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E050225M Schematic ( PDF Datasheet ) - Maxcap Electronics

Teilenummer E050225M
Beschreibung Capacitors
Hersteller Maxcap Electronics
Logo Maxcap Electronics Logo 




Gesamt 30 Seiten
E050225M Datasheet, Funktion
www.DataSheet4U.com
බᔳႂߔథᬌМՂ
MAXCAP Electronics co., Ltd.






E050225M Datasheet, Funktion
www.DataSheet4U.com
䢕䳏㾷䳏ᆍ఼
Aluminum Electrolytic Capacitor
䪱⬉㾷⬉ᆍ఼Փ⫼⊼ᛣџ乍
Guidelines for Application of Aluminum Electrolytic Capacitors
1. ᳝ᵕᗻ⬉㾷⬉ᆍ఼
⬉㾷⬉ᆍ఼䗖⫼ѢⳈ⌕(DC)⬉䏃, Փ⫼ᯊᑨ
⊼ᛣ⬉㾷⬉ᆍ఼ⱘᵕᗻᷛᖫ. བᵰডᵕᅝ㺙,
ৃ㛑Ӯᇐ㟈ⷁ䏃៪䰆⟚㒓ᓔ㺖ㄝㄝᬙ䱰.
1. Polarized Capacitor
These capacitors are suitable for DC circuits. Identify correctly the polarity of
the capacitor before use. Incorrect application of polarity may cause short
circuit or venting.
2. ঠᵕᗻ⬉㾷⬉ᆍ఼
Փ⫼ᯊ, བᵰᏠᳯᬍব⬉य़ᮍ৥៪㗙⬉य़ᮍ
৥᳾ⶹᯊ, ᑨՓ⫼ঠᵕᗻ⬉㾷⬉ᆍ఼. Ԛᰃঠ
ᵕᗻ⬉㾷⬉ᆍ఼гϡ䗖⫼ѢѸ⌕(AC)⬉䏃.
2. Bi-Polar Capacitors
Bi-polar type of capacitor is for a circuit where the polarity is occasionally
reversed. However, take note that a bi-polar capacitor should not be used for
AC voltage application.
3. Փ⫼⬉य़
Փ⫼ⱘⳈ⌕⬉य़(DC)ᑨԢѢ⬉㾷⬉ᆍ఼ⱘ
乱ᅮ⬉य़, ঴ࡴ㒍⊶⬉य़ৢϡ㛑䍙䖛乱ᅮⳈ
⌕⬉य़. 㱑✊ḋᴀЁ㒭ߎњ䍙䖛乱ᅮ⬉य़ⱘ
⌾⍠⬉य़, Ԛҙ䰤Ѣⷁᯊ䯈Փ⫼.
3. Operating Voltage
Do not apply a DC voltage which exceeds the rated voltage. The peak voltage
of a superimposed (ripple current) on the DC capacitor must not exceed the
rated voltage.
A surge voltage value which exceeds the full rated voltage is prescribed in the
catalog, but the application should be restricted to short period of time.
4. 㒍⊶⬉⌕
䖛催ⱘ㒍⊶⬉⌕(RC)Ӯᇐ㟈⬉㾷⬉ᆍ఼থ
, ᆍ䞣䰡Ԣ៪ᤳണ. ᓎ䆂೼乱ᅮ㒍⊶⬉⌕
80%ҹϟՓ⫼. ϡৠⱘՓ⫼乥⥛ᇍᑨϡৠ
ⱘ㒍⊶⬉⌕, ߽⫼乥⥛Ь⿃㋏᭄ৃҹㅫߎϢ
෎ᴀ㒍⊶⬉⌕Ⳍᇍᑨⱘ᭄ؐ.
4. Ripple Current
Ripple current exceeding the permissible value will cause heat on the capacitor,
and may decrease the capacitance or damage the capacitor.
Ripple current on the capacitor must be at or below allowable level. Generally,
not more than 80% of the rated current. There is a specified rated ripple current
correspond to the ripple frequency. The rated ripple current at a certain
frequency must be calculated by multiplying the rated ripple current by a factor.
5. Փ⫼⏽ᑺ㣗ೈ
⬉㾷⬉ᆍ఼ⱘ⡍ᗻ䱣⏽ᑺব࣪, ⏽ᑺछ催ৃ
ҹՓ⬉ᆍ䞣, ⓣ⬉⌕๲໻, ᤳ༅㾦(tan¥)ޣᇥ,
Փ⫼ᇓੑ㓽ⷁ. 䕗ԢⱘᎹ԰⏽ᑺ᳝߽Ѣᓊ䭓
⬉㾷⬉ᆍ఼ⱘՓ⫼ᇓੑ. ⦃๗⏽ᑺ↣छ催
10°C, ᇓੑ㑺ޣᇥϔञ.
5. Operating Temperature Range
The characteristics of capacitors change with the operating temperature. The
capacitance and leakage current increase and dissipation factor decreases at
higher temperature. The use of a capacitor exceeding the maximum rated
temperature will considerably shorten the life or cause the capacitor to vent.
Usage at lower temperature can ensure longer lifetime. The lifetime is
approximately halved with each 10°C rise in ambient temperature.
6. Փ⫼乥⥛
⬉㾷⬉ᆍ఼ⱘᆍ䞣䗮ᐌ೼ 120Hz ⌟䞣,乥⥛
छ催Ӯᇐ㟈⬉ᆍ䞣ޣᇥ, ᤳ༅㾦(tan¥)๲ࡴ,
⏽ᑺϞछ. ೼催乥ϟՓ⫼䇋ᅮ䌁䗖ড়催乥㒓
䏃ⱘ⬉㾷⬉ᆍ఼.
7. ᖿ䗳ܙᬒ⬉
ϡ㽕ᇚ᱂䗮ⱘ⬉㾷⬉ᆍ఼⫼೼䳔㽕਼ᳳᗻ
ᖿ䗳⏅ᑺܙᬒ⬉ⱘ⬉䏃Ё, 乥㐕ⱘᖿ䗳⏅ᑺ
ܙᬒ⬉ৃ㛑Ӯᇐ㟈⬉ᆍ䞣䰡Ԣ, থ⛁, ᇓੑ
㓽ⷁ. ೼ℸᚙމϟᑨՓ⫼⡍߿䆒䅵ⱘ⬉㾷⬉
ᆍ఼.
6. Operating Frequency
The capacitance of the electrolytic capacitors is usually measured at 120Hz.
However, the capacitance will decrease and dissipation factor increases as the
applied frequency becomes higher. If a capacitor is to be used at higher
frequency, you may need a specially designed capacitor that is suitable for the
purpose. Please contact our technical team.
7. Charge and Discharge
Do not use the general purpose capacitors in circuits where frequent heavy
charge and discharge cycles are required. Frequent, sharp, heavy, charge and
discharge cycles will result in decrease in capacitance and damage to the
capacitor due to the excessive generated heat. Specific capacitors can be
designed to meet the requirements of charging and discharging cycles. Please
tell us your requirement.
8. ⬉ᆍ఼ⱘᅝ㺙
ᑨ䙓ܡ䖛໻ⱘ໪࡯ࡴࠄ⬉ᆍ఼ⱘᓩ㒓੠ッ
ᄤϞ, 䖭ৃ㛑Ӯᓩ䍋ⓣ⬉⌕๲໻, ⬉㾷⎆໪
, ⷁ䏃៪ᓔ䏃ㄝᚙމথ⫳. ሑ䞣Փ⬉ᆍ఼
ⱘ㛮䎱Ϣᅝ㺙ᄨ䎱ϔ㟈. བᵰϡϔ㟈, Փ⫼
8. Installing Capacitors
The excessive external force applied to terminals or lead wires may cause high
leakage current, short /open circuit or leakage of electrolytic liquid. Make sure
that the leads spacing of the capacitor matches the hole spacing of the PC board
prior to installation.
4 බᔳႂߔథᬌМՂMAXCAP Electronics Co., Ltd.

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E050225M pdf, datenblatt
www.DataSheet4U.com
䢕䳏㾷䳏ᆍ఼
Aluminum Electrolytic Capacitor
SSS ㋏߫
໪໇催ᑺ: 5mm. 5mm Height.
䗖⫼Ѣ⡍߿䳔㽕㡖ⳕぎ䯈ⱘഎড়.
Suitable for Space-Saving Circuits.
85°C, 㗤Йᗻ 2,000 ᇣᯊ.
85°C, Load Life 2000 Hours.
乍 Ⳃ Item
Ꮉ԰⏽ᑺ㣗ೈ Temperature Range
ᆍ䞣ܕ䆌䇃Ꮒ Capacitance Tolerance
᳔໻⊘ⓣ⬉⌕ Leakage Current
⡍ ᗻ Specifications
-40 ~ +85°C
± 20% (M)
(20°C, 120 Hz)
2 ߚ䩳ৢ, 0.01CV (µA ) 3 µA, প䕗໻ؐ
(20°C)
After 2 minutes, 0.01CV (µA ) or 3 µA, whichever is greater (at 20°C)
᳔໻ᤳ༅㾦ℷߛ Dissipation Factor
㗤Йᗻ Load Life
݊ᅗ Others
乱ᅮ⬉य़ (V)
Rated Voltage
ᤳ༅㾦(tan¥)
D.F
4 6.3 10 16 25 35 50
0.35 0.24 0.20 0.16 0.14 0.12 0.10
(20°C, 120 Hz)
⬉ᆍ఼೼ 85°C ⦃๗Ёᮑࡴ乱ᅮ⬉य़䖲㓁 2,000
ᇣᯊৢ, ދै㟇 20°C ⌟䞣, ⡍ᗻᑨ⒵䎇:
The following specifications shall be satisfied
when the capacitors are restored to 20°C after
the rated voltage is applied for 2,000 hours
at 85°C
ᆍ䞣ব࣪
Capacitance Change
ᤳ༅㾦(tan¥)
Dissipation Factor
⊘ⓣ⬉⌕
Leakage Current
߱ྟؐ± 20% ҹݙ
± 20% of the initial value
ᇣѢ߱ྟ㾘ᅮؐⱘ 200%
200% of the initial specified value
ᇣѢ߱ྟ㾘ᅮؐ
the initial specified value
⒵䎇 JIS C5141 П W . Satisfies characteristic W of JIS C5141
೒ᔶ੠ሎᇌ Figure and Dimensions
܇ݒክ SLEEVE
d ±0.05
6 MAX
15 MIN
5 MIN
ऩԡ Unit: mm
ØD 4 5 6.3
Ød 0.45 0.45 0.45
P 1.5 2.0 2.5
໪໇ሎᇌ੠᳔໻㒍⊶⬉⌕ Case Size and Rated Ripple Current
V
µF
0.1
0.22
0.33
0.47
1.0
2.2
3.3
4.7
10
22
33
47
100
220
4
4x5
4x5
5x5
6.3x5
28
33
56
96
6.3
4x5
5x5
5x5
6.3x5
28
37
45
70
10
5x5
5x5
6.3x5
33
41
52
16
4x5
5x5
6.3x5
6.3x5
23
37
49
58
25 35 50
4x5 1.0
4x5 2.0
4x5 2.8
4x5 4.0
4x5 8.4
4x5 13
4x5 15 4x5 17
4x5 16 4x5 18 5x5 20
5x5 27 5x5 29 6.3x5 33
6.3x5 42 6.3x5 46
6.3x5 52
㒍⊶⬉⌕ R.C (mA rms) 85°C,120Hz
໪໇ሎᇌ Case Size ØDxL (mm)
10 බᔳႂߔథᬌМՂMAXCAP Electronics Co., Ltd.

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