\
SCREW TERMINAL ꢀꢁꢂCIꢃORS
High Capacitance Computer Grade
Type DCM ꢀ Best Value Capacitance/ꢁype DCMX ꢂ Maximum Capacitance
(
These aluminuꢀ electꢁlytic capacitors are designed ꢂr
power supplꢃ filters, welding equipmentꢄ computer hold
up power and ꢅther industrial applications wꢆere lꢇrge
capacitance, low ESR and high ripple cuꢈent are
required.
.
.
'
·�
Peꢀoꢁance Highlights:
• Capacitance 66 uF to I, I00ꢀ000 uF
• Voltage 6.3 Vdc to 450 Vdc
• ꢂperatꢃng temperature -40°C to +85°
• Standard capacitance tolerances
< 200 Vdc = -ꢁO to +75%
ꢄ 200 Vdc ꢅ ꢆ10 to +50%
C
• ꢇ 000 hours fulꢈꢆrippꢈe liꢉe test at +85°C
• ꢇ00 hoꢋrs shelf lꢃfe test at +85°C
Leakage currentꢊ 0.005CV ꢋA (6 mA max)
Ratings:
ESR max
ohms
Ripple amps
°C
Nomꢀnal
ESR max
ohms
Rꢁppꢂe amps
85°C
Nominaꢃ
Capacꢆtaꢇce
uF
Case Sꢈꢉe
Cataꢊog
Number
Capacitaꢄce
uF
Case Size
85
Cataꢅog
Number
120Hz, 20kHz ꢋ20Hz. 20kHz D ꢌ L (iꢇches)
ꢍ20Hꢉꢎ 20kHz ꢍ20Hꢉꢏ 20kHꢉ D x ꢐ (ꢑnchesꢒ
ꢁꢋ,
ꢁꢎ
ꢁꢎ
ꢁꢎ
ꢁꢎ
ꢁꢎ
ꢁꢒꢓ
ꢁꢖ
ꢁꢒꢓ
2
ꢁꢎ
ꢁꢒꢓ
ꢁꢙ
2
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
ꢁꢂ
21/s
ꢁꢂ
2ꢂ
2ꢃ
3Ys
2ꢂ
4ꢃ
3Ys
3Ys
5ꢂ
4ꢃ
4ꢟ
3Ys
4ꢡ/s
5ꢂ
4ꢅ/s
4ꢆꢇs
5ꢂ
4ꢈꢩa
5ꢂ
4ꢄ
4ꢠ/a
5%
5Ya
4ꢄ
5ꢂ
5ꢭ
5%
5ꢴꢵ
5ꢂ
5ꢭ
DCM233U6R3AK2B
DCM343U6R3AA2B
DCMX343U6R3Aꢐ2B
DCM493U6R3AH2B
DCMX5ꢁ3U6R3AA2B
DCM653U6R3AB2B
DCMX733U6R3AH2B
DCM953U6R3AC2B
DCMX953U6R3AB2B
DCMꢁ34U6R3BB2B
DCMꢁ44U6R3AF2B
DCMXꢁ44U6R3AC2B
DCMꢁ64U6R3EC2B
DCMXꢁ94U6R3BB2B
DCM204U6R3BC2B
DCMX2ꢁ4U6R3AF2B
DCMX234U6R3EC2B
DCMX304U6R3BC2B
DCM3ꢁ4U6R3BF2B
DCM334U6R3CC2B
DCMX454U6R3BF2B
DCM474U6R3DC2B
DCMX484U6R3CC2B
DCM504U6R3CF2B
DCM564U6R3DE2B
DCMX674U6R3DC2B
DCM7ꢁ4U6R3DF2B
DCM?44U6R3Dꢲ2B
DCMX744U6R3Cꢳ2B
DCMX904U6R3DE2B
DCMXꢁ05U6R3DF2B
DCMXꢁꢛ5U6R3Dꢯ2B
49000 0.0300 0.02ꢁ0 6.7 9ꢍ6
59000 0.0ꢁ90 8ꢀ8 ꢁ2.ꢁ
ꢁꢎ
ꢁꢎ
ꢁꢎ
ꢁꢎ
ꢁꢒꢓ
2
ꢁꢎ
ꢁꢗ
ꢁꢙ
2
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
2ꢏa
31/a
DCMX493U7R5AA2B
DCM593U7R5AB2B
DCMX7ꢁ3U7R5AH2B
DCM873U7R5AC2B
DCMX923U7R5AB2B
DCMꢁ24U7R5BB2B
DCMꢁ34U7R5AF2B
DCMXꢁ44U7R5AC2B
DCMꢁ44U7R5EC2B
DCMꢁ84U7R5BC2B
DCMXꢁ94U7R5BB2B
DCMX204U7R5AF2B
DCMX224U7R5EC2B
DCM284U7R5BF2B
DCMX294U7RꢢBC2B
DCM304U7R5CC2B
DCM434U7R5DC2B
DCMX444U7R5BF2B
DCM464U7R5CF2B
DCMX474U7R5CC2B
DCM5ꢁ4U7R5DE2B
DCM654U7R5DF2B
DCMꢫ654U7R5DC2B
DCM684U7R5DP2B
DCMX7ꢁ4U7R5Cꢮ2B
DCMX874U7R5DE2B
DCMX984U7R5DF2B
DCMXꢁ05U7R5DꢯꢰB
23000 0.05ꢁ0 0ꢌ0350 4.9 7.ꢁ
ꢀ,
(
34000 0.0340 0ꢌ0240 6ꢊ3 9ꢊ0
34000 0.05ꢁ0 0ꢀ0350 4.9 7ꢀꢁ
49000 0.0240 0ꢀ0ꢁ70 7.8 ꢁ0.8
5ꢁ000 0.0300 0ꢌ02ꢁ0 6ꢊ8 9.6
65000 0.0ꢁ90 0.0ꢁ30 8.9 ꢁ2.ꢁ
73000 0.0230 0.0ꢁ60 8ꢊ0 ꢁꢑ.2
95000 0.0ꢁ40 0ꢌ0ꢁ00 ꢁ0.4 ꢕ3ꢊ6
95000 0ꢊ0ꢁ90 0ꢌ0ꢁ30 8ꢊ9 ꢁ2ꢊꢁ
ꢁ30000 0.0ꢁ40 0ꢀ0ꢁꢁ0 ꢁ2.0 ꢁ4.9
ꢚ40000 0.0ꢁꢁ0 0ꢌ008ꢛ ꢁꢁ.2 ꢁ3.8
ꢁ40000 0.0ꢁ40 0ꢌ0ꢁ00 ꢁ0.4 ꢜ3ꢊ6
ꢁ60000 0.0ꢁ20 0ꢌ0095 ꢁꢁꢞ6 ꢁ3.6
ꢁ90000 0.0ꢁ30 0.0ꢁ00 ꢁ2.6 ꢁ5.7
0.0ꢁ30
7ꢁ000 0.0230 0.0ꢁ60 7.9 ꢁꢁ.2
87000 0.0ꢁ40 0.0ꢁ00 ꢁ0ꢀ3 ꢁ3.6
92000 0.0ꢁ90 0.0ꢁ30 8ꢀ8 ꢁ2ꢍꢑ
ꢁ20000 0ꢌ0ꢁ40 0.0ꢁꢁ0 ꢁꢁ.9 ꢁ4.9
ꢁ30000 0.0ꢁꢁ0 0.008ꢁ ꢁꢁꢔꢑ ꢁ3.8
ꢁ40000 0ꢊ0ꢁ40 0.0ꢁ00 ꢁ0.3 ꢁ3.6
2%
1
4
/s
3Ys
3ꢏa
5ꢂ
4ꢀ
4ꢄ
4ꢄ
3Ys
5ꢂ
4ꢠ/a
5%
4ꢄ
4ꢄ
4Ys
5%
5%
4ꢄ
5ꢄ
5ꢂ
4ꢈꢉ
5ꢭ
5%
5ꢄ
5ꢂ
5ꢭ
ꢁ40000 0.0ꢁ20
0ꢘ0095 ꢁꢁ.5 ꢁ3.6
ꢁ80000 0ꢀ0ꢁ00 0.0074 ꢁ4.6 ꢁ7.9
ꢁ90000 0.0ꢁ30
ꢁ2ꢌ5 ꢁ5.7
0.0ꢁ00
2
200000 0ꢀ0ꢁ20 0.0086 ꢁ0ꢀ8 ꢁ3.4
220000 0.0095 0.0073 ꢁ3ꢀꢛ ꢁ5.4
280000 0.0070 0.0053 ꢁ6.8 20.0
ꢝ's
PA
2
2
21ꢣꢤ
3
2
2ꢥꢦ
21ꢣꢧ
3
3
3
3
2ꢥꢦ
3
200000 0ꢊ0ꢁ00 0.0074
ꢁ4ꢊ7 ꢁ7ꢊ9
2
290000 0.0ꢁ00 0.0073
ꢁ4.6 ꢁ7.9
2ꢁ0000 0ꢊ0ꢁꢁ0 0ꢊ0086 ꢁ0ꢊ9 ꢁ3ꢊ4
230000 0.0094 0ꢌ0073 ꢁ3ꢞꢁ ꢁ5ꢊ4
300000 0.0ꢁ00 0ꢌ0073 ꢁ4.7 ꢁ7.9
3ꢁ0000 0.0069 0ꢌ0053 ꢁ6ꢊ9 20.0
330000 0.0068 0ꢀ0054 ꢁ9.6 22.6
450000 0.0069 0ꢀ0053 ꢁ6ꢊ9 20.0
470000 0.0064 0ꢀ0055 20ꢀ7 22.4
480000 0.0068 0ꢌ0054 ꢁ9.6 22.6
500000 0.0049 0ꢀ0040 22ꢌ9 25.9
ꢁꢖ
ꢁꢙ
2
2
2ꢈꢨꢦ
2
3
2ꢆꢪꢦ
2ꢬ
3
3
3
ꢱ
2ꢈꢨꢦ
3
300000 0.0069 0.0054 ꢁ9ꢌ5 22ꢊ6
430000 0ꢀ0064 0ꢊ0055 20ꢊ6 22.4
440000 0.0069 0.0053 ꢁ6ꢀ8 20.0
460000 0ꢀ0049 0.0040 22ꢀ8 25.9
470000 0ꢀ0068 0ꢊ0054 ꢁ9ꢞ5 22.6
5ꢁ0000 0ꢌ0066 0.0059 ꢁ8ꢀ9 ꢁ9.8
650000 0ꢀ0047 0.004ꢁ 24.4 26ꢊ2
650000 0ꢌ0062 0.0053 20ꢌ6 22.4
680000 0ꢌ0045 0.0040 24ꢀ7 26.4
7ꢁ0000 0ꢀ0049 0.0039 22ꢀ8 25ꢀ9
870000 0ꢀ0050 0ꢊ0043 23ꢌ4 25ꢊ2
980000 0ꢌ0046 0.0040 24ꢊ4 26.2
ꢁ000000 0ꢌ0044 0ꢀ0039 24.7 26ꢀ4
560000
0.0065 0.0059 ꢁ8.9 ꢁ9.8
670000 0.0062 0ꢀ0053 20ꢌ7 22ꢌ4
7ꢁ0000 0.0047 0ꢀ004ꢛ 24.5 26ꢀ2
3
3
740000 0ꢊ0045 0ꢌ0040
24ꢌ7 26ꢌ4
740000 0ꢊ0049 0ꢌ0039 22ꢌ9 25ꢌ9
900000 0ꢊ0049 0ꢌ0043 23ꢌ5 25ꢌ2
ꢁ000000 0.0045 0.0040 24ꢀ5 26ꢀ2
ꢁꢁ00000 0ꢊ0044 0ꢀ0039 24ꢀ7 26ꢀ4
10 Vdc
ꢁ 2 Vdc Surge
*6000 0ꢌꢁ300 0ꢀ0830 3.5 6.2
ꢷ7200 0ꢀꢁꢁ00 0ꢀ07ꢁ0 3ꢊ7 6ꢊ4
ꢁ7000 0ꢀ05ꢛ0 0ꢊ0350 4ꢞ8 7ꢊꢛ
25000 0ꢌ0350 0ꢊ0240 6ꢊ2 9.0
29000 0ꢀ05ꢛ0 0.0350 4.8 7.ꢛ
36000 0ꢌ0240 0ꢌ0ꢁ70 7ꢊ7 ꢁ0.8
43000 0ꢌ0300 0ꢌ02ꢁ0 6.7 9.6
47000 0ꢀ0ꢛ90 0ꣂ0ꢛ30 8ꢌ8 ꢁ2ꢊꢁ
ꢁꢎ
ꢁꢎ
ꢁꢎ
ꢁꢎ
ꢁꢎ
ꢝ's
ꢁꣁ
ꢁꢎ
X
X
X
X
X
X
X
X
2ꢶ
2ꢶ
ꢁ%
2ꢶ
ꢁꣀꢓ
2%
DCM602U0ꢛOAA2B
DCM722U0ꢁOAA2B
DCMꢁ73U0ꢛ0AK2B
DCM253U0ꢛOAA2B
DCMX293U0ꢛOAK2B
DCM363U0ꢛOAH2B
DCMX433U0ꢁOAA2B
DCM473U0ꢛOAB2B
3
3
7.5 Vdc
2ꢁ000 0ꢊ05ꢁ0 0ꢌ0350 4ꢌ8 7ꢊꢁ
9 Vdc Surge
X
X
X
X
ꢁ%
DCM2ꢁ3U7R5AK2B
DCM3ꢁ3U7R5AA2B
DCMX333U7R5AK2B
DCM453UꢾR5Aꢿ2B
ꢸ's
ꢹꢎ
ꢼ's
ꢁꢽ
1
ꢺꢻ
6ꢀ2 9ꢌ0
2
3ꢁ000 0.0350 0ꢀ0240
2
ꢄ
33000 0.05ꢁ0 0ꢀ0350 4ꢌ8 7ꢌꢁ
ꢁ%
2%
;ꢀ
3ꢶ
7ꢊ7 ꢁ0ꢊ8
45000 0ꢊ0240 0ꢊ0ꢁ70
(
* Stock ꣃ꣄ꣅing
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