1605 East Rodney French Blvd.
New Bedford, MA 02744
(508) 996-8564, Fax (508) 996-3830
http://www.cornell-dubilier.com
E-mail: cdenb@cornell-dubilier.com
1.020
CORNELL
DUBILIER
Your Source For Capacitor Solutions
Chip and SMT
Capacitors
Type AFK, -55°C to 105°C
SMT Aluminum Electrolytic Capacitors - Lowest E.S.R., 105°C
Lowest ESR and Long Life for Filtering, Bypassing, Power Supply Decoupling
Highlights
♦ +105°C, Up to 5000 Hour Load Life
♦ Capacitance Range: 3.3 µF to 6800 µF
♦ Voltage Range: 6.3 Vdc to 100 Vdc
Specifications
Operating Temperature:
Rated Voltage:
Capacitance:
Capacitance Tolerance:
Leakage Current:
Ripple Current Multiplier:
Dissipation Factor:
-55°C to +105°C
6.3, 10, 16, 25, 35, 50, 63, 80 & 100 Vdc
3.3 µF to 6800 µ F
±20% @ 120 Hz and +20°C
0.01 CV or 3 µA @ +20°C, after two minutes (whichever is greater)
Frequency
Life Test: Shelf Life:
2000 h @ +105°C, 4.0 - 10.0 mm dia.
5000 h @ +105°C, 12.5 - 18.0 mm dia.
∆ Capacitance ±30%
DF: ≤ 200% of limit
DCL: ≤ 100% of limit
1000 h @ +105°C
∆ Capacitance ±30%
DF: ≤ 200% of limit
DCL: ≤ 100% of limit
Outline Drawing
Case Dimensions
Series
6.3 V10 V16 V25 V35 V50 V63 V80 V100 V
0.26 0.19 0.16 0.14 0.12 0.1 0.08 0.08 0.07
Add 0.02 per 1000 µF for values greater than 1000 µF
AFK Series Marking
Type AFK Capacitors are the best and by a wide margin.
With 40% to 60% lower impedance, 30% to 50% smaller
case size and more than twice the life compared to
low-ESR type AFC, the Type AFK also excels at cold
performance down to -55°C. In addition, this terrific,
low-impedance performance approaching low-ESR
tantalum capacitors is at a significant cost savings
compared to tantalum. The vertical cylindrical cases
facilitate automatic mounting and reflow soldering into the
same footprint of like-rated tantalum capacitors except
without the need for voltage derating.
(mm)
FK
220
Capacitance
(µF)
Voltage
Lot No.
j6.3Vdc
A10Vdc
C16Vdc
E25Vdc
V35Vdc
H50Vdc
J63Vdc
K80Vdc
2A 100Vdc
H
LW
P
D
0.3 mm Max. A
I
I
K
50/60 Hz 120 Hz 1 kHz 10 kHz 100 kHz
0.7 0.75 0.9 0.95 1.0
Case Code D ± .05 L A ± 0.2 H (max) I (ref) W P (ref) K
B 4.0 5.8 ± 0.3 4.3 5.5 1.8 0.65 ±0.1 1.0 0.35 +0.15/-0.20
C 5.0 5.8 ± 0.3 5.3 6.5 2.2 0.65 ±0.1 1.5 0.35 +0.15/-0.20
D 6.3 5.8 ± 0.3 6.6 7.8 2.4 0.65 ±0.1 1.8 0.35 +0.15/-0.20
X 6.3 7.9 ± 0.3 6.6 7.8 2.4 0.65 ±0.1 1.8 0.35 +0.15/-0.20
E 8.0 6.2 ± 0.3 8.3 9.5 3.4 0.65 ±0.1 2.2 0.35 +0.15/-0.20
F 8.0 10.2 ± 0.3 8.3 10.0 3.4 0.90 ±0.3 3.1 0.70 ±0.20
G 10.0 10.2 ± 0.3 10.3 13.0 3.5 0.90 ±0.3 4.6 0.70 ±0.20
H 12.5 13.5 ± 0.5 13.5 15 4.7 0.90 ±0.3 4.4 0.70 ±0.30
P 16 16.5 ± 0.5 17 19 5.5 1.2 ±0.3 6.7 0.70 ±0.30
R 18 16.5 ± 0.5 19 21 6.7 1.2 ±0.3 6.7 0.70 ±0.30
1605 East Rodney French Blvd.
New Bedford, MA 02744
(508) 996-8564, Fax (508) 996-3830
http://www.cornell-dubilier.com
E-mail: cdenb@cornell-dubilier.com 1.021
Chip and SMT
Capacitors
CORNELL
DUBILIER
Your Source For Capacitor Solutions
Type AFK, -55°C to 105°C
SMT Aluminum Electrolytic Capacitors - Lowest E.S.R., 105°C
Ratings Table
Max. Max. Max.
Max. Dissipatio
n
E S R @ Impedance Ripple Current
Cap Catalog DCL Factor @ 100 k Hz @ 100 k Hz @ 105°C Case S i ze (mm) Quantity
µ
FNumber
A /2 120 Hz 20 °C 20 °C 100 k Hz Code D x L per Reel
min) 20 °C(
Ω
)() (mA)
22 AFK226M06B12T 3.0 0.26 1.35 1.35 90 B 4x5.8 2000
47 AFK476M06B12T 3.0 0.26 1.35 1.35 90 B 4x5.8 2000
47 AFK476M06C12T 3.0 0.26 0.7 0.7 160 C 5x5.8 1000
100 AFK107M06C12T 6.3 0.26 0.7 0.7 160 C 5x5.8 1000
100 AFK107M06D16T 6.3 0.26 0.36 0.36 240 D 6.3x5.8 1000
220 AFK227M06D16T 13.9 0.26 0.36 0.36 240 D 6.3x5.8 1000
330 AFK337M06X16T 20.8 0.26 0.34 0.34 280 X 6.3x7.7 900
330 AFK337M06E16T 20.8 0.26 0.26 0.26 300 E 8x6.2 1000
470 AFK477M06F24T 29.6 0.26 0.16 0.16 600 F 8x10.2 500
1000 AFK108M06F24T 63.0 0.26 0.16 0.16 600 F 8x10.2 500
1500 AFK158M06G24T 94.5 0.26 0.08 0.08 850 G 10x10.2 500
3300 AFK338M06H32T 207.9 0.3 0.06 0.06 1100 H 12.5x13.5 200
6800 AFK688M06P44T 428.4 0.36 0.035 0.035 1800 P 16x16.5 125
22 AFK226M10B12T 3.0 0.19 1.35 1.35 90 B 4x5.8 2000
33 AFK336M10B12T 3.3 0.19 1.35 1.35 90 B 4x5.8 2000
33 AFK336M10C12T 3.3 0.19 0.7 0.7 160 C 5x5.8 1000
150 AFK157M10D16T 15.0 0.19 0.36 0.36 240 D 6.3x5.8 1000
220 AFK227M10X16T 22.0 0.19 0.34 0.34 280 X 6.3x7.7 900
220 AFK227M10E16T 22.0 0.19 0.26 0.26 300 E 8x6.2 1000
330 AFK337M10F24T 33.0 0.19 0.16 0.16 600 F 8x10.2 500
470 AFK477M10F24T 47.0 0.19 0.16 0.16 600 F 8x10.2 500
1000 AFK108M10G24T 100.0 0.19 0.08 0.08 850 G 10x10.2 500
2200 AFK228M10H32T 220.0 0.21 0.06 0.06 1100 H 12.5x13.5 200
4700 AFK478M10P44T 470.0 0.25 0.035 0.035 1800 P 16x16.5 125
6800 AFK688M10R44T 680.0 0.29 0.033 0.033 2060 R 18x16.5 125
10 AFK106M16B12T 3.0 0.16 1.35 1.35 90 B 4x5.8 2000
22 AFK226M16B12T 3.5 0.16 1.35 1.35 90 B 4x5.8 2000
22 AFK226M16C12T 3.5 0.16 0.7 0.7 160 C 5x5.8 1000
47 AFK476M16C12T 7.5 0.16 0.7 0.7 160 C 5x5.8 1000
47 AFK476M16D16T 7.5 0.16 0.36 0.36 240 D 6.3x5.8 1000
68 AFK686M16D16T 10.9 0.19 0.36 0.36 240 D 6.3x5.8 1000
100 AFK107M16D16T 16.0 0.16 0.36 0.36 240 D 6.3x5.8 1000
150 AFK157M16X16T 24.0 0.16 0.34 0.34 280 X 6.3x7.7 900
220 AFK227M16X16T 35.2 0.16 0.34 0.34 280 X 6.3x7.7 900
220 AFK227M16E16T 35.2 0.16 0.26 0.26 300 E 8x6.2 1000
330 AFK337M16F24T 52.8 0.16 0.16 0.16 600 F 8x10.2 500
470 AFK477M16F24T 75.2 0.16 0.08 0.08 850 F 8x10.2 500
680 AFK687M16G24T 108.8 0.16 0.08 0.08 850 G 10x10.2 500
1500 AFK158M16H32T 240 0.16 0.06 0.06 1100 H 12.5x13.5 200
3300 AFK338M16P44T 528 0.2 0.035 0.035 1800 P 16x16.5 125
4700 AFK478M16R44T 752 0.22 0.033 0.033 2060 R 18x16.5 125
10 AFK106M25B12T 3.0 0.14 1.35 1.35 90 B 4x5.8 2000
22 AFK226M25C12T 5.5 0.14 0.7 0.7 160 C 5x5.8 1000
33 AFK336M25C12T 8.3 0.14 0.7 0.7 160 C 5x5.8 1000
33 AFK336M25D16T 8.3 0.14 0.36 0.36 240 D 6.3x5.8 1000
47 AFK476M25D16T 11.8 0.14 0.36 0.36 240 D 6.3x5.8 1000
68 AFK686M25D16T 17.0 0.14 0.36 0.36 240 D 6.3x5.8 1000
100 AFK107M25X16T 25.0 0.14 0.34 0.34 280 X 6.3x7.7 900
100 AFK107M25E16T 25.0 0.14 0.26 0.26 300 E 8x6.2 1000
150 AFK157M25F24T 37.5 0.14 0.16 0.16 600 F 8x10.2 500
220 AFK227M25F24T 55.0 0.14 0.16 0.16 600 F 8x10.2 500
330 AFK337M25F24T 82.5 0.14 0.16 0.16 600 F 8x10.2 500
470 AFK477M25G24T 117.5 0.14 0.16 0.16 850 G 10x10.2 500
1000 AFK108M25H32T 250 0.14 0.06 0.06 1100 H 12.5x13.5 200
2200 AFK228M25P44T 550 0.16 0.035 0.035 1800 P 16x16.5 125
3300 AFK338M25R44T 825 0.18 0.033 0.033 2060 R 18x16.5 125
6. 3 Vd c ( 8 Vdc Su rg e)
10 Vdc (13 Vdc Surge )
16 Vdc ( 20Vdc Surge)
25 Vd c ( 31 Vdc S u rge)
Ω
1605 East Rodney French Blvd.
New Bedford, MA 02744
(508) 996-8564, Fax (508) 996-3830
http://www.cornell-dubilier.com
E-mail: cdenb@cornell-dubilier.com
1.022
CORNELL
DUBILIER
Your Source For Capacitor Solutions
Chip and SMT
Capacitors
Part Numbering System
Type AFK, -55°C to 105°C
AFK
Type
106
Capacitance
M
Capacitance
Tolerance
Voltage Code
16 B
Case
Code
12T
Packaging Code
105 = 1.0 µ F
106 = 10 µ F
107 = 100 µF
108 = 1000 µF
M = ±20% 12 = Carrier Tape
Width (mm)
T = Tape & Reel
B = Bulk
06 = 6.3 Vdc
10 = 10 Vdc
16 = 16 Vdc
25 = 25 Vdc
35 = 35 Vdc
50 = 50 Vdc
63 = 63 Vdc
80 = 80 Vdc
2A = 100 Vdc
SMT Aluminum Electrolytic Capacitors - Lowest E.S.R., 105°C
Ratings Table
Max. Max. Max.
Max. Dissipation ESR @ Impedance Ripple Current
Cap Catalog DCL Factor @ 100 kHz @ 100 kHz @ 105°C Case Size (mm ) Quantity
µF Num ber (µA/2 120 Hz 20 °C 20 °C 100 kHz Code D x L per Reel
min) 20 °Ω Ω mA)
4.7 AFK475M 35B12T 3.0 0.12 1.35 1.35 90 B 4x5.8 2000
10 AFK106M 35B12T 3.5 0.12 1.35 1.35 90 B 4x5.8 2000
10 AFK106M 35C12T 3.5 0.12 0.7 0.7 160 C 5x5.8 1000
22 AFK226M 35C12T 7.7 0.12 0.7 0.7 160 C 5x5.8 1000
33 AFK336M 35D16T 11.6 0.12 0.36 0.36 240 D 6.3x5.8 1000
47 AFK476M 35D16T 16.5 0.12 0.36 0.36 240 D 6.3x5.8 1000
68 A FK686M35X16T 23.8 0.12 0.34 0.34 280 X 6.3x7.7 900
100 A FK107M35X16T 35.0 0.12 0.34 0.34 280 X 6.3x7.7 900
100 A FK107M35F24T 35.0 0.12 0.16 0.16 600 F 8x10.2 500
150 A FK157M35F24T 52.5 0.12 0.16 0.16 600 F 8x10.2 500
220 A FK227M35F24T 77.0 0.12 0.16 0.16 600 F 8x10.2 500
330 AFK337M 35G24T 115.5 0.12 0.08 0.08 850 G 10x10.2 500
470 A FK477M35H32T 164.5 0.12 0.06 0.06 1100 H 12.5x13.5 200
680 A FK687M35H32T 238 0.12 0.06 0.06 1100 H 12.5x13.5 200
1500 AFK158M 35P44T 525 0.12 0.035 0.035 1800 P 16x16.5 125
4.7 AFK475M 50B12T 2.4 0.10 2.9 2.9 60 B 4x5.8 2000
10 AFK106M 50C12T 5.0 0.10 1.52 1.52 85 C 5x5.8 1000
10 AFK106M 50D16T 5.0 0.10 0.88 0.88 165 D 6.3x5.8 1000
22 AFK226M 50D16T 11.0 0.10 0.88 0.88 165 D 6.3x5.8 1000
33 A FK336M50X16T 16.5 0.10 0.68 0.68 195 X 6.3x7.7 900
33 AFK336M 50E16T 16.5 0.10 0.68 0.68 195 E 8x6.2 1000
47 A FK476M50X16T 23.5 0.10 0.68 0.68 195 X 6.3x7.7 900
47 AFK476M 50E16T 23.5 0.10 0.68 0.68 195 E 8x6.2 1000
100 A FK107M50F24T 50.0 0.10 0.34 0.34 350 F 8x10.2 500
150 AFK157M 50G24T 75.0 0.10 0.18 0.18 670 G 10x10.2 500
220 AFK227M 50G24T 110 0.10 0.18 0.18 670 G 10x10.2 500
330 A FK337M50H32T 165 0.10 0.12 0.12 900 H 12.5x13.5 200
680 A FK687M50P44T 340 0.10 0.073 0.073 1610 P 16x16.5 125
1000 AFK108M 50P44T 500 0.10 0.073 0.073 1610 P 16x16.5 125
4.7 AFK475M 63C12T 2.96 0.08 3 3 50 C 5x5.8 1000
10 AFK106M 63D16T 6.3 0.08 1.5 1.5 80 D 6.3x5.8 1000
22 A FK226M63X16T 13.9 0.08 1.2 1.2 120 X 6.3x7.7 900
22 AFK226M 63E16T 13.9 0.08 1.2 1.2 120 E 8x6.2 1000
33 AFK336M 63F24T 20.8 0.08 0.65 0.65 250 F 8x10.2 500
47 AFK476M 63F24T 29.6 0.08 0.65 0.65 250 F 8x10.2 500
68 AFK686M 63G24T 42.8 0.08 0.35 0.35 400 G 10x10.2 500
100 AFK107M 63G24T 63.0 0.08 0.35 0.35 400 G 10x10.2 500
150 A FK157M63H32T 94.5 0.08 0.35 0.35 800 H 12.5x13.5 200
220 A FK227M63H32T 138.6 0.08 0.16 0.16 800 H 12.5x13.5 200
470 A FK477M63P44T 296.1 0.08 0.082 0.082 1410 P 16x16.5 125
680 A FK687M63R44T 428.4 0.08 0.08 0.08 1690 R 18x16.5 125
3.3 AFK335M 80C12T 2.64 0.08 5 5 25 C 5x5.8 1000
4.7 AFK475M 80D16T 3.76 0.08 3 3 40 D 6.3x5.8 1000
10 A FK106M80X16T 8.0 0.08 2.4 2.4 60 X 6.3x7.7 900
10 AFK106M 80E16T 8.0 0.08 2.4 2.4 60 E 8x6.2 1000
22 AFK226M 80F24T 17.6 0.08 1.3 1.3 130 F 8x10.2 500
33 AFK336M 80F24T 26.4 0.08 1.3 1.3 130 F 8x10.2 500
47 AFK476M 80G24T 37.6 0.08 0.7 0.7 200 G 10x 10.2 500
68 AFK686M 80H32T 54.4 0.08 0.32 0.32 500 H 12.5x13.5 200
100 A FK107M80H32T 80.0 0.08 0.32 0.32 500 H 12.5x13.5 200
150 A FK157M80H32T 120 0.08 0.32 0.32 500 H 12.5x13.5 200
330 A FK337M80P44T 264 0.08 0.17 0.17 793 P 16x16.5 125
470 A FK477M80R44T 376 0.08 0.153 0.153 917 R 18x16.5 125
22 AFK226M 2AF24T 22.0 0.07 1.3 1.3 130 F 8x10.2 500
33 A FK336M2AG24T 33.0 0.07 0.7 0.7 200 G 10x 10.2 500
47 AFK476M 2AH32T 47.0 0.07 0.32 0.32 500 H 12.5x13.5 200
68 AFK686M 2AH32T 68.0 0.07 0.32 0.32 500 H 12.5x13.5 200
100 AFK107M 2AP44T 100 0.07 0.17 0.17 793 P 16x16.5 125
150 AFK157M 2AP44T 150 0.07 0.17 0.17 793 P 16x16.5 125
220 AFK227M 2AR44T 220 0.07 0.153 0.153 917 R 18x16.5 125
330 AFK337M 2AR44T 330 0.07 0.153 0.153 917 R 18x16.5 125
100 Vdc (125 Vdc Surge)
35 Vdc (44 Vdc Surge )
50 Vdc (63 Vdc Surge )
63 Vdc (75 Vdc Surge )
80 Vdc (100 Vdc S urge)
1605 East Rodney French Blvd.
New Bedford, MA 02744
(508) 996-8564, Fax (508) 996-3830
http://www.cornell-dubilier.com
E-mail: cdenb@cornell-dubilier.com 1.023
Chip and SMT
Capacitors
CORNELL
DUBILIER
Your Source For Capacitor Solutions
Type AFK, -55°C to 105°C
Typical Performance Curves
SMT Aluminum Electrolytic Capacitors - Lowest E.S.R., 105°C
0
0.2
0.4
0.6
0.8
1
1.2
1.4
1.6
10 100 1,000 10,000 100,000 1,000,000
Ratio to 25°C, 120 Hz Value
65°C
25°C
85°C
0°C
–40°C
45°
–20°
105°
–55°C
.
0.01
0.1
1
10
10 100 1,000 10,000 100,000 1,000,000
Ratio to 25°C, 120 Hz Value
–40°C
0°C
25°C
65°C85°C
45°C
–20°C
105°C
–55°C
0.1
1
10
100
10 100 1,000 10,000 100,000 1,000,000
Ratio to 25°C, 120 Hz Value
–40°C
–20°C
0°C
25°C
45°C
85°C65°C
105°
–55°C
0
0.2
0.4
0.6
0.8
1
1.2
10 100 1,000 10,000 100,000 1,000,000
Ratio to 25°C, 120 Hz Value
65°C
25°C
85°C
0°C
105°C
–40°C
45°
–20°C
–55°C
0.001
0.01
0.1
1
10
10 100 1,000 10,000 100,000 1,000,000
Ratio to 25°C, 120 Hz Value
–40°C
0°C
25°C
65°C85°C
45°C
–20°C
105°C
–55°C
0.1
1
10
100
10 100 1,000 10,000 100,000 1,000,000
Ratio to 25°C, 120 Hz Value
–40°C
–20°C
0°C
25°C
45°C
85°C
65°C
105°C
–55°C
Impedance vs. Temperature and Frequency Impedance vs. Temperature and Frequency
ESR vs. Temperature and Frequency ESR vs. Temperature and Frequency
100 µF @ 16 Vdc (6.3 X 5.8 mm)
Capacitance vs. Temperature & Frequency Capacitance vs. Temperature & Frequency
100 µF @ 16 Vdc (6.3 X 5.8 mm)
100 µF @ 16 Vdc (6.3 X 5.8 mm)
3300 µF @ 6.3 Vdc (12.5 X 13.5 mm)
3300 µF @6.3 Vdc (12.5 X 13.5 mm)
3300 µF @6.3 Vdc (12.5 X 13.5 mm)
Frequency (Hz) Frequency (Hz)
Frequency (Hz) Frequency (Hz)
Frequency (Hz) Frequency (Hz)
1605 East Rodney French Blvd.
New Bedford, MA 02744
(508) 996-8564, Fax (508) 996-3830
http://www.cornell-dubilier.com
E-mail: cdenb@cornell-dubilier.com
1.024
CORNELL
DUBILIER
Your Source For Capacitor Solutions
Chip and SMT
Capacitors
Type AFK, -55°C to 105°C
Typical Performance Curves
SMT Aluminum Electrolytic Capacitors - Lowest E.S.R., 105°C
0
1
2
3
-60 -10 40 90 140
D.F. (@ 120 Hz)
47 µF @ 6.3 Vdc (4 X 5.8 mm)
100 µF @ 6.3 Vdc (6.3 X 5.8 mm)
1000 µF @ 6.3 Vdc (8 X 10.2 mm)
-2 0
-1 5
-1 0
-5
0
5
0 500 1000 1500 2000 2500 3000 3500
Capacitance Change (%)
22 µF @ 6.3 Vdc (4 x 5.4 mm)
100 µF @ 6.3 Vdc ( 6.3 x 5.4 mm)
1500 µF @ 6.3 Vdc (10 x 10.2 mm)
0
0.2
0.4
0.6
0.8
1
1.2
1.4
10 100 1,000 10,000 100,000 1,000,000
Ratio to 25°C, 120 Hz Value
65°C25°C
85°C
0°C
–40°C
45°C
–20°C
105°C
–55°C
0.1
1
10
100
10 100 1,000 10,000 100,000 1,000,000
Ratio to 25°C, 120 Hz Value
ñ40°C
ñ20°C
0°C
25°C
45°C
85°C
65°C105°
ñ55°C
0.01
0.1
1
10
10 100 1,000 10,000 100,000 1,000,000
Ratio to 25°C, 120 Hz Value
–40°C
0°C
25°C
65°C
85°C
45°C
–20°C
105°C
–55°C
Impedance vs. Temperature and Frequency
ESR vs. Temperature and Frequency
Capacitance vs. Temperature & Frequency
470 µF @ 80 Vdc (18 X 16.5 mm)
470 µF @ 80 Vdc (18 X 16.5 mm)
470 µF @ 80 Vdc (18 X 16.5 mm)
-2 0
-1 5
-1 0
-5
0
5
10
15
-60 -10 40 90 140
Capacitance Change (%)
47 µF @ 6.3 Vdc (4 X 5.8 mm)
100 µF @ 6.3 Vdc (6.3 X 5.8 mm)
1000 µF @ 6.3 Vdc (8 X 10.2 mm)
33 µF @ 8 0 V d c (8 X 1 0 .2 m m )
Capacitance Change vs.Temperature
Temperature (°C)
Dissipation Factor vs.Temperature
Frequency (Hz)
Frequency (Hz)
Frequency (Hz)
Temperature (°C)
Capacitance Change vs. Time
Time (Hours)
(Typical Performance AFK Series @ 120 Hz)
(Typical Performance AFK Series @ 120 Hz)
(Typical Performance for AFK Series)
1605 East Rodney French Blvd.
New Bedford, MA 02744
(508) 996-8564, Fax(508) 996-3830
http://www.cornell-dubilier.com
E-mail: cdenb@cornell-dubilier .com
AVS, AHA, AFC, AFK, AHD, AEB Tape and Reel Specifications
Tape Specifications
A ± 0.2 P1
B ± 0.2
W ± 0.3
4 ± 0.1 1.5 dia 1.75 ± 0.1
F ± 0.1
0.4 t ± 0.2
Component Orientation
Polarity Stripe (-) Cathode
Case Code W A B P 1 F t
A 12.0 3.4 3.5 8.0 5.5 5.8
B 12.0 4.7 4.6 8.0 5.5 5.8
C 12.0 6.0 6.0 12.0 5.5 5.8
D 16.0 7.0 7.0 12.0 7.5 5.8
X 16.0 7.0 7.0 12.0 7.5 8.4
E 16.0 8.7 8.7 12.0 7.5 6.8
F 24.0 8.7 8.7 16.0 11.5 11.0
G 24.0 10.7 10.7 16.0 11.5 11.0
Case CodeWABCDFPS
J 32.0 10.7 10.7 14.5 14.5 14.2 20.0 28.4
K 32.0 10.7 10.7 14.5 18.5 14.2 20.0 28.4
H 32.0 14.0 14.0 18.0 14.5 14.2 24.0 28.4
L 32.0 14.0 14.0 18.0 17.5 14.2 24.0 28.4
P 44.0 17.5 17.5 23.0 17.5 20.2 28.0 40.4
R 44.0 19.5 19.5 26.0 17.5 20.2 32.0 40.4
S 44.0 19.5 19.5 26.0 22.5 20.2 32.0 40.4
U 44 17.5 17.5 23 22.5 20.2 28 40.4
0.2+0.05
0.75+0.1
2.0±0.1 4.0±0.1 ∅1.5±0.1
P±0.1 B±0.5
W±0.3 S±0.1
F±0.1
1.75±0.1
A±0.5
D±0.2
0.5
C±0.5
(mm)
(mm)
1605 East Rodney French Blvd.
New Bedford, MA 02744
(508) 996-8564, Fax(508) 996-3830
http://www.cornell-dubilier.com
E-mail: cdenb@cornell-dubilier.com
AVS, AHA, AFC, AFK, AHD, AEB Tape and Reel Specifications
Land Pattern:
Reel Specifications
W
Case Code A B C D E W t
A, B si ze 380±2 50 min 13.0±0. 5 21. 0 ±0. 8 2.0±0.5 14 ±1 3.0
C, D, E, X si ze 38 0±2 50 m i n 13.0 ±0. 5 21. 0 ±0. 8 2.0±0. 5 18±1 3. 0
F, G size 38 0±2 50 min 13.0±0. 5 21.0±0. 8 2.0±0.5 26±1 3. 0
J, K , H, L si ze 330±2 50 m i n 13 . 0±0. 5 21 . 0±0. 8 2. 0±0.5 34 ±1 3.0
P , R, S, U si ze 330±2 50 m i n 13.0 ±0. 5 21. 0 ±0. 8 2.0±0. 5 46±1 3.0
EC
D
R: 1.0 mm
(.039 in.)
A
t
B
Case CodeABC
A 0.6 2.2 1.5
B 1.0 2.5 1.6
C 1.5 2.8 1.6
D 2.2 3.0 1.6
E 2.2 4.5 1.6
F 3.2 4.0 2.0
G 4.6 4.3 2.0
J, K 4 4.5 2.0
H 4.0 5.7 2.0
L 4.0 5.7 2.0
P 6.0 6.5 2.5
R, U 6.0 6.5 2.5
S 6.0 7.5 2.5
1234567890123456789
1
23456789012345678
9
1
23456789012345678
9
1
23456789012345678
9
1
23456789012345678
9
1
23456789012345678
9
1
23456789012345678
9
1
23456789012345678
9
1
23456789012345678
9
1
23456789012345678
9
1
23456789012345678
9
1
23456789012345678
9
1
23456789012345678
9
1
23456789012345678
9
1234567890123456789
1234567890123456789
1
23456789012345678
9
1
23456789012345678
9
1
23456789012345678
9
1
23456789012345678
9
1
23456789012345678
9
1
23456789012345678
9
1
23456789012345678
9
1
23456789012345678
9
1
23456789012345678
9
1
23456789012345678
9
1
23456789012345678
9
1
23456789012345678
9
1
23456789012345678
9
1234567890123456789
C
BB
A
(mm)
(mm)
1605 East Rodney French Blvd.
New Bedford, MA 02744
(508) 996-8564, Fax(508) 996-3830
http://www.cornell-dubilier.com
E-mail: cdenb@cornell-dubilier .com
AVS, AHA, AFC, AFK, AHD, AEB Reflow Solder & Case Dimensions
Outline Drawing
Case Dimensions
Reflow Soldering Temperature Profile:
(mm)
*5.8 +0.1,-0.2 for AFK and AHD Series
Case Peak Max. Time
Code Temp (°C) @ 200°C
(Sec.)
A, B, C, D, X 240 40
E, F, G, H 230 30
J, K, L, P
R, S, U
Case
Code D ± 0.5 L A ± 0. 2 H (max) I (ref) W P (ref) K
A 3.0 5. 4 +. 1,-. 2 3. 3 4.5 1. 5 0.55 ± 0.1 0. 6 0. 35 + 0. 15/-0.20
B 4.0 5. 4 +. 1,-. 2 4. 3 5.5 1. 8 0.65 ± 0.1 1. 0 0. 35 + 0. 15/-0.20
C 5.0 5. 4 +. 1,-. 2 5. 3 6.5 2.2 0.65 ± 0.1 1. 5 0. 35 + 0. 15/-0.20
D 6.3 5. 4 +. 1,-. 2 6. 6 7.8 2.4 0.65 ± 0.1 1. 8 0. 35 + 0. 15/-0. 20
X 6. 3 7.9 ±. 3 6. 6 7.8 2. 6 0.65 ± 0. 1 1. 8 0. 35 + 0. 15/ -0. 20
E 8.0 6. 2 ±. 3 8. 3 9.5 3. 4 0. 65 ± 0. 1 2.2 0. 35 + 0. 15/-0. 20
F 8. 0 10.2 ±.3 8. 3 10 3. 4 0. 90 ± 0. 2 3. 2 0.70 ± 0. 20
G 10. 0 10. 2 ±. 3 10. 3 12 3.5 0. 90 ± 0. 2 4.6 0.70 ± 0. 20
H 12. 5 13. 5 ± . 5 13. 5 15 4. 7 0.9 ±0. 3 4.4 0.70 ± 0. 30
J 10 13.5 10. 3 12 3. 5 0. 9 ±0.2 4.6 0. 70 ± 0. 20
K 10 17. 5 10. 3 12 3. 5 0. 9 ±0.2 4. 6 0.70 ± 0. 20
L 12. 5 16. 5 ± .5 13. 5 15. 0 4.7 0.9±0.3 4.4 0.70 ± 0. 30
P 16. 0 16. 5 ± . 5 17. 0 19.0 5.5 1. 2±0.3 6.7 0.70 ± 0. 30
R 18. 0 16. 5 ± . 5 19. 0 21.0 6.5 1.2±0.3 6. 7 0.70 ± 0. 30
S 18. 0 21. 5 ± . 5 19. 0 21.0 6.5 1. 2±0.3 6.7 0.70 ± 0. 30
U 16. 0 21.5 17. 0 19.0 6.7 1.2±0. 3 6. 7 0.70 ± 0. 30
120 seconds
Preheat
Maximum
Time @ 200°C
(see chart right)
Time
160°C
200°C
Peak
Temp.
(see chart
right)
5 seconds
maximum
H
LW
P
D
0.3 mm Max. A
I
I
K
1605 East Rodney French Blvd.
New Bedford, MA 02744
(508) 996-8564, Fax(508) 996-3830
http://www .cornell-dubilier.com
E-mail: cdenb@cornell-dubilier .com
V-Chip Cleaning and Coating Guide
Below is a table discribing the usable solvents for cleaning a PC board containing V-Chips.
Recommended Symtoms
So lv en t type Name M anu factu r er use level o f Damag e
Wat er Dist i l l ed Wat er 1 None
A l kali ne A qua Cleaner 210S EP S anei 2
P i ne A l pha S T-100S Arala wa Kasei Kogyo 2
Clean-thru 750H 2
S urfac e act i ve Clean-thru 750L K ao Corporat i on 2
agent Clean-thru 710M 2
S un-el ec B-12 S anyo K asei 2
DK be-c l ean CW-5790 Dai -Ichi Kogyo Sei yaku 2
Petroleum Cold-cl eaner P 3-375 Henk el Hak usui 3
based Techno-cl eaner 219 Sei wa S angyo 3
hydrocarbon A xarel 32 M i ts ui DFC 3
A lcohol base Isopropyl Alcohol 1 None
Techno-care FRW-17 3
S i l i con base Tec hno-care F RW -17 Toshi ba Corporat i on 3
(Techno-c are F RV -100) 3
Halogenated Asashi -cl ean A K -225AES A shahi Gl ass 3
hydrocarbon HCFC141B -MS Dalki n Kogyo 3
Tel pen base Tel pen-cl e aner E C-7R Nippon A l pha M etals 3 s wel l ed seal
Contains
CFC's subj ect
to
environmental
regulations
Water Base
Solve nt Ba se
None, though
m arki ng i nk
m ay fade
s wel l l i ng on
seal ing rubber
ri ns e and dry
well after
cleaning
None if us ed i n
combination
Use level
Number
1 Cleaning i s possi ble
2 Cleaning i s possi ble (m ark i ngs m ay fade)
3 Cl eaning i s poss i ble (Us e caut i on. 1 and 2 are bet t er choices)
Recommendation
Do not use chlorine-based halogenated cleaning solvents, adhesives or coating agents.
When halogenated chlorine-based solvents are used in the cleaning process, free clorine
is liberated from the solvent. This chlorine causes corrosion and deterioration of the
aluminum inside the capacitor
Dangers of “Free-Chlorine”:
After the solvent dries, the chlorine remains on the capacitor seal, the chlorine slowly
permeates into the capacitor element causing corrosion and damage that happens slowly.
It may take some time before a failure is apparent. A representation of the chemical
reaction is on the following page.
Table 1
Cleaning
V-Chips may be immersed for 5 minutes, safely, in Level 1&2 solvents. Use Level 3
solvents with caution.
1605 East Rodney French Blvd.
New Bedford, MA 02744
(508) 996-8564, Fax(508) 996-3830
http://www.cornell-dubilier.com
E-mail: cdenb@cornell-dubilier .com
Reaction of Free-chlorine and Aluminum
Combined free chlorine and hydrogen become hydrochloric acid, but it has high
dissociation and most of it becomes chlorine ions. These chlorine ions react with
the aluminum. The order of the reactions is represented below.
1.) Hydration of oxide film
AlO3 + 3H2O > 2Al(OH)3
2.) Reaction of hydrated oxide film and chlorine (Dissolution of film)
Al(OH)3 + 3HCl > AlCl3 + 3H2O
3.) Reaction of aluminum and hydrochloric acid (Dissolution of aluminum)
Al + 3HCl > AlCl3 + 3/2H2
4.) Precipitation of aluminum hydroxide
AlCl3 + 3H2O > Al(OH)3 + 3HCl
The entire reaction can be summerized as the following:
Al + Al2O3 + 3HCl3 + 3H2O > 2Al(OH)3 + AlCl3 + AlCl3 + H3/2
Therefore the compounds produced by the reactions are aluminum hydroxide and hydrochloric
acid from reaction #4; the hydrochloric acid is not consumed and acts as a catalyst.
Cl
Cl
Cl
CC
H
H
H
HCl
Cl
ClCC
H
H
HH
+
Cl
Cl
CC
H
H
+
HCl =
Chlorosen
Cl
ClCC
H
H
H
Cl
+(2H)
Electrolysis
reaction
Dichloroethane Dicloroethylene
Fig. 1 Decomposed reaction of cleaning solvents (Free-chlorine)
Free-chlorine Diagram:
V-Chip Cleaning and Coating Guide
1605 East Rodney French Blvd.
New Bedford, MA 02744
(508) 996-8564, Fax(508) 996-3830
http://www .cornell-dubilier.com
E-mail: cdenb@cornell-dubilier .com
Composition Boiling Poi nt (°C) Common Name
1.1.1-Trichloroethane 74.1 Chlorosen
Trichloroethylene 87.2 Trichlene
Tetrachloroethylene 121.1 Perchloroethylene
Solvents that should not be used
Table 2
Additional Cleaning Notes:
1.) Solvents containing CFC’s destroy the ozone layer and should be avoided to protect the global environm e n t .
2.) To avoid solvent residue between the capacitor ’s seal and the PC board, make sure the assembly is dried
thoroughly immediately after cleaning.
V-Chip Cleaning and Coating Guide
Coating
Table 3
Below is a list of coatings that are safe for use with V-Chips
Ma nufa cture r Ma te ri al Coa ting Ma te ria l Na me
Acr ylic Taffi- 1 1 4 1, Ta ffi- 1 1 4 7
Urethane Taffi-1154
A cry li c Hum i S eal 1B 66
Uret ha ne Humi S ea l 1 A 27
Dow Corning S ilic on P erugan Z, P erugan C
Ni hon Zeon Urethane Q ui nate Syst e m 160B
Hi t achi Chemi cal
Boxy Brown
Influence of Coating Materials
Coating materials are typically used for insulation, waterproofing, dustproofing and
rustproofing. When coating materials are selected there are factors to prevent internal
corrosion (chlorine reaction with aluminum) while the capacitor is functioning. The
following steps will help prevent this damage to the capacitor.
A.) Corrosion Reaction
Avoid halogen solvents which permeate the capacitor ’s seal, releasing chlorine which
reacts with the aluminum inside the capacitor.
B.) Selecting a Coating Material
It is necessary to select a coating material that contains no chlorine.
The coating consists of the main ingredient which could be urethane resin, acrylic resin
or other polymer, a solvent and other additives such as flameproofing agents.
1605 East Rodney French Blvd.
New Bedford, MA 02744
(508) 996-8564, Fax(508) 996-3830
http://www.cornell-dubilier.com
E-mail: cdenb@cornell-dubilier .com
V-Chip Cleaning and Coating Guide
The coating’s solvent dries and diffuses into the rubber seal of the capacitor, therefore
halogenated hydrocarbon solvents containing chloride should not be used.
Similar to the solvent, additives can permeate into the capacitor through the rubber
seal. Ingredients in many additives might not be listed, therefore use caution when
choosing an additive.
C.) Other Concerns
Solvents and additives are subject to change without notice. Make sure ingredients
are identified.
Avoid coating a substrate after cleaning it with a halogenated hydrocarbon. The
coating will prevent the remaining solvent from diffusing which may cause corrosion.
