PA500V227M0J
Specification
(500-V-220μF-6.3V-12mΩ)
1. Application range ……………………………………………………………………………………….......1
2. Standard Source ………………………………………………………………………...………………......1
3. Explanation of part numbers ……………………………………………..…………………………......... 1
4. Product specifications………………………………………………………………………………………..1
5. Configuration and dimension……………………………………………………………………………….2
6.Characteristic…………………………………………………...…………………………………………….2
7.Marking………………………………………..………………………………………………………………4
8. Tape & reel packaging……………………………………………………………………………………….5
9. Application Guidelines………………………………………………………………………………………5
10.Lead-Free Stance……………………………………………………………………………………………7
11. Halogen-Free Stance..………………………………………………………………………………………7
1. Application range
This Specifications applicable to Polymer solid-chip aluminum electrolytic capacitors for electronic
equipment.
2. Standard source
Q/GGDZ 001-2005《Polymer solid-chip aluminum electrolytic capacitors》standard is drew up according
to international standard IEC384-18《Fixed capacitors for use in electronic equipment Part 18: Sectional
specification, Fixed aluminum electrolytic chip capacitors with solid and non-solid electrolyte》. The superior
standard is GB/T 2693-2001《Fixed capacitors for use in electronic equipment Part 1: Generic specification》.
3. Explanation of part numbers
3.1 Type designation
PA
500
V
227
M
0J
Voltage code: first is Arabic digit,
second is capital letter
Capacitance tolerance: M indicates ±
20%, K indicates±10%
Capacitance: three Arabic digits, unit(pF),
first two digits indicate significant digits,
third indicates the number of 0 after
significant digits
Case code: capital letter, indicates
size code
Series: three Arabic digits
Polymer solid-chip aluminum
electrolytic capacitors
3.2 Rated voltage code
Rated voltage(V)
6.3
Voltage code
0J
4. Product specifications
Characteristics
Item
Operating temperature range
-55~+105℃
Rated voltage (VR)
6.3V.DC
Rated capacitance
220µF
Capacitance tolerance
176.0µF~264.0µF (M:±20%)/120Hz 20℃
Leakage current (L C)
≤55.4µA (2minutes)
Dissipation factor(tgδ)
≤0.06 (120Hz 20℃)
Equivalent series resistance (ESR)
≤12mΩ (100kHz 20℃)
第1页 – 共 7 页
Part numbers
PA500V227M0J
Rated
Rated
tgδ
L.C.
capacitance
voltage
120Hz/20℃ max (µA)
120Hz/20℃
max
2minutes
(V.DC)
(µF)
6.3
220
0.06
Rated ripple
ESR
current
100kHz/20℃
100kHz/20~105℃
max (mΩ)
max (A)
55.4
12
4.3
5. Configuration and dimension
5.1 Configuration
H
W2
P
L
W1
5.2 Size code and dimension
Unit:(mm)
Dimension
Size code
L±0.2
W1±0.2
H±0.2
P±0.2
W2±0.1
V
7.3
4.3
1.9
1.3
2.4
6. Characteristic
Characteristics
Item
1
Rated capacitance
range
176.0µF~264.0µF (120Hz 20℃)
2
L.C. (IL)
≤55.4µA (2minutes)
3
Dissipation factor
≤0.06 (120Hz 20℃)
(tgδ)
4
5
6
Equivalent series
resistance (ESR)
Resistance to
soldering heat
Resistance to
solvents
≤12mΩ (100kHz 20℃)
Appearance
Dip soldering
Temperature:260±5℃
Dipping depth:1.5~2.0mm
Dipping time:10±1s
Stabilizing time:24±2h
Deionized water or distilled
resistivity≥1MΩ·cm。
Solvent temperature: 23±5℃
Test time:5±0.5min
No wiping
Capacitance
change
No visible damage, clear mark.
≤±5% of initial value
Dissipation
factor (tgδ)
≤0.06
Appearance
No visible damage, clear mark.
water,
第2页 – 共 7 页
Capacitance
change
≤±5% of initial value
Stabilizing time:48h
Bond
7
strength
of
lead coating
Capacitor is Measured when circuit board is
bent
Dissipation
factor (tgδ)
≤0.06
Appearance
No visible damage, clear mark.
Capacitance
change
Dissipation
factor (tgδ)
≤0.06
Appearance
No visible damage, clear mark.
Capacitance
8
9
θA: -55±3℃,θB: +105±3℃
5 cycles,Time: 30min
Stabilizing time :1~2h
Temperature
change fleetly
change
Test temperature::+105±3℃,duration: 16h
First cycle of test Db: 24h
Low temperature: -55±3℃,duration:2h
Other cycle of test Db,duration:24h for
each cycle,Stabilizing time: 1~2h
Climate order
Test temperature: 60±2℃
10
11
Damp heat, Steady
state
≤0.06
Leakage current
(LC)
≤55.4µA
Appearance
No visible damage, clear mark.
Capacitance
change
≤0.06
Leakage current
(LC)
≤55.4µA
Appearance
No visible damage, clear mark.
Endurance
Characteristics
12
high
and
temperature
at
low
Step
1:
temperature:
20±2℃;
initial
measuring
Test
value
Step
2:
temperature:
-55±3℃
≤0.12
Leakage current
(LC)
≤110.8µA
Appearance
No visible damage, clear mark.
change
Test
Step 3 : Test
temperature:
+105±3℃
第3页 – 共 7 页
≤-20%~+40% of initial value
Dissipation
factor (tgδ)
Capacitance
Test temperature: +105±3℃
Applied voltage: Rated voltage
Test time: 2000h
Stabilizing time: 1~2h
≤±10% of initial value
Dissipation
factor (tgδ)
change
No load
Test time: 21d
Stabilizing time: 1~2h
≤±10% of initial value
Dissipation
factor (tgδ)
Capacitance
+2
Test humidity: 93 -3 %RH
≤±5% of initial value
≤±20% of initial value
Dissipation
factor (tgδ)
≤0.09
Leakage current
(LC)
≤55.4µA
Capacitance
change
Dissipation
factor (tgδ)
Capacitance
change
Dissipation
factor (tgδ)
≤±20% of initial value
≤0.12
≤±20% of initial value
≤0.06
Leakage current
(LC)
13
Charge
discharge
and
Test temperature:15~35℃
Cycles: 1000000
Charge: rated DC voltage , interior
resistance of power and exterior series
resistance according to RC=0.1s
Charge time: 0.5s,Discharge time: 0.5s
Capacitance
change
14
15
Shelf life
Surge
Test temperature: 15~35℃
Cycles: 1000
Applied Voltage: 1.25times of rated voltage
Protection resistance: RC=0.1±0.05s
Charge time: 30s,Discharge time: 5min30s
≤55.4µA
Appearance
No visible damage, clear mark.
change
16
Reverse voltage
7. Marking
a) Lead end polarity (Positive)
b) Rated capacitance
c) Rated voltage
d) Company mark (G )
e) Lead end polarity (Negative)
8. Tape & reel packaging
Sketch map of embossed tape (Unit:mm)
第4页 – 共 7 页
≤±20% of initial value
Dissipation
factor (tgδ)
≤0.06
Leakage current
(LC)
≤110.8µA
Appearance
No visible damage, clear mark.
Capacitance
change
≤±10% of initial value
Dissipation
factor (tgδ)
≤0.06
Leakage current
(LC)
≤55.4µA
Capacitance
Duration: Applying 0.15UR DC reverse
voltage at+105℃ for 125h, then applying
UR DC voltage at +105℃for 125h
≤±20% of initial value
Leakage current
(LC)
Capacitance
Test temperature: +105±3℃
Test time: 500±24h
Stabilizing time: 16h
≤227µA
change
≤±20% of initial value
Dissipation
factor(tgδ)
≤0.06
Leakage current
(LC)
≤110.8µA
Tape dimension
Side code
P0
P1
A0
B0
L×W1×H
Code
(mm)
K0
W
±
±
±
±
0.10
0.10
0.20
0.20
(mm)
F
E1
±
±0.30
D0
7"reel
+0.10
(chip)
±
±0.10
0.10
0.10
-0.00
V
7.3×4.3×1.9
4.0
8.0
4.6
7.6
12
2.3
1.75
5.5
1.5
1200
9.Application Guidelines
To ensure the stable quality of capacitor, and make full use of its capability, please read following guidelines
before use:
9.1. Polarity
PA-Cap polymer solid chip aluminum electrolytic capacitors have polarity. Polarity must be identified
before use. If the polarity is reversed, the leakage current of this capacitor will increase rapidly, even more it
will make the circuit short.
9.2. Voltage
The application of over-voltage will increase the leakage current, so that capacitor will be damaged because
of its interior temperature rise. The sum of DC voltage and ripple voltage should not exceed rated voltage.
9.3. Temperature
Must be used in or under the rated temperature. Operation at temperatures exceeding specifications will
cause large changes in electrical properties. The potential deterioration will also lead to failure of capacitor.
When thinking of the operating temperature of the capacitor, be sure to include not only the ambient
temperature but also interior heat coming from the components.
9.4. Ripple current
第5页 – 共 7 页
Use Capacitor in permitted ripple current. When excessive ripple current is applied to the capacitor, it will
cause increasing in leakage current, short circuits and decreasing in life.
9.5. Storage of capacitor
Capacitors should be stored in a moisture proof and without direct sunlight environment. The prefer
temperature is 5-30℃, relative humidity lower than 60%RH.
Moisture Sensitivity Level: Level 3.
To maintain good mounting capability, please keep it as the package in factory, and would better be used out
after opening the package. The remains should be taken back to the package and sealed.
After the storage more than two years, drying treatment is first necessary and DC voltage is gradually
applied up to rated voltage with 1KΩ/V series resistance and remain at rated voltage for 1h before use.
9.6. Capacitor measurement
Excessive impact current resulted from charge and discharge hastily will cause increasing of leakage current,
even short circuit. Therefore please contact a 1KΩ protective resistance in series, and applied voltage increases
gradually up to rated voltage during leakage current measurement. Before other measurement, please discharge
capacitor fully with a 1KΩ resistance in series.
9.7. Capacitor mounting
Recommend land-pattern:
PA-Cap is suit to re-flow soldering, recommended curve for soldering is as following.
Recommended curve for lead free soldering is as following:
第6页 – 共 7 页
When soldering, electric iron should not touch the case. Insure that the soldering temperature is no more
than 350℃ and the time is shorter than 3 seconds.
Before mounting, please affirm if the lead size is suit to designed dimensions of circuit board. Do not distort
and apply strong force to the capacitor during mounting, otherwise the electrical performance of the capacitor
will be affected greatly, even damage. After it is soldered on PCB board, do not remove it with strong force.
In addition,re-flow soldering should be no more than twice.
9.8. Capacitors cannot be used in the following environments.
a) Contact directly with water, salt water or oil.
b) Full of deleterious chemically active gases
c) Exposed to direct sunlight.
10. Lead-Free Stance
All complete parts and homogenous materials of PA-Cap capacitors are lead-free.
11.Halogen-Free Stance
Almost all PA-Cap capacitors already comply with halogen-free requirements. Please contact us for
details.
Fujian Guoguang Electronic Science &
Technology Co., Ltd
Address: No.160, Jiangbin East Road, Fuzhou Economic & Technical Development Zone, Fujian
Tel: 86-591-83977660 83977578 83977129
Fax: 86-591-83977125
P.C.: 350015
http://www.fjgg.cn
第7页 – 共 7 页
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