•
Capacitor mounting must be apt to ensure that the terminals do not point downward (see
Fig.13). In case of horizontal mounting the safety vent must be put in the shown position.
acceptable vent layout
+
+
+
+
correct capacitor assembly
not suggested vent layout
+
Fig. 13
•
Do not mount screw terminal capacitors downward : if that the case be sure that there is
a venting hole in PC board
•
Spacers ( paper) and electrolyte (in some cases) present in aluminium electrolytic
capacitors are flammable
•
The electrolyte used in capacitors production are highly conductive and contains ammonia or
ammonium salt in different forms : possibly leaking electrolyte can slowly corrode the
copper paths on PC board.
ITELCOND Aluminium Electrolytic Capacitors
Pag. 25
17. PRECAUTIONS
When using aluminium electrolytic capacitors a number of precautions must be taken :
•
Operating temperature, ripple current and working voltage must be within the specified limits
•
Don’t apply any reverse voltage or AC to the capacitors: there could be abnormal increase in
temperature and even explosion of unit
•
When protection against reverse voltage is required please contact our engineering.
•
In any case AC cannot be applied
•
Capacitors that undergo (occasionally or purposedly) to reverse voltage cannot be used any
longer
•
DC voltage plus AC component cannot exceed the working voltage of the unit
•
Capacitors to be used in areas where there are harmful gases will undergo to a life reduction
due to damages that can occur to sealing rubber or to gasket : the damage of these parts can
cause the gas enter into the capacitor with consequent corrosion of capacitor’s body
•
When capacitor is used a highly dusty area check that the level of powders on the top of the
unit is not overpassing insert shoulder height to avoid possible short circuit between plus and
minus pole
•
Moisture or salt spray can penetrate into the capacitor and cause short circuit of the unit
•
When mounting screw terminal capacitors see par. 16
•
When mounting snap in capacitor with a solder iron the hot tip cannot come in contact with
the can, cover material or insulating sleeve
•
When units are mounted on series – parallel use homogeneous date codes
•
Handling of capacitors must be done carefully : unit falling on the floor or bumping against object
can be damaged even when no particular visible modification of unit can be seen; if it happens
replace units
•
Capacitors cannot be stored under direct sun light
•
To avoid electrical shock read carefully par. 6
•
When an unit operates for long time at voltage consistently low and then sees an high voltage
an increase in temperature must be expected
•
When a snap in unit is fixed to the pwb by means of fixing material be sure that the fixing
compound do not contain chloride or chemicals that can deliver chlorine during polymerisation
process
•
Cleaning circuit must be done with safe chemicals ( see par. 7)
•
Harzadous voltage specially on very high capacitance units is present for up to 60 minutes after
disconnection from power supply
•
Do not use capacitors having standard design in circuits where charge and discharge cycles
have an high repetition rate; specific capacitors can be designed for this application
•
When safety vent operates a gas at high temperature is emitted : the gas is driving out from
capacitor body some electrolyte that could damage the PC board or connecting bars not
properly insulated from chemical attack.
•
When a capacitor in bank fails check all capacitors and replace them : don’t replace failed unit
only
Pag. 26
ITELCOND Aluminium Electrolytic Capacitors
18. QUALITY WARRANTY
-
Products warranty is involved only when products are used under within normal conditions and
within the limit of storage conditions
-
The customer’s equipment design must consider possible failures of units, consequent effects
of such failures and act to prevent them
-
Warranty doesn’t apply when units are subjected to surge voltage, reverse polarity or not
correct assembly
-
Warranty is limited to replacement of individual units and this rules is applied to all occurrence
and especially to any consequence of failures.
ITELCOND Aluminium Electrolytic Capacitors
Pag. 27
SCREW TERMINAL
CAPACITORS
Ambient Temperature
85°C
AR- / AR- HG
series
ALUMINIUM ELECTROLYTIC CAPACITORS GENERAL PURPOSE
Series
Capacitance
range
Voltage
Range
Temperature
range
AR ARU
AR-HG
ARU-HG
Case
ΦxH
Applications
High capacitance,reduced volume, long
life, industrial applications
35 x 59
150 - 330000 25 – 450 -40 °C , +85°C
76 x 147
High CV product for applications where
dimensions are very important
MECHANICAL OUTLINES:
CASE: aluminium made
TERMINALS: screw
SEALING: hermetic by beading on an EPR gasket, housed on a thermosetting resin cover
PRESSURE RELEASE VENT: made in silicone-rubber
SLEEVE: self-extinguishing thermoshrinkable sleeve
SIZE: see enclosed drawings
MOUNTING HARDWARE: see hardware section
SPECIFICATIONS
TEMPERATURE RANGE
CAPACITANCE
CECC 30300
Operating: -40 °C/ +85 °C
IEC 60384 ("long life grade")
MIL C62D
Climatic category : 40/85/56
DIN 41240 / DIN 45910
Tolerance shall be within the following limits:
- 10% + 30% (standard tolerance)
- 20% + 20% (available on request)
LEAKAGE CURRENT:
After the rated voltage has been applied to the capacitor for 5 minutes the leakage current must be:
where
Maximum limit
at 25 °C
Operating limit
at 25 °C:
If ≤ 0,004 * C * V
If ≤ 0,001 * C * V
If = leakage current (µA)
C = capacitance (µF)
V = rated voltage (V)
IMPORTANT
1) When using high-capacitance and high-voltage electrolytic capacitors it is important to remember that the inner part (the
rolled section) is not insulated from can: between the negative pole and the aluminium can there is a variable and not
defined resistance essentially due to the electrolyte used in capacitor manufacture.
SURGE VOLTAGE
Working Voltage
25
40
50
63
75
100
160
200
250
350
400
420
450
Surge Voltage
29
46
58
73
86
115
185
230
290
385
440
460
495
ITELCOND Aluminium Electrolytic Capacitors
Pag. 31
RIPPLE CURRENT:
The allowable values of ripple current in amperes, are related to the temperature and frequency by the formula:
Irip = Kt * Kf * Ir85
where Ir85 is the limit given by tables, referred to a temperature of 85 °C and to a frequency of 100 HZ and Kt or Kf are
values here below tabulated:
Note . Ripple current is function of the capacitance tolerance
°C
Kt
40
55
65
75
85
2.1
1.8
1.6
1.3
1.0
Kf
V=50
Vn
50<V=300
Hz
V>300
V=50
50<V=300
Code Diameter A,B
V>300
Code Diameter C,D
50
0.82
0.79
0.76
0.86
0.78
0.72
100
1
1
1
1
1
1
120
1.03
1.04
1.04
1.01
1.02
1.03
300
1.12
1.16
1.28
1.03
1.08
1.24
500
1.15
1.22
1.39
1.03
1.09
1.32
>1000
1.18
1.25
1.45
1.03
1.09
1.37
DIMENSIONS
Insert screw thread = M5
Screw torque for hex nuts M8 = 4 Nm.
Insert screw torque max. (M5) = 2 Nm.
Screw torque for hex nuts M12 = 10 Nm
Insert screw length (terminal code "-x") = 10
mm.
ΦX L
(mm)
l1
d1
+,-0.5
d2
+,-0.5
h1
e
AA
35 x 59
65
8
12
8
AB
35 x 83
89
8
12
8
AC
35 x 105
109
8
12
BB
51 x 83
89
8
BC
51 x 105
109
8
CASE
CODE
CASE
CODE
ΦX L
(mm)
l1
d1
+,-0.5
d2
+,-0.5
h1
e
12,7
CC
64 x 107
111
8
12
16
28.6
12,7
DC
76 x 107
111
8
12
19
31.8
8
12,7
DF
76 x 147
151
8
12
19
31.8
12
13
22.2
12
13
22.2
STANDARD MOUNTING STUD HARDWARE - INSULATING PLASTIC WASHER AND METALLIC NUT
Pag. 32
ITELCOND Aluminium Electrolytic Capacitors
EXPECTED LIFE VS. TEMPERATURE AND RIPPLE CURRENT
ARX/ARUX
WVDC<160
90
85
10000 hr
80
Temperature (°C)
75
15000 hr
70
20000 hr
65
60
35000 hr
55
80000 hr
50
45
150000 hr
300000 hr
40
40000 hr
35
30
0
0,5
1
1,5
2
2,5
(Ir)T/(Ir)85 °C
ITELCOND Aluminium Electrolytic Capacitors
Pag. 33
ARX/ARUX
WVDC=> 160 VOLT
90
85
5000 hr
80
75
Temperature (°C)
70
65
10000 hr
60
18000 hr
55
20000 hr
50
45
80000 hr
40000 hr
150000 hr
40
50000 hr
35
30
0
0,5
1
1,5
2
2,5
3
(Ir)T/(Ir)85°C
Expected life criteria: see introduction
Pag. 34
ITELCOND Aluminium Electrolytic Capacitors
ARX / ARUX
AR
AR-HG series
CAP
(µF)
Rated
Case
Voltage
Code
(Vn)
Φxh
AA
15000
AB
22000
AC
33000
BB
ESR
Z
max
typ
max
100Hz 100Hz
(mm)
10000
TG δ
ESR
10Khz
100Hz (mOhm) (mOhm) (mOhm)
I ripple I ripple
55°C
85°C
100Hz 100Hz
(A)
(A)
CATALOGUE NUMBER
Flat bottom
Mounting stud
35 x 59
0,27
39
31
27
8,4
4,6
ARX103X025AA1
ARUX103X025AA1
35 x 79
0,30
29
23
21
11,9
6,6
ARX153X025AB1
ARUX153X025AB1
35 x 105 0,33
21
17
16
15,6
8,7
ARX223X025AC1
ARUX223X025AC1
0,47
20
16
16
17,3
9,6
ARX333X025BB1
ARUX333X025BB1
BC
51 x 105 0,68
21
17
14
19,5
10,8
ARX473X025BC1
ARUX473X025BC1
68000
CC
64x 107
0,70
15
12
12
26
14,5
ARX683X025CC1
ARUX683X025CC1
100000
CC
64 x 107 0,70
10
8
10
31,5
17,5
ARX104X025CC1
ARUX104X025CC1
150000
DC
76 x 107 0,98
9
7
8
36,3
20,2
ARX154X025DC1
ARUX154X025DC1
220000
DF
76 x 147 1,26
8
7
7
44,4
24,6
ARX224X025DF1
ARUX224X025DF1
ESR
ESR
Z
I ripple
I ripple
max
typ
max
55°C
85°C
47000
CAP
(µF)
25
Rated
Case
Voltage
Code
(Vn)
51 x 83
Φxh
TG δ
100Hz 100Hz
(mm)
10Khz
100Hz (mOhm) (mOhm) (mOhm)
100Hz 100Hz
(A)
(A)
CATALOGUE NUMBER
Flat bottom
Mounting stud
4700
AA
35 x 59
0,18
55
44
39
6,7
3,9
ARX472X050AA1
ARUX472X050AA1
6800
AB
35 x 79
0,21
44
35
29
9,1
5,3
ARX682X050AB1
ARUX682X050AB1
35 x 105 0,25
10000
AC
15000
BB
36
29
25
11,5
6,7
ARX103X050AC1
ARUX103X050AC1
0,27
26
21
17
14,7
8,6
ARX153X050BB1
ARUX153X050BB1
BC
51 x 105 0,33
21
17
14
18,2
10,6
ARX223X050BC1
ARUX223X050BC1
33000
CC
64 x 107 0,35
15
12
10
24,4
14,2
ARX333X050CC1
ARUX333X050CC1
47000
CC
64 x 107 0,37
11
9
9
28,3
16,5
ARX473X050CC1
ARUX473X050CC1
68000
DC
76 x 107 0,42
9
7
8
35,6
20,8
ARX683X050DC1
ARUX683X050DC1
100000
DF
76 x 147 0,49
7
6
6
45,7
26,6
ARX104X050DF1
ARUX104X050DF1
ESR
ESR
Z
I ripple
I ripple
max
typ
55°C
85°C
22000
CAP
(µF)
50
Rated
Case
Voltage
Code
(Vn)
51 x 83
Φxh
TG δ
100Hz 100Hz
(mm)
max
10Khz
100Hz (mOhm) (mOhm) (mOhm)
100Hz 100Hz
(A)
(A)
CATALOGUE NUMBER
Flat bottom
Mounting stud
3300
AA
35 x 59
0,13
56
45
44
6,6
3,8
ARX332X063AA1
ARUX332X063AA1
4700
AB
35 x 79
0,14
43
34
33
9,3
5,4
ARX472X063AB1
ARUX472X063AB1
6800
AB
35 x 79
0,15
32
25
24
10,8
6,3
ARX682X063AB1
ARUX682X063AB1
10000
AC
35 x 105 0,16
23
18
15
14,4
8,4
ARX103X063AC1
ARUX103X063AC1
10000
BB
51 x 83
0,18
26
21
17
14,7
8,6
ARX103X063BB1
ARUX103X063BB1
15000
BB
51 x 83
0,22
21
17
16
16,3
9,5
ARX153X063BB1
ARUX153X063BB1
22000
BC
51 x 105 0,25
16
13
12
21,0
12,2
ARX223X063BC1
ARUX223X063BC1
33000
CC
64 x 107 0,20
9
7
8
32,3
18,8
ARX333X063CC1
ARUX333X063CC1
47000
DC
76 x 107 0,25
8
6
7
38,4
22,4
ARX473X063DC1
ARUX473X063DC1
68000
DF
76 x 147 0,30
6
5
6
48,1
28,1
ARX683X063DF1
ARUX683X063DF1
63
ITELCOND Aluminium Electrolytic Capacitors
Pag. 37
AR
AR-HG series
CAP
(µF)
Rated
Case
Voltage
Code
(Vn)
Φxh
AA
4700
AB
6800
AC
10000
BB
ESR
ESR
Z
I ripple
I ripple
max
typ
max
55°C
85°C
100Hz 100Hz
(mm)
3300
TG δ
10Khz
100Hz (mOhm) (mOhm) (mOhm)
100Hz 100Hz
(A)
(A)
CATALOGUE NUMBER
Flat bottom
Mounting stud
35 x 59
0,12
52
42
34
6,9
4,0
ARX332X075AA1
ARUX332X075AA1
35 x 79
0,12
37
29
25
10,0
5,8
ARX472X075AB1
ARUX472X075AB1
35 x 105 0,12
25
20
18
13,7
8,0
ARX682X075AC1
ARUX682X075AC1
0,16
23
18
16
15,6
9,1
ARX103X075BB1
ARUX103X075BB1
BC
51 x 105 0,16
15
12
12
21,6
12,6
ARX153X075BC1
ARUX153X075BC1
22000
CC
64 x 107 0,12
8
6
7
34,0
19,0
ARX223X075CC1
ARUX223X075CC1
33000
CC
64 x 107 0,12
5
4
7
36,4
21,4
ARX333X075CC1
ARUX333X075CC1
33000
DC
76 x 107 0,16
7
6
7
40,2
23,4
ARX333X075DC1
ARUX333X075DC1
47000
DC
76 x 107 0,18
5
4
5
45,2
26,4
ARX473X075DC1
ARUX473X075DC1
68000
DF
76 x 147 0,22
5
4
6
56,2
32,8
ARX683X075DF1
ARUX683X075DF1
ESR
ESR
Z
I ripple
I ripple
max
typ
max
55°C
85°C
15000
CAP
(µF)
75
Rated
Case
Voltage
Code
(Vn)
51 x 83
Φxh
100Hz 100Hz
(mm)
2200
AA
3300
AB
4700
AC
4700
BB
TG δ
10Khz
100Hz (mOhm) (mOhm) (mOhm)
100Hz 100Hz
CATALOGUE NUMBER
Flat bottom
Mounting stud
3,6
ARX222X100AA1
ARUX222X100AA1
(A)
(A)
6,2
35 x 59
0,10
65
52
42
35 x 79
0,10
43
35
30
9,2
5,4
ARX332X100AB1
ARUX332X100AB1
35 x 105 0,08
24
20
20
13,9
8,1
ARX472X100AC1
ARUX472X100AC1
0,10
30
24
21
13,5
7,9
ARX472X100BB1
ARUX472X100BB1
BC
51 x 105 0,12
25
20
20
16,8
9,8
ARX682X100BC1
ARUX682X100BC1
10000
BC
51 x 105 0,10
14
11
10
22,3
13,0
ARX103X100BC1
ARUX103X100BC1
10000
CC
63 x 107 0,10
14
11
10
25,1
14,7
ARX103X100CC1
ARUX103X100CC1
15000
CC
64 x 107 0,11
11
8
7
29,4
17,1
ARX153X100CC1
ARUX153X100CC1
22000
CD
64 x 118 0,13
8
7
6
34,4
20,2
ARX223X100CD1
ARUX223X100CD1
22000
DC
76 x 107 0,14
9
7
6
35,1
20,5
ARX223X100DC1
ARUX223X100DC1
33000
DF
76 x 147 0,16
7
6
5
45,9
26,8
ARX333X100DF1
ARUX333X100DF1
ESR
ESR
Z
I ripple
I ripple
max
typ
max
55°C
85°C
6800
CAP
(µF)
100
Rated
Case
Voltage
Code
(Vn)
51 x 83
Φxh
100Hz 100Hz
(mm)
680
AA
1000
AB
1500
AC
2200
BB
TG δ
10Khz
100Hz (mOhm) (mOhm) (mOhm)
100Hz 100Hz
(A)
(A)
CATALOGUE NUMBER
Flat bottom
Mounting stud
35 x 59
0,10
211
169
127
3,4
2,0
ARX681X160AA1
ARUX681X160AA1
35 x 79
0,10
143
115
89
5,1
2,9
ARX102X160AB1
ARUX102X160AB1
96
76
62
7,0
4,1
ARX152X160AC1
ARUX152X160AC1
0,10
65
52
42
9,2
5,4
ARX222X160BB1
ARUX222X160BB1
BC
51 x 105 0,12
52
42
36
11,7
6,8
ARX332X160BC1
ARUX332X160BC1
4700
CC
64 x 107 0,12
37
29
25
15,7
9,2
ARX472X160CC1
ARUX472X160CC1
6800
DC
76 x 107 0,12
25
20
18
21,1
12,3
ARX682X160DC1
ARUX682X160DC1
10000
DC
76 x 107 0,12
17
14
12
25,5
14,9
ARX103X160DC1
ARUX103X160DC1
15000
DF
76 x 147 0,13
12
10
9
34,4
20,0
ARX153X160DF1
ARUX153X160DF1
3300
Pag. 38
160
35 x 105 0,10
51 x 83
ITELCOND Aluminium Electrolytic Capacitors
AR
AR-HG series
CAP
(µF)
Rated
Case
Voltage
Code
(Vn)
Φxh
AA
ESR
Z
I ripple
I ripple
max
typ
max
55°C
85°C
100Hz 100Hz
(mm)
470
TG δ
ESR
10Khz
100Hz (mOhm) (mOhm) (mOhm)
100Hz 100Hz
(A)
(A)
3,0
1,8
CATALOGUE NUMBER
Flat bottom
Mounting stud
ARX471X200AA1
ARUX471X200AA1
35 x 59
0,09
274
220
178
35 x 79
0,09
190
152
123
4,4
2,7
ARX681X200AB1
ARUX681X200AB1
35 x 105 0,09
129
103
85
6,1
3,7
ARX102X200AC1
ARUX102X200AC1
0,10
96
76
63
7,6
4,7
ARX152X200BB1
ARUX152X200BB1
BC
51 x 105 0,10
65
52
43
10,5
6,4
ARX222X200BC1
ARUX222X200BC1
3300
CC
64 x 107 0,10
43
35
29
14,4
8,8
ARX332X200CC1
ARUX332X200CC1
4700
DC
76 x 107 0,12
37
29
27
17,5
10,7
ARX472X200DC1
ARUX472X200DC1
680
AB
1000
AC
1500
BB
2200
200
51 x 83
6800
DF
76 x 147 0,12
25
20
18
24,1
14,7
ARX682X200DF1
ARUX682X200DF1
10000
DF
76 x 147 0,12
17
14
12
29,2
17,8
ARX103X200DF1
ARUX103X200DF1
ESR
ESR
Z
I ripple
I ripple
max
typ
55°C
85°C
CAP
(µF)
Rated
Case
Voltage
Code
(Vn)
Φxh
TG δ
100Hz 100Hz
(mm)
max
10Khz
100Hz (mOhm) (mOhm) (mOhm)
100Hz 100Hz
(A)
(A)
CATALOGUE NUMBER
Flat bottom
Mounting stud
330
AA
35 x 59
0,08
347
278
215
2,7
1,6
ARX331X250AA1
ARUX331X250AA1
470
AB
35 x 79
0,08
244
195
157
3,9
2,3
ARX471X250AB1
ARUX471X250AB1
680
AC
35 x 105 0,08
169
135
108
5,3
3,2
ARX681X250AC1
ARUX681X250AC1
1000
BB
115
92
73
7,0
4,3
ARX102X250BB1
ARUX102X250BB1
1500
51 x 83
0,08
BC
51 x 105 0,08
76
61
51
9,7
5,9
ARX152X250BC1
ARUX152X250BC1
2200
CC
64 x 107 0,08
52
42
35
13,2
8,1
ARX222X250CC1
ARUX222X250CC1
3300
CC
64 x 107 0,09
39
31
27
15,2
9,3
ARX332X250CC1
ARUX332X250CC1
4700
DC
76 x 107 0,10
30
24
21
19,2
11,7
ARX472X250DC1
ARUX472X250DC1
6800
DF
76 x 147 0,10
21
17
14
26,4
16,1
ARX682X250DF1
ARUX682X250DF1
250
ITELCOND Aluminium Electrolytic Capacitors
Pag. 39
AR
AR-HG series
CAP
(µF)
Rated
Case
Voltage
Code
(Vn)
Φxh
ESR
Z
I ripple
I ripple
max
typ
max
55°C
85°C
100Hz 100Hz
(mm)
220
AA
330
AB
470
AC
470
BB
51 x 83
680
BB
1000
BB
1500
TG δ
ESR
10Khz
100Hz (mOhm) (mOhm) (mOhm)
100Hz 100Hz
(A)
(A)
CATALOGUE NUMBER
Flat bottom
Mounting stud
35 x 59
0,07
456
365
280
2,3
1,4
ARX221X350AA1
ARUX221X350AA1
35 x 79
0,08
347
278
186
3,2
2,0
ARX331X350AB1
ARUX331X350AB1
35 x 105 0,08
244
195
140
4,4
2,7
ARX471X350AC1
ARUX471X350AC1
0,08
244
195
143
4,8
2,9
ARX471X350BB1
ARUX471X350BB1
51 x 83
0,08
169
135
107
5,7
3,5
ARX681X350BB1
ARUX681X350BB1
51 x 83
0,08
115
92
73
7,0
4,3
ARX102X350BB1
ARUX102X350BB1
ARX152X350BC1
ARUX152X350BC1
BC
51 x 105 0,08
76
61
50
9,7
5,9
2200
CC
64 x 107 0,09
59
47
39
12,4
7,6
ARX222X350CC1
ARUX222X350CC1
2200
CD
64 x 118 0,09
59
47
38
13,5
8,0
ARX222X350CD1
ARUX222X350CD1
3300
DC
76 x 107 0,10
43
35
29
16,1
9,8
ARX332X350DC1
ARUX332X350DC1
3300
DF
76 x 147 0,09
39
31
27
19,2
11,8
ARX332X350DF1
ARUX332X350DF1
ESR
ESR
Z
I ripple
I ripple
max
typ
max
55°C
85°C
CAP
(µF)
350
Rated
Case
Voltage
Code
(Vn)
Φxh
TG δ
100Hz 100Hz
(mm)
10Khz
100Hz (mOhm) (mOhm) (mOhm)
100Hz 100Hz
(A)
(A)
CATALOGUE NUMBER
Flat bottom
Mounting stud
220
AA
35 x 59
0,07
456
365
411
2,3
1,4
ARX221X400AA1
ARUX221X400AA1
330
AB
35 x 79
0,07
304
243
280
3,5
2,1
ARX331X400AB1
ARUX331X400AB1
35 x 105 0,08
470
AC
680
BB
244
195
215
4,4
2,7
ARX471X400AC1
ARUX471X400AC1
0,08
169
135
156
5,7
3,5
ARX681X400BB1
ARUX681X400BB1
BC
51 x 105 0,08
115
92
73
7,9
4,8
ARX102X400BC1
ARUX102X400BC1
2200
BC
51 x 105 0,09
59
47
44
11,9
7,3
ARX222X400BC1
ARUX222X400BC1
1500
CC
64 x 107 0,09
86
69
57
10,3
6,3
ARX152X400CC1
ARUX152X400CC1
2200
DC
76 x 107 0,10
65
52
44
13,1
8,0
ARX222X400DC1
ARUX222X400DC1
3300
DF
76 x 147 0,10
43
35
30
18,4
11,2
ARX332X400DF1
ARUX332X400DF1
ESR
ESR
Z
I ripple
I ripple
max
typ
max
55°C
85°C
1000
CAP
(µF)
400
Rated
Case
Voltage
Code
(Vn)
51 x 83
Φxh
TG δ
100Hz 100Hz
(mm)
10Khz
100Hz (mOhm) (mOhm) (mOhm)
100Hz 100Hz
(A)
(A)
CATALOGUE NUMBER
Flat bottom
Mounting stud
150
AA
35 x 59
0,08
764
611
702
1,8
1,1
ARX151X450AA1
ARUX151X450AA1
220
AB
35 x 79
0,08
521
417
320
2,6
1,6
ARX221X450AB1
ARUX221X450AB1
330
AC
35 x 105 0,08
347
278
213
3,7
2,3
ARX331X450AC1
ARUX331X450AC1
0,10
305
244
190
4,3
2,6
ARX471X450BB1
ARUX471X450BB1
470
450
BB
51 x 83
680
BC
51 x 105 0,10
211
169
131
5,8
3,6
ARX681X450BC1
ARUX681X450BC1
1000
CC
64 x 107 0,10
143
115
91
7,9
4,9
ARX102X450CC1
ARUX102X450CC1
1500
CD
64 x 118 0,10
96
76
62
10,2
6,3
ARX152X450CD1
ARUX152X450CD1
1500
DC
76 x 107 0,10
96
76
62
10,8
6,6
ARX152X450DC1
ARUX152X450DC1
2200
DF
76 x 147 0,10
65
52
44
15,0
9,2
ARX222X450DF1
ARUX222X450DF1
3300
DF
76 x 147 0,10
43
35
30
18,4
11,2
ARX332X450DF1
ARUX332X450DF1
Pag. 40
ITELCOND Aluminium Electrolytic Capacitors
ARX - HG / ARUX - HG
AR
AR-HG series
CAP
(µF)
Rated
Case
Voltage
Code
(Vn)
Φxh
AA
22000
AB
33000
AC
47000
BB
ESR
Z
I ripple
max
typ
max
55°C
100Hz 100Hz
(mm)
15000
TG δ
ESR
10Khz
100Hz (mOhm) (mOhm) (mOhm)
I ripple
85°C
100Hz 100Hz
(A)
(A)
CATALOGUE NUMBER
Flat bottom
Mounting stud
ARUX-HG153X25AA1
35 x 59
0,35
33
27
26
8,6
5,0
ARX-HG153X25AA1
35 x 79
0,42
27
22
23
11,6
6,7
ARX-HG223X25AB1
ARUX-HG223X25AB1
35 x 105 0,47
20
16
17
15,2
8,9
ARX-HG333X25AC1
ARUX-HG333X25AC1
0,70
21
17
16
16,2
9,4
ARX-HG473X25BB1
ARUX-HG473X25BB1
BC
51 x 105 0,75
16
13
14
21,3
12,4
ARX-HG683X25BC1
ARUX-HG683X25BC1
100000
BC
51 x 105 0,85
12
10
10
24,2
14,1
ARX-HG104X25BC1
ARUX-HG104X25BC1
150000
CC
63 x 107 0,90
9
7
8
32,5
18,9
ARX-HG154X25CC1
ARUX-HG154X25CC1
220000
DC
76 x 107 1,00
7
5
6
41,5
24,2
ARX-HG224X25DC1
ARUX-HG224X25DC1
330000
DF
76 x 147 1,30
6
5
5
50,9
29,7
ARX-HG334X25DF1
ARUX-HG334X25DF1
ESR
ESR
Z
I ripple
I ripple
max
typ
max
55°C
85°C
68000
CAP
(µF)
25
Rated
Case
Voltage
Code
(Vn)
51 x 83
Φxh
TG δ
100Hz 100Hz
(mm)
10Khz
100Hz (mOhm) (mOhm) (mOhm)
100Hz 100Hz
(A)
(A)
CATALOGUE NUMBER
Flat bottom
Mounting stud
10000
AA
35 x 59
0,27
39
31
30
8,0
4,6
ARX-HG103X40AA1
ARUX-HG103X40AA1
15000
AB
35 x 79
0,35
33
27
25
10,5
6,1
ARX-HG153X40AB1
ARUX-HG153X40AB1
35 x 105 0,42
22000
AC
27
22
18
13,2
7,7
ARX-HG223X40AC1
ARUX-HG223X40AC1
33000
BB
51 x 83
0,45
20
16
18
16,9
9,8
ARX-HG333X40BB1
ARUX-HG333X40BB1
BB
51 x 83
0,48
15
12
18
16,9
11,4
ARX-HG473X40BB1
ARUX-HG473X40BB1
47000
40
47000
BC
51 x 105 0,51
16
12
14
21,4
13,3
ARX-HG473X40BC1
ARUX-HG473X40BC1
100000
CC
63 x 107 0,70
10
8
9
30,0
17,5
ARX-HG104X40CC1
ARUX-HG104X40CC1
150000
DC
76 x 107 0,90
9
7
8
36,1
21,1
ARX-HG154X40DC1
ARUX-HG154X40DC1
220000
DF
76 x 147 1,30
8
7
7
41,6
24,3
ARX-HG224X40DF1
ARUX-HG224X40DF1
ESR
ESR
Z
I ripple
I ripple
max
typ
max
55°C
85°C
CAP
(µF)
Rated
Case
Voltage
Code
(Vn)
Φxh
TG δ
100Hz 100Hz
(mm)
10Khz
100Hz (mOhm) (mOhm) (mOhm)
100Hz 100Hz
(A)
(A)
CATALOGUE NUMBER
Flat bottom
Mounting stud
4700
AA
35 x 59
0,15
46
37
30
7,4
4,1
ARX-HG472X63AA1
ARUX-HG472X63AA1
6800
AB
35 x 79
0,20
42
34
27
9,3
5,2
ARX-HG682X63AB1
ARUX-HG682X63AB1
10000
AB
35 x 79
0,22
32
25
21
10,8
6,0
ARX-HG103X63AB1
ARUX-HG103X63AB1
15000
AC
35 x 105 0,25
24
19
18
14,1
7,8
ARX-HG153X63AC1
ARUX-HG153X63AC1
0,33
21
17
17
16,1
8,9
ARX-HG223X63BB1
ARUX-HG223X63BB1
22000
63
BB
51 x 83
33000
BC
51 x 105 0,38
17
13
14
20,8
11,6
ARX-HG333X63BC1
ARUX-HG333X63BC1
47000
CC
63 x 107 0,33
10
8
9
30,0
16,7
ARX-HG473X63CC1
ARUX-HG473X63CC1
68000
DC
76 x 107 0,39
8
7
7
36,9
20,5
ARX-HG683X63DC1
ARUX-HG683X63DC1
100000
DF
76 x 147 0,45
6
5
6
47,7
26,5
ARX-HG104X63DF1
ARUX-HG104X63DF1
ITELCOND Aluminium Electrolytic Capacitors
Pag. 43
AR
AR-HG series
CAP
(µF)
Rated
Case
Voltage
Code
(Vn)
Φxh
TG δ
ESR
ESR
Z
I ripple
I ripple
max
typ
max
55°C
85°C
100Hz 100Hz
(mm)
10Khz
100Hz (mOhm) (mOhm) (mOhm)
100Hz 100Hz
(A)
(A)
CATALOGUE NUMBER
Flat bottom
Mounting stud
2200
AA
35 x 59
0,12
78
63
47
5,6
3,1
ARX-HG222X100AA1 ARUX-HG222X100AA1
3300
AB
35 x 79
0,12
52
42
34
8,4
4,7
ARX-HG332X100AB1 ARUX-HG332X100AB1
4700
AB
35 x 79
0,12
37
29
27
9,7
5,4
ARX-HG472X100AB1 ARUX-HG472X100AB1
6800
AC
35 x 105 0,12
25
20
20
13,2
7,3
ARX-HG682X100AC1 ARUX-HG682X100AC1
0,12
17
14
17
15,6
8,7
ARX-HG103X100BB1 ARUX-HG103X100BB1
10000
100
BB
51 x 83
15000
BC
51 x 105 0,12
11
9
13
21,6
12
ARX-HG153X100BC1 ARUX-HG153X100BC1
22000
CC
63 x 107 0,12
8
6
9
27,8
15,4
ARX-HG223X100CC1 ARUX-HG223X100CC1
33000
DC
76 x 107 0,12
5
4
8
35,9
20
ARX-HG333X100DC1 ARUX-HG333X100DC1
47000
DF
76 x 147 0,12
4
3
7
46,7
26
ARX-HG473X100DF1 ARUX-HG473X100DF1
ESR
ESR
Z
I ripple
I ripple
max
typ
max
55°C
85°C
CAP
(µF)
Rated
Case
Voltage
Code
(Vn)
Φxh
TG δ
100Hz 100Hz
(mm)
10Khz
100Hz (mOhm) (mOhm) (mOhm)
100Hz 100Hz
(A)
(A)
CATALOGUE NUMBER
Flat bottom
Mounting stud
1000
AA
35 x 59
0,12
172
138
94
4,2
2,3
ARX-HG102X160AA1 ARUX-HG102X160AA1
1500
AB
35 x 79
0,12
115
92
62
6,2
3,4
ARX-HG152X160AB1 ARUX-HG152X160AB1
2200
AC
78
63
41
8,5
4,7
ARX-HG222X160AC1 ARUX-HG222X160AC1
3300
0,12
52
42
29
11,3
6,3
ARX-HG332X160BB1 ARUX-HG332X160BB1
BC
51 x 105 0,12
37
29
25
14,0
7,8
ARX-HG472X160BC1 ARUX-HG472X160BC1
6800
CC
63 x 107 0,12
25
20
20
18,9
10,5
ARX-HG682X160CC1 ARUX-HG682X160CC1
10000
CC
63 x 107 0,12
17
14
18
20,5
11,4
ARX-HG103X160CC1 ARUX-HG103X160CC1
12000
DC
76 x 107 0,12
14
11
15
25,0
13,9
ARX-HG123X160DC1 ARUX-HG123X160DC1
22000
DF
76 x 147 0,12
8
6
8
36,4
20,2
ARX-HG223X160DF1 ARUX-HG223X160DF1
ESR
ESR
Z
I ripple
I ripple
max
typ
55°C
85°C
4700
CAP
(µF)
BB
35 x 105 0,12
160
Rated
Case
Voltage
Code
(Vn)
51 x 83
Φxh
TG δ
100Hz 100Hz
(mm)
max
10Khz
100Hz (mOhm) (mOhm) (mOhm)
100Hz 100Hz
(A)
(A)
CATALOGUE NUMBER
Flat bottom
Mounting stud
680
AA
35 x 59
0,12
253
202
111
3,8
2,1
ARX-HG681X200AA1 ARUX-HG681X200AA1
1000
AB
35 x 79
0,12
172
138
78
5,6
3,1
ARX-HG102X200AB1 ARUX-HG102X200AB1
1500
AC
35 x 105 0,12
115
92
51
7,9
4,4
ARX-HG152X200AC1 ARUX-HG152X200AC1
2200
BB
0,12
78
63
36
10,3
5,7
ARX-HG222X200BB1 ARUX-HG222X200BB1
51 x 105 0,12
52
42
30
12,8
7,1
ARX-HG332X200BC1 ARUX-HG332X200BC1
3300
200
BC
51 x 83
4700
CC
63 x 107 0,12
37
29
21
17,2
9,6
ARX-HG472X200CC1 ARUX-HG472X200CC1
10000
DC
76 x 107 0,12
17
14
14
25,5
14,2
ARX-HG103X200DC1 ARUX-HG103X200DC1
15000
DF
76 x 147 0,12
11
9
12
32,0
17,8
ARX-HG153X200DF1 ARUX-HG153X200DF1
Pag. 44
ITELCOND Aluminium Electrolytic Capacitors
AR
AR-HG series
CAP
(µF)
Rated
Case
Voltage
Code
(Vn)
AA
680
AB
1000
AC
1500
BB
TG δ
ESR
Z
I ripple
I ripple
max
typ
max
55°C
85°C
100Hz 100Hz
(mm)
470
2200
Φxh
ESR
10Khz
100Hz (mOhm) (mOhm) (mOhm)
100Hz 100Hz
CATALOGUE NUMBER
Flat bottom
Mounting stud
(A)
(A)
3,2
1,8
ARX-HG471X250AA1 ARUX-HG471X250AA1
35 x 59
0,12
366
293
155
35 x 79
0,12
253
202
107
4,7
2,6
ARX-HG681X250AB1 ARUX-HG681X250AB1
35 x 105 0,12
172
138
86
6,1
3,4
ARX-HG102X250AC1 ARUX-HG102X250AC1
115
92
59
8,0
4,5
ARX-HG152X250BB1 ARUX-HG152X250BB1
51 x 83
0,12
BC
51 x 105 0,12
78
63
44
10,5
5,8
ARX-HG222X250BC1 ARUX-HG222X250BC1
3300
BC
51 x 105 0,12
52
42
30
12,8
7,1
ARX-HG332X250BC1 ARUX-HG332X250BC1
4700
CC
63 x 107 0,12
37
29
23
17,2
9,6
ARX-HG472X250CC1 ARUX-HG472X250CC1
6800
DC
76 x 107 0,12
25
20
20
21,1
11,7
ARX-HG682X250DC1 ARUX-HG682X250DC1
10000
DF
76 x 147 0,12
17
14
17
26,1
14,5
ARX-HG103X250DF1 ARUX-HG103X250DF1
ESR
ESR
Z
I ripple
I ripple
max
typ
max
55°C
85°C
CAP
(µF)
250
Rated
Case
Voltage
Code
(Vn)
Φxh
TG δ
100Hz 100Hz
(mm)
10Khz
100Hz (mOhm) (mOhm) (mOhm)
100Hz 100Hz
(A)
(A)
CATALOGUE NUMBER
Flat bottom
Mounting stud
330
AA
35 x 59
0,12
521
417
217
2,7
1,5
ARX-HG331X350AA1 ARUX-HG331X350AA1
470
AB
35 x 79
0,12
366
293
155
3,9
2,2
ARX-HG471X350AB1 ARUX-HG471X350AB1
680
AC
35 x 105 0,12
253
202
107
5,3
2,9
ARX-HG681X350AC1 ARUX-HG681X350AC1
1000
AC
35 x 105 0,12
172
138
78
6,4
3,6
ARX-HG102X350AC1 ARUX-HG102X350AC1
115
92
51
8,6
4,8
ARX-HG152X350BB1 ARUX-HG152X350BB1
1500
350
BB
51 x 83
0,12
2200
BC
51 x 105 0,12
78
63
35
11,7
6,5
ARX-HG222X350BC1 ARUX-HG222X350BC1
3300
CC
63 x 107 0,12
52
42
25
16,1
9
ARX-HG332X350CC1 ARUX-HG332X350CC1
4700
DC
76 x 107 0,12
37
29
22
19,2
10,7
ARX-HG472X350DC1 ARUX-HG472X350DC1
6800
DF
76 x 147 0,12
25
20
18
26,4
14,6
ARX-HG682X350DF1 ARUX-HG682X350DF1
ESR
ESR
Z
I ripple
I ripple
max
typ
max
55°C
85°C
CAP
(µF)
Rated
Case
Voltage
Code
(Vn)
Φxh
TG δ
100Hz 100Hz
(mm)
10Khz
100Hz (mOhm) (mOhm) (mOhm)
100Hz 100Hz
(A)
(A)
CATALOGUE NUMBER
Flat bottom
Mounting stud
330
AA
35 x 59
0,12
521
417
221
2,7
1,5
ARX-HG331X400AA1 ARUX-HG331X400AA1
470
AB
35 x 79
0,12
366
293
155
3,9
2,2
ARX-HG471X400AB1 ARUX-HG471X400AB1
35 x 105 0,12
680
253
202
111
5,3
2,9
ARX-HG681X400AC1 ARUX-HG681X400AC1
BB
51 x 83
0,12
172
138
78
7,0
3,9
ARX-HG102X400BB1 ARUX-HG102X400BB1
1500
BB
51 x 83
0,12
115
92
78
8,0
4,5
ARX-HG152X400BB1 ARUX-HG152X400BB1
1500
BC
51 x 105 0,12
115
92
50
9,7
5,4
ARX-HG152X400BC1 ARUX-HG152X400BC1
2200
CC
63 x 107 0,12
78
63
40
12,4
6,9
ARX-HG222X400CC1 ARUX-HG222X400CC1
3300
DC
76 x 107 0,12
52
42
29
16,5
9,2
ARX-HG332X400DC1 ARUX-HG332X400DC1
4700
DF
76 x 147 0,12
37
29
21
22,5
12,5
ARX-HG472X400DF1 ARUX-HG472X400DF1
1000
AC
400
ITELCOND Aluminium Electrolytic Capacitors
Pag. 45
AR
AR-HG series
CAP
(µF)
Rated
Case
Voltage
Code
(Vn)
AA
330
AB
470
AC
450
BB
TG δ
ESR
Z
I ripple
I ripple
max
typ
max
55°C
85°C
100Hz 100Hz
(mm)
220
680
Φxh
ESR
10Khz
100Hz (mOhm) (mOhm) (mOhm)
100Hz 100Hz
(A)
(A)
CATALOGUE NUMBER
Flat bottom
Mounting stud
35 x 59
0,12
782
625
480
1,8
1,0
ARX-HG221X450AA1 ARUX-HG221X450AA1
35 x 79
0,12
521
417
323
2,6
1,5
ARX-HG331X450AB1 ARUX-HG331X450AB1
35 x 105 0,12
366
293
237
4,6
2,5
ARX-HG471X450AC1 ARUX-HG471X450AC1
0,12
253
202
166
4,7
2,6
ARX-HG681X450BB1 ARUX-HG681X450BB1
51 x 83
1000
BC
51 x 105 0,12
172
138
112
6,4
3,6
ARX-HG102X450BC1 ARUX-HG102X450BC1
1500
CC
63 x 107 0,12
115
92
75
8,9
4,9
ARX-HG152X450CC1 ARUX-HG152X450CC1
2200
DC
76 x 107 0,12
78
63
56
12,0
6,7
ARX-HG222X450DC1 ARUX-HG222X450DC1
4700
DF
76 x 147 0,12
37
29
28
20,0
11,1
ARX-HG472X450DF1 ARUX-HG472X450DF1
Pag. 46
ITELCOND Aluminium Electrolytic Capacitors
AY series
AY- / AYU- HR
series
ALUMINIUM ELECTROLYTIC CAPACITORS HIGH RIPPLE CURRENT
Series
AY-HR
AYU-HR
Capacitance
range
Voltage
range
1000-100000 16 - 450
Temperature
range
-40 °C ,+85°C
Case
ΦxH
51 x 105
90 x 222
Applications
High ripple current
High reliability
Long life
MECHANICAL OUTLINES:
CASE: aluminium made
TERMINALS: screw
SEALING: hermetic by beading on an EPR gasket, housed on a thermosetting resin cover
PRESSURE RELEASE VENT: made in silicone-rubber
SLEEVE: self-extinguishing thermoshrinkable sleeve
SIZE: see enclosed drawings
MOUNTING HARDWARE: see hardware section
SPECIFICATIONS
TEMPERATURE RANGE
CAPACITANCE
CECC 30300
IEC 60384 ("long lifegrade") Operating: -40 °C/ +85 °C
MIL C62D
DIN 41240 / DIN 45910
Tolerance shall be within the following limits:
-10% +30% (standard tolerance)
- 20% + 20% (available on request)
Climatic Category : 40/85/56
LEAKAGE CURRENT:
After the rated voltage has been applied to the capacitor for 5 minutes the leakage current must be:
where
Maximum limit
at 25 °C
Operating limit
at 25 °C:
If ≤ 0,004 * C * V
If ≤0,001 * C * V
If = leakage current (µA)
C = capacitance (µF)
V = rated voltage (V)
IMPORTANT
1) When using high-capacitance and high-voltage electrolytic capacitors it is important to remember that the inner part (the
rolled section) is not insulated from can: between the negative pole and the aluminium can there is a variable and not
defined resistance essentially due to the electrolyte used in capacitor manufacture.
SURGE VOLTAGE
Working Voltage
16
25
40
50
63
75
100 160 200 250 350
400
420
450
Surge Voltage
18
29
46
58
73
86
115 185 230 290 385
440
460
495
ITELCOND Aluminium Electrolytic Capacitors
Pag. 47
AY series
RIPPLE CURRENT:
the allowable values of ripple current in amperes, are related to temperature and frequency by the formula:
Irip = Kt * Kf * Ir85
where Ir85 is the limit given by tables, referred to a temperature of 85 °C and to a frequency of 100 HZ and Kt or Kf are values
here below tabulated:
°C
Kt
40
55
65
75
80
85
1.65
1.5
1.4
1.2
1.1
1.0
Kf
50<V=300
V>300
Code Diameter A,B
Vn
Hz
50<V=300
V>300
Code Diameter C,D
50
0.79
0.76
0.78
100
1
1
1
0.72
1
120
1.04
1.04
1.02
1.03
200
1.12
1.17
1.06
1.14
300
1.16
1.28
1.08
1.24
400
1.20
1.35
1.09
1.29
500
1.22
1.39
1.09
1.32
>1000
1.25
1.45
1.09
1.37
Note : Ripple current is function of the capacitance tollerance.
DIMENSIONS
Insert Screw Thread (D= 51, 63, 76) = M5
Insert Screw Thread (D= 90) = M6
Insert Screw Length = 10 mm.
Insert Screw Torque Max.(M5) = 2 Nm.
Insert Screw Torque Max.(M6) = 2,5 Nm.
Screw Torque For Hex Nuts M12 = 10 Nm.
CASE
CODE
ΦX L
(mm)
l1
d1
+,-0.5
d2
+,-0.5
h1
e
CASE
CODE
ΦX L
(mm)
BC
51 x 105
109
13
18
13
22.2
EC
90 x 108
112
17
23
19
31.8
CC
64 x 107
111
13
18
16
28.6
EF
90 x 149
153
17
23
19
31.8
DC
76 x 107
111
13
18
19
31.8
EJ
90 x 222
227
17
23
19
31.8
DF
76 x 147
151
13
18
19
31.8
DK
76 x 168
173
13
18
19
31.8
DJ
76 x 217
222
13
18
19
31.8
•
•
Pag. 48
l1
d1
+,-0.5
d2
+,-0.5
h1
e
STANDARD MOUNTING STUD HARDWARE _ INSULATING PLASTIC WASHERS AND METALLIC NUT
_ PLASTIC NUTS ON REQUEST.
ITELCOND Aluminium Electrolytic Capacitors
AY series
EXPECTED LIFE AS A FUNCTION OF TEMPERATURE AND RIPPLE CURRENT
AYX / AYUX
WVDC<=160
90
85
10000 hr
80
Temperature (°C)
75
15000 hr
70
20000 hr
65
60
35000 hr
55
80000 hr
50
45
150000 hr
300000 hr
40
40000 hr
35
30
0
0,5
1
1,5
2
2,5
(Ir)T/(Ir)85 °C
ITELCOND Aluminium Electrolytic Capacitors
Pag. 49
AY series
AYX-HR/AYUX-HR
WVDC > 160 V
90
85
5000 hr
80
75
Temperature(°C)
70
65
10000 hr
60
18000 hr
55
50
25000 hr
45000 hr
45
35000 hr
40
150000 hr
35
85000 hr
30
0
0,5
1
1,5
2
2,5
3
(Ir)T/(Ir)85°C
Expected life criteria: see introduction
Pag. 50
ITELCOND Aluminium Electrolytic Capacitors
AY series
CAP
Rated
Case
Φxh
TG δ
Voltag
Code
e
(µF)
(Vn)
500000
ESR
Z
I ripple
I ripple
max
typ
max
55°C
85°C
100Hz 100Hz
(mm)
10Khz 100Hz 100Hz
100Hz (mOhm) (mOhm) (mOhm)
(A)
CATALOGUE NUMBER
Flat bottom
Mounting stud
(A)
DF
76 x 147 2,00
6
AYX-HR504X016DF1 AYUX-HR504X016DF1
DJ
76 x 217 2,00
3
AYX-HR105X016DJ1 AYUX-HR105X016DJ1
1000000
16
CAP
Rated
Case
Voltage
Code
(µF)
ESR
(Vn)
Φxh
TG δ
ESR
ESR
Z
I ripple
I ripple
max
typ
max
55°C
85°C
100Hz 100Hz
(mm)
10Khz 100Hz 100Hz
100Hz (mOhm) (mOhm) (mOhm)
(A)
(A)
CATALOGUE NUMBER
Flat bottom
Mounting stud
68000
BC
51 x 105 0,50
12
9
10
24,3
17,3
AYX-HR683X025BC1 AYUX-HR683X025BC1
100000
CC
64 x 107 0,60
10
7
9
30,2
21,6
AYX-HR104X025CC1 AYUX-HR104X025CC1
DC
76 x 106 0,85
9
7
8
34,6
24,7
AYX-HR154X025DC1 AYUX-HR154X025DC1
220000
DF
76 x 147 1,15
8
6
7
41,2
29,4
AYX-HR224X025DF1
AYUX-HR224X025DF1
800000
EJ
90 x 222 1,15
2
2
7
51,5
29,4
AYX-HR804X025EJ1
AYUX-HR804X025EJ1
ESR
ESR
I ripple
I ripple
max
typ
55°C
85°C
150000
CAP
(µF)
25
Rated
Case
Voltage
Code
(Vn)
Φxh
TG δ
100Hz 100Hz
(mm)
Z
max
10Khz
100Hz (mOhm) (mOhm) (mOhm)
100Hz 100Hz
(A)
CATALOGUE NUMBER
Flat bottom
Mounting stud
(A)
47000
BC
51 x 105 0,32
11
8
8
25,2
18
AYX-HR473X040BC1 AYUX-HR473X040BC1
68000
CC
64 x 107 0,38
9
7
7
31,3
22,4
AYX-HR683X040CC1 AYUX-HR683X040CC1
DC
76 x 106 0,46
7
5
6
38,4
27,4
AYX-HR104X040DC1 AYUX-HR104X040DC1
DF
76 x 147 0,65
7
5
6
45,2
32,3
AYX-HR154X040DF1 AYUX-HR154X040DF1
ESR
ESR
Z
I ripple
I ripple
max
typ
max
55°C
85°C
100000
40
150000
CAP
(µF)
Rated
Case
Voltage
Code
(Vn)
Φxh
TG δ
100Hz 100Hz
(mm)
10Khz
100Hz (mOhm) (mOhm) (mOhm)
100Hz 100Hz
(A)
(A)
CATALOGUE NUMBER
Flat bottom
Mounting stud
22000
BC
51 x 105 0,24
17
13
12
19,9
14,2
AYX-HR223X063BC1 AYUX-HR223X063BC1
33000
BC
51 x 105 0,28
14
10
11
22,6
16,1
AYX-HR333X063BC1 AYUX-HR333X063BC1
47000
CC
64 x 107 0,30
10
8
8
29,3
20,9
AYX-HR473X063CC1 AYUX-HR473X063CC1
68000
DC
76 x 106 0,36
8
6
7
34,5
25,6
AYX-HR683X063DC1 AYUX-HR683X063DC1
100000
DF
76 x 147 0,40
6
5
5
47,1
33,6
AYX-HR104X063DF1 AYUX-HR104X063DF1
63
ITELCOND Aluminium Electrolytic Capacitors
Pag. 51
AY series
CAP
(µF)
Rated
Case
Voltage
Code
(Vn)
Φxh
BB
10000
15000
ESR
Z
I ripple
I ripple
max
typ
max
55°C
85°C
100Hz 100Hz
(mm)
10000
TG δ
ESR
100Hz 100Hz
(A)
Flat bottom
Mounting stud
(A)
0,12
19
14
17
15,6
9
AYX-HR103X100BB1 AYUX-HR103X100BB1
BC
51 x 105 0,10
16
12
9
20,8
14,9
AYX-HR103X100BC1 AYUX-HR103X100BC1
BC
51 x 105 0,11
12
9
8
24
17,3
AYX-HR153X100BC1 AYUX-HR153X100BC1
CC
64 x 107 0,15
11
8
7
29,3
20,2
AYX-HR223X100CC1 AYUX-HR223X100CC1
33000
DC
76 x 106 0,18
9
7
7
35,3
25,2
AYX-HR333X100DC1 AYUX-HR333X100DC1
33000
DF
76 x 147 0,16
8
6
7
42,8
30,5
AYX-HR333X100DF1 AYUX-HR333X100DF1
47000
DF
76 x 147 0,18
6
5
5
48,1
34,4
AYX-HR473X100DF1 AYUX-HR473X100DF1
ESR
ESR
Z
max
typ
22000
CAP
(µF)
100
Rated
Case
Voltage
Code
(Vn)
51 x 83
10Khz
100Hz (mOhm) (mOhm) (mOhm)
CATALOGUE NUMBER
Φxh
TG δ
100Hz 100Hz
(mm)
max
10Khz
100Hz (mOhm) (mOhm) (mOhm)
I ripple
I ripple
55°C
85°C
100Hz 100Hz
(A)
(A)
CATALOGUE NUMBER
Flat bottom
Mounting stud
4700
BC
51 x 105 0,10
34
25
21
14,3
10,2
AYX-HR472X160BC1 AYUX-HR472X160BC1
4700
CC
64 x 107 0,09
30
23
20
16,9
12,1
AYX-HR472X160CC1 AYUX-HR472X160CC1
6800
DC
76 x 106 0,10
23
18
16
21,5
15,3
AYX-HR682X160DC1 AYUX-HR682X160DC1
DC
76 x 106 0,11
18
13
13
24,8
17,7
AYX-HR103X160DC1 AYUX-HR103X160DC1
15000
DF
76 x 147 0,12
13
10
11
33,3
23,8
AYX-HR153X160DF1 AYUX-HR153X160DF1
22000
DJ
76 x 217 0,14
10
8
8
45,1
32,2
AYX-HR223X160DJ1 AYUX-HR223X160DJ1
15000
EC
90 x 108 0,15
16
12
11
29,3
20,9
AYX-HR153X160EC1
AYUX-HR153X160EC1
22000
EF
90 x 149 0,15
11
8
8
40,3
28,8
AYX-HR223X160EF1
AYUX-HR223X160EF1
ESR
ESR
Z
I ripple
I ripple
max
typ
max
55°C
85°C
10000
CAP
(µF)
160
Rated
Case
Voltage
Code
(Vn)
Φxh
TG δ
100Hz 100Hz
(mm)
10Khz
100Hz (mOhm) (mOhm) (mOhm)
100Hz 100Hz
(A)
CATALOGUE NUMBER
Flat bottom
Mounting stud
(A)
3300
BC
51 x 105 0,10
48
36
30
12,5
8,9
AYX-HR332X200BC1 AYUX-HR332X200BC1
4700
CC
64 x 107 0,10
34
25
21
16,8
12
AYX-HR472X200CC1 AYUX-HR472X200CC1
4700
DC
76 x 106 0,09
30
23
21
19,7
14,1
AYX-HR472X200DC1 AYUX-HR472X200DC1
DC
76 x 106 0,10
23
18
16
22,5
16,1
AYX-HR682X200DC1 AYUX-HR682X200DC1
6800
10000
DF
76 x 147 0,11
18
13
13
29,7
21,2
AYX-HR103X200DF1 AYUX-HR103X200DF1
DF
76 x 147 0,12
13
10
10
34,9
24,9
AYX-HR153X200DF1 AYUX-HR153X200DF1
DF
76 x 147 0,13
9
7
7
40,6
29
AYX-HR223M200DF1 AYUX-HR223M200DF1
22000
DK
76 x 168 0,12
9
7
7
45,1
32,2
AYX-HR223X200DK1 AYUX-HR223X200DK1
33000
DK
76 x 168 0,12
6
4
7
55,3
39,5
AYX-HR333X200DK1 AYUX-HR333X200DK1
15000
EC
90 x 108 0,14
15
11
12
31,8
22,7
AYX-HR153X200EC1
AYUX-HR153X200EC1
22000
EC
90 x 108 0,14
10
8
8
43,7
31,2
AYX-HR223X200EC1
AYUX-HR223X200EC1
200
15000
22000
(**)
(∗∗)=+/-20%
Pag. 52
ITELCOND Aluminium Electrolytic Capacitors
AY series
CAP
(µF)
Rated
Case
Voltage
Code
(Vn)
2200
Φxh
TG δ
ESR
ESR
Z
I ripple
I ripple
max
typ
max
55°C
85°C
100Hz 100Hz
(mm)
10Khz
100Hz (mOhm) (mOhm) (mOhm)
100Hz 100Hz
(A)
CATALOGUE NUMBER
Flat bottom
Mounting stud
(A)
BC
51 x 105 0,09
65
49
38
10,8
7,7
3300
CC
64 x 107 0,10
48
36
29
14,1
10,1
AYX-HR332X250CC1 AYUX-HR332X250CC1
4700
DC
76 x 106 0,10
34
25
22
18,7
13,4
AYX-HR472X250DC1 AYUX-HR472X250DC1
6800
DC
76 x 106 0,10
23
18
16
22,5
16,1
AYX-HR682X250DC1 AYUX-HR682X250DC1
DF
76 x 147 0,10
16
12
12
31,2
22,3
AYX-HR103X250DF1 AYUX-HR103X250DF1
DJ
76 x 217 0,12
13
10
10
42,1
30,1
AYX-HR153X250DJ1 AYUX-HR153X250DJ1
DJ
76 x 217 0,12
9
7
10
42,1
30,1
AYX-HR223M250DJ1 AYUX-HR223M250DJ1
10000
EC
90 x 108 0,13
21
16
14
26,9
19,2
AYX-HR103X250EC1
AYUX-HR103X250EC1
15000
EF
90 x 149 0,13
14
10
10
37,4
26,7
AYX-HR153X250EF1
AYUX-HR153X250EF1
ESR
ESR
Z
max
typ
10000
250
15000
22000
(**)
AYX-HR222X250BC1 AYUX-HR222X250BC1
(∗∗)=+/-20%
CAP
(µF)
Rated
Case
Voltage
Code
(Vn)
Φxh
TG δ
100Hz 100Hz
(mm)
max
10Khz
100Hz (mOhm) (mOhm) (mOhm)
I ripple
I ripple
55°C
85°C
100Hz 100Hz
(A)
CATALOGUE NUMBER
Flat bottom
Mounting stud
(A)
1500
BC
51 x 105 0,08
85
64
51
9,4
6,7
AYX-HR152X350BC1 AYUX-HR152X350BC1
2200
CC
64 x 107 0,08
58
43
35
12,9
9,2
AYX-HR222X350CC1 AYUX-HR222X350CC1
3300
DC
76 x 106 0,08
39
29
24
17,5
12,5
AYX-HR332X350DC1 AYUX-HR332X350DC1
4700
DC
76 x 106 0,10
34
25
24
18,7
13,4
AYX-HR472X350DC1 AYUX-HR472X350DC1
4700
DF
76 x 147 0,08
27
20
17
23,9
17,1
AYX-HR472X350DF1 AYUX-HR472X350DF1
DF
76 x 147 0,08
19
14
13
28,8
20,5
AYX-HR682X350DF1 AYUX-HR682X350DF1
6800
350
6800
DJ
76 x 217 0,08
19
14
11
34,7
24,8
AYX-HR682X350DJ1 AYUX-HR682X350DJ1
10000
DF
76 x 147 0,11
17
13
10
30
21,4
AYX-HR103X350DF1 AYUX-HR103X350DF1
15000
(**)
DF
76 x 147 0,12
13
10
10
34,9
24,9
AYX-HR153M350DF1 AYUX-HR153M350DF1
18000
(**)
DF
76 x 147 0,12
11
8
9
38,2
27,3
AYX-HR183M350DF1 AYUX-HR183M350DF1
10000
DJ
76 x 217 0,10
16
12
10
37,7
26,9
AYX-HR103X350DJ1 AYUX-HR103X350DJ1
15000
DJ
76 x 217 0,10
11
8
10
46,1
32,9
AYX-HR153X350DJ1 AYUX-HR153X350DJ1
6800
EC
90 x 108 0,11
26
19
17
24,1
17,2
AYX-HR682X350EC1
AYUX-HR682X350EC1
10000
EF
90 x 149 0,11
18
13
12
33,2
23,7
AYX-HR103X350EF1
AYUX-HR103X350EF1
18000
EF
90 x 149 0,12
11
8
8
46,7
33,6
AYX-HR183M350EF1 AYUX-HR183M350EF1
15000
EJ
90 x 222 0,11
12
9
7
48,2
34,4
AYX-HR153X350EJ1
EJ
90 x 222 0,11
6
5
5
58,4
41,7
AYX-HR273M350EJ1 AYUX-HR273M350EJ1
27000
(**)
AYUX-HR153X350EJ1
(∗∗)=+/-20%
ITELCOND Aluminium Electrolytic Capacitors
Pag. 53
AY series
CAP
(µF)
Rated
Case
Voltage
Code
(Vn)
1000
Φxh
TG δ
ESR
ESR
Z
I ripple
I ripple
max
typ
max
55°C
85°C
100Hz 100Hz
(mm)
10Khz
100Hz (mOhm) (mOhm) (mOhm)
100Hz 100Hz
(A)
CATALOGUE NUMBER
Flat bottom
Mounting stud
(A)
BC
51 x 105 0,08
127
96
78
7,7
5,5
BC
51 x 105 0,08
85
64
50
9,4
6,7
AYX-HR152X400BC1 AYUX-HR152X400BC1
BC
51 x 105 0,09
65
49
46
10,2
7,3
AYX-HR222M400BC1 AYUX-HR222M400BC1
2200
CC
64 x 107 0,09
65
49
43
12,1
8,7
AYX-HR222X400CC1 AYUX-HR222X400CC1
2200
DC
76 x 106 0,08
58
43
34
14,3
10,2
AYX-HR222X400DC1 AYUX-HR222X400DC1
CC
64 x 107 0,09
43
33
29
14,1
10,1
AYX-HR332M400CC1 AYUX-HR332M400CC1
DC
76 x 106 0,09
43
33
27
16,5
11,8
AYX-HR332X400DC1 AYUX-HR332X400DC1
1500
2200
3300
(**)
(**)
3300
AYX-HR102X400BC1 AYUX-HR102X400BC1
3300
400
DF
76 x 147 0,09
43
33
27
18,9
13,5
AYX-HR332X400DF1 AYUX-HR332X400DF1
4700
(**)
DC
76 x 106 0,10
34
25
21
17,7
12,7
AYX-HR472M400DC1 AYUX-HR472M400DC1
DF
76 x 147 0,09
30
23
18
22,5
16,1
AYX-HR472X400DF1 AYUX-HR472X400DF1
4700
6800
(**)
DF
76 x 147 0,07
16
12
16
24,4
17,4
AYX-HR682M400DF1 AYUX-HR682M400DF1
8200
(**)
DF
76 x 147 0,08
16
12
16
26,3
18,8
AYX-HR822M400DF1 AYUX-HR822M400DF1
6800
DJ
76 x 217 0,08
19
14
12
32,7
23,4
AYX-HR682X400DJ1 AYUX-HR682X400DJ1
10000
DJ
76 x 217 0,11
18
13
11
35,9
25,6
AYX-HR103X400DJ1 AYUX-HR103X400DJ1
4700
EC
90 x 108 0,11
37
28
23
30,1
21,5
AYX-HR472X400EC1
AYUX-HR472X400EC1
8200
EF
90 x 149 0,11
21
16
14
33,2
23,7
AYX-HR822X400EF1
AYUX-HR822X400EF1
10000
EF
90 x 149 0,11
18
13
14
46,1
33
AYX-HR103X400EF1
AYUX-HR103X400EF1
15000
EJ
90 x 222 0,08
8
6
12
49,8
36
AYX-HR153X400EJ1
AYUX-HR153X400EJ1
ESR
ESR
Z
I ripple
I ripple
max
typ
max
55°C
85°C
(∗∗)=+/-20%
CAP
(µF)
Rated
Case
Voltage
Code
(Vn)
Φxh
TG δ
100Hz 100Hz
(mm)
10Khz
100Hz (mOhm) (mOhm) (mOhm)
100Hz 100Hz
(A)
CATALOGUE NUMBER
Flat bottom
Mounting stud
(A)
1000
BC
51 x 105 0,08
127
96
78
7,7
5,5
AYX-HR102X420BC1 AYUX-HR102X420BC1
1500
BC
51 x 105 0,08
85
64
50
9,4
6,7
AYX-HR152X420BC1 AYUX-HR152X420BC1
1500
CC
64 x 107 0,08
85
64
50
10,6
7,6
AYX-HR152X420CC1 AYUX-HR152X420CC1
2200
CC
64 x 107 0,10
72
54
43
11,5
8,2
AYX-HR222X420CC1 AYUX-HR222X420CC1
2200
DC
76 x 106 0,08
58
43
34
14,3
10,2
AYX-HR222X420DC1 AYUX-HR222X420DC1
DC
76 x 106 0,09
43
33
28
16,5
11,8
AYX-HR332X420DC1 AYUX-HR332X420DC1
3300
DF
76 x 147 0,09
43
33
27
18,9
13,5
AYX-HR332X420DF1 AYUX-HR332X420DF1
4700
DF
76 x 147 0,09
30
23
18
22,5
16,1
AYX-HR472X420DF1 AYUX-HR472X420DF1
DF
76 x 147 0,07
16
12
12
24,4
17,5
AYX-HR682M420DF1 AYUX-HR682M420DF1
3300
6800
420
(**)
6800
DJ
76 x 217 0,09
21
16
12
32,7
23,4
AYX-HR682X420DJ1 AYUX-HR682X420DJ1
10000
DJ
76 x 217 0,09
14
11
11
39,4
28,1
AYX-HR103X420DJ1 AYUX-HR103X420DJ1
6800
EF
90 x 149 0,11
26
19
11
27,4
19,6
AYX-HR682X420EF1
EJ
90 x 222 0,11
12
9
11
46,5
35,1
AYX-HR153M420EJ1 AYUX-HR153M420EJ1
15000
(**)
AYUX-HR682X420EF1
(∗∗)=+/-20%
Pag. 54
ITELCOND Aluminium Electrolytic Capacitors
AY series
CAP
(µF)
Rated
Case
Voltage
Code
(Vn)
1000
1500
TG δ
ESR
Z
I ripple
I ripple
max
typ
max
55°C
85°C
100Hz 100Hz
(mm)
10Khz
100Hz 100Hz
100Hz (mOhm) (mOhm) (mOhm)
(A)
BC
51 x 105 0,10
159
119
88
6,9
CATALOGUE NUMBER
Flat bottom
Mounting stud
(A)
4,9
AYX-HR102X450BC1 AYUX-HR102X450BC1
BC
51 x 105 0,10
106
80
88
8
5,7
AYX-HR152M450BC1 AYUX-HR152M450BC1
1500
CC
64 x 107 0,10
106
80
60
9,5
6,8
AYX-HR152X450CC1 AYUX-HR152X450CC1
2200
CC
64 x 107 0,12
87
65
49
10,5
7,5
AYX-HR222X450CC1 AYUX-HR222X450CC1
2200
DC
76 x 106 0,10
72
54
43
12,8
9,1
AYX-HR222X450DC1 AYUX-HR222X450DC1
DC
76 x 106 0,12
58
43
36
14,3
10,2
AYX-HR332X450DC1 AYUX-HR332X450DC1
DF
76 x 147 0,10
48
36
28
17,9
12,8
AYX-HR332X450DF1 AYUX-HR332X450DF1
3300
(**)
Φxh
ESR
450
3300
4700
DF
76 x 147 0,12
41
30
24
19,5
13,9
AYX-HR472X450DF1 AYUX-HR472X450DF1
DF
76 x 147 0,12
28
21
20
20,2
14,4
AYX-HR682M450DF1 AYUX-HR682M450DF1
6800
DJ
76 x 217 0,12
28
21
17
28,3
20,2
AYX-HR682X450DJ1 AYUX-HR682X450DJ1
10000
DJ
76 x 217 0,12
19
14
20
32,5
22,8
AYX-HR103X450DJ1 AYUX-HR103X450DJ1
4700
EC
90 x 108 0,12
41
30
25
21,8
15,6
AYX-HR472X450EC1
AYUX-HR472X450EC1
6800
EF
90 x 149 0,12
28
21
17
26,2
18,7
AYX-HR682X450EF1
AYUX-HR682X450EF1
10000
EJ
90 x 222 0,12
19
14
12
37,7
26,9
AYX-HR103X450EJ1
AYUX-HR103X450EJ1
EJ
90 x 222 0,12
16
12
12
40,5
26,9
AYX-HR123M450EJ1 AYUX-HR123M450EJ1
6800
12000
(**)
(**)
ITELCOND Aluminium Electrolytic Capacitors
Pag. 55
AP series
AP- / APU-
series
ALUMINIUM ELECTROLYTIC CAPACITORS LONG LIFE GRADE
Series
AP
APU
Capacitance
range
Voltage
range
Case
Temperature
x H
Φ
range
1000-15000 350- 450 -40 °C+85°C
Applications
Long life
High reliability
64.0 x 107 Wind,solar,railways
90 X 222
application
MECHANICAL OUTLINES:
CASE: aluminium made
TERMINALS : see tables
INTERNAL CONNECTIONS : riveted and ultrasonic welded
ELECTROLYTE self extinguishing
SEALING: hermetic by beading on an EPR gasket, housed on a thermosetting resin cover
PRESSURE RELEASE VENT: silicone-rubber
SLEEVE: self-estinguishing thermoshrinkable sleeve
SIZE: see drawings
MOUNTING HARDWARE:
SPECIFICATIONS
TEMPERATURE RANGE
CECC 30300
IEC 60384 ("long lifegrade")
MIL C62D
45910
CAPACITANCE
Operating: -40 °C/ +85 °C
Tolerance shall be within the following limits:
-10% +30% (standard tolerance)
- 20% + 20% (available on request)
Climatic Category : 40/85/56
LEAKAGE CURRENT:
After the rated voltage has been applied to the capacitor for 5 minutes the leakage current must be:
where
Maximum limit
at 25 °C
If ≤ 0,001∗ C ∗ V
Operating limit
at 25 °C
If ≤ 0,0005 ∗ C ∗ V
If = leakage current (μA)
C = capacitance (μF)
V = rated voltage (V)
IMPORTANT
1) When using high-capacitance and high-voltage electrolytic capacitors it is important to remember that the inner part
(the rolled section) is not insulated from can: between the negative pole and the aluminium can there is a variable and
not defined resistance essentially due to the electrolyte used in capacitor manufacture.
SURGE VOLTAGE
Working Voltage
350
400
420
450
Surge Voltage
385
440
460
495
ITELCOND Aluminium Electrolytic Capacitors
Pag. 57
AP series
RIPPLE CURRENT:
the allowable values of ripple current in amperes, are related to temperature and frequency by the formula:
Irip = Kt * K f * Ir85
where I r85 is the limit given by tables, referred to a temperature of 85 °C and to a frequency of 100 HZ and Kt or Kf
are values here below tabulated:
Kt
40
55
65
75
80
85
1.65
1.5
1.4
1.2
1.1
1.0
Kf
Vn
>300
Hz
Case code C,D,E
50
0.72
100
1
120
1.03
200
1.14
300
1.24
400
1.29
500
1.32
>1000
1.37
DIMENSIONS
Insert Screw Thread (D= 51, 65, 76)= M5 Insert Screw Thread (D= 90) = M6
Insert Screw Length = 10 mm.
Insert Screw Torque Max.(M5) = 2 Nm.
Insert Screw Torque Max.(M6)=2,5 Nm
Screw Torque For Hex Nuts M12 = 10 Nm.
Insert Screw Thread = M6
Screw Torque For Hex Nuts M12 = 10 Nm
Insert Screw Torque Max. (M5) = 2,5 Nm.
Screw Torque For Hex Nuts M12 = 10 Nm
Insert Screw Length (Terminal Code "-X")= 10mm
Pag. 58
ITELCOND Aluminium Electrolytic Capacitors
AP series
Series APX/ APUX
Insert diameter = 13 mm / Thread M5
CASE
CODE
ΦX L
(mm)
l1
d1
+,-0.5
d2
+,-0.5
h1
e
CASE
CODE
CC
64 x 107
111
13
17
19
28,6
EC
DC
76 x 107
111
13
17
19
31.8
DF
76 x 147
151
13
17
19
31.8
DK
76 x 168
173
13
17
19
31.8
DJ
76 x 217
217
13
17
19 31.8
ΦX L
(mm)
d1
+,-0.5
d2
+,-0.5
h1
e
90 x 108 112
17
23
19
31.8
EF
90 x 149 153
17
23
19
31.8
EJ
90 x 222 227
17
23
19
31.8
l1
Series APG/ APUG
Insert diameter = 17 mm / Thread M6
CASE
CODE
ΦX L
(mm)
l1
d1
+,-0.5
d2
+,-0.5
h1
e
CASE
CODE
ΦX L
(mm)
l1
d1
+,-0.5
d2
+,-0.5
h1
e
DC
76 x 107
111
17
23
19
31.8
EC
90 x 108
112
17
23
19
31.8
DF
76 x 147
151
17
23
19
31.8
EF
90 x 149
153
17
23
19
31.8
DK
76 x 168
173
17
23
19
31.8
EJ
90 x 222
227
17
23
19
31.8
DJ
76 x 217
217
17
23
19
31.8
NOTE :
1. in the databook numbering system insert “X” for AP ∗ /APU ∗
series or “G” for AP ∗ /APU ∗ series
ITELCOND Aluminium Electrolytic Capacitors
Pag. 59
AP series
EXPECTED LIFE VS. TEMPERATURE AND RIPPLE CURRENT
APX -APG
90
85
8000 hr
80
Temperature (°C)
75
12000 hr
70
65
16000 hr
60
28000 hr
55
50
38000 hr
45
170000 hr
40
70000 hr
35
30
0
0,5
1
1,5
2
2,5
3
(Ir)T/(Ir)85 °C
Expected life criteria : see introduction
Pag. 60
ITELCOND Aluminium Electrolytic Capacitors
AP series
ESR
CAP
(μF)
Rated
Case
Voltage
Code
(Vn)
Φx h
TG δ
ESR
Z
I ripple
I ripple
max
typ
max
55°C
85°C
100Hz
100Hz
10Khz
100Hz
100Hz
(mm)
100Hz
(mOhm)
(mOhm)
(mOhm)
(A)
(A)
CATALOGUE NUMBER
Flat bottom
Mounting stud
1500
CC
64 x 107
0,08
81
65
66
13,0
7,0
AP*152X350CC1
APU*152X350CC1
2200
DC
76 x 107
0,09
62
50
51
16,5
9.2
AP*222X350DC1
APU*222X350DC1
DF
76 x 147
0,09
41
33
35
22,0
12,5
AP*332X350DF1
APU*332X350DF1
4700
DF
76 x 147
0,07
24
19
24
27,0
14,9
AP*472X350DF1
APU*472X350DF1
6800
DJ
76 x 217
0,10
23
19
20
40.5
22,3
AP*682X350DJ1
APU*682X350DJ1
18000
EJ
90 x 222
0,10
12
9
11
41,0
23
AP*183X350EJ1
APU*183X350EJ1
ESR
ESR
Z
I ripple
I ripple
Rated
Case
Φx h
TG δ
max
typ
max
55°C
85°C
Voltage
Code
100Hz
100Hz
10Khz
100Hz
100Hz
(mm)
100Hz
(mOhm)
(mOhm)
(mOhm)
(A)
(A)
127
105
10,0
5,4
3300
CAP
(μF)
350
(Vn)
CATALOGUE NUMBER
Flat bottom
Mounting stud
AP*102X400CC1
APU*102X400CC1
1000
CC
64 x 106 0,10
159
1500
DC
76 x 107 0,10
106
85
72
13,0
7,4
AP*152X400DC1
APU*152X400DC1
2200
DC
76 x 107 0,11
80
64
51
16.2
8,8
AP*222X400DC1
APU*222X400DC1
DF
76 x 147 0,10
72
58
51
18,0
10,2
AP*222X400DF1
APU*222X400DF1
3300
DF
76 x 147 0,12
58
46
35
21,7
11,8
AP*332X400DF1
APU*332X400DF1
4700
DF
76 x 147 0,12
41
33
35
24,8
13,5
AP*472X400DF1
APU*472X400DF1
6800
DJ
76 x 217 0,12
28
22
26
30,0
16,4
AP*682X400DJ1
APU*682X400DJ1
15000
EJ
90 x 222 0,12
25
18
22
33,5
18,2
AP*153X400EJ1
APU*153X400EJ1
ESR
ESR
Z
I ripple
I ripple
2200
CAP
(μF)
400
Rated
Case
Voltage
Code
(Vn)
Φx h
TG δ
max
typ
max
55°C
85°C
100Hz
100Hz
10Khz
100Hz
100Hz
(mm)
100Hz
(mOhm)
(mOhm)
(mOhm)
(A)
(A)
CATALOGUE NUMBER
Flat bottom
Mounting stud
1000
CC
64 x 106
0,10
159
127
105
10,0
5,4
AP*102X450CC1
APU*102X450CC1
1500
DC
76 x 107
0,10
106
85
72
13,0
7,4
AP*152X450DC1
APU*152X450DC1
2200
DC
76 x 107
0,10
72
58
51
16,0
8,9
AP*222X450DC1
APU*222X450DC1
DF
76 x 147
0,10
72
58
49
18,0
10,2
AP*222X450DF1
APU*222X450DF1
DF
76 x 147
0,12
58
46
39
21,0
11,4
AP*332X450DF1
APU*332X450DF1
4700
DJ
76 x 217
0,12
41
33
29
30,0
16,4
AP*472X450DJ1
APU*472X450DJ1
5600
DJ
76 x 217
0,13
37
30
28
31,0
17,5
AP*562X450DJ1
APU*562X450DJ1
6800
EF
90 x 149
0,12
23
15
21
32.0
17,8
AP*682X450EF1
APU*682X450EF1
10000
EJ
90 x 222
0,13
18
13
16
34,6
18,8
AP*103X450EJ1
APU*103X450EJ1
2200
3300
450
ITELCOND Aluminium Electrolytic Capacitors
Pag. 61
AS – series
AS / ASU series
ALUMINIUM ELECTROLYTIC CAPACITORS LONG LIFE GRADE
Series
AS
ASU
Capacitance
range
150-150000
Voltage
range
25-500
Temperature
range
-40 °C , +85°C
Case
ΦxH
Applications
35 x 59
76 x 217
Long life
High reliability
Telecom, Railways
applications
MECHANICAL OUTLINES:
CASE: aluminium made
TERMINALS:screw 5MA
SEALING: hermetic by beading on an EPR gasket, housed on a resin cover
PRESSURE RELEASE VENT: made in silicone-rubber
SLEEVE: self-estinguishing thermoshrinkable sleeve
SIZE: see enclosed drawings
MOUNTING HARDWARE: see hardware section
SPECIFICATIONS
TEMPERATURE RANGE
CAPACITANCE
CECC 30300
Operating: -40 °C/ +85 °C
IEC 60384 ("long life grade")
MIL C62D
Climatic Category : 40/85/56
DIN 41240 / DIN 45910
Tolerance shall be within the following limits:
-10% +30% (standard tolerance)
- 20% + 20% (available on request)
LEAKAGE CURRENT:
After the rated voltage has been applied to the capacitor for 5 minutes the leakage current must be:
where
Maximum limit
at 25 °C
If ≤ 1.5 *(C*V)
0,5
Operating limit
at 25 °C:
If
≤1.0*(C*V)
0,5
If = leakage current (µA)
C = capacitance (µF)
V = rated voltage (V)
IMPORTANT
1) When using high-capacitance and high-voltage electrolytic capacitors it is important to remember that the inner part (the
rolled section) is not insulated from can: between the negative pole and the aluminium can there is a variable and not defined
resistance essentially due to the electrolyte used in capacitor manufacture.
SURGE VOLTAGE
Working Voltage
25
40
63
100
160
200
250
350
400
450
500
Surge Voltage
40
55
84
130
215
250
300
425
475
525
540
ITELCOND Aluminium Electrolytic Capacitors
Pag. 63
AS series
RIPPLE CURRENT:
the allowable values of ripple current in amperes, are related to temperature and frequency by the formula:
Ir = Kt * Kf * Ir85
where Ir85 is the limit given by tables, referred to a temperature of 85 °C and to a frequency of 100 HZ and Kt or Kf are values
here below tabulated:
°C
Kt
40
55
65
75
85
2.1
1.8
1.6
1.3
1.0
Kf
V=50
Vn
Hz
50<V=300
V>300
V=50
0.76
0.86
Code Diameter A,B
50
0.82
0.79
50<V=300
V>300
Code Diameter C,D
0.78
0.72
100
1
1
1
1
1
1
120
1.03
1.04
1.04
1.01
1.02
1.03
200
1.08
1.12
1.17
1.03
1.06
1.14
300
1.12
1.16
1.28
1.03
1.08
1.24
400
1.13
1.20
1.35
1.03
1.09
1.29
500
1.15
1.22
1.39
1.03
1.09
1.32
>1000
1.18
1.25
1.45
1.03
1.09
1.37
DIMENSIONS
Insert Screw Length (Terminal Code "-X") = 10
mm.
Screw Torque For Hex Nuts M8 = 4 Nm.
Insert Screw Thread = M5
Insert Screw Torque Max. (M5) = 2 Nm.
Screw Torque For Hex Nuts M12 = 10 Nm.
CASE
CODE
ΦX L
(mm)
l1
d1
+,-0.5
d2
+,-0.5
h1
e
CASE
CODE
ΦX L
(mm)
l1
d1
+,-0.5
d2
+,-0.5
h1
e
AA
35 x 59
57
8
12
8
12,7
DF
76 x 147
151
13
18
19
31.8
AB
35 X 79
86
8
12
8
12,7
DK
76 x 168
173
13
18
19
31.8
AC
35 X105
109
8
12
8
12,7
DJ
76 x 217
222
13
18
19
31.8
BB
51 x 83
86
13
18
13
22.2
EC
90 x 108
112
17
23
19
31.8
BC
51 x105
108
13
18
13
22.2
EF
90 x 149
153
17
23
19
31.8
CC
64 x107
111
13
18
16
28.6
EJ
90 x 222
227
17
23
19
31.8
DC
76 x107
111
13
18
19
31.8
•
Pag. 64
STANDARD MOUNTING STUD HARDWARE - INSULATING PLASTIC WASHERS AND METALLIC NUT
ITELCOND Aluminium Electrolytic Capacitors
AS – series
EXPECTED LIFE AS A FUNCTION OF TEMPERATURE AND RIPPLE CURRENT
ASM
WVDC< 160 VOLT
90
85
80
16000 hr
75
Temperature
70
32000 hr
65
45000 hr
60
50000 hr
55
80000 hr
50
160000 hr
45
>300000 hr
40
260000 hr
35
30
0
0,5
1
1,5
2
2,5
(Ir)T/(Ir)85 °C
ITELCOND Aluminium Electrolytic Capacitors
Pag. 65
AS series
ASM
WVDC => 160 VOLT
90
85
12000 hr
80
75
18000 hr
Temperature (°C)
70
65
24000 hr
60
42000 hr
55
50
54000 hr
45
216000 hr
40
108000 hr
35
30
0
0,5
1
1,5
2
2,5
3
(Ir)T/(Ir)85 °C
Expected life criteria : see introduction
Pag. 66
ITELCOND Aluminium Electrolytic Capacitors
AS – series
ASX – ASUX SERIES NOT FOR NEW DESIGN
CAP
(µF)
Rated
Case
Voltage
Code
(Vn)
ESR
ESR
Z
I ripple
I ripple
typ
max
55°C
85°C
Φxh
TG δ
max
100Hz
100Hz
10Khz
100Hz
100Hz
(mm)
100Hz
(mOhm)
(mOhm)
(mOhm)
(A)
(A)
CATALOGUE NUMBER
Flat bottom
Mounting stud
6800
AA
35 x 59
0,22
52
41
38
9,0
4,9
ASM682X025AA1 ASUM682X025AA1
10000
AB
35 x 79
0,22
35
28
26
13,0
7,3
ASM103X025AB1 ASUM103X025AB1
15000
AC
35 x 105
0,22
23
19
17
18,0
10,2 ASM153X025AC1 ASUM153X025AC1
BB
51 x 83
0,32
23
19
18
20,0
11,1 ASM223X025BB1 ASUM223X025BB1
22000
33000
BC
51 x 105
0,36
17
14
14
26,0
14,5 ASM333X025BC1 ASUM333X025BC1
47000
CC
64 x 107
0,33
11
9
10
37,0
20,4 ASM473X025CC1 ASUM473X025CC1
68000
CC
64 x 107
0,39
9
7
8
41,0
22,6 ASM683X025CC1 ASUM683X025CC1
100000
DC
76 x 107
0,56
9
7
8
46,0
25,4 ASM104X025DC1 ASUM104X025DC1
150000
DF
76 x 147
0,75
8
6
8
55,0
30,8 ASM154X025DF1 ASUM154X025DF1
ESR
ESR
Z
I ripple
I ripple
CAP
(µF)
25
Rated
Case
Voltage
Code
(Vn)
Φxh
TG δ
max
typ
max
55°C
85°C
100Hz
100Hz
10Khz
100Hz
100Hz
(mm)
100Hz
(mOhm)
(mOhm)
(mOhm)
(A)
(A)
CATALOGUE NUMBER
Flat bottom
Mounting stud
4700
AA
35 x 59
0,18
61
49
44
8,0
4,5
ASM472X040AA1 ASUM472X040AA1
6800
AB
35 x 79
0,21
49
39
35
11,0
6,2
ASM682X040AB1 ASUM682X040AB1
10000
AC
35 x 105
0,25
40
32
29
14,0
7,8
ASM103X040AC1 ASUM103X040AC1
15000
BB
51 x 83
0,27
29
23
21
18,0
10,0 ASM153X040BB1 ASUM153X040BB1
BC
51 x 105
0,33
24
19
16
22,0
12,4 ASM223X040BC1 ASUM223X040BC1
CC
64 x 107
0,35
17
14
12
30,0
16,6 ASM333X040CC1 ASUM333X040CC1
47000
CC
64 x 107
0,37
13
10
10
35,0
19,3 ASM473X040CC1 ASUM473X040CC1
68000
DC
76 x 107
0,42
10
8
8
44,0
24,2 ASM683X040DC1 ASUM683X040DC1
100000
DF
76 x 147
0,49
8
6
7
56,0
31,1 ASM104X040DF1 ASUM104X040DF1
ESR
ESR
Z
I ripple
I ripple
22000
40
33000
CAP
(µF)
Rated
Case
Voltage
Code
(Vn)
Φxh
TG δ
max
typ
max
55°C
85°C
100Hz
100Hz
10Khz
100Hz
100Hz
(mm)
100Hz
(mOhm)
(mOhm)
(mOhm)
(A)
(A)
CATALOGUE NUMBER
Flat bottom
Mounting stud
3300
AA
35 x 59
0,12
58
46
40
8,0
4,7
ASM332X063AA1 ASUM332X063AA1
4700
AB
35 x 79
0,12
41
33
29
12,0
6,8
ASM472X063AB1 ASUM472X063AB1
6800
AC
35 x 105
0,12
28
22
20
17,0
9,3
ASM682X063AC1 ASUM682X063AC1
10000
BB
51 x 83
0,16
25
20
19
19,0
10,6 ASM103X063BB1 ASUM103X063BB1
BC
51 x 105
0,16
17
14
14
26,0
14,7 ASM153X063BC1 ASUM153X063BC1
CC
64 x 107
0,12
9
7
8
42,0
23,2 ASM223X063CC1 ASUM223X063CC1
33000
DC
76 x 107
0,16
8
6
8
49,0
27,3 ASM333X063DC1 ASUM333X063DC1
33000
DD
76 x 118
0,16
8
6
8
52,0
28,9 ASM333X063DD1 ASUM333X063DD1
47000
DC
76 x 107
0,18
6
5
6
55,0
30,8 ASM473X063DC1 ASUM473X063DC1
68000
DF
76 x 147
0,32
7
6
7
57,0
31,7 ASM683X063DF1 ASUM683X063DF1
15000
22000
63
ITELCOND Aluminium Electrolytic Capacitors
Pag. 67
AS series
ESR
CAP
(µF)
Rated
Case
Voltage
Code
(Vn)
Φxh
TG δ
ESR
Z
I ripple
I ripple
max
typ
max
55°C
85°C
100Hz
100Hz
10Khz
100Hz
100Hz
(mm)
100Hz
(mOhm)
(mOhm)
(mOhm)
(A)
(A)
CATALOGUE NUMBER
Flat bottom
Mounting stud
680
AA
35 x 59
0,10
234
187
150
4,0
2,3
ASM681X100AA1 ASUM681X100AA1
1000
AB
35 x 79
0,10
159
127
105
6,0
3,4
ASM102X100AB1 ASUM102X100AB1
1500
AB
35 x 79
0,10
106
85
71
8,0
4,2
ASM152X100AB1 ASUM152X100AB1
2200
AC
35 x 105
0,10
72
58
49
10,0
5,8
ASM222X100AC1 ASUM222X100AC1
BB
51 x 83
0,12
58
46
41
13,0
7,0
ASM332X100BB1 ASUM332X100BB1
4700
BC
51 x 105
0,12
41
33
29
17,0
9,5
ASM472X100BC1 ASUM472X100BC1
6800
BC
51 x 105
0,12
28
22
21
21,0
11,4 ASM682X100BC1 ASUM682X100BC1
10000
CC
64 x 107
0,12
19
15
14
28,0
15,6 ASM103X100CC1 ASUM103X100CC1
15000
DC
76 x 107
0,13
14
11
11
37,0
20,4 ASM153X100DC1 ASUM153X100DC1
22000
DF
76 x 147
0,13
9
8
9
51,0
28,3 ASM223X100DF1 ASUM223X100DF1
ESR
ESR
Z
I ripple
I ripple
typ
max
55°C
85°C
3300
CAP
(µF)
100
Rated
Case
Voltage
Code
(Vn)
470
AA
Φxh
TG δ
max
100Hz
100Hz
10Khz
100Hz
100Hz
(mm)
100Hz
(mOhm)
(mOhm)
(mOhm)
(A)
(A)
35 x 59
0,09
305
244
206
4,0
2,0
ASM471X160AA1 ASUM471X160AA1
CATALOGUE NUMBER
Flat bottom
Mounting stud
680
AB
35 x 79
0,09
211
169
142
5,0
3,0
ASM681X160AB1 ASUM681X160AB1
1000
AC
35 x 105
0,09
143
115
98
7,0
4,1
ASM102X160AC1 ASUM102X160AC1
1500
BB
51 x 83
0,10
106
85
73
9,0
5,2
ASM152X160BB1 ASUM152X160BB1
BC
51 x 105
0,10
72
58
50
13,0
7,1
ASM222X160BC1 ASUM222X160BC1
3300
CC
64 x 107
0,10
48
39
34
18,0
9,8
ASM332X160CC1 ASUM332X160CC1
4700
DC
76 x 107
0,12
41
33
31
21,0
11,9 ASM472X160DC1 ASUM472X160DC1
6800
DF
76 x 147
0,12
28
22
21
29,0
16,4 ASM682X160DF1 ASUM682X160DF1
10000
DF
76 x 147
0,12
19
15
14
36,0
19,9 ASM103X160DF1 ASUM103X160DF1
15000
DF
76 x 147
0,12
13
10
12
40,5
22,4 ASM153X160DF1 ASUM153X160DF1
ESR
ESR
Z
I ripple
I ripple
2200
CAP
(µF)
160
Rated
Case
Voltage
Code
(Vn)
Φxh
TG δ
max
typ
max
55°C
85°C
100Hz
100Hz
10Khz
100Hz
100Hz
(mm)
100Hz
(mOhm)
(mOhm)
(mOhm)
(A)
(A)
CATALOGUE NUMBER
Flat bottom
Mounting stud
330
AA
35 x 59
0,08
386
309
248
3,0
1,8
ASM331X200AA1 ASUM331X200AA1
470
AB
35 x 79
0,08
271
217
181
5,0
2,6
ASM471X200AB1 ASUM471X200AB1
680
AC
35 x 105
0,08
187
150
125
6,0
3,6
ASM681X200AC1 ASUM681X200AC1
BB
51 x 83
0,08
127
102
85
9,0
4,7
ASM102X200BB1 ASUM102X200BB1
1500
BC
51 x 105
0,08
85
68
59
12,0
6,6
ASM152X200BC1 ASUM152X200BC1
2200
CC
64 x 107
0,08
58
46
41
16,0
9,0
ASM222X200CC1 ASUM222X200CC1
3300
CC
64 x 107
0,09
43
35
32
19,0
10,4 ASM332X200CC1 ASUM332X200CC1
4700
DC
76 x 107
0,10
34
27
25
23,0
13,1 ASM472X200DC1 ASUM472X200DC1
1000
Pag. 68
200
ITELCOND Aluminium Electrolytic Capacitors
AS – series
ESR
CAP
(µF)
Rated
Case
Voltage
Code
(Vn)
Φxh
TG δ
ESR
Z
I ripple
I ripple
max
typ
max
55°C
85°C
100Hz
100Hz
10Khz
100Hz
100Hz
(mm)
100Hz
(mOhm)
(mOhm)
(mOhm)
(A)
(A)
CATALOGUE NUMBER
Flat bottom
Mounting stud
220
AA
35 x 59
0,07
507
405
323
3,0
1,6
ASM221X250AA1 ASUM221X250AA1
330
AB
35 x 79
0,08
386
309
215
4,0
2,2
ASM331X250AB1 ASUM331X250AB1
470
AC
35 x 105
0,08
271
217
165
5,0
3,0
ASM471X250AC1 ASUM471X250AC1
470
BB
51 x 83
0,08
271
217
176
6,0
3,3
ASM471X250BB1 ASUM471X250BB1
BB
51 x 83
0,08
187
150
124
7,0
3,9
ASM681X250BB1 ASUM681X250BB1
680
250
1000
BC
51 x 105
0,08
127
102
85
10,0
5,4
ASM102X250BC1 ASUM102X250BC1
1500
BC
51 x 105
0,08
85
68
58
12,0
6,6
ASM152X250BC1 ASUM152X250BC1
2200
CC
64 x 107
0,09
65
52
45
15,0
8,5
ASM222X250CC1 ASUM222X250CC1
3300
DC
76 x 107
0,10
48
39
34
20,0
10,9
ASM332X250DC1 ASUM332X250DC1
4700
DF
76 x 147
0,10
34
27
26
27,0
14,4
ASM472X250DF1
ASUM472X250DF1
6800
DJ
76 x 217
0,10
23
19
21
39,0
21,7
ASM682X250DJ1
ASUM682X250DJ1
ESR
ESR
Z
I ripple
I ripple
CAP
(µF)
Rated
Case
Voltage
Code
(Vn)
Φxh
TG δ
max
typ
max
55°C
85°C
100Hz
100Hz
10Khz
100Hz
100Hz
(mm)
100Hz
(mOhm)
(mOhm)
(mOhm)
(A)
(A)
CATALOGUE NUMBER
Flat bottom
Mounting stud
220
AB
35 x 79
0,06
434
347
371
3,0
1,9
ASM221X350AB1 ASUM221X350AB1
330
AC
35 x 105
0,07
338
270
248
5,0
2,5
ASM331X350AC1 ASUM331X350AC1
470
BB
51 x 83
0,07
220
176
180
6,0
3,3
ASM471X350BB1 ASUM471X350BB1
680
BC
51 x 105
0,07
164
131
124
8,0
4,4
ASM681X350BC1 ASUM681X350BC1
BC
51 x 105
0,07
108
87
85
10,0
5,4
ASM102X350BC1 ASUM102X350BC1
1500
CC
64 x 107
0,08
81
65
66
13,0
7,0
ASM152X350CC1 ASUM152X350CC1
2200
DC
76 x 107
0,09
62
50
51
16,0
8,9
ASM222X350DC1 ASUM222X350DC1
3300
DF
76 x 147
0,09
41
33
35
22,0
12,5
ASM332X350DF1 ASUM332X350DF1
4700
DF
76 x 147
0,07
24
19
24
27,0
14,9
ASM472X350DF1 ASUM472X350DF1
6800
DJ
76 x 217
0,10
23
19
20
39,0
21,7
ASM682X350DJ1 ASUM682X350DJ1
1000
350
ITELCOND Aluminium Electrolytic Capacitors
Pag. 69
AS series
ESR
CAP
(µF)
Rated
Case
Voltage
Code
(Vn)
Φxh
TG δ
ESR
Z
I ripple
I ripple
max
typ
max
55°C
85°C
100Hz
100Hz
10Khz
100Hz
100Hz
CATALOGUE NUMBER
Flat bottom
Mounting stud
(mm)
100Hz
(mOhm)
(mOhm)
(mOhm)
(A)
(A)
AB
35 x 79
0,08
579
463
369
3,0
1,8
330
AC
35 x 105
0,08
386
309
246
5,0
2,5
ASM331X400AC1 ASUM331X400AC1
470
BB
51 x 79
0,10
339
271
219
5,0
2,9
ASM471X400BB1 ASUM471X400BB1
BC
51 x 105
0,10
234
187
151
7,0
4,0
ASM681X400BC1 ASUM681X400BC1
1000
CC
64 x 106
0,10
159
127
105
10,0
5,4
ASM102X400CC1 ASUM102X400CC1
1500
DC
76 x 107
0,10
106
85
72
13,0
7,4
ASM152X400DC1 ASUM152X400DC1
2200
DC
76 x 107
0,11
80
64
51
15,0
8,5
ASM222X400DC1 ASUM222X400DC1
2200
DF
76 x 147
0,10
72
58
51
18,0
10,2
ASM222X400DF1 ASUM222X400DF1
3300
DF
76 x 147
0,12
58
46
35
21,0
11,4
ASM332X400DF1 ASUM332X400DF1
4700
DF
76 x 147
0,12
41
33
35
24,8
13,5
ASM472X400DF1 ASUM472X400DF1
6800
DJ
76 x 217
0,12
28
22
26
30,0
16,4
ASM682X400DJ1 ASUM682X400DJ1
ESR
ESR
Z
I ripple
Rated
Case
Φxh
TG δ
max
typ
max
55°C
85°C
Voltage
Code
100Hz
100Hz
10Khz
100Hz
100Hz
220
680
CAP
(µF)
400
(Vn)
150
AB
ASM221X400AB1 ASUM221X400AB1
I ripple
(mm)
100Hz
(mOhm)
(mOhm)
(mOhm)
(A)
(A)
35 x 79
0,08
849
679
593
3,0
1,5
CATALOGUE NUMBER
Flat bottom
Mounting stud
ASM151X450AB1 ASUM151X450AB1
220
AC
35 x 105
0,08
579
463
369
4,0
2,1
ASM221X450AC1 ASUM221X450AC1
330
AC
35 x 105
0,08
386
309
246
5,0
2,5
ASM331X450AC1 ASUM331X450AC1
470
BB
51 x 79
0,10
339
271
219
5,0
2,9
ASM471X450BB1 ASUM471X450BB1
680
BC
51 x 105
0,10
234
187
151
7,0
4,0
ASM681X450BC1 ASUM681X450BC1
1000
CC
64 x 106
0,10
159
127
105
10,0
5,4
ASM102X450CC1 ASUM102X450CC1
DC
76 x 107
0,10
106
85
72
13,0
7,4
ASM152X450DC1 ASUM152X450DC1
2200
1500
DC
76 x 107
0,10
72
58
51
16,0
8,9
ASM222X450DC1 ASUM222X450DC1
2200
DF
76 x 147
0,10
72
58
49
18,0
10,2 ASM222X450DF1 ASUM222X450DF1
3300
DF
76 x 147
0,12
58
46
39
21,0
11,4 ASM332X450DF1 ASUM332X450DF1
4700
DJ
76 x 217
0,12
41
33
29
30,0
16,4 ASM472X450DJ1 ASUM472X450DJ1
450
5600
DF
76 x 147
0,12
34
27
29
30,0
16,4 ASM562X450DF1 ASUM562X450DF1
5600
DJ
76 x 217
0,13
37
30
28
31,0
17,2 ASM562X450DJ1 ASUM562X450DJ1
ESR
ESR
CAP
(µF)
Rated
Case
Voltage
Code
(Vn)
Φxh
TG δ
Z
I ripple
I ripple
max
typ
max
55°C
85°C
100Hz
100Hz
10Khz
100Hz
100Hz
(mm)
100Hz
(mOhm)
(mOhm)
(mOhm)
(A)
(A)
CATALOGUE NUMBER
Flat bottom
Mounting stud
1000
BC
51 X 105
0,10
159
127
98
8,0
4,2
ASM102X500BC1 ASUM102X500BC1
1500
DC
76 x 107
0,10
106
85
74
11,0
6,0
ASM152X500DC1 ASUM152X500DC1
DF
76 x 147
0,10
72
58
47
15,0
8,3
ASM222X500DF1 ASUM222X500DF1
3300
DF
76 x 147
0,10
48
39
27
16,0
9,1
ASM332X500DF1 ASUM332X500DF1
4700
DF
76 x 147
0,08
27
22
31
27,0
15,4 ASM472M500DF1 ASUM472M500DF1
4700
EF
76 X 217
0,08
27
22
31
30,1
17,2 ASM472M500EF1 ASUM472M500EF1
2200
Pag. 70
500
ITELCOND Aluminium Electrolytic Capacitors
SCREW TERMINAL
CAPACITORS
Ambient Temperature
105 °C
AZ - series
AZ- / AZU-
series
ALUMINIUM ELECTROLYTIC CAPACITORS HIGH TEMPERATURE
Capacitance
range
Series
AZ
AZU
Voltage
range
1000-33000 100-450
Temperature
range
-25°C, +105°C
Case
ΦxH
51 x 105
76 x 220
Applications
Wide temperature range
Long life
High reliability
Telecom, Railways
applications
MECHANICAL OUTLINES:
CASE: aluminium made
TERMINALS: screw inserts with insulating shoulder
SEALING: hermetic by beading on an EPR gasket, housed on a resin cover
PRESSURE RELEASE VENT: made in silicone-rubber
SLEEVE: self-extinguishing thermo shrinkable sleeve
SIZE: see enclosed drawings
MOUNTING HARDWARE: see hardware section
SPECIFICATIONS
CECC 30300
IEC 60384("long life grade")
MIL C62D
DIN 41240 / DIN 45910
TEMPERATURE RANGE
CAPACITANCE
Operating: -25 °C/ +105 °C
Tolerance shall be within the following limits:
-10% +30% (standard tolerance)
-20% + 20% (available on request)
Climatic Category 25/105/86
LEAKAGE CURRENT:
After the rated voltage has been applied to the capacitor for 5 minutes the leakage current must be:
Where
Maximum limit
at 25 °C
If ≤ 1.5 *( C * V)
0,5
Operating limit
at 25 °C:
If ≤1.3 *( C * V)
0,5
If = leakage current (µA)
C = capacitance (µF)
V = rated voltage (V)
IMPORTANT
1) When using high-capacitance and high-voltage electrolytic capacitors it is important to remember that the inner part (the
rolled section) is not insulated from can: between the negative pole and the aluminium can there is a variable and not defined
resistance essentially due to the electrolyte used in capacitor manufacture.
SURGE VOLTAGE:
Working Voltage
Surge Voltage
100
115
ITELCOND Aluminium Electrolytic Capacitors
160
185
200
230
250
290
315
347
400
385
420
460
450
495
Pag. 73
AZ - series
RIPPLE CURRENT:
the allowable values of ripple current in amperes, are related to temperature and frequency by the formula:
Ir = Kt * Kf * Ir105°
where Ir105 is the limit given by tables, referred to a temperature of 105°C and to a frequency of 100 Hz and Kt or Kf are
values here below tabulated:
Note. Ripple current is function of the capacitance tolerance
V
n
V>250
°C
40
55
65
75
85
95
105
Kt
2.5
2.4
2.2
2.0
1.8
1.3
1.0
Hz
50
100
300
400
500
>1kHz
Kf
0.88
1.00
1.20
1.25
1.35
1.40
DIMENSIONS
Insert Screw Thread (D= 51, 63, 76) = M5
Insert Screw Length = 10 mm.
Insert Screw Torque Max.(M5) = 2 Nm.
Screw Torque For Hex Nuts M12 = 10 Nm.
CASE
CODE
ΦX L
(mm)
l1
d1
+,-0.5
d2
+,-0.5
h1
e
BC
51 x 105
109
13
18
13
22.2
CC
64 x 107
111
13
18
16
28.6
DC
76 x 107
111
13
18
19
31.8
DF
76 x 147
151
13
18
19
31.8
DJ
76 x 217
222
13
18
19
31.8
CASE
CODE
ΦX L
(mm)
l1
d1
+,-0.5
d2
+,-0.5
h1
e
• STANDARD MOUNTING STUD HARDWARE - INSULATING PLASTIC WASHERS AND METALLIC NUT
Pag. 74
ITELCOND Aluminium Electrolytic Capacitors
AZ - series
EXPECTED LIFE AS A FUNCTION OF TEMPERATURE AND RIPPLE CURRENT
AZX
110
105
100
5000 hr
95
90
10000 hr
Temperature (°C)
85
25000 hr
80
75
35000 hr
70
60000 hr
65
60
90000 hr
55
130000 hr
50
45
180000 hr
>250000hr
200000 hr
40
35
30
0
0,5
1
1,5
2
2,5
(Ir)T/(Ir) 105°C
Expected life criteria : see introduction
ITELCOND Aluminium Electrolytic Capacitors
Pag. 75
AZ - series
ESR
ESR
Z
Iripple
Iripple
typ.
max
85°C
105°C
Φxh
TG δ
max
100 Hz
100 Hz
10 KHz
100 Hz
100 Hz
(mm)
100 Hz
(mOhm)
(mOhm)
(mOhm)
(A)
(A)
BC
51 x 105
0,10
16
12
40
19,0
10,3
AZX103M100BC1 AZUX103M100BC1
CC
64 x 107
0,10
11
8
10
26,0
14,2
AZX153M100CC1 AZUX153M100CC1
22000
DC
76 x 107
0,12
9
7
8
32,0
17,7
AZX223M100DC1 AZUX223M100DC1
33000
DF
76 x 147
0,12
6
4
6
45,0
24,8
AZX333M100DF1 AZUX333M100DF1
ESR
ESR
Z
Iripple
Iripple
CAP
(µF)
Rated
Case
Voltage
Code
(Vn)
10000
15000
CAP
(µF)
100
Rated
Case
Voltage
Code
(Vn)
Φxh
TG δ
max
typ.
max
85°C
105°C
100 Hz
100 Hz
10 KHz
100 Hz
100 Hz
(mm)
100 Hz
(mOhm)
(mOhm)
(mOhm)
(A)
(A)
CATALOGUE NUMBER
Flat bottom
Mounting stud
CATALOGUE NUMBER
Flat bottom
Mounting stud
2200
BC
51 x 105
0,11
80
60
68
9,0
4,8
AZX222M160BC1 AZUX222M160BC1
3300
BC
51 x 105
0,11
53
40
49
10,0
5,7
AZX332M160BC1 AZUX332M160BC1
CC
64 x 107
0,11
37
28
34
14,0
7,6
AZX472M160CC1 AZUX472M160CC1
4700
160
6800
DC
76 x 107
0,11
26
19
23
18,0
10,2
AZX682M160DC1 AZUX682M160DC1
10000
DF
76 x 147
0,11
18
13
16
25,0
14,1
AZX103M160DF1 AZUX103M160DF1
15000
DF
76 x 147
0,12
13
10
11
30,0
16,7
AZX153M160DF1 AZUX153M160DF1
CAP
(µF)
Rated
Case
Voltage
Code
(Vn)
2200
3300
Φxh
TG δ
ESR
ESR
Z
Iripple
Iripple
max
typ.
max
85°C
105°C
100 Hz
100 Hz
10 KHz
100 Hz
100 Hz
(mm)
100 Hz
(mOhm)
(mOhm)
(mOhm)
(A)
(A)
BC
51 x 105
0,09
65
49
61
10,0
5,4
CATALOGUE NUMBER
Flat bottom
Mounting stud
AZX222M200BC1 AZUX222M200BC1
CC
64 x 107
0,09
43
33
40
13,0
7,5
AZX332M200CC1 AZUX332M200CC1
DC
76 x 107
0,09
30
23
28
18,0
10,0
AZX472M200DC1 AZUX472M200DC1
6800
DF
76 x 147
0,09
21
16
18
25,0
13,7
AZX682M200DF1 AZUX682M200DF1
10000
DF
76 x 147
0,09
14
11
13
30,0
16,6
AZX103M200DF1 AZUX103M200DF1
4700
CAP
(µF)
200
Rated
Case
Voltage
Code
(Vn)
Φxh
TG δ
ESR
ESR
Z
Iripple
Iripple
max
typ.
max
85°C
105°C
100 Hz
100 Hz
10 KHz
100 Hz
100 Hz
(mm)
100 Hz
(mOhm)
(mOhm)
(mOhm)
(A)
(A)
CATALOGUE NUMBER
Flat bottom
Mounting stud
1500
BC
51 x 105
0,09
96
72
77
8
4,7
AZX152M250BC1 AZUX152M250BC1
2200
CC
64 x 107
0,09
65
49
53
12
6,4
AZX222M250CC1 AZUX222M250CC1
DC
76 x 107
0,09
43
33
35
16
8,8
AZX332M250DC1 AZUX332M250DC1
4700
DF
76 x 147
0,09
30
23
25
21
11,9 AZX472M250DF1 AZUX472M250DF1
6800
DJ
76 x 217
0,09
21
16
17
31
17,3 AZX682M250DJ1 AZUX682M250DJ1
10000
DJ
76 x 217
0,09
14
11
11
38
21,0 AZX103M250DJ1 AZUX103M250DJ1
3300
Pag. 76
250
ITELCOND Aluminium Electrolytic Capacitors
AZ - series
ESR
ESR
Z
Iripple
Iripple
Φxh
TG δ
max
typ.
max
85°C
105°C
100 Hz
100 Hz
10 KHz
100 Hz
100 Hz
(mm)
100 Hz
(mOhm)
(mOhm)
(mOhm)
(A)
(A)
BC
51 x 105
0,07
74
56
62
0,0
5,3
2200
CC
64 x 107
0,07
51
38
42
13,0
7,2
AZX222M350CC1 AZUX222M350CC1
3300
DC
76 x 107
0,07
34
25
28
18,0
9,8
AZX332M350DC1 AZUX332M350DC1
DF
76 x 147
0,07
24
18
20
24,0
13,3
AZX472M350DF1 AZUX472M350DF1
6800
DF
76 x 147
0,07
16
12
20
27,0
14,8
AZX682M350DF1 AZUX682M350DF1
6800
DJ
76 x 217
0,07
16
12
28
35,0
19,4
AZX682M350DJ1 AZUX682M350DJ1
10000
DJ
76 x 217
0,07
11
8
14
42,0
23,5
AZX103M350DJ1 AZUX103M350DJ1
ESR
ESR
Z
Iripple
Iripple
typ.
max
85°C
105°C
CAP
(µF)
Rated
Case
Voltage
Code
(Vn)
1500
4700
CAP
(µF)
350
Φxh
TG δ
max
100 Hz
100 Hz
10 KHz
100 Hz
100 Hz
(mm)
100 Hz
(mOhm)
(mOhm)
(mOhm)
(A)
(A)
BC
51 x 105
0,07
111
84
92
8,0
4,3
Rated
Case
Voltage
Code
(Vn)
1000
1500
CATALOGUE NUMBER
Flat bottom
Mounting stud
AZX152M350BC1 AZUX152M350BC1
CATALOGUE NUMBER
Flat bottom
Mounting stud
AZX102M400BC1 AZUX102M400BC1
CC
64 x 107
0,07
74
56
62
11,0
5,9
AZX152M400CC1 AZUX152M400CC1
DC
76 x 147
0,07
51
38
42
14,0
8,0
AZX222M400DC1 AZUX222M400DC1
3300
DF
76 x 147
0,07
34
25
28
20,0
11,2 AZX332M400DF1 AZUX332M400DF1
4700
DF
76 x 147
0,07
24
18
20
24,0
13,3 AZX472M400DF1 AZUX472M400DF1
6800
DJ
76 x 217
0,07
16
12
14
35,0
19,4 AZX682M400DJ1 AZUX682M400DJ1
ESR
ESR
Z
Iripple
Iripple
Rated
Case
Φxh
TG δ
max
typ.
max
85°C
105°C
Voltage
Code
100 Hz
100 Hz
10 KHz
2200
CAP
(µF)
400
(Vn)
100 Hz 100 Hz
(mm)
100 Hz
(mOhm)
(mOhm)
(mOhm)
(A)
(A)
CATALOGUE NUMBER
Flat bottom
Mounting stud
1000
BC
51 x 105
0,08
127
96
80
8,0
4,3
AZX102M450BC1 AZUX102M450BC1
1500
CC
64 x 107
0,08
85
64
54
11,0
5,9
AZX152M450CC1 AZUX152M450CC1
2200
DC
76 x 107
0,08
58
43
54
14,0
8,0
AZX222M450DC1 AZUX222M450DC1
2200
DF
76 x 147
0,08
58
43
37
16,0
9,1
AZX222M450DF1 AZUX222M450DF1
3300
DF
76 x 147
0,08
39
29
30
20,0
11,2 AZX332M450DF1 AZUX332M450DF1
4700
DJ
76 x 217
0,08
27
20
10
29,0
16,1 AZX472M450DJ1 AZUX472M450DJ1
450
ITELCOND Aluminium Electrolytic Capacitors
Pag. 77
AT - series
AT-/ATU- series
ALUMINIUM ELECTROLYTIC CAPACITORS LONG LIFE GRADE
Series
AT
ATU
Capacitance
range
330-33000
Voltage
range
25 - 350
Temperature
Range
-55°C, +105°C
Case
ΦxH
Applications
35 x 56
76 x 217
Extended temperature range
High surge voltage
High reliability
Telecom, Railways applications
MECHANICAL OUTLINES:
CASE: aluminium made
TERMINALS: standard screw inserts
SEALING: hermetic by beading on a SILICON gasket, housed on a resin that can withstand high temperature without
sensible mechanical or chemical wear-out
PRESSURE RELEASE VENT: made in silicone-rubber
SLEEVE: self-estingushing thermoshrinkable sleeve
SIZE: see enclosed drawings
MOUNTING HARDWARE: see hardware section
SPECIFICATIONS
TEMPERATURE RANGE
CAPACITANCE
CECC 30300
Operating: -55 °C/ +105 °C
IEC 60384 ("long life grade")
DIN 45910 p.128
Climatic Category (IEC 68): 55/105/56
Tolerance shall be within the following limits:
-10% +30% (standard tolerance)
- 20% + 20% (available on request)
LEAKAGE CURRENT:
After the rated voltage has been applied to the capacitor for 5 minutes the leakage current must be:
where
Maximum limit
at 25 °C
If ≤ 1.3 *(C*V)
0,5
Operating limit
at 25 °C:
If ≤1.2 *(C*V)
0,5
If = leakage current (µA)
C= capacitance (µF)
V= rated voltage (V)
IMPORTANT:
1) When using high-capacitance and high-voltage electrolytic capacitors it is important to remember that the inner part (the
rolled section) is not insulated from can: between the negative pole and the aluminium can there is a variable and not defined
resistance essentially due to the electrolyte used in capacitor manufacture.
SURGE VOLTAGE:
Working Voltage
Surge Voltage
ITELCOND Aluminium Electrolytic Capacitors
63
84
100
130
160
215
200
250
250
300
350
425
Pag. 79
AT - series
RIPPLE CURRENT:
the allowable values of ripple current in amperes, are related to temperature and frequency by the formula:
Ir = Kt * Kf * Ir 105
where Ir105 is the limit given by tables, referred to a temperature of 105°C and to a frequency of 100 Hz and Kt or Kf are
values here below tabulated:
°C
40
55
65
75
85
95
105
Kt
2.6
2.5
2.3
2.1
1.8
1.3
1.0
Kf
V≤50
Vn
Hz
50<V≤300
V>300
V≤50
Diameter Code A,B
50
0.82
0.79
50<V≤300
V>300
Diameter Code C,D
0.76
0.86
0.87
0.78
100
1
1
1
1
1
1
120
1.02
1.04
1.04
1.01
1.02
1.05
200
1.08
1.12
1.17
1.03
1.06
1.14
300
1.12
1.16
1.28
1.03
1.08
1.24
400
1.12
1.20
1.26
1.03
1.09
1.31
500
1.15
1.22
1.39
1.03
1.09
1.32
>1000
1.17
1.25
1.47
1.03
1.09
1.41
DIMENSIONS
Insert Screw Thread = M5
Insert Screw Length = 10 mm.
Insert Screw Torque Max. (M5) = 2 Nm.
Screw Torque For Hex Nuts M8 = 4 Nm.
Screw Torque For Hex Nuts M12 = 10 Nm.
CASE
CODE
ΦX L
(mm)
l1
d1
+,-0.5
d2
+,-0.5
h1
e
CASE
CODE
ΦX L
(mm)
l1
d1
+,-0.5
d2
+,-0.5
h1
e
AC
35 X 105
109
8
12
8
12,7
DF
76 x 147
151
13
18
19
31.8
BB
51 x 79
86
13
18
13
22.2
DK
76 x 168
173
13
18
19
31.8
BC
51 x 105
108
13
18
13
22.2
DJ
76 x 217
222
13
18
19
31.8
CC
64x 107
111
13
18
16
28.6
EC
90 x 108
112
17
23
19
31.8
DC
76 x 107
111
13
18
19
31.8
EF
90 x 149
153
17
23
19
31.8
EJ
90 x 222
227
17
23
19
31.8
• STANDARD MOUNTING STUD HARDWARE: - INSULATING PLASTIC WASHERS AND METALLIC NUT
Pag. 80
ITELCOND Aluminium Electrolytic Capacitors
AT - series
EXPECTED LIFE AS A FUNCTION OF TEMPERATURE AND RIPPLE CURRENT
ATX
110
105
100
10000 hr
95
90
18000 hr
Temperature (°C)
85
25000 hr
80
35000 hr
75
70
45000 hr
65
60
70000 hr
55
100000 hr
50
45
200000 hr
240000 hr
>350000 hr
40
35
30
0
0,5
1
1,5
2
2,5
(Ir)T/(Ir) 105°C
Expected life criteria : see introduction
ITELCOND Aluminium Electrolytic Capacitors
Pag. 81
AT - series
ESR
CAP
(µF)
Rated
Case
Voltage
Code
(Vn)
Φxh
(mm)
TG δ
100 Hz
ESR
Z
Iripple
Iripple
max
typ.
max
85°C
105°C
100 Hz
100 Hz
10 KHz
100 Hz
100 Hz
(mOhm)
(mOhm)
(mOhm)
(A)
(A)
CATALOGUE NUMBER
Flat bottom
Mounting stud
4700
AC
35 x 105
0,11
37
28
28
8,8
4,2
ATX472X063AC1 ATUX472X063AC1
6800
BB
51 x 79
0,12
28
21
22
11,0
5,2
ATX682X063BB1 ATUX682X063BB1
ATX103X063BC1 ATUX103X063BC1
10000
BC
51 x 105
0,13
21
16
17
14,3
6,8
15000
CC
64 x 105
0,14
15
11
13
19,1
9,1
ATX153X063CC1 ATUX153X063CC1
22000
DC
76 x 106
0,16
12
9
11
23,8
11,3
ATX223X063DC1 ATUX223X063DC1
33000
DF
76 x 147
0,18
9
7
8
33,3
15,8
ATX333X063DF1 ATUX333X063DF1
ESR
ESR
Z
Iripple
Iripple
CAP
(µF)
63
Rated
Case
Voltage
Code
(Vn)
Φxh
TG δ
max
typ.
max
85°C
105°C
100 Hz
100 Hz
10 KHz
100 Hz
100 Hz
(mm)
100 Hz
(mOhm)
(mOhm)
(mOhm)
(A)
(A)
CATALOGUE NUMBER
Flat bottom
Mounting stud
1000
AB
35 x 79
0,07
111
84
80
4,5
2,1
ATX102X100AB1 ATUX102X100AB1
1500
AB
35 x 79
0,07
74
56
54
5,5
2,6
ATX152X100AB1 ATUX152X100AB1
2200
3300
100
4700
AC
35 x 105
0,07
51
38
37
7,5
3,6
ATX222X100AC1 ATUX222X100AC1
BB
51 x 79
0,08
39
29
30
9,3
4,4
ATX332X100BB1 ATUX332X100BB1
BC
51 x 105
0,08
27
20
21
12,7
6,0
ATX472X100BC1 ATUX472X100BC1
6800
CC
64 x 105
0,08
19
14
15
17,0
8,1
ATX682X100CC1 ATUX682X100CC1
10000
DC
51 x 105
0,10
16
12
13
20,6
9,8
ATX103X100DC1 ATUX103X100DC1
15000
DF
63 x 105
0,10
11
8
9
28,4
13,5
ATX153X100DF1 ATUX153X100DF1
ESR
ESR
Z
Iripple
Iripple
CAP
(µF)
Rated
Case
Voltage
Code
(Vn)
Φxh
(mm)
TG δ
max
typ.
max
85°C
105°C
100 Hz
100 Hz
10 KHz
100 Hz
100 Hz
100 Hz
(mOhm)
(mOhm)
(mOhm)
(A)
(A)
CATALOGUE NUMBER
Flat bottom
Mounting stud
1000
AC
35 x 105
0,07
111
84
81
5,0
2,4
ATX102X160AC1 ATUX102X160AC1
1500
BB
51 x 79
0,07
74
56
54
6,7
3,2
ATX152X160BB1 ATUX152X160BB1
BC
51 x 105
0,08
58
43
37
8,6
4,1
ATX222X160BC1 ATUX222X160BC1
BC
51 x 105
0,08
39
29
30
11,9
5,6
ATX332X160BC1 ATUX332X160BC1
4700
CC
64 x 105
0,08
27
20
21
15,9
7,5
ATX472X160CC1 ATUX472X160CC1
ATX682X160DC1 ATUX682X160DC1
2200
3300
160
6800
DC
76 x 106
0,08
19
14
15
18,9
9,0
10000
DF
76 x 147
0,09
14
11
13
25,2
12,0
ATX103X160DF1 ATUX103X160DF1
15000
DJ
76 x 217
0,19
20
15
10
28,4
13,5
ATX153X160DJ1 ATUX153X160DJ1
ESR
ESR
Z
Iripple
Iripple
Rated
Case
Φxh
TG δ
max
typ.
max
85°C
105°C
Voltage
Code
100 Hz
100 Hz
10 KHz
100 Hz
100 Hz
CAP
(µF)
(Vn)
(mm)
100 Hz
(mOhm)
(mOhm)
(mOhm)
(A)
(A)
CATALOGUE NUMBER
Flat bottom
Mounting stud
680
AC
35 x 105
0,06
141
105
99
4,5
2,1
ATX681X200AC1 ATUX681X200AC1
1000
BB
51 x 79
0,06
96
72
70
5,9
2,8
ATX102X200BB1 ATUX102X200BB1
1500
BB
51 x 79
0,07
74
56
54
6,7
3,2
ATX152X200BB1 ATUX152X200BB1
BC
51 x 105
0,07
51
38
38
9,2
4,4
ATX222X200BC1 ATUX222X200BC1
3300
CC
64 x 105
0,07
34
25
26
12,7
6,0
ATX332X200CC1 ATUX332X200CC1
4700
DC
76 x 106
0,07
24
18
18
16,8
8,0
ATX472X200DC1 ATUX472X200DC1
6800
DF
76 x 147
0,08
19
14
16
21,6
10,3
ATX682X200DF1 ATUX682X200DF1
10000
DJ
76 x 217
0,10
16
12
14
23,5
11,2
ATX103X200DJ1 ATUX103X200DJ1
2200
Pag. 82
200
ITELCOND Aluminium Electrolytic Capacitors
AT - series
CAP
(µF)
Rated
Case
Voltage
Code
(Vn)
ESR
ESR
Z
Iripple
Iripple
Φxh
TG δ
max
typ.
max
85°C
105°C
100 Hz
100 Hz
10 KHz
100 Hz
100 Hz
(mm)
100 Hz
(mOhm)
(mOhm)
(mOhm)
(A)
(A)
CATALOGUE NUMBER
Flat bottom
Mounting stud
680
AC
35 x 105
0,07
164
123
118
4,2
2,0
ATX681X250AC1 ATUX681X250AC1
1000
BB
51 x 105
0,07
111
84
80
5,5
2,6
ATX102X250BB1 ATUX102X250BB1
1500
BC
51 x 105
0,07
74
56
54
7,6
2,6
ATX152X250BC1 ATUX152X250BC1
2200
CC
64 x 105
0,08
58
43
44
9,7
4,6
ATX222X250CC1 ATUX222X250CC1
3300
DC
76 x 106
0,08
39
29
30
13,2
6,3
ATX332X250DC1 ATUX332X250DC1
4700
DF
76 x 147
0,08
27
20
22
18,1
8,6
ATX472X250DF1 ATUX472X250DF1
6800
DJ
76 x 217
0,10
23
18
15
19,6
9,3
ATX682X250DJ1 ATUX682X250DJ1
ESR
ESR
Z
Iripple
Iripple
Rated
Case
Φxh
TG δ
max
typ.
max
85°C
105°C
Voltage
Code
100 Hz
100 Hz
10 KHz
100 Hz
100 Hz
CAP
(µF)
250
(Vn)
(mm)
100 Hz
(mOhm)
(mOhm)
(mOhm)
(A)
(A)
CATALOGUE NUMBER
Flat bottom
Mounting stud
330
AC
35 x 105
0,08
386
290
272
2,7
1,3
ATX331X350AC1 ATUX331X350AC1
470
BB
51 x 105
0,08
271
203
192
3,5
1,7
ATX471X350BB1 ATUX471X350BB1
680
BC
51 x 105
0,08
187
141
132
4,8
2,3
ATX681X350BC1 ATUX681X350BC1
BC
51 x 105
0,08
127
96
90
6,8
2,8
ATX102X350BC1 ATUX102X350BC1
CC
51 x 105
0,08
85
64
62
8,0
3,8
ATX152X350CC1 ATUX152X350CC1
2200
DC
64 x 105
0,08
58
43
43
10,8
5,2
ATX222X350DC1 ATUX222X350DC1
3300
DF
76 x 106
0,08
39
29
30
15,1
7,2
ATX332X350DF1 ATUX332X350DF1
4700
DF
76 x 147
0,08
27
20
23
18,1
8,6
ATX472X350DF1 ATUX472X350DF1
6800
DJ
76 x 217
0,08
19
14
21
21,6
10,3
ATX682X350DJ1 ATUX682X350DJ1
1000
1500
350
ITELCOND Aluminium Electrolytic Capacitors
Pag. 83
SOLDER PIN
CAPACITORS
Ambient Temperature
85 °C
AKS - series
AKS series
ALUMINIUM ELECTROLYTIC CAPACITORS FOR PRINTED WIRING BOARD
Series
AKS
Capacitance
range
100 - 47000
Voltage
range
40 - 450
Case
ΦxH
Temperature
range
-40°C , +85°C
30 x 40
40 x 100
Applications
Solder pin mounting
Industrial applications
MECHANICAL OUTLINES:
CASE: cylindrical aluminium made
TERMINALS: to be soldered, for printed wiring board
SEALING: hermetic by beading on a Rubber Bakelite covers
PRESSURE RELEASE VENT: directly on to the aluminium case
SLEEVE: self-extinguishing thermoshrinkable sleeve
MOUNTING: vertical, by soldering to printed circuit board.
SIZE: see enclosed drawings
SPECIFICATIONS
TEMPERATURE RANGE
CAPACITANCE
CECC 30301-805
Operating: -40 °C/ +85 °C
IEC 60384 ("long life grade")
DIN 40010
Climatic Category (IEC 68): 40/85/56
DIN 41240 / DIN 41238
Tolerance shall be within the following limits:
-20% + 20% (standard tolerance) or
-10% +30% (available on request)
LEAKAGE CURRENT:
After the rated voltage has been applied to the capacitor for 5 minutes the leakage current must be:
where
Maximum limit
at 25 °C
Operating limit
at 25 °C:
If ≤ 0,004 * C * V
If ≤0,002 * C * V
If = leakage current (µA)
C= capacitance (µF)
V= rated voltage (V)
IMPORTANT
When using high-capacitance and high-voltage electrolytic capacitors it is important to remember that the inner part (the rolled
section) is notinsulated from can: between the negative pole and the aluminium can there is a variable and not defined
resistance
essentially due to the electrolyte used in capacitor manufacture.
SURGE VOLTAGE
Working Voltage
25
40
50
63
100
160
200
250
400
420
450
Surge Voltage
29
46
58
73
115
185
230
290
440
460
490
ITELCOND Aluminium Electrolytic Capacitors
Pag. 87
AKS - series
RIPPLE CURRENT:
The allowable values of ripple current in amperes, are related to the temperature and frequency by the formula:
Ir = Kt * Kf * Ir85
Where Ir85 is the limit given by tables, referred to a temperature of 85 °C and to a frequency of 100 Hz and Kt or Kf are values
here below tabulated:
°C
40
50
65
75
85
Kt
2.3
1.9
1.7
1.4
1.0
Hz
Vn
V≤50
50<V≤100
Kf
V>100
50
100
300
400
500
>1KHz
0.90
1.00
1.14
1.18
1.20
1.25
0.88
1.00
1.20
1.25
1.35
1.40
0.88
1.00
1.20
1.25
1.35
1.40
CAPACITORS DIMENSIONS AND DRILLING PLAN OF PRINTED WIRING BOARD
D= 30 / 35 mm.
D= 40 mm.
CASE
CODE
PB
ΦX L
(mm)
(mm)
40 x 40
PE
ΦX L
(mm)
(mm)
40 x 75
PC
40 x 50
PG
40 x 100
CASE
CODE
NC
ΦX L
(mm)
(mm)
35 x 50
NE
35 x 75
CASE
CODE
ΦX L
(mm)
CASE
CODE
MB
30 x 40
NB
35 x 40
• Positive pole marked with << 1 >>
• The terminals marked with "2", "3", "4» are to be considered only as mechanical connections and must be soldered to
insulated pads.
Pag. 88
ITELCOND Aluminium Electrolytic Capacitors
AKS - series
EXPECTED LIFE AS A FUNCTION OF TEMPERATURE AND RIPPLE CURRENT
AKS
90
85
80
5000 hr
Temperature (°C)
75
7000 hr
70
10000 hr
65
60
16000 hr
55
25000 hr
50
120000 hr
45
80000 hr 50000 hr
200000 hr
40
35
30
0
0,5
1
1,5
2
2,5
(Ir)T/(Ir)85°C
Expected life criteria: see introduction
ITELCOND Aluminium Electrolytic Capacitors
Pag. 89
AKS - series
ESR
CAP
(µF)
Rated
Case
Voltage
Code
(Vn)
Φxh
TG δ
ESR
Z
I ripple
I ripple
max
typ
max
55°C
85°C
100Hz
100Hz
10Khz
100Hz
100Hz
(mm)
100Hz
(mOhm)
(mOhm)
(mOhm)
(A)
(A)
CATALOGUE NUMBER
6800
MB
30 x 40
0,18
32
24
30
11,1
5,9
AKS682M040MB1
10000
NB
35 x 40
0,22
26
20
26
13,2
7,0
AKS103M040NB1
NC
35 x 50
0,34
27
20
26
14,1
7,4
AKS153M040NC1
22000
PC
40 x 50
0,40
22
16
21
17,2
9,0
AKS223M040PC1
33000
PE
40 x 75
0,46
17
12
16
22,4
11,8
AKS333M040PE1
47000
PG
40 x 100
0,55
14
10
14
27,8
14,6
AKS473M040PG1
ESR
ESR
Z
I ripple
I ripple
15000
CAP
(µF)
40
Rated
Case
Voltage
Code
(Vn)
Φxh
TG δ
max
typ
max
55°C
85°C
100Hz
100Hz
10Khz
100Hz
100Hz
(A)
(A)
(mm)
100Hz
(mOhm)
(mOhm)
(mOhm)
CATALOGUE NUMBER
4700
MB
30 x 40
0,24
61
46
58
8,0
4,2
AKS472M063MB1
6800
NB
35 x 40
0,24
42
32
40
10,5
5,5
AKS682M063NB1
10000
NC
35 x 50
0,26
31
23
30
13,1
6,9
AKS103M063NC1
PC
40 x 50
0,24
29
21
27
14,9
7,9
AKS103M063PC1
15000
PE
40 x 75
0,29
23
17
22
18,9
10,0
AKS153M063PE1
22000
PG
40 x 100
0,32
17
13
25
25,0
13,1
AKS223M063PG1
ESR
ESR
Z
I ripple
I ripple
typ
max
55°C
85°C
10000
CAP
(µF)
63
Rated
Case
Voltage
Code
(Vn)
Φxh
TG δ
max
100Hz
100Hz
10Khz
100Hz
100Hz
(mm)
100Hz
(mOhm)
(mOhm)
(mOhm)
(A)
(A)
30 x 40
0,09
72
54
58
7,4
3,9
AKS152M100MB1
CATALOGUE NUMBER
1500
MB
2200
NB
35 x 40
0,11
60
45
47
8,9
4,7
AKS222M100NB1
3300
NC
35 x 50
0,11
40
30
31
11,9
6,3
AKS332M100NC1
PC
40 x 50
0,13
33
25
28
13,7
7,2
AKS472M100PC1
6800
PE
40 x 75
0,13
23
17
19
18,9
10,0
AKS682M100PE1
10000
PG
40 x 100
0,13
16
12
13
26,1
13,7
AKS103M100PG1
ESR
ESR
Z
I ripple
I ripple
typ
max
55°C
85°C
4700
CAP
(µF)
100
TG δ
max
100Hz
100Hz
10Khz
100Hz
100Hz
(mm)
100Hz
(mOhm)
(mOhm)
(mOhm)
(A)
(A)
MB
30 x 40
0,09
326
244
252
3,6
1,9
AKS331M200MB1
NB
35 x 40
0,09
229
172
176
4,7
2,5
AKS471M200NB1
Case
Voltage
Code
(Vn)
330
470
680
Φxh
Rated
CATALOGUE NUMBER
NC
35 x 50
0,09
158
119
122
6,2
3,3
AKS681M200NC1
1000
PC
40 x 50
0,09
107
81
82
8,1
4,3
AKS102M200PC1
1500
PE
40 x 75
0,09
72
54
55
11,4
6,0
AKS152M200PE1
2200
PG
40 x 100
0,09
49
37
38
15,7
8,3
AKS222M200PG1
Pag. 90
200
ITELCOND Aluminium Electrolytic Capacitors
AKS - series
ESR
CAP
(µF)
Rated
Case
Voltage
Code
(Vn)
Φxh
TG δ
ESR
Z
I ripple
I ripple
max
typ
max
55°C
85°C
100Hz
100Hz
10Khz
100Hz
100Hz
(mm)
100Hz
(mOhm)
(mOhm)
(mOhm)
(A)
(A)
CATALOGUE NUMBER
220
MB
30 x 40
0,09
489
366
406
3,0
1,6
AKS221M250MB1
330
NB
35 x 40
0,09
326
244
270
4,0
2,1
AKS331M250NB1
470
NC
35 x 50
0,09
229
172
190
5,2
2,7
AKS471M250NC1
PC
40 x 50
0,09
158
119
131
6,7
3,5
AKS681M250PC1
680
250
1000
PE
40 x 75
0,09
107
81
89
9,3
4,9
AKS102M250PE1
1500
PG
40 x 100
0,09
72
54
59
13,0
6,8
AKS152M250PG1
ESR
ESR
Z
I ripple
I ripple
CAP
(µF)
Rated
Case
Voltage
Code
(Vn)
Φxh
TG δ
max
typ
max
55°C
85°C
100Hz
100Hz
10Khz
100Hz
100Hz
(mm)
100Hz
(mOhm)
(mOhm)
(mOhm)
(A)
(A)
CATALOGUE NUMBER
150
MB
30 x 40
0,09
717
537
587
2,5
1,3
AKS151M385MB1
220
NB
35 x 40
0,09
489
366
405
3,2
1,7
AKS221M385NB1
330
NC
35 x 50
0,09
326
244
270
4,3
2,3
AKS331M385NC1
PB
40x 40
0,09
229
172
190
5,6
2,8
AKS471M385PB1
680
PC
40 x 50
0,09
158
119
130
8,6
4,5
AKS681M385PC1
1000
NE
40 x 75
0,09
107
81
130
9,3
4,9
AKS102M385NE1
1000
PE
40 x 75
0,09
107
81
89
10,6
5,6
AKS102M385PE1
1000
PG
40 x 100
0,09
107
81
89
11,0
5,8
AKS102M385PG1
1500
PG
40 x 100
0,09
72
54
66
12,4
6,5
AKS152M385PG1
ESR
ESR
Z
I ripple
I ripple
Rated
Case
Φxh
TG δ
max
typ
max
55°C
85°C
Voltage
Code
100Hz
100Hz
10Khz
100Hz
100Hz
470
CAP
(µF)
385
(Vn)
(mm)
100Hz
(mOhm)
(mOhm)
(mOhm)
(A)
(A)
CATALOGUE NUMBER
150
MB
30 x 40
0,09
717
537
587
2,5
1,3
AKS151M400MB1
220
NB
35 x 40
0,09
489
366
405
3,2
1,7
AKS221M400NB1
330
NC
35 x 50
0,09
326
244
270
4,3
2,3
AKS331M400NC1
PB
40x 40
0,09
229
172
190
5,6
2,8
AKS471M400PB1
PC
40 x 50
0,09
158
119
130
8,6
4,5
AKS681M400PC1
1000
NE
40 x 75
0,09
107
81
130
9,3
4,9
AKS102M400NE1
1000
PE
40 x 75
0,09
107
81
89
10,6
5,6
AKS102M400PE1
1000
PG
40 x 100
0,09
107
81
89
11,0
5,8
AKS102M400PG1
1500
PG
40 x 100
0,09
72
54
66
12,4
6,5
AKS152M400PG1
470
680
400
ITELCOND Aluminium Electrolytic Capacitors
Pag. 91
AKS - series
ESR
CAP
(µF)
Rated
Case
Voltage
Code
(Vn)
Φxh
TG δ
ESR
Z
I ripple
I ripple
max
typ
max
55°C
85°C
100Hz
100Hz
10Khz
100Hz
100Hz
(mm)
100Hz
(mOhm)
(mOhm)
(mOhm)
(A)
(A)
CATALOGUE NUMBER
150
MB
30 x 40
0,09
717
537
587
2,5
1,3
AKS151M420MB1
220
NB
35x 40
0,09
489
366
405
3,2
1,7
AKS221M420NB1
330
NC
35 x 50
0,09
326
244
270
4,3
2,3
AKS331M420NC1
680
PC
40 x 50
0,09
158
119
118
7,4
3,9
AKS681M420PC1
NE
35 x 75
0,09
107
81
130
8,2
4,3
AKS102M420NE1
1000
420
1000
PE
40 x 75
0,09
107
81
130
8,9
4,7
AKS102M420PE1
1000
PG
40 x 100
0,09
107
81
89
10,6
5,6
AKS102M420PG1
1500
PG
40 x 100
0,09
72
54
66
12,4
6,5
AKS152M420PG1
ESR
ESR
Z
I ripple
I ripple
CAP
(µF)
Rated
Case
Voltage
Code
(Vn)
Φxh
TG δ
max
typ
max
55°C
85°C
100Hz
100Hz
10Khz
100Hz
100Hz
(mm)
100Hz
(mOhm)
(mOhm)
(mOhm)
(A)
(A)
CATALOGUE NUMBER
100
MB
30 x 40
0,10
1194
896
869
1,9
1,0
AKS101M450MB1
150
NB
35 x 40
0,10
796
597
579
2,6
1,3
AKS151M450NB1
220
NC
35 x 50
0,10
543
407
394
3,4
1,8
AKS221M450NC1
330
NC
35 x 50
0,10
362
271
263
4,1
2,2
AKS331M450NC1
330
PC
40 x 50
0,10
362
271
263
4,5
2,3
AKS331M450PC1
470
NC
35 x 50
0,10
254
191
185
4,9
2,6
AKS471M450NC1
470
PC
40 x 50
0,10
254
191
185
5,3
2,8
AKS471M450PC1
680
NE
35 x 75
0,10
176
132
139
6,5
3,4
AKS681M450NE1
680
PE
40 x 75
0,10
176
132
127
7,3
3,8
AKS681M450PE1
1000
PE
40 x 75
0,10
119
90
108
8,2
4,3
AKS102M450PE1
1000
PG
40 x 100
0,10
119
90
94
9,7
5,1
AKS102M450PG1
1500
PG
40 x 100
0,10
80
60
80
11,2
5,8
AKS152M450PG1
Pag. 92
450
ITELCOND Aluminium Electrolytic Capacitors
ACC - ACS series
ACC - ACS series
ALUMINIUM ELECTROLYTIC CAPACITORS FOR PRINTED WIRING BOARD
Series
ACC
ACS
Capacitance
range
Voltage
range
150 - 33000
25 - 500
Case
ΦxH
Temperature
range
-40°C , +85°C
Applications
30 x 40
45 x 100
Snap-in type, 2-4 pins configuration
Solder pin mounting
Industrial applications
MECHANICAL OUTLINES
CASE: cylindrical aluminium made
TERMINALS: to be soldered, for printed wiring board (type SNAP-IN)
SEALING: hermetic by beading on a Rubber-Bakelite cover
PRESSURE RELEASE VENT: directly on to the aluminium case
SLEEVE: self-extinguishing thermoshrinkable sleeve
MOUNTING: vertical, by soldering to printed circuit board.
SIZE: see enclosed drawings
SPECIFICATIONS
TEMPERATURE RANGE
CAPACITANCE
CECC 30300
Operating: -40 °C/ +85 °C
IEC 60384 ("long life grade")
MIL C62D
Climatic Category : 40/85/56
DIN 41240 / DIN 45910
Tolerance shall be within the following limits:
-20% + 20% (standard tolerance) or
-10% +30% (available on request)
LEAKAGE CURRENT:
After the rated voltage has been applied to the capacitor for 5 minutes the leakage current must be:
where
Maximum limit
at 25 °C
Operating limit
at 25 °C:
If ≤ 0,004 * C * V
If ≤0,002 * C * V
If = leakage current (µA)
C= capacitance (µF)
V= rated voltage (V)
IMPORTANT
When using high-capacitance and high-voltage electrolytic capacitors it is important to remember that the inner part (the rolled
section) is not insulated from can: between the negative pole and the aluminium can there is a variable and not defined
resistance
essentially due to the electrolyte used in capacitor manufacture.
SURGE VOLTAGE
Working Voltage
25
40
63
100
160
200
250
350
385
400
420 450 500
Surge Voltage
29
46
73
115
185
230
290
385
415
440
460 490 525
ITELCOND Aluminium Electrolytic Capacitors
Pag. 93
ACC - ACS series
RIPPLE CURRENT
The allowable values of ripple current in amperes, are related to the temperature and frequency by the formula:
Ir = Kt * Kf * Ir85
where Ir85 is the limit given by tables, referred to a temperature of 85 °C and to a frequency of 100 Hz and Kt or Kf are
values here below tabulated:
°C
40
50
65
75
85
Kt
2.3
1.9
1.7
1.4
1.0
HZ
50
100
300
400
500
>1KHZ
V≤50
0.90
1.00
1.14
1.18
1.20
1.25
50<V≤100
0.88
1.00
1.20
1.25
1.35
1.40
0.88
1.00
1.20
1.25
1.35
1.40
Vn
V>100
Kf
CAPACITORS DIMENSIONS AND DRILLING PLAN OF PRINTED WIRING BOARD
ACC SERIES
ACS SERIES ( D =35 / 40 / 45 mm )
CASE
CODE
Φx l
(mm)
CASE
CODE
Φx l
(mm)
CASE
CODE
Φx l
(mm)
MB
30 x 40
NN
35 x 60
PN
40 x 60
QE
45 x 75
MC
30 x 50
NE
35 x 75
PG
40 x 100
QG
45 x 100
NB
35 x 40
PB
40 x 40
QC
45 x 50
NC
35 x 50
PC
40 x 50
QN
45 X 60
CASE
CODE
Φx l
(mm)
The unconnected pins serve as mountings and must be soldered to insulated pads
Pag. 94
ITELCOND Aluminium Electrolytic Capacitors
ACC - ACS series
EXPECTED LIFE AS A FUNCTION OF TEMPERATURE AND RIPPLE CURRENT
ACC/ACS
90
85
80
5000 hr
Temperature (°C)
75
7000 hr
70
10000 hr
65
60
16000 hr
55
25000 hr
50
120000 hr
45
50000 hr
200000 hr
40
80000 hr
35
30
0
0,5
1
1,5
(Ir)T/(Ir)85°C
2
2,5
Expected life criteria: see introduction
ITELCOND Aluminium Electrolytic Capacitors
Pag. 95
ACC - ACS series
CAP
(µF)
Rated
Case
Voltage
Code
(Vn)
10000
MB
15000
ESR
ESR
Z
I ripple
I ripple
typ
max
55°C
85°C
Φxh
TG δ
max
100Hz
100Hz
10Khz
100Hz
100Hz
(mm)
100Hz
(mOhm)
(mOhm)
(mOhm)
(A)
(A)
30 x 40
0,28
36
27
29
10,7
5,6
ACC103M025MB1
CATALOGUE NUMBER
2 mounting pins
4 mounting pins
MC
30 x 50
0,32
27
20
22
13,5
7,1
ACC153M025MC1
NB
35 x 40
0,38
32
24
26
13,4
7,1
ACC153M025NB1 ACS153M025NB1
22000
NC
35 x 50
0,48
28
21
19
14,5
7,6
ACC223M025NC1 ACS223M025NC1
33000
PC
40 x 50
0,60
23
17
18
17,2
9,0
ACC333M025PC1 ACS333M025PC1
ESR
ESR
Z
I ripple
I ripple
Rated
Case
Φxh
TG δ
max
typ
max
55°C
85°C
Voltage
Code
100Hz
100Hz
10Khz
100Hz
100Hz
15000
CAP
(µF)
25
(Vn)
(mm)
100Hz
(mOhm)
(mOhm)
(mOhm)
(A)
(A)
CATALOGUE NUMBER
2 mounting pins
6800
MB
30 x 40
0,30
56
42
40
8,4
4,4
ACC682M040MB1
10000
MC
30 x 50
0,32
41
31
28
11
5,8
ACC103M040MC1
10000
4 mounting pins
NB
35 x 40
0,36
46
34
32
11,3
6
ACC103M040NB1 ACS103M040NB1
15000
NC
35 x 50
0,36
31
23
21
13,9
7,3
ACC153M040NC1 ACS153M040NC1
22000
PC
40 x 50
0,48
28
21
19
15,7
8,3
ACC223M040PC1 ACS223M040PC1
ESR
ESR
Z
I ripple
I ripple
Rated
Case
Φxh
TG δ
max
typ
max
55°C
85°C
Voltage
Code
100Hz
100Hz
10Khz
100Hz
100Hz
(mm)
100Hz
(mOhm)
(mOhm)
(mOhm)
(A)
(A)
CAP
(µF)
40
(Vn)
CATALOGUE NUMBER
2 mounting pins
4 mounting pins
4700
MB
30 x 40
0,21
57
43
46
8,5
4,5
ACC472M063MB1
6800
MC
30 x 50
0,21
39
30
32
11,2
5,9
ACC682M063MC1
NB
35 x 40
0,24
45
34
37
11,4
6
ACC682M063NB1 ACS682M063NB1
10000
NC
35 x 50
0,24
31
23
25
13,9
7,3
ACC103M063NC1 ACS103M063NC1
12000
PC
40 x 50
0,29
31
23
25
15
7,9
ACC123M063PC1 ACS123M063PC1
15000
PE
40 x 75
0,29
25
18
21
23,2
12,2
ACS153M063PE1
22000
PG
40 x 100
0,29
17
13
21
26
13,8
ACS223M063PG1
ESR
ESR
Z
I ripple
I ripple
Rated
Case
Φxh
TG δ
max
typ
max
55°C
85°C
Voltage
Code
100Hz
100Hz
10Khz
100Hz
100Hz
(mm)
100Hz
(mOhm)
(mOhm)
(mOhm)
(A)
(A)
6800
CAP
(µF)
63
(Vn)
CATALOGUE NUMBER
2 mounting pins
4 mounting pins
1500
MB
30 x 40
0,09
76
57
66
7,1
3,7
ACC152M100MB1
2200
MC
30 x 50
0,10
58
43
57
8,4
4,4
ACC222M100MC1
2200
NB
35 x 40
0,11
64
48
57
9,2
4,8
ACC222M100NB1 ACS222M100NB1
NC
35 x 50
0,12
46
35
38
11,3
5,9
ACC332M100NC1 ACS332M100NC1
4700
NC
35 x 50
0,12
33
24
26
13,4
7,1
ACC472M100NC1 ACS472M100NC1
5600
NC
35 x 50
0,12
27
20
32
14,7
7,7
ACC562M100NC1 ACS562M100NC1
6800
PE
40 x 75
0,12
22
17
26
24,2
12,7
ACS682M100PE1
10000
PG
40 x 100
0,12
15
11
26
25,8
13,8
ACS103M100PG1
3300
Pag. 96
100
ITELCOND Aluminium Electrolytic Capacitors
ACC - ACS series
CAP
(µF)
Rated
Case
Voltage
Code
(Vn)
470
MB
ESR
ESR
Z
I ripple
I ripple
typ
max
55°C
85°C
Φxh
TG δ
max
100Hz
100Hz
10Khz
100Hz
100Hz
(mm)
100Hz
(mOhm)
(mOhm)
(mOhm)
(A)
(A)
30 x 40
0,08
217
163
176
4,7
2,5
ACC471M200MB1
CATALOGUE NUMBER
2 mounting pins
4 mounting pins
680
MB
30 x 40
0,08
150
112
122
5,7
3
ACC681M200MB1
1000
MC
30 x 50
0,08
102
76
82
7,6
4
ACC102M200MC1
1000
NB
35 x 40
0,08
102
76
82
8,3
4,4
ACC102M200NB1 ACS102M200NB1
1200
NB
35 x 40
0,08
85
64
80
9,1
4,8
ACC122M200NB1 ACS122M200NB1
NC
35 x 50
0,08
68
51
56
10,1
5,3
ACC152M200NC1 ACS152M200NC1
1800
NC
35 x 50
0,08
57
42
56
11,1
5,8
ACC182M200NC1 ACS182M200NC1
2200
PG
40 x 100
0,08
46
35
38
14,8
7,8
ACC222M200PG1 ACS222M200PG1
3300
PG
40 x 100
0,08
31
23
38
22,5
11,8
ACS332M200PG1
2200
QC
45 x 50
0,08
46
35
38
14,2
7,5
ACS222M200QC1
3300
QE
45 x 75
0,08
31
23
38
20,7
10,9
ACS332M200QE1
4700
QG
45 x 100
0,08
22
16
38
28,6
15,1
ACS472M200QG1
ESR
ESR
Z
I ripple
I ripple
Rated
Case
Φxh
TG δ
max
typ
max
55°C
85°C
Voltage
Code
100Hz
100Hz
10Khz
100Hz
100Hz
(mm)
100Hz
(mOhm)
(mOhm)
(mOhm)
(A)
(A)
1500
CAP
(µF)
200
(Vn)
CATALOGUE NUMBER
2 mounting pins
4 mounting pins
470
MB
30 x 40
0,08
217
163
190
4,7
2,5
ACC471M250MB1
680
MC
30 x 50
0,08
150
112
131
6,3
3,3
ACC681M250MC1
680
NB
35 x 40
0,08
150
112
131
6,8
3,6
ACC681M250NB1 ACS681M250NB1
1000
NB
35 x 40
0,08
102
76
120
8,3
4,4
ACC102M250NB1 ACS102M250NB1
NC
35 x 50
0,08
102
76
89
8,3
4,4
ACC102M250NC1 ACS102M250NC1
2200
NE
35 x 75
0,08
46
35
89
14,7
7,7
ACC222M250NE1 ACS222M250NE1
1500
PC
40 x 50
0,08
68
51
59
11
5,8
ACC152M250PC1 ACS152M250PC1
2200
PG
40 x 100
0,08
46
35
38
18,4
9,7
ACS222M250PG1
1000
250
ITELCOND Aluminium Electrolytic Capacitors
Pag. 97
ACC - ACS series
ESR
CAP
Rated
Case
Voltage
Code
(µF)
(Vn)
Φxh
TG δ
ESR
Z
I ripple
I ripple
max
typ
max
55°C
85°C
100Hz
100Hz
10Khz
100Hz
100Hz
CATALOGUE NUMBER
2 mounting pins
(mm)
100Hz
(mOhm)
(mOhm)
(mOhm)
(A)
(A)
463
347
406
3,2
1,7
ACC221M385MB1
4 mounting pins
220
MB
30 x 40
0,08
330
MB
30 x 40
0,08
309
232
270
4
2,1
ACC331M385MB1
330
MC
30 x 50
0,08
309
232
270
4,4
2,3
ACC331M385MC1
470
MC
30 x 50
0,08
217
163
190
5,2
2,7
ACC471M385MC1
470
NB
35 x 40
0,08
217
163
190
5,7
2,8
ACC471M385NB1 ACS471M385NB1
470
NC
35 x 50
0,08
217
163
170
5,7
3
ACC471M385NC1 ACS471M385NC1
560
NC
35 x 50
0,08
182
136
143
6,2
3,3
ACC561M385NC1 ACS561M385NC1
NC
35 x 50
0,08
150
112
120
6,8
3,6
ACC681M385NC1 ACS681M385NC1
1000
NN
35 x 60
0,08
102
76
118
9
4,7
ACC102M385NN1 ACS102M385NN1
1200
NE
35 x 75
0,08
85
64
98
10,8
5,7
ACC122M385NE1 ACS122M385NE1
470
PB
40 x 40
0,08
217
163
82
5,6
3,3
ACC471M385PB1 ACS471M385PB1
680
385
680
PC
40 x 50
0,08
150
112
63
7,4
3,9
ACC681M385PC1 ACS681M385PC1
1000
PE
40 x 75
0,08
100
75
63
10,6
5,6
ACS102M385PE1
1500
PG
40 x 100
0,08
90
68
63
15,2
8
ACS152M385PG1
1000
QC
45 x 50
0,08
85
64
63
9,6
5
ACS102M385QC1
1500
QE
45 x 75
0,08
85
64
63
13,9
7,3
ACS152M400QE1
2200
QG
45 x 100
0,08
85
64
63
19,6
10,3
ACS222M400QG1
CAP
Rated
Case
Voltage
Code
(µF)
(Vn)
Φxh
TG δ
ESR
ESR
Z
I ripple
I ripple
max
typ
max
55°C
85°C
100Hz
100Hz
10Khz
100Hz
100Hz
(mm)
100Hz
(mOhm)
(mOhm)
(mOhm)
(A)
(A)
CATALOGUE NUMBER
2 mounting pins
4 mounting pins
220
MB
30 x 40
0,08
463
347
406
3,2
1,7
ACC221M400MB1
330
MB
30 x 40
0,08
309
232
270
4
2,1
ACC331M400MB1
330
MC
30 x 50
0,08
309
232
270
4,4
2,3
ACC331M400MC1
470
MC
30 x 50
0,08
217
163
190
5,2
2,7
ACC471M400MC1
470
NB
35 x 40
0,08
217
163
190
5,7
2,8
ACC471M400NB1 ACS471M400NB1
470
NC
35 x 50
0,08
217
163
170
5,7
3
ACC471M400NC1 ACS471M400NC1
560
NC
35 x 50
0,08
182
136
143
6,2
3,3
ACC561M400NC1 ACS561M400NC1
NC
35 x 50
0,08
150
112
120
6,8
3,6
ACC681M400NC1 ACS681M400NC1
NN
35 x 60
0,08
102
76
118
9
4,7
ACC102M400NN1 ACS102M400NN1
1200
NE
35 x 75
0,08
85
64
98
10,8
5,7
ACC122M400NE1 ACS122M400NE1
470
PB
40 x 40
0,08
217
163
82
5,6
3,3
ACC471M400PB1 ACS471M400PB1
680
PC
40 x 50
0,08
150
112
63
7,4
3,9
ACC681M400PC1 ACS681M400PC1
1000
PE
40 x 75
0,08
100
75
63
10,6
5,6
ACS102M400PE1
1500
PG
40 x 100
0,08
90
68
63
15,2
8
ACS152M400PG1
1000
QC
45 x 50
0,08
85
64
63
9,6
5
ACS102M400QC1
680
1000
400
1500
QE
45 x 75
0,08
85
64
63
13,9
7,3
ACS152M400QE1
2200
QG
45 x 100
0,08
85
64
63
19,6
10,3
ACS222M400QG1
Pag. 98
ITELCOND Aluminium Electrolytic Capacitors
ACC - ACS series
CAP
(µF)
Rated
Case
Voltage
Code
(Vn)
ESR
ESR
Z
I ripple
I ripple
typ
max
55°C
85°C
Φxh
TG δ
max
100Hz
100Hz
10Khz
100Hz
100Hz
(mm)
100Hz
(mOhm)
(mOhm)
(mOhm)
(A)
(A)
CATALOGUE NUMBER
2 mounting pins
4 mounting pins
150
MB
30 x 40
0,08
679
510
190
1,8
1,8
ACC151M420MB1
220
NB
35 x 40
0,08
463
347
190
3,2
1,7
ACC221M420NB1
330
MC
30 x 50
0,08
309
232
190
4,4
2,3
ACC331M420MC1
470
NC
35 x 50
0,08
217
163
170
5,7
3
ACC471M420NC1 ACS471M420NC1
NE
35 x 75
0,08
102
76
130
9
4,7
ACC102M420NE1 ACS102M420NE1
PC
40 x 50
0,08
150
112
190
7,4
3,9
ACC681M420PC1
1000
PE
40 x 75
0,08
102
76
130
10,6
5,6
ACS102M420PE1
1000
PG
40 x 100
0,08
102
76
89
10,8
5,8
ACS102M420PG1
1500
PG
40 x 100
0,08
68
51
89
15,2
8
ACS152M420PG1
ESR
ESR
Z
I ripple
I ripple
typ
max
55°C
85°C
1000
680
CAP
(µF)
420
Rated
Case
Voltage
Code
(Vn)
Φxh
TG δ
max
100Hz
100Hz
10Khz
100Hz
100Hz
(mm)
100Hz
(mOhm)
(mOhm)
(mOhm)
(A)
(A)
ACS681M420PC1
CATALOGUE NUMBER
2 mounting pins
4 mounting pins
150
MB
30 x 40
0,08
679
510
631
2,4
1,3
ACC151M450MB1
220
MB
30 x 40
0,08
463
347
430
3
1,6
ACC221M450MB1
330
MC
30 x 50
0,08
309
232
286
4
2,1
ACC331M450MC1
330
NB
35 x 40
0,08
309
232
286
4,3
2,3
ACC331M450NB1 ACS331M450NB1
470
NC
35 x 50
0,08
217
163
185
6,3
3,3
ACC471M450NC1 ACS471M450NC1
680
NN
35 x 50
0,08
150
112
155
7,4
3,9
ACC681M450NN1 ACS681M450NN1
NE
35 x 75
0,08
124
93
128
8,5
4,5
ACC821M450NE1
ACS821M450NE1
820
450
680
PC
40 x 50
0,08
150
112
128
7
3,7
ACC681M450PC1
ACS681M450PC1
1000
PE
40 x 75
0,08
102
76
128
9,7
5,1
ACC102M450PE1
ACS102M450PE1
1500
PG
40 x 100
0,08
68
51
128
13,8
7,3
ACS152M450PG1
820
QC
45 x 50
0,08
124
93
128
7,9
4,2
ACS821M450QC1
1200
QE
45 x 75
0,08
85
64
128
11,4
6
ACS122M450QE1
1800
QG
45 x 100
0,08
57
42
128
16,2
8,5
ACS182M450QG1
2200
QG
45 x 100
0,08
46
35
128
18,2
10,5
ACS222M450QG1
Z
I ripple
I ripple
ESR
CAP
(µF)
Rated
Case
Voltage
Code
(Vn)
Φxh
TG δ
ESR
max
typ
max
55°C
85°C
100Hz
100Hz
10Khz
100Hz
100Hz
CATALOGUE NUMBER
2 mounting pins
4 mounting pins
(mm)
100Hz
(mOhm)
(mOhm)
(mOhm)
(A)
(A)
30 x 40
0,15
1274
955
790
1,5
0,8
ACC151M500MB1
MC
30 x 50
0,15
869
651
538
2
1,1
ACC221M500MC1
NB
35 x 40
0,15
869
651
538
2
1,1
ACC221M500NB1
ACS221M500NB1
330
NC
35 x 50
0,15
579
434
359
2,7
1,5
ACC331M500NC1
ACS331M500NC1
470
PC
40 x 50
0,15
407
305
252
3,6
2
ACC471M500PC1
ACS471M500PC1
680
PG
40 x 100
0,15
281
211
192
6,9
3,7
150
MB
220
220
500
ITELCOND Aluminium Electrolytic Capacitors
ACS681M500PG1
Pag. 99
APK - APC - APS series
APK / APC / APS series
ALUMINIUM ELECTROLYTIC CAPACITORS FOR PRINTED WIRING BOARD
Series
AP
Capacitance range
Voltage range
470 - 2200
Temperature range
400-500
Case (Φ x H)
30 x40
45 x 100
-40°C , +85°C
Applications
Solder pin mounting, solar, wind
application
MECHANICAL OUTLINES:
CASE: cylindrical aluminium made
TERMINALS: to be soldered, for printed wiring board
SEALING: hermetic by beading on a Rubber Bakelite covers
PRESSURE RELEASE VENT: directly on to the aluminium case
SLEEVE: self-extinguishing thermoshrinkable sleeve
MOUNTING: vertical, by soldering to printed circuit board.
SIZE: see enclosed drawings
SPECIFICATIONS
TEMPERATURE RANGE
CECC 30301-805
IEC 60384 ("longlife grade")
DIN 40010
DIN 41240 / DIN 41238
CAPACITANCE
Tolerance shall be within the following limits:
-20% + 20% (standard tolerance) or
-10% +30% (available on request)
Operating: -40 °C/ +85 °C
Climatic Category (IEC 68): 40/85/56
LEAKAGE CURRENT:
After the rated voltage has been applied to the capacitor for 5 minutes the leakage current must be:
where
Maximum limit
at 25 °C
Operating limit
at 25 °C:
If ≤ 0,004 * C * V
If ≤0,002 * C * V
If = leakage current (µA)
C= capacitance (µF)
V= rated voltage (V)
IMPORTANT
When using high-capacitance and high-voltage electrolytic capacitors it is important to remember that the inner part (the rolled
section) is notinsulated from can: between the negative pole and the aluminium can there is a variable and not defined
resistance
essentially due to the electrolyte used in capacitor manufacture.
SURGE VOLTAGE
Working Voltage
385
400 420 450 500
Surge Voltage
415
440 460 490 525
RIPPLE CURRENT:
The allowable values of ripple current in amperes, are related to the temperature and frequency by the formula:
Ir = Kt * Kf * Ir85
Where Ir85 is the limit given by tables, referred to a temperature of 85 °C and to a frequency of 100 Hz and Kt or Kf are values
here below tabulated:
Vn
°C
40
50
65
75
85
Kt
2.3
1.9
1.7
1.4
1.0
Hz
V≤50
50<V≤100
V>100
Kf
50
100
300
400
500
>1KHz
0.90
1.00
1.14
1.18
1.20
1.25
0.88
1.00
1.20
1.25
1.35
1.40
0.88
1.00
1.20
1.25
1.35
1.40
ITELCOND Aluminium Electrolytic Capacitors
Pag. 101
APK - APC - APS series
APK
CAPACITORS DIMENSIONS AND DRILLING PLAN OF PRINTED WIRING BOARD
D= 30 / 35 mm.
•
•
•
D= 40 mm.
Positive pole marked with << 1 >>
The terminals marked with "2", "3", "4» are to be considered only as mechanical connections and must be soldered to
insulated pads.
Pag. 102
CASE
CODE
Φx l
(mm)
CASE
CODE
Φx l
(mm)
CASE
CODE
Φx l
(mm)
CASE
CODE
Φx l
(mm)
MB
30 x 40
NN
35 x 60
PN
40 x 60
QE
45 x 75
MC
30 x 50
NE
35 x 75
PG
40 x 100
QG
45 x 100
NB
35 x 40
PB
40 x 40
QC
45 x 50
NC
35 x 50
PC
40 x 50
QN
45 X 60
ITELCOND Aluminium Electrolytic Capacitors
APK - APC - APS series
APC / APS
CAPACITORS DIMENSIONS AND DRILLING PLAN OF PRINTED WIRING BOARD
APC SERIES
APS SERIES
•
( D =35 / 40 / 45 mm )
The unconnected pins serve as mountings and must be soldered to insulated pads
CASE
CODE
Φx l
(mm)
CASE
CODE
Φx l
(mm)
CASE
CODE
Φx l
(mm)
CASE
CODE
Φx l
(mm)
MB
30 x 40
NN
35 x 60
PN
40 x 60
QE
45 x 75
MC
30 x 50
NE
35 x 75
PG
40 x 100
QG
45 x 100
NB
35 x 40
PB
40 x 40
QC
45 x 50
NC
35 x 50
PC
40 x 50
QN
45 X 60
ITELCOND Aluminium Electrolytic Capacitors
Pag. 103
APK - APC - APS series
EXPECTED LIFE AS A FUNCTION OF TEMPERATURE AND RIPPLE CURRENT
APK / APC / APS
90
85
8000 hr
80
Temperature (°C)
75
12000 hr
70
65
16000 hr
60
28000 hr
55
50
38000 hr
45
170000 hr
40
70000 hr
35
30
0
0,5
1
1,5
2
2,5
3
(Ir)T/(Ir)85 °C
Expected life criteria: see introduction
Pag. 104
ITELCOND Aluminium Electrolytic Capacitors
APK - APC - APS series
APK
CAP
(µF)
Rated
Case
Voltage
Code
(Vn)
ESR
ESR
Z
I ripple
I ripple
typ
max
55°C
85°C
Φxh
TG δ
max
100Hz
100Hz
10Khz
100Hz
100Hz
(mm)
100Hz
(mOhm)
(mOhm)
(mOhm)
(A)
(A)
0,1
282
268
311
4,3
2,3
APK471M400NC1
CATALOGUE NUMBER
470
NC
35 x 50
560
NN
35 x 60
0,1
237
225
261
5,1
2,7
APK561M400NN1
820
NE
35 x 75
0,1
162
154
178
6,9
3,7
APK821M400PC1
PB
40 x 40
0,1
195
185
215
4,8
2,5
APK681M400PB1
820
PC
40 x 50
0,1
162
154
178
6,2
3,3
APK821M400PC1
1200
PE
40 x 75
0,1
111
105
122
8,9
4,8
APK122M400PE1
1800
PG
40 x 100
0,1
74
70
81
12,4
6,7
APK182M400PG1
ESR
ESR
Z
I ripple
I ripple
typ
max
55°C
85°C
680
CAP
(µF)
400
Rated
Case
Voltage
Code
(Vn)
Φxh
TG δ
max
100Hz
100Hz
10Khz
100Hz
100Hz
(mm)
100Hz
(mOhm)
(mOhm)
(mOhm)
(A)
(A)
CATALOGUE NUMBER
420 WVDC ONLY ON REQUEST
ESR
CAP
(µF)
Rated
Case
Voltage
Code
(Vn)
Φxh
TG δ
ESR
Z
I ripple
I ripple
max
typ
max
55°C
85°C
100Hz
100Hz
10Khz
100Hz
100Hz
(mm)
100Hz
(mOhm)
(mOhm)
(mOhm)
(A)
(A)
CATALOGUE NUMBER
390
NC
35 x 50
0,12
408
388
449
3,3
1,8
APK391M450NC1
470
NN
35 x 60
0,12
339
322
373
3,9
2,1
APK471M450NN1
0,12
234
222
258
5,2
2,8
APK681M450NE1
680
NE
35 x 75
PB
40 x 40
0,12
339
322
373
3,3
1,8
APK471M450PB1
680
PC
40 x 50
0,12
234
222
258
4,7
2,5
APK681M450PC1
1000
PE
40 x 75
0,12
194
184
214
6,2
3,3
APK102M450PE1
1500
PG
40 x 100
0,12
106
101
117
9,5
5,1
APK152M450PG1
ESR
ESR
Z
I ripple
I ripple
470
CAP
(µF)
450
Rated
Case
Voltage
Code
(Vn)
Φxh
TG δ
max
typ
max
55°C
85°C
100Hz
100Hz
10Khz
100Hz
100Hz
CATALOGUE NUMBER
(mm)
100Hz
(mOhm)
(mOhm)
(mOhm)
(A)
(A)
0,12
483
458
531
2,8
1,5
APK331M500NC1
330
NC
35 x 50
390
NN
35 x 60
0,12
408
388
449
3,2
1,7
APK391M500NN1
560
NE
35 x 75
0,12
284
270
313
4,3
2,3
APK561M500NE1
PC
40 x 50
0,12
339
322
373
3,3
1,8
APK471M500PC1
680
470
PE
40 x 75
0,12
234
222
258
5,1
2,7
APK681M500PE1
1000
PG
40 x 100
0,12
159
151
175
21,3
11,4
APK102M500PG1
500
ITELCOND Aluminium Electrolytic Capacitors
Pag. 105
APK - APC - APS series
APC / APS
ESR
CAP
(µF)
Rated
Case
Voltage
Code
Φxh
(Vn)
TG δ
ESR
Z
I ripple
I ripple
max
typ
max
55°C
85°C
100Hz
100Hz
10Khz
100Hz
100Hz
(mm)
100Hz
(mOhm)
(mOhm)
(mOhm)
(A)
(A)
CATALOGUE NUMBER
2 mounting pins
4 mounting pins
330
MB
30 x 40
0,1
402
382
442
3,0
1,6
APC331M400MB1
390
MC
30 x 50
0,1
340
323
374
3,3
1,8
APC391M400MC1
470
NC
35 x 50
0,1
282
268
311
4,3
2,3
APC471M400NC1 APS471M400NC1
560
NN
35 x 60
0,1
237
225
261
4,7
2,5
APC561M400NN1 APS561M400NN1
820
NE
35 x 75
0,1
162
154
178
6,9
3,7
APC821M400NE1 APS821M400NE1
PB
40 x 40
0,1
195
185
215
5,2
2,8
APS681M400PB1
820
PC
40 x 50
0,1
162
154
178
6,2
3,3
APS821M400PC1
1000
PE
40 x 75
0,1
133
126
146
8,2
4,4
APS102M400PE1
0,1
74
70
81
12,4
6,7
APS182M400PG1
680
400
1800
PG
40 x 100
1000
QC
45 x 50
0,1
133
126
146
5473,4
3,9
APS102M400QC1
1500
QE
45 x 75
0,1
88
84
97
10,7
5,7
APS152M400QE1
2200
QG
45 x 100
0,1
60
57
66
14,7
7,8
APS222M400QG1
CAP
(µF)
Rated
Case
Voltage
Code
(Vn)
Φxh
TG δ
(mm)
100Hz
ESR
ESR
Z
I ripple
I ripple
max
typ
max
55°C
85°C
100Hz
100Hz
10Khz
100Hz
100Hz
(mOhm)
(mOhm)
(mOhm)
(A)
(A)
CATALOGUE NUMBER
420 WVDC ONLY ON REQUEST
CAP
(µF)
Rated
Case
Voltage
Code
(Vn)
ESR
ESR
Z
I ripple
I ripple
Φxh
TG δ
max
typ
max
55°C
85°C
100Hz
100Hz
10Khz
100Hz
100Hz
(mm)
100Hz
(mOhm)
(mOhm)
(mOhm)
(A)
(A)
CATALOGUE NUMBER
2 mounting pins
4 mounting pins
330
MC
30 x 50
0,12
483
458
531
2,8
1,5
APC331M450MC1
390
NC
35 x 50
0,12
408
388
449
3,3
1,8
APC391M450NC1
APS391M450NC1
470
NN
35 x 60
0,12
339
322
373
3,9
2,1
APC471M450NN1
APS471M450NN1
680
NE
35 x 75
0,12
234
222
258
5,2
2,8
APC681M450NE1
APS681M450NE1
0,12
339
322
373
3,6
1,9
APC471M450PB1
APS471M450PB1
APC681M450PC1
APS681M450PC1
PB
40 x 40
680
470
PC
40 x 50
0,12
234
222
258
4,7
2,5
820
PE
40 x 75
0,12
194
184
214
6,2
3,3
1500
PG
40 X 100
0,12
106
101
117
9,5
5,1
APS152M450PG1
820
QC
45 x 50
0,12
194
184
214
5,6
3,0
APS821M450QC1
1200
QE
45 x 75
0,12
133
126
146
8,0
4,3
APS122M450QE1
1800
QG
45 x 100
0,12
88
84
97
11,1
6,0
APS182M450QG1
Pag. 106
450
APS821M450PE1
ITELCOND Aluminium Electrolytic Capacitors
APK - APC - APS series
CAP
(µF)
Rated
Case
Voltage
Code
(Vn)
270
MC
ESR
ESR
Z
I ripple
I ripple
Φxh
TG δ
max
typ
max
55°C
85°C
100Hz
100Hz
10Khz
100Hz
100Hz
(mm)
100Hz
(mOhm)
(mOhm)
(mOhm)
(A)
(A)
30 x 50
0,12
590
560
649
2,5
1,4
CATALOGUE NUMBER
2 mounting pins
4 mounting pins
APC271M500MC1
330
NC
35 x 50
0,12
483
458
531
3,1
1,6
APC331M500NC1
APS331M500NC1
390
NN
35 x 60
0,12
408
388
449
3,6
1,9
APC391M500NN1
APS391M500NN1
NE
35 x 75
0,12
284
270
313
4,8
2,5
APC561M500NE1
APS561M500NE1
PC
40 x 50
0,12
339
322
373
3,9
2,1
560
470
500
APS471M500PC1
680
PE
40 X 75
0,12
234
222
258
5,6
3,0
APS681M500PE1
1000
PG
40 X100
0,12
159
151
175
7,8
4,2
APS102M500PG1
680
QC
45 X 50
0,12
234
222
258
5,1
2,7
APS681M500QC1
1000
QE
45 X 75
0,12
159
151
175
7,4
3,9
APS102M500QE1
1200
QG
45 X100
0,12
133
126
146
9,1
4,9
APS122M500QG1
ITELCOND Aluminium Electrolytic Capacitors
Pag. 107
SOLDER PINS
CAPACITORS
Ambient Temperature
105 °C
AZK series
AZK series
ALUMINIUM ELECTROLYTIC CAPACITORS FOR PRINTED WIRING BOARD
Series
AZK
Capacitance
range
Voltage
range
200 - 450
100 - 2200
Temperature
range
-25°C ,+105°C
Case
ΦxH
Applications
Extended temperature range
Low ESR
Solder pin mounting
Industrial applications
30 x 40
40 x 100
MECHANICAL OUTLINES:
CASE: cylindrical aluminium made
TERMINALS: to be soldered, for printed wiring board
SEALING: hermetic by beading on a Rubber Bakelite covers
PRESSURE RELEASE VENT: directly on to the aluminium case
SLEEVE: self-extinguishing thermoshrinkable sleeve
MOUNTING: vertical, by soldering to printed circuit board.
SIZE: see enclosed drawings
SPECIFICATIONS
TEMPERATURE RANGE
CECC 30301-805
IEC 60384 ("long life grade")
DIN 40010
DIN 41240 / DIN 41238
CAPACITANCE
Tolerance shall be within the following
limits:
-20% + 20% (standard tolerance) or
-10% +30% (available on request)
Operating: -25 °C/ +105 °C
Climatic Category (IEC 68): 25/105/56
LEAKAGE CURRENT:
After the rated voltage has been applied to the capacitor for 5 minutes the leakage current must be:
where
Maximum limit
at 25 °C
Operating limit
at 25 °C:
If ≤ 0,004 * C * V
If ≤0,002 * C * V
If = leakage current (µA)
C= capacitance (µF)
V= rated voltage (V)
IMPORTANT
When using high-capacitance and high-voltage electrolytic capacitors it is important to remenber that the inner part (the rolled
section) is not insulated from can: between the negative pole and the aluminium can there is a variable and not defined
resistance
essentially due to the electrolyte used in capacitor manufacture.
SURGE VOLTAGE
Working Voltage
200
250
400
420
450
Surge Voltage
230
290
440
460
490
ITELCOND Aluminium Electrolytic Capacitors
Pag. 111
AZK series
RIPPLE CURRENT:
The allowable values of ripple current in amperes, are related to the temperature and frequency by the formula:
Ir = Kt * Kf * Ir105
Where Ir105 is the limit given by tables, referred to a temperature of 105 °C and to a frequency of 100 Hz and Kt or Kf are
values here below tabulated:
Vn
°C
50
65
75
85
95
105
Kt
2.4
2.2
2.1
1.8
1.3
1.0
Hz
V>160
50
100
300
400
500
>1KHz
0.88
1.00
1.20
1.25
1.35
1.40
CAPACITORS DIMENSIONS AND DRILLING PLAN OF PRINTED WIRING BOARD
D= 30 / 35 mm.
D= 40 mm.
CASE
CODE
NC
ΦX L
(mm)
(mm)
35 x 50
NE
35 x 75
CASE
CODE
ΦX L
(mm)
CASE
CODE
MB
30 x 40
NB
35 x 40
CASE
CODE
PB
ΦX L
(mm)
(mm)
40 x 40
PE
ΦX L
(mm)
(mm)
40 x 75
PC
40 x 50
PG
40 x 100
•
Positive pole marked with << 1 >>
•
The terminals marked with "2", "3", "4» are to be considered only as mechanical connections and must be soldered to
insulated pads.
Pag. 112
ITELCOND Aluminium Electrolytic Capacitors
AZK series
EXPECTED LIFE AS A FUNCTION OF TEMPERATURE AND RIPPLE CURRENT
AZK
110
105
100
2000 hr
95
90
Temperature
85
5000 hr
8000 hr
80
75
15000 hr
70
25000 hr
65
60
55
50000 hr
50
45
100000 hr
>180000 hr
120000 hr
40
35
30
0
0,5
1
1,5
2
2,5
3
(Ir)T/(Ir)105 °C
Expected life criteria: see introduction.
ITELCOND Aluminium Electrolytic Capacitors
Pag. 113
AZK series
CAP
(µF)
Rated
Case
Voltage
Code
(Vn)
Φxh
TG δ
ESR
ESR
Z
I ripple
max
typ
max
85°C
I ripple
105°C
100Hz
100Hz
10Khz
100Hz
100Hz
(mm)
100Hz
(mOhm)
(mOhm)
(mOhm)
(A)
(A)
CATALOGUE NUMBER
330
NB
35 x 40
0,10
362
271
221
2,5
1,4
470
NC
35 x 50
0,10
254
191
154
3,4
1,9
AZK471M200NC1
NC
35 x 50
0,10
176
132
106
4,5
2,5
AZK681M200NC1
1000
PC
40 x 50
0,10
119
90
72
5,8
3,2
AZK102M200PC1
1500
PE
40 x 75
0,10
80
60
48
8,1
4,5
AZK152M200PE1
2200
PG
40 x 100
0,10
54
41
33
11,2
6,2
AZK222M200PG1
ESR
ESR
Z
I ripple
I ripple
Rated
Case
Φxh
TG δ
max
typ
max
85°C
105°C
Voltage
Code
100Hz
100Hz
10Khz
100Hz
100Hz
680
CAP
(µF)
200
(Vn)
220
MB
330
470
250
(mm)
100Hz
(mOhm)
(mOhm)
(mOhm)
(A)
(A)
30 x 40
0,10
543
407
355
2,2
1,2
AZK331M200NB1
CATALOGUE NUMBER
AZK221M250MB1
NB
35 x 40
0,10
362
271
237
2,9
1,6
AZK331M250NB1
NC
35 x 50
0,10
254
191
166
3,6
2,0
AZK471M250NC1
680
PC
40 x 50
0,10
176
132
115
4,9
2,7
AZK681M250PC1
1000
PE
40 x 75
0,10
119
90
78
6,7
3,7
AZK102M250PE1
1500
PG
40 x 100
0,10
80
60
9,2
5,1
AZK152M250PG1
ESR
ESR
Z
I ripple
I ripple
Rated
Case
Φxh
TG δ
max
typ
max
85°C
105°C
Voltage
Code
100Hz
100Hz
10Khz
100Hz
100Hz
(mOhm)
(mOhm)
(mOhm)
(A)
(A)
CAP
(µF)
(Vn)
(mm)
100Hz
52
CATALOGUE NUMBER
150
MB
30 x 40
0,10
796
597
514
1,8
1,0
220
NB
35 x 40
0,10
543
407
354
2,3
1,3
AZK221M385NB1
NC
35 x 50
0,10
362
271
237
3,1
1,7
AZK331M385NC1
AZK471M385PC1
330
385
AZK151M385MB1
470
PC
40 x 50
0,10
254
191
166
4,0
2,2
680
PE
40 x 76
0,10
176
132
114
5,4
3,0
AZK681M385PE1
1000
PG
40 x 100
0,10
119
90
78
7,6
4,2
AZK102M385PG1
ESR
ESR
Z
I ripple
I ripple
Rated
Case
Φxh
TG δ
max
typ
max
85°C
105°C
Voltage
Code
100Hz
100Hz
10Khz
100Hz
100Hz
(mOhm)
(mOhm)
(mOhm)
(A)
(A)
CAP
(µF)
(Vn)
(mm)
100Hz
CATALOGUE NUMBER
150
MB
35 x 40
0,10
796
597
514
1,8
1,0
AZK151M400MB1
220
NB
35 x 40
0,10
543
407
354
2,3
1,3
AZK221M400NB1
330
NC
35 x 50
0,10
362
271
237
3,1
1,7
AZK331M400NC1
470
PC
40 x 50
0,10
254
191
166
4,0
2,2
AZK471M400PC1
NE
35 x 75
0,10
119
90
114
6,1
3,4
AZK102M400NE1
AZK681M400PC1
1000
400
680
PC
40 x 50
0,10
176
132
114
5,4
3,0
1000
PE
40 x 75
0,10
119
90
114
6,7
3,7
AZK102M400PE1
1000
PG
40 x 100
0,10
119
90
78
7,6
4,2
AZK102M400PG1
71
7,9
4,4
AZK122M400PG1
8,8
4,9
AZK152M400PG1
1200
PG
40 x 100
0,10
100
75
1500
PG
40 x 100
0,10
80
60
Pag. 114
57
ITELCOND Aluminium Electrolytic Capacitors
AZK series
CAP
(µF)
Rated
Case
Voltage
Code
(Vn)
Φxh
TG δ
ESR
ESR
Z
I ripple
max
typ
max
85°C
I ripple
105°C
100Hz
100Hz
10Khz
100Hz
100Hz
(mm)
100Hz
(mOhm)
(mOhm)
(mOhm)
(A)
(A)
CATALOGUE NUMBER
150
MB
30 x 40
0,10
796
597
514
1,8
1,0
AZK151M420MB1
220
NB
35 x 40
0,10
543
407
354
2,3
1,3
AZK221M420NB1
330
NC
35 x 50
0,10
362
271
237
3,1
1,7
AZK331M420NC1
470
PC
40 x 50
0,10
254
191
166
4,0
2,2
AZK471M420PC1
AZK102M420NE1
1000
NE
35 x 75
0,10
119
90
114
5,9
3,3
1000
PE
40 x 75
0,10
119
90
114
6,3
3,5
AZK102M420PE1
1000
PG
40 x 100
0,10
119
90
78
7,6
4,2
AZK102M420PG1
1200
PG
40 x 100
0,10
100
75
71
7,9
4,4
AZK122M420PG1
1500
PG
40 x 100
0,10
80
60
8,8
4,9
AZK152M420PG1
ESR
ESR
Z
I ripple
I ripple
Rated
Case
Φxh
TG δ
max
typ
max
85°C
105°C
Voltage
Code
100Hz
100Hz
10Khz
100Hz
100Hz
100Hz
(mOhm)
(mOhm)
(mOhm)
(A)
(A)
CAP
(µF)
420
(Vn)
(mm)
57
CATALOGUE NUMBER
100
MB
30 x 40
0,10
1194
896
760
1,4
0,8
AZK101M450MB1
150
NB
30 x 40
0,10
796
597
507
1,8
1,0
AZK151M450NB1
220
NC
35 x 50
0,10
543
407
345
2,3
1,3
AZK221M450NC1
330
NC
35 x 50
0,10
362
271
230
2,9
1,6
AZK331M450NC1
330
PC
40 x 50
0,10
362
271
230
3,2
1,8
AZK331M450PC1
NC
35 x 50
0,10
254
191
162
3,6
2,0
AZK471M450NC1
470
PC
40 x 50
0,10
254
191
162
3,8
2,1
AZK471M450PC1
680
NE
35 x 75
0,10
176
132
122
4,7
2,6
AZK681M450NE1
680
PE
40 x 75
0,10
176
132
111
5,2
2,9
AZK681M450PE1
1000
PE
40 x 75
0,10
119
90
95
5,8
3,2
AZK102M450PE1
1000
PG
40 x 100
0,10
119
90
83
6,8
3,8
AZK102M450PG1
1200
PG
40 x 100
0,10
100
75
70
7,6
4,2
AZK122M450PG1
470
450
ITELCOND Aluminium Electrolytic Capacitors
Pag. 115
ATK series
ATK series
ALUMINIUM ELECTROLYTIC CAPACITORS FOR PRINTED WIRING BOARD LONG LIFE
Series
ATK
Capacitance
range
100 - 2200
Voltage
range
160 - 450
Temperature
range
Case
ΦxH
Applications
-25°C,+105°C 30 x 40
40 x 100
Extended temperature range
Low ESR
Solder pin mounting
Industrial applications
MECHANICAL OUTLINES:
CASE: cylindrical aluminium made
TERMINALS: to be soldered, for printed wiring board
SEALING: hermetic by beading on a Rubber Bakelite covers
PRESSURE RELEASE VENT: directly on to the aluminium case
SLEEVE: self-extinguishing thermoshrinkable sleeve
MOUNTING: vertical, by soldering to printed circuit board.
SIZE: see enclosed drawings
SPECIFICATIONS
CECC 30301-805
IEC 60384 ("long life grade")
DIN 40010
DIN 41240 / DIN 41238
TEMPERATURE RANGE
CAPACITANCE
Operating: -25 °C/ +105 °C
Tolerance shall be within the following limits:
-20% + 20% (standard tolerance) or
-10% +30% (available on request)
Climatic Category (IEC 68): 25/105/56
LEAKAGE CURRENT:
After the rated voltage has been applied to the capacitor for 5 minutes the leakage current must be:
where
Maximum limit
at 25 °C
If ≤ 1.3 *( C * V)
Operating limit
at 25 °C:
If
0,5
≤1.0 *( C * V)
0,5
If = leakage current (µA)
C= capacitance (µF)
V= rated voltage (V)
IMPORTANT
When using high-capacitance and high-voltage electrolytic capacitors it is important to remember that the inner part (the rolled
section) is not insulated from can: between the negative pole and the aluminium can there is a variable and not defined
resistance
essentially due to the electrolyte used in capacitor manufacture.
SURGE VOLTAGE
Working Voltage
200
250
350
400
420
450
Surge Voltage
230
290
385
440
460
495
ITELCOND Aluminium Electrolytic Capacitors
Pag. 117
ATK series
RIPPLE CURRENT:
The allowable values of ripple current in amperes, are related to the temperature and frequency by the formula:
Ir = Kt * Kf * Ir105
Where Ir105 is the limit given by tables, referred to a temperature of 105°C and to a frequency of 100 Hz and Kt or Kf are
values here below tabulated:
Vn
°C
50
65
75
85
95
105
Kt
2.4
2.4
2.1
1.8
1.3
1.0
Hz
V>160
50
100
300
400
500
>1KHz
0.88
1.00
1.20
1.25
1.35
1.40
CAPACITORS DIMENSIONS AND DRILLING PLAN OF PRINTED WIRING BOARD
D= 30 / 35 mm.
D= 40 mm.
CASE
CODE
MB
ΦX L
(mm)
30
x 40
CASE
CODE
NC
ΦX L
 Xx 50
L
35
CASE
CODE
PB
ΦX L
40 x 40
CASE
CODE
PE
ΦX L
 Xx 75
L
40
NB
35 x 40
NE
35 x 75
PC
40 x 50
PG
40 x 100
• positive pole marked with << 1 >>
• The terminals marked with "2", "3", "4» are to be considered only as mechanical connections and must be soldered to
insulated pads.
Pag. 118
ITELCOND Aluminium Electrolytic Capacitors
ATK series
EXPECTED LIFE AS A FUNCTION OF TEMPERATURE AND RIPPLE CURRENT
ATK
90
85
80
5000 hr
75
7000 hr
Temperature (°C)
70
10000 hr
65
60
16000 hr
55
25000 hr
50
45
50000 hr
120000 hr
40
80000 hr
200000 hr
35
30
0
0,5
1
1,5
2
2,5
(Ir)T/(Ir)85°C
Expected life criteria: see introduction
ITELCOND Aluminium Electrolytic Capacitors
Pag. 119
ATK series
ESR
ESR
Z
I ripple
typ
max
85°C
I ripple
Φxh
TG δ
max
100Hz
100Hz
10Khz
100Hz
100Hz
(mm)
100Hz
(mOhm)
(mOhm)
(mOhm)
(A)
(A)
MB
30 x 40
0,10
543
407
355
1,6
0,9
ATK221M200MB1
NB
35 x 40
0,10
362
271
270
2,3
1,3
ATK331M200NB1
NC
35 x 50
0,10
254
191
166
2,9
1,6
ATK471M200NC1
680
PC
40 x 50
0,10
176
132
115
3,6
2,0
ATK681M200PC1
1000
PE
40 x 75
0,10
119
90
78
5,4
3,0
ATK102M200PE1
1500
PG
40 x 100
0,10
80
60
52
7,6
4,2
ATK152M200PG1
ESR
ESR
Z
I ripple
I ripple
Rated
Case
Φxh
TG δ
max
typ
max
85°C
Voltage
Code
100Hz
100Hz
10Khz
100Hz
100Hz
CAP
(µF)
Rated
Case
Voltage
Code
(Vn)
220
330
470
CAP
(µF)
200
(Vn)
105°C
105°C
(mm)
100Hz
(mOhm)
(mOhm)
(mOhm)
(A)
(A)
CATALOGUE NUMBER
CATALOGUE NUMBER
220
MB
30 x 40
0,08
434
326
514
2,0
1,1
ATK221M250MB1
220
NB
35 x 40
0,08
434
326
354
2,2
1,2
ATK221M250NB1
330
NC
35 x 50
0,08
290
217
237
3,1
1,7
ATK331M250NC1
680
PC
40 x 50
0,08
141
105
166
4,1
2,3
ATK681M250PC1
1800
PE
40 x 75
0,08
53
40
114
7,9
4,4
ATK182M250PE1
2200
PG
40 x 100
0,08
43
33
78
10,3
5,7
ATK222M250PG1
ESR
ESR
Z
I ripple
I ripple
Rated
Case
Φxh
TG δ
max
typ
max
85°C
Voltage
Code
100Hz
100Hz
10Khz
100Hz
100Hz
CAP
(µF)
250
(Vn)
105°C
(mm)
100Hz
(mOhm)
(mOhm)
(mOhm)
(A)
(A)
CATALOGUE NUMBER
100
MB
30 x 40
0,08
0
0
0
1,3
0,7
ATK101M400MB1
150
NB
35 x 40
0,08
637
478
495
1,8
1,0
ATK151M400NB1
220
NC
35 x 50
0,08
434
326
337
2,3
1,3
ATK221M400NC1
330
NC
35 x 50
0,08
290
217
225
2,7
1,5
ATK331M400NC1
330
PC
40 x 50
0,08
290
217
225
2,9
1,6
ATK331M400PC1
NC
35 x 50
0,08
203
152
158
3,2
1,8
ATK471M400NC1
470
PC
40 x 50
0,08
203
152
158
3,4
1,9
ATK471M400PC1
680
NE
35 x 75
0,08
141
105
109
4,5
2,5
ATK681M400NE1
680
PE
40 x 75
0,08
141
105
109
4,9
2,7
ATK681M400PE1
470
400
1000
PE
40 x 75
0,08
96
72
74
5,9
3,3
ATK102M400PE1
1000
PG
40 x 100
0,08
96
72
74
6,8
3,8
ATK102M400PG1
1500
PG
40 x 100
0,08
64
48
62
10,1
5,6
ATK152M400PG1
Pag. 120
ITELCOND Aluminium Electrolytic Capacitors
ATK series
CAP
(µF)
Rated
Case
Voltage
Code
(Vn)
ESR
ESR
Z
I ripple
typ
max
85°C
I ripple
Φxh
TG δ
max
100Hz
100Hz
10Khz
100Hz
100Hz
(mm)
100Hz
(mOhm)
(mOhm)
(mOhm)
(A)
(A)
105°C
CATALOGUE NUMBER
100
MB
30 x 40
0,09
1075
806
0
1,3
0,7
ATK101M420MB1
150
NB
35 x 40
0,09
717
537
760
1,6
0,9
ATK151M420NB1
220
NC
35 x 50
0,09
489
366
507
2,2
1,2
ATK221M420NC1
330
NC
35 x 50
0,09
326
244
345
2,5
1,4
ATK331M420NC1
330
PC
40 x 50
0,09
326
244
230
2,7
1,5
ATK331M420PC1
470
NC
35 x 50
0,09
229
172
230
3,1
1,7
ATK471M420NC1
PC
40 x 50
0,09
229
172
162
3,2
1,8
ATK471M420PC1
680
NE
35 x 75
0,09
158
119
162
4,3
2,4
ATK681M420NE1
680
PE
40 x 75
0,09
158
119
122
4,7
2,6
ATK681M420PE1
1000
PE
40 x 75
0,09
107
81
111
5,6
3,1
ATK102M420PE1
1000
PG
40 x 100
0,09
107
81
95
6,5
3,6
ATK102M420PG1
1500
PG
40 x 100
0,10
80
60
83
9,5
5,3
ATK152M420PG1
ESR
ESR
Z
I ripple
I ripple
470
CAP
(µF)
420
Rated
Case
Voltage
Code
(Vn)
Φxh
(mm)
TG δ
max
typ
max
85°C
100Hz
100Hz
10Khz
100Hz
100Hz
105°C
100Hz
(mOhm)
(mOhm)
(mOhm)
(A)
(A)
CATALOGUE NUMBER
220
MB
30 x 40
0,09
489
366
378
1,8
1,0
ATK221M450MB1
330
MC
30 x 50
0,09
326
244
252
2,3
1,3
ATK331M450MC1
330
NB
35 x 40
0,09
326
244
252
2,3
1,3
ATK331M450NB1
470
NC
35 x 50
0,09
229
172
175
3,1
1,7
ATK471M450NC1
PB
40 x 40
0,09
229
172
175
3,1
1,7
ATK471M450PB1
560
PC
40 x 50
0,09
103
77
147
3,6
2,0
ATK561M450PC1
680
NE
35 x 75
0,09
158
119
123
4,3
2,4
ATK681M450NE1
820
PE
40 x 75
0,09
131
98
102
5,0
2,8
ATK821M450PE1
1000
PG
40 x 100
0,10
119
90
83
6,5
3,6
ATK102M450PG1
1200
PG
40 x 100
0,10
100
75
69
7,2
4,0
ATK122M450PG1
470
450
ITELCOND Aluminium Electrolytic Capacitors
Pag. 121
AZC - AZS series
AZC - AZS series
ALUMINIUM ELECTROLYTIC CAPACITORS FOR PRINTED WIRING BOARD
Series
AZC
AZS
Capacitance
range
100 - 4700
Voltage
range
200 -450
Temperature
range
-25°C , +105°C
Case
ΦxH
Applications
30 x 40
45 x 100
Snap-in type, 2-4 pins
configuration
Extended temperature range
Solder pin mounting
Industrial applications
MECHANICAL OUTLINES:
CASE: cylindrical, aluminium made
TERMINALS: to be soldered, for printed wiring board (type SNAP-IN)
SEALING: hermetic by beading on a rubber-Bakelite cover
PRESSURE RELEASE VENT: directly on to the aluminium case
SLEEVE: self-extinguishing thermo shrinkable sleeve
MOUNTING: vertical, by soldering to printed circuit board.
SIZE: see enclosed drawings
CLIMATIC CATEGORY (IEC 68): 25/98/56
SPECIFICATIONS
CECC 30300
IEC 60384("long life grade")
MIL C62D
DIN 41240 / DIN 45910
TEMPERATURE RANGE
CAPACITANCE
Operating: -25 °C +105 °C
Tolerance shall be within the following limits:
-20% + 20% (standard tolerance) or
-10% +30% (available on request)
Climatic Category (IEC 68): 25/105/56
LEAKAGE CURRENT:
After the rated voltage has been applied to the capacitor for 5 minutes the leakage current must be:
where
Maximum limit
at 25 °C
Operating limit
at 25 °C:
If ≤ 0,004 * C * V
If ≤0,001 * C * V
If = leakage current (µA)
C= capacitance (µF)
V= rated voltage (V)
IMPORTANT
When using high-capacitance and high-voltage electrolytic capacitors it is important to remember that the inner part (the rolled
section) is not insulated from can: between the negative pole and the aluminium can there is a variable and not defined
resistance
essentially due to the electrolyte used in capacitor manufacture.
SURGE VOLTAGE
Working Voltage
200
250
315
400
420
450
Surge Voltage
230
290
347
440
460
495
ITELCOND Aluminium Electrolytic Capacitors
Pag. 123
AZC - AZS series
RIPPLE CURRENT:
The allowable values of ripple current in amperes, are related to the temperature and frequency by the formula:
Ir = Kt * Kf * Ir105
where Ir105 is the limit given by tables, referred to a temperature of 105 °C and to a frequency of 100 Hz and Kt or Kf are
values here below tabulated:
Vn
°C
50
65
75
85
95
105
Kt
2.6
2.4
2.1
1.8
1.35
1.0
HZ
50
98
300
400
500
>1KHZ
0.88
1.00
1.20
1.25
1.35
1.40
V>160
CAPACITORS DIMENSIONS AND DRILLING PLAN OF PRINTED WIRING BOARD
•
AZC SERIES
•
AZS SERIES ( D = 35 / 40 / 45 mm )
CASE
CODE
MB
MC
NB
NC
•
Φx l
(mm)
30 x 40
30 x 50
35 x 40
35 x 50
CASE
CODE
NN
NE
PB
PC
Φx l
(mm)
35 x 60
35 x 75
40 x 40
40 x 50
CASE
CODE
PN
PG
QC
QN
Φx l
(mm)
40 x 60
40 x 100
45 x 50
45 X 60
CASE
CODE
QE
QG
Φx l
(mm)
45 x 75
45 x 100
The unconnected pins serve as mountings and must be soldered to insulated pads
Pag. 124
ITELCOND Aluminium Electrolytic Capacitors
AZC - AZS series
EXPECTED LIFE AS A FUNCTION OF TEMPERATURE AND RIPPLE CURRENT
AZC/AZS
110
105
100
2000 hr
95
90
Temperature
85
5000 hr
8000 hr
80
75
15000 hr
70
25000 hr
65
60
55
50000 hr
50
45
100000 hr
>180000 hr
120000 hr
40
35
30
0
0,5
1
1,5
2
2,5
3
(Ir)T/(Ir)105 °C
Expected life criteria: see introduction.
ITELCOND Aluminium Electrolytic Capacitors
Pag. 125
AZC - AZS series
CAP
(µF)
Rated
Case
Voltage
Code
(Vn)
ESR
ESR
Z
I ripple
Φxh
TG δ
max
typ
max
85°C
I ripple
105°C
100Hz
100Hz
10Khz
100Hz
100Hz
(mm)
100Hz
(mOhm)
(mOhm)
(mOhm)
(A)
(A)
CATALOGUE NUMBER
2 mounting pins
4 mounting pins
470
MB
30 x 40
0,08
203
152
174
2,7
1,5
AZC471M200MB1
680
MB
30 x 40
0,08
141
105
120
3,4
1,9
AZC681M200MB1
1000
MC
30 x 50
0,08
96
72
82
4,5
2,5
AZC102M200MC1
1000
NB
35 x 40
0,08
96
72
82
4,9
2,7
AZC102M200NB1 AZS102M200NB1
1200
NB
35 x 40
0,08
80
60
68
5,4
3,0
AZC122M200NB1 AZS122M200NB1
NC
35 x 50
0,08
64
48
54
5,9
3,3
AZC152M200NC1 AZS152M200NC1
NC
35 x 50
0,08
53
40
46
6,5
3,6
AZC182M200NC1 AZS182M200NC1
AZC272M200NE1 AZS272M200NE1
1500
200
1800
2700
NE
35 x 75
0,08
9,5
5,3
3300
PG
40 x 100
0,08
29
35
22
27
25
30
13,1
7,3
AZS332M200PG1
2200
QC
45 x 50
0,08
43
33
37
8,3
4,6
AZS222M200QC1
3300
QE
45 x 75
0,08
29
22
25
12,1
6,7
AZS332M200QE1
4700
QG
45 x 100
0,08
20
15
18
16,7
9,3
AZS472M200QG1
ESR
ESR
Z
I ripple
I ripple
CAP
(µF)
Rated
Case
Voltage
Code
(Vn)
Φxh
TG δ
max
typ
max
85°C
105°C
100Hz
100Hz
10Khz
100Hz
100Hz
(mm)
100Hz
(mOhm)
(mOhm)
(mOhm)
(A)
(A)
CATALOGUE NUMBER
2 mounting pins
4 mounting pins
470
MB
30 x 40
0,08
203
152
174
2,7
1,5
AZC471M250MB1
680
MC
30 x 50
0,08
141
105
120
3,6
2,0
AZC681M250MC1
NB
35 x 40
0,08
141
105
120
4,0
2,2
AZC681M250NB1 AZC681M250NB1
NB
35 x 40
0,08
96
72
82
4,9
2,7
AZC102M250NB1 AZC102M250NB1
1000
NC
35 x 50
0,08
96
72
82
4,9
2,7
AZC102M250NC1 AZC102M250NC1
2200
NE
35 x 75
0,08
43
33
8,6
4,8
AZC222M250NE1 AZC222M250NE1
1500
PC
40 x 50
0,08
64
48
54
6,5
3,6
AZC152M250PC1 AZC152M250PC1
2200
PG
40 x 100
0,08
43
33
37
10,8
6,0
AZC222M250PG1
I ripple
Rated
Case
Φxh
Voltage
Code
680
1000
CAP
250
(µF)
(Vn)
TG δ
37
ESR
ESR
Z
I ripple
max
typ
max
85°C
105°C
100Hz
100Hz
10Khz
100Hz
100Hz
(mm)
100Hz
(mOhm)
(mOhm)
(mOhm)
(A)
(A)
CATALOGUE NUMBER
2 mounting pins
4 mounting pins
220
MB
30 x 40
0,08
434
326
370
2,0
1,1
AZC221M385MB1
330
MB
30 x 40
0,08
290
217
247
2,3
1,3
AZC331M385MB1
AZC471M385NC1 AZS471M385NC1
470
NC
35 x 50
0,08
203
152
156
3,4
1,9
470
PB
40 x 40
0,08
203
152
174
3,2
1,8
AZC471M385PB1 AZS471M385PB1
680
NC
35 x 50
0,08
141
105
108
4,1
2,3
AZC681M385NC1 AZS681M385NC1
680
PC
40 x 50
0,08
141
105
108
4,5
2,5
AZC681M385PC1 AZS681M385PC1
385
Pag. 126
ITELCOND Aluminium Electrolytic Capacitors
AZC - AZS series
CAP
(µF)
Rated
Case
Voltage
Code
(Vn)
ESR
ESR
Z
I ripple
Φxh
TG δ
max
typ
max
85°C
I ripple
105°C
100Hz
100Hz
10Khz
100Hz
100Hz
(mm)
100Hz
(mOhm)
(mOhm)
(mOhm)
(A)
(A)
CATALOGUE NUMBER
2 mounting pins
4 mounting pins
220
MB
30 x 40
0,08
434
326
370
2,0
1,1
AZC221M400MB1
330
MB
30 x 40
0,08
290
217
247
2,3
1,3
AZC331M400MB1
330
MC
30 x 50
0,08
290
217
247
2,5
1,4
AZC331M400MC1
470
MC
30 x 50
0,08
203
152
174
3,1
1,7
AZC471M400MC1
470
NB
35 x 40
0,08
203
152
174
3,2
1,8
AZC471M400NB1 AZS471M400NB1
470
NC
35 x 50
0,08
203
152
174
3,2
1,8
AZC471M400NC1 AZS471M400NC1
560
NC
35 x 50
0,08
171
128
146
3,6
2,0
AZC561M400NC1 AZS561M400NC1
680
NC
35 x 50
0,08
141
105
120
4,0
2,2
AZC681M400NC1 AZS681M400NC1
820
NN
35 x 60
0,08
117
87
82
4,7
2,6
AZC821M400NN1 AZS821M400NN1
1200
NE
35 x 75
0,08
80
60
68
6,3
3,5
AZC122M400NE1 AZS122M400NE1
AZC681M400PC1 AZS681M400PC1
400
680
PC
40 x 50
0,08
141
105
120
4,3
2,4
1200
PE
40 x 75
0,08
80
60
68
6,8
3,8
AZS122M400PE1
1500
PG
40 x 100
0,08
64
48
54
8,8
4,9
AZS152M400PG1
1000
QC
45 x 50
0,08
96
72
82
5,6
3,1
AZS102M400QC1
1500
QE
45 x 75
0,08
64
48
54
8,1
4,5
AZS152M400QE1
2200
QG
45 x 100
0,08
43
33
37
11,5
6,4
AZS222M400QG1
ESR
ESR
Z
I ripple
I ripple
Rated
Case
Φxh
TG δ
max
typ
max
85°C
105°C
Voltage
Code
100Hz
100Hz
10Khz
100Hz
100Hz
CAP
(µF)
(Vn)
(mm)
100Hz
(mOhm)
(mOhm)
(mOhm)
(A)
(A)
CATALOGUE NUMBER
2 mounting pins
4 mounting pins
150
MB
30 x 40
0,10
796
597
652
1,4
0,8
AZC151M450MB1
220
MB
30 x 40
0,10
543
407
445
1,8
1,0
AZC221M450MB1
330
MC
30 x 50
0,10
362
271
297
2,3
1,3
AZC331M450MC1
330
NB
35 x 40
0,10
362
271
297
2,5
1,4
AZC331M450NB1 AZS331M450NB1
470
NC
35 x 50
0,10
254
191
138
3,8
2,1
AZC471M450NC1 AZS471M450NC1
680
NN
35 x 60
0,10
176
132
120
4,3
2,4
AZC681M450NN1 AZS681M450NN1
NE
35 x 75
0,10
176
132
132
4,5
2,5
AZC681M450NE1 AZS681M450NE1
NE
35 x 75
0,10
146
109
110
5,0
2,8
AZC821M450NE1 AZS821M450NE1
PC
40 x 50
0,10
176
132
132
4,1
2,3
AZC681M450PC1 AZS681M450PC1
680
820
680
450
1000
PE
40 x 75
0,10
119
90
98
5,8
3,2
AZS102M450PE1
1500
PG
40 x 100
0,10
80
60
66
8,1
4,5
AZS152M450PG1
820
QC
45 x 50
0,10
146
109
119
4,7
2,6
AZS821M450QC1
82
6,7
3,7
AZS122M450QE1
9,5
5,3
AZS182M450QG1
1200
QE
45 x 75
0,10
100
75
1800
QG
45 x 100
0,10
66
50
ITELCOND Aluminium Electrolytic Capacitors
49
Pag. 127
ATC - ATS series
ATC - ATS series
ALUMINIUM ELECTROLYTIC CAPACITORS FOR PRINTED WIRING BOARD MOUNTING
Series
Capacitance
range
ATC
ATS
100 - 1500
Voltage
range
200 -450
Temperature
range
-25°C,+105°C
Case
ΦxH
Applications
Long life
Snap-in type, 2-4 pins configuration
Extended temperature range
Solder pin mounting
Industrial applications
30 x 40
35 x 75
MECHANICAL OUTLINES:
CASE: cylindrical aluminium made
TERMINALS: to be soldered to a PWB
SEALING: hermetic by beading on a Rubber-Bakelite
PRESSURE RELEASE VENT: directly on to the aluminium case
SLEEVE: self-extinguishing thermoshrinkable sleeve;
MOUNTING: vertical, by soldering to printed circuit board.
SIZE: see enclosed drawings
SPECIFICATIONS
CECC 30300
IEC 60384("long life grade")
MIL C62D
DIN 41240 / DIN 45910
TEMPERATURE RANGE
CAPACITANCE
Operating: -25 °C/ +105 °C
Tolerance shall be within the following limits:
-20% + 20% (standard tolerance) or
-10% +30% (available on request)
Climatic Category (IEC 68): 25/105/56
LEAKAGE CURRENT:
After the rated voltage has been applied to the capacitor for 5 minutes the leakage current must be:
where
Maximum limit
at 25 °C
Operating limit
at 25 °C:
If ≤ 0,003 * C * V
If ≤0,001 * C * V
If = leakage current (µA)
C= capacitance (µF)
V= rated voltage (V)
IMPORTANT
When using high-capacitance and high-voltage electrolytic capacitors it is important to remember that the inner part (the rolled
section) is not insulated from can: between the negative pole and the aluminium can there is a variable and not defined
resistance
essentially due to the electrolyte used in capacitor manufacture.
SURGE VOLTAGE
Working Voltage
200
250
315
400
420
450
Surge Voltage
230
290
347
440
460
495
ITELCOND Aluminium Electrolytic Capacitors
Pag. 129
ATC - ATS series
RIPPLE CURRENT:
The maximum allowable ripple current in Amperes, are related to the temperature and frequency by the formula:
Ir = Kt * Kf * Ir105
where Ir105 is the limit of superimposed alternating current, given by the tables referred to temperature of 105°C and to a
frequency of 100 Hz and Kt or Kf are values here below tabulated:
°C
Kt
50
2.4
65
2.2
75
2.1
85
1.8
95
1.3
105
1.0
Vn
HZ
50
98
300
400
500
>1KHZ
V>160
K
0.88
1.00
1.20
1.25
1.35
1.40
f
CAPACITORS DIMENSIONS AND DRILLING PLAN OF PRINTED WIRING BOARD
• ATC SERIES
• ATS SERIES ( D = 35 / 40 / 45 mm )
CASE
CODE
MB
MC
NB
Φx l
(mm)
30 x 40
30 x 50
35 x 40
CASE
CODE
NC
NN
NE
Φx l
(mm)
35 x 50
35 x 60
35 x 75
CASE
CODE
PB
PC
Φx l
(mm)
40 x 40
40 x 50
• only on request
• The unconnected pins serve as mountings and must be soldered to insulated pads
Pag. 130
ITELCOND Aluminium Electrolytic Capacitors
ATC - ATS series
EXPECTED LIFE AS A FUNCTION OF TEMPERATURE AND RIPPLE CURRENT
ATC / ATS
110
105
100
5000 hr
95
90
8000 hr
Temperature
85
12000 hr
80
75
20000 hr
70
30000 hr
65
60
55
60000 hr
50
45
>200000 hr
150000 hr
100000 hr
40
35
30
0
0,5
1
1,5
2
2,5
3
(Ir)T/(Ir)105 °C
Expected life criteria: see introduction
ITELCOND Aluminium Electrolytic Capacitors
Pag. 131
ATC - ATS series
ESR
ESR
Z
I ripple
typ
max
85°C
I ripple
Φxh
TG δ
max
100Hz
100Hz
10Khz
100Hz
100Hz
(mm)
100Hz
(mOhm)
(mOhm)
(mOhm)
(A)
(A)
30 x 40
0,08
217
163
176
4,5
2,5
ATC471M200MB1
MC
30 x 50
0,08
150
112
122
5,9
3,3
ATC681M200MC1
NB
35 x 40
0,08
150
112
122
6,5
3,6
ATC681M200NB1
1000
NC
35 x 50
0,08
102
76
82
7,9
4,4
ATC102M200NC1 ATS102M200NC1
1500
PC
40 x 50
0,08
68
51
55
10,4
5,8
ATC152M200PC1 ATS152M200PC1
I ripple
CAP
Rated
Case
Voltage
Code
(µF)
(Vn)
470
MB
680
680
200
CAP
Rated
Case
Voltage
Code
(µF)
(Vn)
Φxh
TG δ
105°C
ESR
ESR
Z
I ripple
max
typ
max
85°C
100Hz
100Hz
10Khz
100Hz
100Hz
105°C
(mm)
100Hz
(mOhm)
(mOhm)
(mOhm)
(A)
(A)
CATALOGUE NUMBER
2 mounting pins
4 mounting pins
CATALOGUE NUMBER
2 mounting pins
4 mounting pins
330
MB
30 x 40
0,08
309
232
270
3,8
2,1
ATC331M250MB1
470
MC
30 x 50
0,08
217
163
190
5,0
2,8
ATC471M250MC1
NB
35 x 40
0,08
217
163
190
5,4
3,0
ATC471M250NB1
680
NC
35 x 50
0,08
150
112
131
6,5
3,6
ATC681M250NC1 ATS681M250NC1
1000
NC
35 x 50
0,08
102
76
89
7,9
4,4
ATC102M250NC1 ATS102M250NC1
ESR
ESR
Z
I ripple
I ripple
470
250
CAP
Rated
Case
Voltage
Code
(µF)
(Vn)
Φxh
TG δ
max
typ
max
85°C
105°C
100Hz
100Hz
10Khz
100Hz
100Hz
(mm)
100Hz
(mOhm)
(mOhm)
(mOhm)
(A)
(A)
CATALOGUE NUMBER
2 mounting pins
4 mounting pins
220
MB
30 x 40
0,08
463
347
405
3,1
1,7
ATC221M385MB1
330
MC
30 x 50
0,08
309
232
270
4,1
2,3
ATC331M385MC1
NB
35 x 40
0,08
309
232
270
4,5
2,5
ATC331M385NB1
470
NC
35 x 50
0,08
217
163
190
5,4
3,0
ATC471M385NC1 ATS471M385NC1
680
PC
40 x 50
0,08
150
112
118
7,4
4,1
ATC681M385PC1 ATS681M385PC1
ESR
ESR
Z
I ripple
I ripple
max
typ
max
85°C
105°C
100Hz
100Hz
10Khz
100Hz
100Hz
(A)
(A)
1,7
ATC221M400MB1
330
385
CAP
Rated
Case
x h
TG 
Voltage Code
(µF)
(Vn)
220
(mm)
MB
100Hz (mOhm) (mOhm) (mOhm)
CATALOGUE NUMBER
2 mounting pins
4 mounting pins
30 x 40
0,08
463
347
405
3,1
MC
30 x 50
0,08
309
232
270
4,1
2,3
ATC331M400MC1 ATS331M400MC1
NB
35 x 40
0,08
309
232
270
4,5
2,5
ATC331M400NB1 ATS331M400NB1
470
NC
35 x 50
0,08
217
163
190
5,4
3,0
ATC471M400NC1 ATS471M400NC1
560
PC
40 x 50
0,08
182
136
159
6,5
3,6
ATC561M400PC1 ATS561M400PC1
680
NE
35 x 75
0,08
150
112
131
8,5
4,7
ATC681M400NE1 ATS681M400NE1
330
330
Pag. 132
400
ITELCOND Aluminium Electrolytic Capacitors
ATC - ATS series
CAP
Rated
Case
x h
TG 
Voltage Code
(µF)
(Vn)
(mm)
ESR
ESR
Z
I ripple
I ripple
max
typ
max
85°C
105°C
100Hz
100Hz
10Khz
100Hz
100Hz
(A)
(A)
100Hz (mOhm) (mOhm) (mOhm)
CATALOGUE NUMBER
2 mounting pins
4 mounting pins
150
MB
30 x 40
0,10
849
637
718
2,3
1,3
ATC151M450MB1
220
MC
30 x 50
0,10
579
434
486
3,1
1,7
ATC221M450MC1
NB
35 x 40
0,10
579
434
486
3,4
1,9
ATC221M450NB1
330
NC
35 x 50
0,10
386
290
380
4,1
2,3
ATC331M450NC1 ATS331M450NC1
470
NE
35 x 75
0,10
271
203
228
6,5
3,6
ATC471M450NE1 ATS471M450NE1
220
450
ITELCOND Aluminium Electrolytic Capacitors
Pag. 133
MOUNTING
HARDWARE
MOUNTING HARDWARE
MOUNTING HARDWARE
RING CLIPS
(Dimensions in mm.)
Ring clip code
D
ZAF-A
ZAF B
ZAF C
ZAF D
ZAF E
35
51
63
76
90
A
46
63,5
76
89
106
MOUNTING HARDWARE
ITELCOND Aluminium Electrolytic Capacitors
Pag. 137
MOUNTING HARDWARE
Pag. 138
ITELCOND Aluminium Electrolytic Capacitors
GENERAL CONDITIONS
GENERAL CONDITIONS
1) The following general conditions are to be applied to all purchases placed by the Client (Buyer) to
Itelcond S.r.l. (Seller). These general conditions must not be exceeded, modified, suspended or, in any
other way, altered, except if an official document is underwritten and signed by the Seller. Under no
circumstances the general conditions adopted by the Buyer, printed on his purchase orders or any
other document, will be deemed applicable to none of the purchase orders placed to the Seller. The
even partial execution of the Buyer’s order, or any other fulfilment from the Seller’s side towards the
Buyer’s order, cannot be interpreted as tacit or implicit acceptance of any Buyer’s general condition ,
unless specifically agreed upon the Seller’s legal representative.
2) The products manufactured or sold by the Seller are not designed to be used into devices or
equipments to be inserted surgically into the human body or, in other words, suitable to examine or
preserve the human life, or used in devices or systems for the nuclear applications. If the Buyer intends
to use the Seller’s products for its application in medical, nuclear, military and/or Aerospatiale fields,
he may do so only with prior request and after the receipt of a document signed by the Seller’s legal
representative, certifying that these products are suitable to be used in the above applications,
3) Purchase orders shall comply with the minimum order quantity and value. Purchase orders are to be
considered accepted only after written confirmation sent from the Seller to the Buyer.
4) Delivery dates shown on the order confirmation are merely indicative and not binding. The Seller will
do his utmost in order to respect the confirmed delivery date but, at the same time, does not take any
responsibility for the eventual non-observance of the date. The delivery is linked to the payment of
eventual Buyer amounts which are overdue and are related to previous supplies. Likewise also prices
indicated in the confirmation order might vary according to increases in the energy, raw materials,
labour cost and changes in currency rates.
5) In absence of written agreements, orders are considered fulfilled with a quantity tolerance of
plus/minus 3%
6) The technical specifications of the Seller’s products are those contained in his last “Data Book” and
are also traceable on his Web Site: www.itelcond,it . The technical specifications may also be those agreed
upon between Seller and Buyer.
7) Seller’s products will be free from vices and will be guaranteed for a period of 12 months from the
date of delivery to the Buyer. The Italian law decree No.24 of 02,02,2002 will not be enforced as these
products are not considered as consumer goods. The warranty is effective exclusively towards the
Seller’s direct Buyer .The claims from any third parties will not be accepted.
8) The warranty does not cover products which are used incorrectly. Certain types of electric products,
designed and manufactured to be used as basic components to be inserted in other electric devices,
are anyway such that their performance is widely related to the way they are integrated in the final
product and by its general characteristics. In the range of these basic components are included both
active and passive components and notably the electrolytic capacitors.
9 )Eventual defects or vices of the goods will have to be promptly notified in writing and anyhow not after
8 days from the date of receipt of the goods. In case of hidden defects, the above timing will start from
the date of the discovery of these defects. In case of promptly notified vices, defects or lack in quantity
or quality of products, the Seller is entitled to the sole substitution, repair or credit of such products at
his choice.
In line with the most ample applicability of the law, any different and further responsibility is excluded for
damages occurring to the Buyer or third parties with regard to the utilization of the Seller’s products.
Samples, prototypes and products in development, will be delivered as they are and uncovered from
warranty.
ITELCOND Aluminium Electrolytic Capacitors
Pag. 139
GENERAL CONDITIONS
10) In case of products missed, damaged or not in line with the technical specifications, the Buyer is
entitled to inform immediately the Seller, who will decide how to proceed about the matter. No return
of goods will be accepted, unless previously authorized by the Seller.
If a Return Material Authorization (RMA) number has been notified to the Buyer, such a number must be
reported both on packaging and on the documents accompanying the units returned to the Seller.
Returned products, travelling at Buyer’s risk and danger, must be returned complete, not tampered
with, non welded, with their eventual accessories and adequately packed and delivered CIF free factory
of Seller.
The assignment of an RMA does not allow the Buyer to obtain the substitution of products, the credit of
their value, nor means admission of Seller’s responsibility.
11) The Buyer is obliged to comply with the rules related to the re-exportation of the products to clients
or countries if the Italian law forbids export and sale towards them.
12) Goods are sold Free On Board (FOB) at the Seller factory and therefore the risk and the
transportation are at total Buyer’s charge. The delivery of products will be totally accomplished once the
products are collected by the carrier or by Buyer at the Seller’s warehouse.
13) The sold products will remain property of the Seller until totally paid by the Buyer. In case of delayed
or missed payment the Seller may, at his discretion, request to re-enter into possession of unpaid
products.
14) The Seller will not be liable if events, not due to his will, will prevent him to accomplish, partially or
totally, the contractual obligations undertaken. The Seller will not assume responsibility for his products
after the same are assembled on Buyer’s equipments. The Seller will not be liable, no limitations
admitted, for damages caused by the loss of warranty, contracts, or other legal matters, including loss
of value, profit, capital, or expenses for the substitution of equipments.
15) Any dispute will be submitted to the law-court of Milan (Italy). Under any circumstance the contract
will be exclusively governed by the Italian law.
Itelcond s.r.l.
Bareggio – January 1st, 2008
Supersede all previous issues
Pag. 140
ITELCOND Aluminium Electrolytic Capacitors
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