DCM743U016BB2A [CDE]
Aluminum Electrolytic Capacitor, Aluminum (wet);型号: | DCM743U016BB2A |
厂家: | CORNELL DUBILIER ELECTRONICS |
描述: | Aluminum Electrolytic Capacitor, Aluminum (wet) |
文件: | 总6页 (文件大小:993K) |
中文: | 中文翻译 | 下载: | 下载PDF数据表文档文件 |
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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
101
• () -
꣎
SCREW TꢀRMINAL ꢁꢂCITORꢃ
BestꢀValue Table
Here's how to decide ꢀhicꢁ sꢂꢃeꢀ-teꢄinal capacitor
is best ꢅr your application. Our capacitor ꢆꢇes are
ranked beloꢀ on six cꢁaracteristicsꢈ I00% is the best
score, and aꢉl loꢊeꢋꢌscoring ꢍꢇes are ranked against
the I00% best ꢆꢇeꢎ
You can get combination rankings by multiplying
scores togetꢁerꢈ As an illusꢘrationꢙ suppose tꢁat you
ꢀant to rꢚnk our ꢆꢇes by lowest cost ripple
capabiꢉiꢛꢎ Just multiply tꢁe low cost score by tꢁe
\
hꢜgh ripple cuꢝenꢞ score to ꢟind tꢁat the ꢠꢇe 500R is
tꢁe best value witꢁ a score oꢕ 67ꢗ2%ꢡ (0ꢗ84 x 0ꢎ80 =
0ꢗ6ꢢ2 or 6ꢢꢗ2%) compared to tꢁe 550ꢣs nextꢤbest scoꢃe
oꢕ 65%. (1ꢥ00 ꢦ 0ꢡ65 = 0ꢗ65 or 65%).
Select ꢏꢇes ꢅr reꢐew ꢀhich have higꢁ scores on
your most important cꢁaracteristics and then
compare specifꢑcations to make your final choiceꢎ For
other cꢁaracteristiꢒ and pꢓduct strengtꢁsꢔ reꢕer to
the Appꢉꢖcation Cꢁart in this sectionꢗ
Lꢀw
High
Ripple
Currenꢁ
56%
56%
69%
69%
84%
100%
99%
99%
High
Caoacitance
61%
Lꢀw
ESR
65%
65%
25%
19%
21%
79%
93%
93%
100%
60%
Hi-Frequency
lmoedance
94%
Lꢀng
Life
Lꢀw
Cꢀsꢁ
100%
87%
85%
74%
80%
65%
63%
55%
83%
23%
oe
Tv
DCM
.DCMX
500
10%
10%
25%
25%
27%
23%
36%
36%
10%
100%
100%
58%
88%
87%
67%
51%
87%
6ꢁ2%
5ꢂ8%
94%
83%
83%
83%
94%
94%
94%
100%
97%
500ꢀ
500R
550
101
101ꢀ
139R
125
47%
49%
High Capacitance
LowESR
l00% means highest avaiꢀabꢁe capacitance.
l00% means ꢁowest ESR pꢂr unit capacitance and
is most representative of ꢁow voꢀtage ratingsꢃ
Low Hi�Frequency Impedance
High Ripple Cuꢀent
Long ꢁe
I00% means ꢁowest impedance at lO to 20 kHzꢃ
100% means highest avaiꢁabꢁe rippꢁe currentꢄ
I00% means ꢀongest ꢁife based on ꢁife test capabiꢁity and ·dꢅ ꢁeakage
current and adjusted for extended-ꢁife test dataꢃ
Low Cost
ꢆ00% means ꢁowest l000 piece price per unit capacitance
and is most represꢇntative of ꢈ0,000 uf and ꢈ0 Vdcꢃ
( _ꢀ
, MA (508) 9ꢀ6-8561
100
SCREW TꢀRMINAL ꢁꢂCꢃTORS
ESR mꢔx
ohms·
Ripple ꢔmps
Nominꢔꢕ
ESR mꢔꢖ
Cꢔpꢔcitꢔꢗce
uF
as•c
Cꢔse Size
Cꢔtꢔꢘog
Nꢤꢥber
Cꢔpꢔciꢙꢔꢚce
ꢤF
oꢛms
Cꢔꢙꢔloꢜ
Nꢧmbeꢨ
ꢝꢞHꢟꢠ ꢝꢞkHꢟ 1ꢝꢞꢡꢟꢢ ꢝꢞꢣꢡꢟ D x L iꢚches)
ꢝꢞHꢟꢠ ꢝꢞꢣꢦz
1
1
62000 0.0230 0ꢩ0160 7ꢪ9 11ꢫ2
70000 0.0140 0.0100 10.3 13.6
81000 0.0190 0.0130 8.8 12.1
97000 0.0140 0ꢫ0110 11.9 ꢱ4.9
ꢱ00000 0.0ꢱꢱ0 0.0081 11.1 13ꢫ8
120000 0.0140 0.0100 10ꢶ3 13.6
120000 0ꢫ0120 0.0100 11.5 13.6
ꢱ50000 0.0ꢱ00 0.0074 14.6 ꢱ7.9
ꢱ70000 0ꢅ0130 0.0100 ꢱ2.5 15.7
180000 0.0120 0.0086 10.8 13.4
200000 0ꢫ0095 0.0073 13ꢫꢾ 15.4
230000 0ꢅ0070 0ꢅ0054 16ꢅ8 20.0
240000 0.0069 0.0054 19.5 22ꢫ6
250000 0.0100 0.0074 14.6 17ꢅ9
350000 0.0066 0ꣃ0056 20.6 22.4
370000 0ꢅ0050 0ꢅ0040 22ꢳ8 25.9
390000 0.0069 0.0053 16.8 20ꢫ0
40000 0ꢫ008 0.0054 19.5 22.6
1ꢀ
1%
1ꢀ
2
2ꢬ
4Ya
3Ya
3Yꢴ
5ꢃ
4ꢷ
4ꢀ
4ꢀ
3ꢼ
5ꢃ
4ꢀ
5ꢃ
4ꢀ
4ꢄ
4Ya
5ꢃ
5ꢃ
4Yꢴ
5Yꢴ
5ꢃ
5
4Ya
5ꢃ
5Ya
5ꢃ
5꣎ꢴ
ꢭꢮMX623U01OAꢯ2B
ꢭꢮM703U01OAꢮ2ꢰ
ꢭꢮMX813U01OAꢰ2ꢰ
ꢭꢮM973U010ꢰꢰ2ꢰ
ꢭꢮM104U010Aꢵ2ꢰ
ꢭꢮMX124U01OAꢮ2ꢰ
ꢭꢮM124U010ꢹꢮ2ꢰ
ꢭꢮM154U01OBꢮ2B
ꢭꢮMX174U010ꢰꢰ2ꢰ
ꢭꢮMX184U0ꢱ0Aꢵ2ꢰ
ꢭꢮMX204U01Oꢹꢮ2ꢿ
ꢭꢮM234U01OBꢵ2ꢰ
ꢭꢮM244U01Oꢮꢮ2ꢰ
ꢭꢮMX254U010Bꢮ2ꢰ
ꢭꢮM354U010ꢭꢮ2ꢰ
ꢭꢮM374U01Oꢮꢵ2ꢰ
ꢭꢮMX394U010ꢰꢵ2B
ꢭꢮMX414U0ꢱ0ꢮꢮ2ꢰ
ꢭꢮM454U010ꢭꢹ2ꢰ
ꢭꢮM544U010ꢭꢵ2ꢰ
ꢭꢮM564U010ꢭP2ꢰ
ꢭꢮMX584U010ꢭꢮ2B
ꢭꢮMX634U01Oꢮꢵ2ꢰ
ꢭꢮMX784U010ꢭ2ꢰ
ꢭꢮMX884U010ꢭꢵ2ꢰ
ꢭꢮMX924U010ꢭP2ꢰ
*5500 0ꢫ0720 0.0450
*5600
*6800 0.0660 0.0450 4ꢫ3 6ꢳꢱ
8.2
1ꢀ
ꢱꢀ
ꢱꢀ
1ꢀ
1ꢀ
ꢱꢀ
ꢱꢀ
1ꢀ
1ꢀ
ꢱꢀ
1ꢀ
1ꢀ
1ꢀ
2
1ꢀ
1ꢀ
1ꢀ
2
2
1ꢀ
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
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
X
X
X
X
X
X
X
X
X
X
X
X
X
X
4.8
3Ya
3ꢲ
2ꢲ
We
4Ya
3Ya
3ꢲ
3ꢁ
2ꢽꢐ
4Ya
ꢱꢃ
4Ya
2ꣁ
4Ya
4ꢽ꣄
2Ya
3Ya
4V,
4꣄
2ꣁ
4Ya
4Ya
3Ya
4'!,
4ꢽꢐ
3ꢼ
4Ya
5꣏
4ꢼ
4ꢀ
4ꢁ
4ꢀ
3ꢼ
5꣙
4ꢼ
5꣖
4Ya
4ꢐ
4ꢼ
5꣖
5ꢃ
4ꢼ
5ꢼ
5꣖
5
4ꢀ
5꣖
5Ya
8ꢃ
5꣩
5ꢈ
8ꣁ
ꢭꢮM552U025Aꢰ2ꢰ
ꢭꢮM562U025Aꢰ2ꢰ
ꢭꢮM682U025AA2ꢰ
ꢭꢮM792U025AK2ꢰ
ꢭꢮM822U025Aꢮ2ꢰ
ꢭꢮM892U025Aꢰ2ꢰ
ꢭꢮM902U025Aꢰ2ꢰ
ꢭꢮM103U025Aꢰ2ꢰ
ꢭꢮM123U025AA2ꢰ
ꢭꢮMꢱ33U025Aꢮ2ꢰ
ꢭꢮMX143U025AK2ꢰ
ꢭꢮM163U025Aꢮ2ꢰ
ꢭꢮM173U025Aꢯ2ꢰ
ꢭꢮMꢱ83U025ꢰꢮ2ꢰ
ꢭꢮM183U025Aꢮ2ꢰ
ꢭꢮMX213U025AA2ꢰ
ꢭꢮM223U025Aꢰ2ꢰ
ꢭꢮM293U025ꢰꢮ2ꢰ
ꢭꢮM303U025ꢰꢮ2ꢰ
ꢭꢮMX303U025A2ꢰ
ꢭꢮM323U025ꢰꢮ2ꢰ
ꢭꢮM333U025Aꢮ2ꢰ
ꢭꢮMX393U025Aꢰ2ꢰ
ꢭꢮM4ꢱ3U025ꢰꢮ2ꢰ
ꢭꢮM433U025ꢮꢮ2ꢰ
ꢭꢮM463U025ꢰꢰ2ꢰ
ꢭꢮM473U025ꢰꢮ2ꢰ
ꢭꢮM493U025Aꢵ2ꢰ
ꢭꢮM503U025ꢮꢮ2ꢰ
ꢭꢮM553U025ꢹꢮ2ꢰ
ꢭꢮMX573U025Aꢮ2ꢰ
ꢭꢮM703U025ꢰꢮ2ꢰ
ꢭꢮMX793U025ꢰꢰ2ꢰ
ꢭꢮMX853U025Aꢵ2ꢰ
ꢭꢮMX953U025ꢹꢮ2ꢰ
ꢭꢮ114U025ꢰꢵ2ꢰ
ꢭꢮM124U025ꢮꢮ2ꢰ
ꢭꢮMX124U025ꢰꢮ2ꢰ
ꢭꢮMꢱ74U025ꢭꢮ2ꢰ
ꢭꢮM184U025ꢮꢵ2ꢰ
ꢭꢮMX194U025ꢰꢵ2ꢰ
ꢭꢮMX204U025ꢮꢮ2ꢰ
ꢭꢮM224U025ꢭꢹ2ꢰ
ꢭꢮM264U025ꢭꢵ2ꢰ
ꢭꢮM274U025ꢭP2B
ꢭꢮMX294U025ꢭꢮ2ꢰ
ꢭꢮMX314U025ꢮ꣧2ꢰ
ꢭꢮMX404U025ꢭꢹ2ꢰ
ꢭꢮM374U025ꢭG2ꢰ
ꢭꢮMX454U025ꢭꢵ2B
ꢭꢮMX474U025ꢭP2B
ꢭꢮMX594U025ꢭG2ꢰ
'
I
0.0710 0.0440 4.8 8.3
7900 0.0540
6ꢫ9
0.0360 4.6
1ꢀ
1%
1ꢸ
2
*8200 0.0500 0.0320 5.8 9.4
*8900 0ꢳ0480 0ꢫ0310 5ꢩ6 8.5
*9000 0.04ꢺ0 0.0310 5.6 8.5
*10000 0.04ꢻ0 0.0290
8.5
5.8
2
ꢱ2000 0.0370 0.0240 5.9 8.8
*13000 0.0340 0ꢫ0230 6ꢂ7 9.6
1ꢀ
1ꢸ
2
14000
6.9
9.5
0.0540 0.0360 4.6
*16000 0.0290 0.0200
17000 0.0260
7.0
2ꣀ
2
0.0170 7.4 ꢱ0.7
*18000 0.0350 0.0250 8ꣂ0 10.8
3
*18000 0.0270
0.0ꢱ90 7.ꢱ
�.5
9ꢅ5
2ꣅ
2
21000
0.0320 0.0210 6.4
22000 0ꢫ0200
0.0140 8.4 ꢱꢱ.9
2
3
*29000 0.0210 0.0140 10.9 15.6
450000 0.0070 0ꢳ0063
*30000 0.0200
18.9 19.8
0.0ꢱ30 11.0 15.6
30000 0.0240 0.0160 7.6 11.0
*32000
33000 0.0140 0.0100 10.0 13.5
39000 0.0200 0.0ꢱ40
*41000 0.0ꢱ60 0ꢂ0120 11.5 14.9
540000 0.0048 0.0042 24.4 26ꢫ2
560000 0.0046 0.0040 24.7 26ꢫ4
580000 0ꢅ0063 0ꢫ0054 20ꣂ6 22.4
630000 0ꢅ0049 0.0040 22ꣂ8 25.9
780000 0.0050 0.0044 23.4 25.2
880000 0.0046 0.0040 24.4 26ꢫ2
920000 0ꢅ0045 0.0039 24.7 26.4
3
3
0ꢂ0ꢱ90 0ꢫ0130 11.1 15ꢂ5
3
1ꢀ
1ꢀ
2
2
2
2
2,
3
8.4 11.9
*43000
3
3
0.0160 0.0120 13.4 17ꢳ1
46000 0.0150 0.0ꢱ10 11ꢂ5 14.7
*47000 0.0150 0.0110 11.6 14.5
16 Vdc
20 Vꢀc Surge
49000 0ꢫ0ꢱ10
10ꢂ8 13.7
1ꢀ
2,
PA
1ꢀ
2
0ꢂ0082
*5500 0.0980 0ꢫ0640
*7500 0.0760 0.0510 4.3 6꣓4
6.3
*9200 0.0590 0.0390 5ꢳ4 8.6
6ꢫ4
1꣐꣑
1ꢀ
1ꢀ
ꢱꢀ
1%
1%
1ꢀ
ꢱ%
1ꢀ
2
ꢱ%
1ꢀ
1꣘a
1ꢀ
2
1ꢀ
2
2ꢲ
2ꢲ
2Ya
3Yꢴ
1꣖
4ꢼ
2Ya
ꢃ
2ꢃ
4Ya
2Yꢴ
3Ya
2ꢃ
4Ya
4Ya
ꢭꢮM552U016AA2ꢰ
ꢭꢮM752U016AA2ꢰ
ꢭꢮM892U016AA2ꢰ
ꢭꢮM922U016Aꢰ2B
ꢭꢮM113U016AK2ꢰ
ꢭꢮM133U016Aꢮ2ꢰ
ꢭꢮM173U016AA2B
ꢭꢮX203U016AK2ꢰ
ꢭꢮM243U016Aꢯ2ꢰ
ꢭꢮM313U016Bꢮ2ꢰ
ꢭꢮMX313U016AA2ꢰ
ꢭꢮM323U016Aꢰ2ꢰ
ꢭꢮMX443U016A2ꢰ
ꢭꢮM473!꣢06Aꢮ2B
ꢭꢮM503U0꣗6ꢰꢮ2B
3ꢆ9
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
X
X
X
X
X
X
X
X
X
꣒50000 0.0150 0.0110 13.5 16.5
55000 0.0130 0ꢂ0100 ꣔1ꢂ2 13.5
57000 0 0140 0ꢂ0100 10.0 13.5
*8900 0.0670 0.0460
4.4
70000 0ꢇ0ꢱ00
14.2 ꣕7ꢇ7
0ꢫ0075
79000 0.0140 0ꢂ0꣗00 ꣗2ꢂ2 15.5
85000 0.0120
ꢱ0ꢂ4 13.3
7ꢇ0
9.6
8.9
7.0
ꢱꢱ000 0ꢫ0510 0.0350 4.8
*꣔3000 0.0430 0.0290 6.3
17000 0.0350 0.0240 6ꢳ2
20000 0.0510 0.0350 4ꢫ8
2
0.0087
꣕꣘a
ꢀA
2
95000 0ꢂ0꣕00 0.0075 12ꢶ 15ꢂ3
110000 0.0073 0ꢂ0054 16.4 19ꢇ9
120000 0.0072 0ꢂ0055 19ꢂ1 22.5
24000 0.0240 0.070 7.7 10.8
*31000 0.0300 0.0230 8.4 10.5
2
2
120000 0ꢇ0100
14ꢫ2 17.7
0.0075
�
9ꢇ6
31000 0.0300 0.0210 6.7
170000 0.0069 0.0058 20.4 22ꢂ3
180000 0.0052 ·6.0040 22ꢂ3 25ꢂ7
190000 0.0073 0ꢂ0054 ꢱ6ꢂ4 19.9
200000 0ꢇ0072 0ꢳ0055 19.1 22ꢂ5
3
"--
32000 0.0190 0ꢫ0130 8.8 12.꣠
44000 0ꢫ0230 0.060 7ꢂ9 1꣡.2
47000 0.0140 0.0100 10.3 ꣔3ꢫ6
*50000 0.070 0.0120 1ꢫ7 15ꢳ4
58000 0.0190 0ꢳ0130 8.8 12.1
65000 0ꢇ0140 0.010 11.9 14.8
69000 0.0110 0.0081 11.1 13ꢂ8
2,
2
2,
3
220000
0ꢇ0075 0ꢳ0067 18.8 9ꢇ8
3ꢼ - ꢭꢮMX583U꣣꣤6Aꢰ2B
260000 0.0050
24ꢂ1 26ꢳ1
24ꢇ4 26.4
20ꢌ4 22ꢇ3
3
0.0043
3Yꢴ
5ꣁ
ꢁ'!ꢂ
ꢁꢃa
4Ya
3ꢼ
5꣖
4꣪a
5ꢃ
4Ya
ꢭꢮM653U016BB2ꢰ
ꢭꢮM693U016Aꢵ2ꢰ
ꢭꢮM783U0꣗6ꢹꢮ2ꢰ
ꢭꢮMX853U016Aꢮ2ꢰ
ꢭꢮM104U016ꢰꢮ2ꢰ
ꢭꢮMX124U016ꢰꢰ2ꢰ
ꢭꢮMX134U016Aꢵ2ꢰ
ꢭꢮMX144U016ꢹꢮ2B
ꢭꢮM154U016ꢰꢵ2ꢰ
ꢭꢮ꣫164U06ꢮꢮ2ꢰ
ꢭꢮMX184U016Bꢮ2ꢰ
ꢭꢮM244U016ꢭꢮ2ꢰ
ꢭꢮM254U016ꢮꢵ2ꢰ
ꢭꢮMX284U016ꢰꢵ2B
ꢭꢮMX304U016ꢮꢮ2B
ꢭꢮM314U016ꢭꢹ2B
ꢭꢮM374U016ꢭꣶ2ꢰ
ꢭꢮ꣫384U06ꢭP2ꢰ
ꢭꢮ꣫X434U016ꢭꢮ2B
ꢭꢮMX454U06ꢮꢵ2ꢰ
ꢭꢮ꣫X574U06ꢭꢹ2B
ꢭꢮM484U06ꢭG2B
ꢭꢮ꣫X654U06ꢭꢵ2ꢰ
ꢭꢮ꣫X꤄84U06ꢭP2B
ꢭꢮ꣫꤅꤆34U0꣗6ꢭG2ꢰ
270000
290000 0ꢇ0068
0ꢂ0048 0.0041
3
ꢀ
1꣥꣦
1ꢀ
2
0.0057
3
78000 0.020 0.0100
1ꢇ5 13ꢳ6
310000 0.0051 0ꢇ0040 22ꢂ3 25ꢇ7
400000 0ꢂ0054 0.0046 23ꢂ1 25.
370000 0ꢇ0076 0ꢂ0072 16ꢇ7 17.1
2
3
85000 0.0140 0ꢫ0100 10.3 13.6
100000 0ꢫ0100 0.0074 14ꢳ6 17.8
120000 0.0130 0.000 12.5 ꢱ5ꢇ6
꣨30000 0ꢂ020 0ꢇ0086 10ꢂ8 ꣗3ꢫ4
140000 0.0100 0ꢂ0074 13ꢇ1 15ꢳ4
150000 0ꢇ0070 0.0054 ꢱ6ꢳ8 20ꢂ0
ꢱ60000 0.0069 0.0055 19.5 22ꢂ6
3
2
450000 0ꢇ0050 0ꢇ0042
2
4. 26ꢫ1
470000 0.0048 0.0041 24.4 26ꢇ4
590000 0.0074 0.0070
3
1ꢀ
ꢀA
2
3
ꢱ6ꢇ4 16.8
3
40 Vdc
50 Vdc Surgꢁ
2ꢄꢅ
2
ꢱ80000 0.000
41
/a
꣒2200
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
ꤌ
X
X
X
X
0ꢇ0074 14ꢂ6 17ꢳ8
240000 0.0067 0.0057 20ꢫ6 22ꢇ4
250000
22ꢇ8 25ꢳ8
0ꢂ1200 0ꢂ0740 3ꢌ4 5.6
1ꢀ
1ꢉa
2꣪a
2꣬꣭a
2ꢍa
3'!,
3ꢍa
3ꢍa
2ꢀ꣹ꢴ
3Y꣺
꣗꣖
ꢭꢮM222U040AA2ꢰ
ꢭꢮM272U040AA2ꢰ
ꢭꢮM292U040AA2ꢰ
ꢭꣲM362U040Aꢰ2ꢰ
ꢭꢮM402U040Aꢰ2ꢰ
ꢭꢮM422U040Aꢰ2ꢰ
ꢭꢮM472U040AA2ꢰ
ꢭꢮM5꣗2U040AB2ꢰ
ꢭꢮM532U040AK2ꢰ
ꢭꢮM582U040Aꢰ2B
ꢭꢮM602U040Aꢰ2ꢰ
ꢭꢮM622U040Aꢮ2ꢰ
ꢭꢮM752U040Aꢮ2ꢰ
ꢭꢮMX772U040AK2ꢰ
ꢭꢮꤊ792U040AA2ꢰ
ꢭꢮM822U040Aꢰ2ꢰ
ꢭꢮM872U040Aꢮ2ꢰ
ꢭꢮM902U040Aꢮ2ꢰ
ꢭꢮM113U040A2ꢰ
ꢭꢮM123U040Aꢮ2ꢰ
3
4ꢁ
5ꢊꢋ
5꣖
4ꢼ
꣒2700 0.1000 0.0630 3ꢂ6 5.6
*2900
2꣮,
2
0ꢇ0050 0ꢂ0040
0ꢇ0950 0ꢂ060 3꣯7 5ꢒ6 rn
꣰
280000 0ꢌ0070 0ꢳ0054 ꣗6.8 20.0
300000 0.0069 0ꢫ0054 19.5 22ꢇ6
310000 0ꢇ0072 0ꢂ0065 18ꢇ9 19ꢌ8
370000 0ꢇ0048 0.0042 24ꢇ4 26ꢌ2
380000 0.0047 0.0041 24.7 26ꢇ4
430000 0ꢂ0065 0ꢳ0056 20ꢂ6 22ꢇ4
450000 0ꢫ0049 0ꢒ0040 22ꢇ8 25꣼8
570000 0꣼0052 0.0045 23ꢂ4 25ꢒ2
480000 0ꢳ0070 0ꢳ0067 16.8 17ꢒ1
650000 0.0047 0ꢇ0041 24.4 26ꢇ2
680000 0ꢇ0046 0.0040 24꤃7 26ꢇ4
730000 0ꢌ0065 0ꢂ0063 16ꢂ5 6.8
꣒3600
꣒4000
*4200 0ꢒ0640
0ꢳ0730 0ꢇ0450 4ꢇ6 7ꢌ6
0.0670 0.0420 4ꢌ8 7ꢒ7
꣱a
ꢀꢁ
ꣴ'ꣵ
꣸'a
ꣴ'꣄
1ꢀ
1ꢀ
1ꢀ
꣨ꢉa
꣗ꣿa
1꤂꣱a
1꤇꤈
ꢀ
1꤇a
1ꤏ
꣗꤇a
1꤇a
2ꣳ,
3
1
5 ꣭a
7ꢒ7
0ꢂ0400 4ꢂ9
3
5꣖
5ꢈ
ꢁꢆꢇ
5ꣽ꣑
5ꢍꢐ
8ꢃ
5ꢑa
5
8꣖
ꣷ꣒4700 0ꢳ0690 0ꢌ0480 4ꢂ0 5ꢌ2
3
꣒500 0ꢂ0550
0.0350 5ꢇ2 7ꢂ7
3
5300 0.05ꣻ0 0ꢂ0380
꣒5800 0ꢌ0500 0ꢇ0320
6.0
7ꢌ7
4ꢂ3
5ꢏ3
2ꢎ/,
3
3'!,
ꢁ
꣒6000 0꣼0480
0.0320 5ꢓ4 7ꢏ7
3
ꣾa
3
꣒6200 0.0450 0꣯0290
*7500 0ꢒ0390 0ꢇ0250 6ꢂ2 8ꢓ9
7700
7900 0ꢂ0380 0ꢒ0260 5ꢂ6 7ꢌ7
ꤋ8200 OꢇQ400
8ꢂ8
4꣬꣭a
4꤀꤁a
1ꢃ
2꤉꣄꣭
3ꢼ
4ꢀꢂa
4ꤐ
2ꢃ
4ꢍa
5ꢂ9
3
3
0꣼0570 0.0380 4ꢌ3 6꤃0
3
0꤃0280 5ꢂ6 7ꢒ4
8꣼8
25 Vdc
꣒2700 0ꢇ1400 0ꢒ0880 3ꢂ2 6ꢇ0
꣒4500 0ꢇ0910 0ꢂ0580 3ꢒ9 6꣯3
꣒4700 0.0880 0ꢇ0560 4꤃0 6ꢂ3
30 Vdc Suꢂgꢁ
꣒8700
0ꢂ0350 0.0230 6ꢓ4
ꤍa
ꤍa
1ꢉa
X
X
ꤌ
2ꤎ꣭a
2ꢍa
2ꢁ
ꢭꢮ꣫272U025AA2ꢰ
ꢭꢮ꣫452U025AA2B
ꢭꢮ꣫472U025AA2ꢰ
꣒9000 0.0340 0ꢂ0230 6ꢏ4 8ꢂ8
1000 0_0210 0ꢇ0꣗80
6ꢒ9 9ꢓ4
꣒2000 0꣼0290
0ꢂ0200 6ꢓ7 8ꢏ5
*
ꤑꤒꤓꤔꤕ ꤖꤗꤘꤙꤚꤛ
• ꤜꤝ (ꤞꤟꤠꤡ ꤢꤢꤣꤤꤠꤞꤣ1
102
SCREW TERMINAL ꢀꢁPꢂCITORS
ESR max
ESRꢍax
oꢒꢍs
Ripplꢎ aꢍps
Noꢍinaꢏ
Casꢎ Sꢓzꢎ
Capacꢐtancꢎ
uF
ohꢍꢑ
Capacitancꢎ
uF
ꢟꢗꢘHazs,•ꢗcꢘkHz
Cataꢔoꢕ
ꢙꢚꢍbꢎꢡ
Catalog
ꢙꢚꢍbꢎr
ꢖꢗꢘHz, ꢗꢘkHz
ꢛꢗꢘHzꢜ ꢗꢘkꢝꢞ
D x L ꢐꢠchꢎs
ꢄ20ꢣ0
0ꢃ0220
1ꢤ
1ꢤ
1ꢤ
2
ꢥꢦMX123U040AA2B
ꢥꢦM153U040AB2ꢧ
ꢥꢦMX173U040Aꢨ2ꢧ
ꢥꢦM173U040BB2ꢧ
ꢥꢦM203U040Bꢦ2ꢧ
ꢥꢦM223U040Aꢦ2B
ꢥꢦMX223U040AB2ꢧ
ꢥꢦM233U040Bꢦ2B
ꢥꢦM313U040ꢧꢧ2ꢧ
ꢥꢦMX323U040Aꢦ2ꢧ
ꢥꢦM333U040Bꢦ2ꢧ
ꢥꢦM333U040Aꢩ2ꢧ
ꢥꢦM373U040ꢭꢦ2B
ꢥꢦMX453U040BB2ꢧ
ꢥꢦM473U040Bꢦ2B
ꢥꢦM473U040ꢦꢦ2ꢧ
ꢥꢦMX483U040Aꢩ2ꢧ
ꢥꢦMX543U040ꢭꢦ2B
ꢥꢦMX693U040Bꢦ2ꢧ
ꢥꢦM713U040Bꢩ2ꢧ
ꢥꢦM773U040ꢦꢦ2ꢧ
ꢥꢦMXꢄ04U040Bꢩ2B
ꢥꢦMXꢄ14U040ꢦꢦ2ꢧ
ꢥꢦM124U040ꢦꢩ2B
ꢥꢦM124U040ꢥꢦ2ꢧ
ꢥꢦM164U040ꢥꢭ2ꢧ
ꢥꢦMXꢄ74U040ꢦꢩ2ꢧ
ꢥꢦMXꢄ74U040ꢥꢦ2ꢧ
ꢥꢦM184U040ꢥP2B
ꢥꢦM184U040ꢥꢩ2ꢧ
ꢥꢦMX234U040ꢥꢭ2ꢧ
ꢥꢦMX264U040ꢥꢩ2ꢧ
ꢥꢦMX274U040ꢥP2B
ꢥꢦM304U040ꢥG2ꢧ
ꢥꢦMX404U040ꢥG2B
81000 0ꢅ0087
16ꢢ5 ꢄ9.3
X
X
X
X
X
X
X
X
X
X
X
X
X
4ꢀ
4Vo
5%
5%
4ꢀ
5ꢀ
5%
5ꢂe
5ꢁ•
5%
5ꢆ
8%
8%
ꢥꢦMX813U050ꢦꢦ2B
ꢥꢦM893U050ꢥꢦ2ꢧ
ꢥꢦM903U050ꢦꢩ2ꢧ
ꢥꢦMXꢄ24U050ꢦꢩ2ꢧ
ꢥꢦMXꢄ24U050ꢥꢦ2ꢧ
ꢥꢦM124U050ꢥꢭ2ꢧ
ꢥꢦM134U050ꢥꢩ2ꢧ
ꢥꢦMꢄ44U050ꢥP2B
ꢥꢦMXꢄ64U050ꢥꢭ2B
ꢥꢦMXꢄ84U050ꢥꢩ2ꢧ
ꢥꢦMXꢄ94U050ꢥP2ꢧ
ꢥꢦM234U050ꢥG2B
ꢥꢦMX294U050ꢥG2ꢧ
0.0330
6ꢢ0 8.3
7ꢃ9 10ꢃ6
7ꢃꢄ 9ꢃ7
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
X
X
X
2ꢀ
3ꢀ
2%
3Ve
4ꢀ
4ꢀ
3ꢀ
4Vo
3Ve
4ꢀ
4Vo
5%
4Vo
3Ve
4Vo
4ꢀ
5%
4Vo
4ꢀ
5%
4ꢀ
5%
4Vo
5%
4Vo
5ꢀ
5%
4Vs
5ꢆ
5%
5ꢀ
5%
5ꢆ
8%
8%
0.0066
2ꢁ
3
'/
'
ꢄ5000 0.0210 0.0140
89000 0ꢃ0089 0ꢃ0075 ꢄ7.4 ꢄ8.9
ꢄ7000
0.0ꢄ70
90000 0.0061 0ꢃ0047 ꢄ9.7 22.6
2ꢁ
2ꢁ
3
0.0250
ꢄ9ꢃ7 22ꢃ6
12000ꢫ 0.0061 0.0047
*17000 0ꢪ0230 0ꢇ0ꢄ50 9ꢢ9 14ꢃ3
*ꢬ0000
0ꢃ02ꢄ0 0ꢃ0ꢄ40 ꢄ0ꢇ3 ꢄ3.9
2
ꢄ20000 0.0088 0ꢃ0074 17.4 ꢄ8.9
120000 0ꢇ0ꢄ00 0ꢅ0090 ꢄ6ꢇ0 16ꢅ8
130000 0.0063 0ꢅ0054 20ꢇ9 22.6
22000 0.0ꢄ50 0.0100
3
9ꢃ4 12ꢃ2
1ꢤ
1ꢤ
2
3
22000 0ꢃ02ꢄ0 0ꢃ0140 7.9 10.6
*23000 0ꢃ0190 0.0ꢄ30 ꢄ0ꢃ5 ꢄ3ꢅ5
3ꢄ000 0ꢪ0ꢄ70 0ꢃ0ꢄ20 ꢄ0.4 ꢄ2.5
32000 0ꢃ0ꢄ50 0ꢃ0ꢄ00 9.4 ꢄ2.2
*33000 0.0ꢄ30 0.0091 ꢄ2ꢢ8 16.7
33000 0ꢃ0120 0.0085 ꢄ0.3 12ꢃ7
0ꢃ006ꢄ
0ꢃ0069
21ꢃ2 22ꢢ8
20ꢃ0 21ꢅ6
ꢄ40000
160000
0.0052
0.0058
3
3
2
ꢄ80000 0.0063 0ꢃ0053 20.9 22ꢃ6
3
ꢄꢤ
2
2ꢄꢃ2 22ꢃ8
190000 0ꢇ0061 0.0052
3
230000 0ꢃ0ꢄꢄ0 0ꢢ0ꢄꢄ0 1ꢮ4ꢃ4 ꢄ4ꢃ7
3
1ꢤ
1ꢯ
2
290000 0.0ꢄꢄ0 0ꢃ0100 ꢄ4ꢇ2 ꢄ4.5
3
37000 0.0ꢄ50 0.0ꢄꢄ0
45000 0ꢃ0150 0ꢃ0ꢄꢄ0
10ꢃ1 11ꢇ6
ꢄ1.0 ꢄ3.3
63 Vdc
75 Vdc Surge
47000 ꢰ0ꢃ0ꢄ10 0.0085 12ꢃ9 15ꢃ4
*47000 0.0ꢄ60 0.0140 11.7 ꢄ2.8
48000 0.0ꢄ30 0.0091 9ꢃ9 ꢄ2ꢃ3
54000 0ꢃ0110 0ꢪ0089 ꢄꢄꢢ4 13ꢃ2
69000 0ꢪ0110 0ꢃ0085 12ꢃ9 15.4
7ꢄ000 0ꢪ0079 0ꢃ006ꢄ ꢄ5ꢃ1 ꢄ7ꢃ6
77000 0.0082 0.0065 ꢄ7ꢃ0 ꢄ9.4
100000 0ꢃ0079 0ꢃ0061 ꢄ5ꢅ1 17.6
2
3ꢃ6
5ꢃ8
3300 0ꢃ0730 0.0390
ꢄꢤ
ꢄꢤ
1ꢤ
1ꢤ
1ꢤ
1ꢤ
ꢄꢤ
ꢄꢤ
ꢄꢤ
ꢄꢤ
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
ꢄ%
ꢄ%
2ꢀ
2ꢀ
2%
2%
3ꢀ
3Vꢳ
4ꢀ
4ꢀ
3Ve
5%
4Vo
3ꢀ
5%
4ꢀ
4ꢀ
4ꢀ
5%
4Vo
5%
4ꢀ
4ꢀ
5%
4ꢀ
5%
5ꢀ
5ꢆ
5%
5ꢀ
ꢥꢦM332U063AK2ꢧ
ꢥꢦMX412U063AK2ꢧ
ꢥꢦM492U063AA2ꢧ
ꢥꢦMX6ꢄ2U063AA2ꢧ
ꢥꢦM7ꢄ2U063Aꢨ2B
ꢥꢦMX892U063Aꢨ2ꢧ
ꢥꢦM932U063AB2B
ꢥꢦMX123U063AB2ꢧ
ꢥꢦMꢄ43U063Aꢦ2ꢧ
ꢥꢦMXꢄ73U063Aꢦ2ꢧ
ꢥꢦMꢄ93U063ꢧꢧ2B
ꢥꢦM203U063Aꢩ2B
ꢥꢦM233U063ꢭꢦ2B
ꢥꢦMX243U063ꢧꢧ2ꢧ
ꢥꢦMX253U063Aꢩ2ꢧ
ꢥꢦMX283U063ꢭꢦ2B
ꢥꢦM293U063Bꢦ2ꢧ
ꢥꢦMX363U063Bꢦ2ꢧ
ꢥꢦM443U063Bꢩ2B
ꢥꢦM483U063ꢦꢦ2ꢧ
ꢥꢦMX553U063Bꢩ2ꢧ
ꢥꢦMX603U063ꢦꢦ2B
ꢥꢦM723U063ꢥꢦ2B
ꢥꢦM733U063ꢦꢩ2ꢧ
ꢥꢦMX893U063ꢥꢦ2ꢧ
ꢥꢦMX9ꢄ3U063ꢦꢩ2B
ꢥꢦM973U063ꢥꢭ2ꢧ
ꢥꢦM1ꢄ4U063ꢥP2ꢧ
ꢥꢦMꢄꢄ4U063ꢥꢩ2B
ꢥꢦMX124U063ꢥꢭ2ꢧ
ꢥꢦMX144U063ꢥꢩ2ꢧ
ꢥꢦMꢄ94U063ꢥG2ꢧ
ꢥꢦMX2ꢄ4U063ꢥG2ꢧ
2ꢁ
1ꢤ
1ꢯ
2
4100 0ꢇ0730 0ꢃ0390 3ꢃ6 5.8
0ꢢ0490
4ꢃ7 7ꢃ5
4900
0ꢇ0260
6ꢄ00
0.0430 0ꢢ0230 5.0 8.0
9ꢃ1
7ꢄ00 0ꢃ0350 0.0ꢄ90 5ꢃ8
2
8900 0.0320 0ꢃ0ꢄ80 6.0 9.4
9300 0ꢃ0270 Oꢃꢲ150 6ꢃ7 ꢄ0ꢅ3
12000 0ꢃ0270 0ꢃ0150 6ꢃ7 ꢄ0.3
2Vꢱ
2
110000
0ꢪ0065 ꢄ7.0 19ꢃ4
2ꢁ
2ꢁ
3
0.0082
0ꢢ0ꢄ90
0ꢃ0ꢄ90
8ꢃꢄ 11ꢃ9
8ꢅꢄ 1ꢄꢃ9
14000
ꢄ7000
0.0ꢄꢄ0
0.0ꢄ10
ꢄ20000 0ꢃ005ꢵ 0ꢶ0047 20ꢃ2 22.7
120000 0ꢪ0086 0.0074 ꢄ7ꢅ1 ꢄ8ꢢ9
19000 0ꢃ0210 0ꢇ0ꢄ30 9.2 12.4
160000
0.0090 16ꢃ2 ꢄ6ꢇ8
3
0ꢃ0100
0ꢃ0150
9ꢃ0 ꢄ2ꢅ5
20000
0.0088
1ꢤ
1ꢯ
2
ꢄ70000 0ꢃ0058 0ꢃ0047 20ꢢ2 22ꢢ7
170000 0.0085 0ꢃ0074 17.7 18ꢃ9
ꢄ80000 0ꢃ0059 0.0052 21ꢃ6 22.9
180000 0ꢃ0061 0ꢅ0053 21ꢇ3 22ꢃ6
230000 0.0067 0ꢃ0058 20.3 2ꢄꢃ6
260000 0ꢃ006ꢄ 0.0053 21ꢢ3 22ꢈ6
270000 0ꢃ0059 0ꢃ0051 21.6 22ꢃ9
300000 0ꢅ0ꢄꢄ0 0ꢃ0110 14ꢇ5 14.7
400000 0ꢃ0ꢄꢄ0 0ꢃ0100 ꢄ4ꢢ3 14.5
2ꢁ
3
23000 0.0170 0ꢃ0120 9.1 ꢄꢄ.5
24000 0.0180
9ꢃ7 13ꢢ1
8ꢃ7 12ꢃ1
0.0110
0ꢃ0093
3
0ꢃ0ꢄ60
25000
ꢄꢤ
H<I
2
3
28ꢷ00 0ꢈ0ꢄ40 0ꢃ0090 10.3 13ꢅ0
29000 0.0ꢄ40 0ꢇ0087 1ꢄꢃ5 15ꢃ2
3
3
0ꢃ0140
11ꢃ5 15.2
36000
0.0087
2
3
44000 0ꢃ0100 0ꢃ0062 ꢄ3ꢅ5 17ꢃ4
2
3
0.0100
0ꢃ0100
15ꢃ6 ꢄ9.2
13ꢃ5 17ꢪ4
15ꢃ6 19ꢇ2
2ꢁ
2
48000
55000
0.0066
0.0062
0.0066
3
50 Vdc
65 Vdc Suꢁge
60000 0.0100
2Vꢸ
ꢥꢦM222U050AA2B
ꢥꢦM242U050AA2ꢧ
ꢥꢦM402U050AK2B
ꢥꢦM4ꢄ2U050AB2B
ꢹꢦM432U050AB2ꢧ
ꢥꢦM482U050AB2B
ꢥꢦM502U050AB2B
ꢥꢦMX552U050AK2B
ꢥꢦM612U050Aꢦ2ꢧ
ꢥꢦM612U050AA2B
ꢥꢦM752U050Aꢦ2ꢧ
ꢥꢦMX832U050AA2ꢧ
ꢥꢦM882U050Aꢨ2B
ꢥꢦMꢄ03U050Aꢦ2ꢧ
ꢥꢦM113U050AB2B
ꢥꢦMX123U050Aꢽ2B
ꢥꢦMX163U050AB2ꢧ
ꢥꢦM163U050Bꢦ2ꢧ
ꢥꢦM173U050Aꢦ2B
ꢥꢦM203U050Bꢦ2ꢧ
ꢥꢦM233U050ꢧꢧ2B
ꢥꢦMX233U050Aꢦ2B
ꢥꢦM253U050ꢦꢦ2B
ꢥꢦM253U050Aꢩ2ꢧ
ꢥꢦM253U050Bꢦ2ꢧ
ꢥꢦM273U050ꢦꢦ2B
ꢥꢦM283U050ꢭꢦ2B
ꢥꢦM313U050ꢦꢦ2ꢧ
ꢥꢦMX323U050ꢧꢧ2ꢧ
ꢥꢦM333U050ꢦꢦ2B
ꢥꢦMX343U050Aꢩ2B
ꢥꢦM363U050Bꢦ2ꢧ
ꢥꢦMX393U050ꢭꢦ2ꢧ
ꢥꢦMX493U050Bꢦ2ꢧ
ꢥꢦM553U050Bꢩ2ꢧ
ꢥꢦM593U050ꢦꢦ2B
ꢥꢦMX753U050Bꢩ2B
72000
73000
0ꢢ0100 0.0075 16ꢃ8 ꢄ8.8
3
0ꢃ0620
3ꢢ4 5ꢃ5
1ꢤ
1ꢤ
1ꢤ
1ꢤ
1ꢤ
1ꢤ
1ꢤ
ꢄꢤ
1ꢤ
1ꢤ
1ꢤ
1ꢤ
1ꢤ
1ꢤ
ꢻꢤ
1ꢤ
1ꢤ
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
X
X
X
X
X
2Ve
2v.
ꢄ%
3ꢀ
3Vꢳ
3Ve
3Ve
1%
4Va
2Ve
4Vꢂ
2Ve
2%
4Vs
3Ve
2%
3Vs
4ꢀ
4ꢀ
4ꢀ
3ꢀ
4Vo
4Vo
5%
4ꢀ
4ꢀ
4Vo
4ꢀ
3Ve
4Vo
5%
4ꢀ
4Vs
4ꢄ
5%
4Vo
5%
*2200
*2400 0ꢇ0980
0ꢪ1100
0ꢢ0068
18ꢅ6 22.5
0ꢢ0048
5ꢃ5
5.9
7ꢅ6
7ꢅ6
2ꢁ
3
0ꢃ0590 3.5
\
89000 0.0ꢄ00 0ꢃ0075 16ꢢ8 ꢄ8ꢃ8
91000 0.0068 0.0048 18ꢃ6 22.5
4000 0ꢅ0620 0ꢅ0380 4ꢃ0
0ꢃ0350
2ꢁ
3
*4100 0ꢃ0580
4.9
4ꢅ9
0ꢃ0110
15ꢃ7 ꢄ6.8
0.0091
97000
*4300 0.0560 0ꢃ0340
ꢄ10000 0.0065 0ꢅ0052 20.5 22ꢃ8
3
*4800
0ꢃ05ꢄ0 0.0320
5ꢇ1 7ꢃ5
110000
0ꢇ0068 0ꢅ0054 20.3 22ꢢ5
3
0ꢃ0310 5ꢃ1
7ꢃ5
5ꢃ9
*5000 0.0500
5500 0ꢈ0620
*6ꢄ00 0ꢃ0400
ꢄ20000 0ꢅ0074 0ꢃ0059 19ꢃ3 21ꢇ5
140000 0ꢇ0067 0ꢅ0054 20.3 22ꢢ5
190000 0ꢇ0ꢄ20 0ꢪ0110 14ꢅ3 14ꢃ7
3
0ꢃ0380
0ꢃ0250
0.0260
0.0220
4ꢢ0
3 ꢺ ꢴ 5%
5ꢇ9 8ꢅ7
3
3
X
8%
0ꢃ0420
5ꢃ2
6ꢃ2
7ꢅ6
8ꢅ6
6100
0ꢃ0120
X
8%
210000
0.0ꢄ10
ꢄ4ꢪ1 14ꢃ5
*7500 0.0350
8300
0ꢃ0360 0ꢃ0230 5.6 8ꢈ1
75 Vdc
95 Vdc Suꢂge
0.0180 6ꢃ5 9ꢈ3
�800 0.0290
5ꢢ6
X
X
X
X
X
X
X
X
X
X
ꢴ
X
X
X
X
X
X
X
X
X
X
X
X
X
X
1%
1%
2vꢼ
3ꢀ
2ꢀ
2%
2%
4ꢀ
4ꢀ
3ꢉ
3ꢉ
4ꢉ
4Vo
3ꢀ
5%
3ꢉ
5%
4ꢀ
4ꢉ
4ꢉ
4ꢃ
5%
4Vo
5%
4Vo
ꢥꢦM222U075AK2ꢧ
ꢥꢦMX242U075AK2ꢧ
ꢥꢦM322U075AA2B
ꢥꢦM332U075AB2ꢧ
ꢥꢦMX372U075AA2ꢧ
ꢥꢦM472U075Aꢨ2B
ꢥꢦMX532U075Aꢨ2ꢧ
ꢥꢦM562U075Aꢦ2B
ꢥꢦM592U075Aꢦ2B
ꢥꢦM612U075AB2B
ꢥꢦMX692U075AB2ꢧ
ꢥꢦM902U075Aꢦ2B
ꢥꢦMX103U075Aꢦ2ꢧ
ꢥꢦMꢄ23U075ꢧꢧ2B
ꢥꢦMꢄ33U075Aꢩ2B
ꢥꢦMX143U075BB2ꢧ
ꢥꢦMX153U075Aꢩ2ꢧ
ꢥꢦM153U075ꢭꢦ2B
ꢥꢦMXꢄ73U075ꢭꢦ2B
ꢥꢦM193U075Bꢦ2B
ꢥꢦMX223U075Bꢦ2ꢧ
ꢥꢦM293U075Bꢩ2B
ꢥꢦM323U075ꢦꢦ2ꢧ
ꢥꢦMX333U075Bꢩ2ꢧ
ꢥꢦMX363U075ꢦꢦ2B
2200 0.1000 0ꢃ0520
3ꢈ2
1ꢤ
1ꢤ
ꢄꢤ
ꢄꢤ
ꢄꢤ
ꢄꢤ
ꢄꢤ
ꢄꢤ
1ꢤ
1ꢤ
1ꢤ
1ꢤ
1ꢤ
2
*10000
0ꢅ0290 0ꢢ0200 6.4 8ꢃ3
2400 0.ꢄ000 0ꢃ0520 3.2 5.6
1ꢄ000 0ꢅ0230 0ꢃ0150 7.5 10.5
12000 0ꢃ0270 0ꢃ0170
9ꢅ6
16000 0ꢃ0230 0.0150 7ꢃ5 10ꢃ5
0ꢃ0670
4ꢅ1 7ꢢ2
4ꢃ3 7ꢃ0
3200
0.0350
6ꢅ7
*3300 0ꢢ0690 0ꢅ0370
0ꢇ0580 0ꢈ0300
4ꢪ4
7.7
3700
4700
8ꢪ1
*16000 0ꢃ0340 0.0260 7ꢢ0
0ꢅ0470
5ꢃꢄ 8.8
0ꢈ0250
0ꢃ0110 8ꢢ9 12ꢃꢄ
0ꢃ0130 10ꢃꢄ 13ꢃ0
0.0130 10ꢃ0 12.4
1ꢤ
2
17000 0.0ꢄ60
*20000 0ꢃ0200
23000 0ꢃ0ꢄ80
23000 0ꢃ0160
5300 0ꢢ0440 0ꢢ0230 5ꢢ3 9ꢃꢄ
*5600 0ꢃ0440 0ꢢ0250 5ꢃ4 8.0
2
0ꢃ0420
5ꢃ4 8ꢢ0
*5900
0ꢃ0ꢾ40
0ꢅ0ꢄ0
1ꢤ
2ꢁ
ꢄꢤ
2
8ꢢ9 12ꢃ1
6100 0ꢅ0360 0ꢃ0ꢄ90 5.9 10ꢅ0
*25000
0ꢅ0180 0ꢃ0130 1ꢄ.8 ꢄ4ꢅ4
0ꢃ0360
5.9 ꢄ0.0
6900
0.0190
25000 0ꢃ0130 0ꢃ0087 ꢿꢢ8 12.6
9000 0.0260 0ꢅ0140 7ꢃ2 ꢄꢄꢅ6
10000 0.0260 0ꢅ0140 7.2 ꢄꢄꢢ6
12000 0ꢃ0270 0ꢅ0150 8ꢢ4 12ꢢ3
*25000 0ꢃ0180
*27000 0ꢅ0180
0.0130 ꢄ0ꢢ1 ꢄ2ꢃ3
0.0130 11ꢢ8 14ꣀ0
2Vꢸ
ꢄꢯ
2Vꢱ
2
28000 0ꢅ0ꢄ60 0ꢃ0110 ꢿꢅ7 11ꢅ5
8ꢢ1 12ꣁ2
13000 0ꢇ0190 0ꢅ0ꢄ10
1ꢤ
2
0ꢅ0130
*3ꢄ000 0ꢃ0170
32000 0.0ꢄ60
*330ꣃ0 0ꢃ0170
1ꢄꢃ6 ꢄ3ꢢ5
14000 0ꢇ0240 0ꢢ0140 8ꢃ9 12ꢢ9
0ꢢ02ꢄ0 7ꢃ8 1ꢄꢃ8
0ꢃ0110 10ꢅ5 13ꢃ2
0ꢃ0ꢄ30 11ꢢ5 ꣂ3ꢃ2
15000
0ꢢ0ꢄ20
ꢄꢤ
ꢄꢊ
ꢄꢋ
2
2Vꢱ
1ꢤ
2
15000 0ꢃ0220 0ꢃ0ꢄ40 8ꢅ4 11ꢅ4
34000 0ꢢ0130 0ꢢ00꣄2 9.5 12ꢢ2
0ꢃ0ꢄ70
0ꢃ0ꢄ80
9ꢃ6 13ꢃ0
10ꢢ5 ꢄ5ꢃ0
ꢄ0ꢢ5 ꢄ5ꢅ0
ꢄ2ꢃ5 17ꢢ2
14ꢃ5 ꢄ9ꢃ2
17000
9000
0ꢃ0110
0ꢃ0110
0ꣀ00ꣅ6 12ꢃ4 15.3
36000 0ꢢ0120
ꢄꢯ
2
39000 0ꢃ0ꢄ20 0ꢃ0089 1ꢄꢇ0 13ꢃ1
49000 0ꢃ0120 0ꢃ0086 12ꢃ4 15ꢅ3
22000 0.0180 0ꢅ0110
29000 0ꢃ0120 0.0074
32000 0ꢃ0120 0ꢅ0077
2
2
2
55000 0.0085 ꢅ61 14ꢢ5 17ꢃ5
0
2Vꢸ
2
0ꢃꢌ066 16ꢢ5 19ꢃ3
2ꢁ
2
59000 0.0087
33000 0ꢢ0120 0ꢅ0074 12.5 17ꢢ2
36000 0ꢢ0ꢄ20 0ꢢ0077 14ꢃ5 19ꣁ2
75000 0ꢅ0085 0ꢃ0061 ꢄ4ꢃ5 ꢄ7ꢃ5
2Yꢸ
ꢀ_
*
Stock Raꢀing
•
() ꣎꣎꣏-꣐꣏꣑
103
\
SCREW TERMINꢀ ꢁACITORS
ESRmax
ESRmax
ohms
Nomꢑnaꢒ
Ripplꢐ amps
Capacꢑtancꢐ
uꢜ
oꢔms
Catalog
Numbꢐꢟ
Capacꢑtancꢐ
uF
as•c
Casꢐ Sꢑzꢐ
Caꢓalog
Numbꢐr
ꢕꢖꢗꢝzꢞ ꢖꢗkHz
ꢕꢖꢗHzꢘ ꢖꢗkHz ꢕꢖꢗHzꢙ ꢖꢗkꢚz Dx L ꢑꢛcꢔꢐs
-
ꢀ
1
ꢈ3000 0.0160 0ꢃ0ꢈ20
ꢈ4.1 ꢈ6.2
3
3
X
X
X
X
X
X
X
X
X
ꢩ
5Ve
5ꢁ
5%
5ꢁ
4ꢆ
5ꢆ
8ꢁ
5ꢁ
ꢠꢡM133Uꢈ50ꢠꢣ2ꢢ
ꢠꢡMꢈ53U150ꢠꢥ2ꢢ
ꢠꢡM163Uꢈ50ꢠP2ꢢ
ꢠꢡMXꢈ73U150ꢡꢥ2ꢢ
ꢠꢡMXꢈ73Uꢈ50ꢠꢡ2ꢢ
ꢠꢡMX223Uꢈ50ꢠꢣ2ꢢ
ꢠꢡM253Uꢈ50ꢠG2ꢢ
ꢠꢡMX253Uꢈ50ꢠꢥ2ꢢ
ꢈ6ꢃ2 ꢈ9.0
3
2ꢦ,
3
2ꢦ,
3
3
X
X
X
X
X
X
X
X
X
X
X
X
4ꢀ
5ꢁ
4ꢀ
5ꢁ
5ꢀ
5ꢁ
5ꢀ
5%
5ꢁ
5%
8ꢁ
8ꢁ
ꢠꢡM473U075ꢠꢡ2ꢢ
ꢠꢡM483U075ꢡꢥ2ꢢ
ꢠꢡMX543U075ꢠꢡ2ꢢ
ꢠꢡMX553U075ꢡꢥ2ꢢ
ꢠꢡM643U075ꢧꢣ2ꢢ
ꢠꢡM723U075ꢠꢥ2ꢢ
ꢠꢡMX723U075ꢠꢣ2ꢢ
ꢠꢡM753U075ꢠP2ꢢ
ꢠꢡMX823U075ꢠꢥ2ꢢ
ꢠꢡMX853U075ꢠP2ꢢ
ꢠꢡMꢈ24U075ꢠG2ꢢ
ꢠꢡMX144U075ꢠG2ꢢ
47000 0ꢄ0ꢈꢈ0 0.0081
ꢈ5000 0ꢄ0140 0ꢤ0ꢈꢈ0 ꢈ4.9 ꢈ7.1
ꢈ6000 0.0140 0.0100 ꢈ5.1 ꢈ7.3
ꢈ7000 0ꢄ0ꢈ60 0ꢤ0ꢈꢈ0 ꢈ2ꢄ9 16ꢄ3
ꢈ7000 0ꢄ02ꢈ0 0ꢃ0150 ꢈ2ꢄ2 14.3
22000 0.0160 0ꢃ0120 ꢈ4.1 16.4
25000 0ꢄ0140 0ꢄ0ꢈ20 ꢈ3ꢄ8 14ꢄ8
25000 0.0140 0ꢃ0ꢈꢈ0 ꢈ4ꢄ9 17.3
48000 0ꢄ0084 0ꢄ0055 17ꢃ5 22ꢄ4
54000 0.0110 0ꢃ0081 16ꢃ2 19ꢄ0
55000 0ꢄ0084 0ꢄ0055 17ꢄ5 22ꢄ4
64000 0ꢄ0120 0ꢤ0094 15ꢄ4 ꢈ7ꢤ0
72000 0.0077 0ꢃ0058 19.6 22.7
3
2ꢂ
3
3
18.7 2ꢈ.7
3
72000 0ꢄ0085 0ꢤ0063
3
3
75000 0ꢄ0074 0ꢄ0056 ꢈ9.9 23ꢄ0
82000 0.0077 0.0058 ꢈ9ꢃ6 22.7
85000 0.0074 0.0056 ꢈ9ꢃ9 23.0
ꢈ20000 0ꢄ0120 0ꢤ01ꢈ0 14ꢄ3 15ꢄ0
140000 0.0120 0.01ꢈ0 14ꢄ1 14.7
3
26000 0.0140
0ꢃ0100
43000 0ꢄ0140 0ꢄ0ꢈ20 ꢈ3ꢄ8 14ꢄ8
200 Vdc
ꢈ5.1 17.5
3
5% ꢨ ꢠꢡMX263Uꢈ50ꢠP2ꢢ
3
8ꢁ
ꢠꢡMX433Uꢈ50ꢠG2ꢢ
3
3
3
250 Vdc Surge
3
ꢈ90 0.2600 0.ꢈ600 2.0 2.9
3ꢈ0 0ꢄ1600 0.ꢈ000 2ꢪ6 3ꢄ9
1ꢁ
ꢈꢁ
1ꢁ
1ꢁ
1ꢁ
1ꢁ
1ꢁ
1ꢁ
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
X
X
X
X
X
X
ꢈꢁ
2ꢀ
ꢈꢁ
2ꢁ
3ꢆ
2ꢀe
2ꢁ
4ꢆ
ꢅꢆ
3ꢆ
5ꢁ
4ꢆ
4ꢆ
4ꢆ
4ꢆ
4ꢆ
5ꢁ
3ꢆ
4ꢇe
5ꢁ
5ꢁ
4ꢀ
4ꢀ
4ꢇe
4ꢀ
5ꢁ
5ꢁ
4ꢀ
5ꢆ
5ꢁ
5%
4ꢀ
5ꢁ
8ꢁ
5ꢉꢊ
5%
5ꢁ
8%
ꢠꢡM191T200AK2ꢢ
ꢠꢡM311T200AA2ꢢ
ꢠꢡMX381T200AK2ꢢ
ꢠꢡM461T200Aꢬ2ꢢ
ꢠꢡM611T200Aꢢ2ꢢ
ꢠꢡMX6ꢈ1T200AA2ꢢ
ꢠꢡMX9ꢈꢈT200Aꢬ2ꢢ
ꢠꢡM921T200Aꢡ2ꢢ
ꢠꢡM122T200ꢢꢢ2ꢢ
ꢠꢡMXꢈ22T200Aꢢ2ꢢ
ꢠꢡM142T200Aꢥ2ꢢ
ꢠꢡM142T200ꢢꢡ2ꢢꢮ
ꢠꢡM152T200ꢣꢡ2ꢢ
ꢠꢰMXꢈ82T200Aꢡ2ꢢ
ꢠꢡM192T200ꢢꢡ2ꢢ
ꢠꢡM222T200ꢢꢡ2ꢢ
ꢳꢡM252T200ꢢꢥ2ꢢ
ꢠꢡMX252Tꢴ00ꢢꢢ2ꢢ
ꢠꢡM272Tꢵꢶ0ꢢꢡ2ꢢ
ꢠꢡMX272T200Aꢥ2ꢢ
ꢠꢡM302T200ꢢꢥ2ꢢ
ꢠꢡMX302T200ꢣꢡ2ꢢ
ꢠꢡM322T200ꢡꢡ2ꢢ
ꢠꢡMX392T200ꢢꢡ2ꢢ
ꢠꢡM482T200ꢠꢡ2ꢢ
ꢠꢡM502T200ꢡꢥ2ꢢ
ꢠꢡMX602T200ꢢꢥ2ꢢ
ꢠꢡMX642T200ꢡꢡ2ꢢ
ꢠꢡM662T200ꢠꢣ2ꢢ
ꢠꢡM742T200ꢠꢥ2B
ꢠꢡM782T200ꢠP2ꢢ
ꢠꢡMX952T200ꢠꢡ2ꢢ
ꢠꢡMX982T200ꢡꢥ2ꢢ
ꢠꢡM133T200ꢠG2ꢢ
ꢠꢡMX133T200ꢠꢣ2ꢢ
ꢠꢡMX153T200ꢠP2ꢢ
ꢠꢡMXꢈ53T200ꢠꢥ2ꢢ
ꢠꢡMX253T200ꢠG2ꢢ
1 00 Vdc
ꢁ25 Vdc Surge
2.7
5ꢤ4
ꢈꢁ
ꢈꢁ
1ꢁ
ꢈꢁ
1ꢁ
1ꢁ
1ꢁ
1ꢁ
1ꢁ
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
X
X
ꢈꢁ
1ꢁ
2ꢇe
2ꢁ
2Vꢊ
3ꢆ
2ꢁ
4Yꢊ
3ꢆ
3Yꢊ
5ꢁ
4ꢱ
4Ye
3ꢆ
4ꢆ
5ꢁ
4ꢆ
5ꢁ
4Yꢊ
4ꢆ
5ꢁ
4ꢆ
4ꢆ
5ꢁ
5ꢀ
4ꢀ
5ꢁ
5ꢁ
5%
5Vꢊ
5ꢁ
5%
8ꢁ
8ꢁ
ꢠꢡM112UꢈOOAK2ꢢ
ꢠꢡMXꢈ62U1OOAK2ꢢ
ꢠꢡM172UꢈOOAA2ꢢ
ꢠꢡM242UꢈOOAꢬ2ꢢ
ꢠꢡMX252U1OOAA2ꢢ
ꢠꢡM322U1OOAꢢ2ꢢ
ꢠꢡMX362U1OOAꢬ2ꢢ
ꢠꢡM462UꢈOOAꢡ2ꢢ
ꢠꢡMX472U1OOAꢢ2ꢢ
ꢠꢡM652Uꢈ00ꢢꢢ2ꢢ
ꢠꢡM692U1OOAꢥ2ꢢ
ꢠꢡMX692U100Aꢡ2ꢢ
ꢠꢡM782U1OOꢣꢡ2ꢢ
ꢠꢡMX952U100ꢢꢢ2ꢢ
ꢠꢡM992U100ꢢꢡ2ꢢ
ꢠꢡMXꢈ03U1OOAꢥ2ꢢ
ꢠꢡMXꢈꢈ3U1OOꢣꢡ2ꢢ
ꢠꢡM153Uꢈ00ꢢꢥ2ꢢ
ꢠꢡMXꢈ53U100ꢢꢡ2ꢢ
ꢠꢡM163Uꢈ00ꢡꢡ2ꢢ
ꢠꢡMX223U100ꢢꢥ2ꢢ
ꢠꢡMX243U1OOꢡꢡ2ꢢ
ꢠꢡM243U1OOꢠꢡ2ꢢ
ꢠꢡM253UꢈOOꢡꢥ2ꢢ
ꢠꢡM333U1OOꢠꢣ2ꢢ
ꢠꢡMX363U1OOꢠꢡ2B
ꢠꢡMX373U1OOꢡꢥ2B
ꢠꢡM373U1OOꢠꢥ2ꢢ
ꢠꢡM393UꢈOOꢠP2ꢢ
ꢠꢡMX493U100ꢠꢣ2ꢢ
ꢠꢡMX553U1OOꢠꢥ2B
ꢠꢡMX573U1OOꢠP2ꢢ
ꢠꢡM633U100ꢠG2ꢢ
ꢠꢡMX933U1OOꢠG2ꢢ
380 0ꢄ2700 0ꢄꢈ700 ꢈꢫ9
ꢈꢈ00 0ꢄ1200 0.0530 2ꢄ8
460 0.1100 0.0670 3.4 5.0
6ꢈ0 0.0830 0.05ꢈ0 3.9 5.8
6ꢈ0 0ꢄ1500 0ꢄ09ꢈ0 2ꢃ7 3ꢄ9
9ꢈ0 0.1100 0.0660 3ꢃ4 4ꢄ8
920 0.0560 0.0350 4.9 7.1
ꢈ600 0ꢄ1200 0ꢄ0530 2ꢄ8 5ꢤ4
ꢈ700 0.0790 0ꢄ0360 3.7 6ꢃ9
2400
0ꢤ0550 0ꢄ0250
4ꢄ6
8ꢃ5
7ꢄ5
9.7
8.8
2500 0ꢄ0680 0ꢄ0310 4ꢤ0
3200 0ꢃ0420 0.0200 5.4
5ꢃ3 6.9
1200 0ꢃ0850 0.0530 3ꢃ8 5.4
1200 0ꢃ0650 0ꢄ0430
3600 0ꢤ05ꢈ0 0ꢄ0240
4ꢄ8
1ꢁ
1ꢁ
2
4600 0ꢃ0300 0.0ꢈ40 6.5 11.3
4700 0.0200 5.4 9.7
6500 0.0370 0.0230 6.6
5ꢃ7
4.5 6.ꢈ
1400 0ꢭ04ꢈ0 0.0260
*1400 0.1000 0ꢄ0660
8ꢃ0
0.0420
8.8
1500 0ꢃ0440 0.0290 6ꢃ2 8.4
1800 0ꢃ0570 0.0360 4ꢃ8 6ꢃ7
ꢈ900 0.0420 0.0280 6.8 8.7
1ꢯ
1ꢁ
2
6900 0ꢄ0220 0ꢄ0ꢈꢈ0 7ꢄ4 ꢈ2ꢫ0
6900 0.0300 0.0ꢈ40 6.5 11.3
7800 0ꢄ0250 0ꢄ0ꢈ40 7ꢄ9 11ꢄ3
9500 0.0340 0.0200 7.0 9.3
ꢈꢁ
ꢈꢁ
ꢈꢯ
2
8.3
2
*2200 0.0620 0ꢄ0390 5.8
ꢲ2500 0.0610 0.0410 5ꢄ6 7.4
2500 0.0670 0.0490 5.0 6ꢃ0
2
8ꢃ3 10.9
2
9900 0ꢄ0250 0.0150
2
ꢈ0000 0ꢄ0240 0ꢃ0120 7ꢄ2 ꢈꢈꢄ6
ꢈ1000 0.0190 0ꢃ0110 8ꢄ9 12.8
ꢈꢁ
ꢈꢯ
2
2
2V,
2
2V,
3
2ꢹ,
3
3
6.2 8.6
2
*2700 0ꢄ0530 0ꢄ0340
7.4
2700 0ꢄ0440 0ꢄ0280 5.4
1ꢁ
2
ꢈ5000
0.0170 0.0110 9.9 12.7
3000 0.0280 0.0190 8.2 10.4
15000 0.0250 0ꢃ0150 8.3 10.9
16000 0.0160 0.01ꢈ0 11.9 15.1
6.5 8ꢃ2
3000 0ꢄ0380 0ꢤ0260
ꢈꢯ
2ꢏꢷ
2
3
2ꢏꢷ
2
3200 0ꢄ0260 0ꢄ0180 9ꢄ9 12.5
3900 0.0480 0.0350 6.1 7.3
9.9 12.7
22000 0.0170 0ꢃ01ꢈ0
24000 0.0160 0ꢃ0110 11.9 15.1
24000 0.0160 0.0120 13.0 14.8
25000 0.01ꢈ0 0.0075 ꢈ4.4 17.9
33000 0.0ꢈ20 0ꢄ0094 ꢈ5.0 17.0
36000 0ꢤ0ꢈ60 0ꢄ0ꢈ20 13ꢄ0 14ꢄ8
4800 0.0230
0ꢃ0ꢸ70 1ꢈ.5 13.3
12.2 15.1
5000 0.0180 0ꢃ0ꢈ20
6000 0.0320 0ꢃ0230 7.4 8.8
6400 0.0310 0.0230 8.7 10.3
6600 0ꢄ0170 0.0130 ꢈ3ꢄ4 15ꢄ5
ꢺ7400 0.0150 0.0ꢈ20 ꢈ4.2 16.3
2ꢦ,
3
14.4 17.9
37000 0.0086 15ꢄ8 17ꢄ8
2Vꢷ
3
37000 0ꢃ0ꢈꢈ0 0.0075
3
0ꢃ0ꢈꢈ0
7800 0.0150
0.0ꢈ10 ꢈ4.4 16.6
3
3
39000 0ꢃ0ꢈꢈ0 0.0083 16.0 18.0
49000 0ꢃ0ꢈ20 0.0094 15.0 17.0
9.5 ꢈ0.4
3
9500 0ꢄ0300 0ꢄ0250
3
9800 0.0210 0.0ꢈ60 ꢈ0ꢄ8 12ꢻ6
13000 0.0150 0.0ꢈ30 13.3 14.3
13000 0.0230 0.0ꢈ90 1ꢈꢄ2 12ꢼ2
2ꢁ
3
15.8 17.8
3
55000 0ꢃ0ꢈꢈ0 0ꢄ0086
57000 0.0ꢈꢈ0 0.0083 16.0 18.0
ꢈ4.1 14.9
3
3
3
63000 0ꢃ0ꢈ20 0.01ꢈ0
93000 0ꢤ0ꢈ20 0ꢄ0ꢈꢈ0 13ꢄ9 ꢈ4ꢄ7
1 50 Vdc
15000
0.0190 0.0ꢈ60 12.0 13ꢃ2
15000 0ꢃ0200 0.0170 1ꢈ.8 12ꢃ9
10.8 11ꢃ2
3
3
3
ꢂ80 Vdc Surge
25000 0ꢃ02ꢈ0 0ꢄ0ꢈ90
250 Vdc
ꢈ70 0ꢃ2900 0.1600 1ꢄ8
3
1ꢁ
2ꢆ
1ꢁ
2ꢁ
2Yꢊ
3Yꢊ
2ꢁ
4ꢆ
3ꢌ
3ꢆ
5ꢁ
4ꢆ
4ꢀ
4ꢆ
3ꢇe
5ꢁ
4ꢆ
5ꢁ
4ꢆ
4ꢆ
4ꢀ
5ꢁ
5ꢁ
4ꢀ
ꢠꢡM44ꢈUꢈ50AK2ꢢ
ꢠꢡM67ꢈU150AA2B
ꢠꢡMX76ꢈU150AK2B
ꢠꢡM96ꢈU150Aꢬ2ꢢ
ꢠꢡMXꢽ12U150AA2B
ꢠꢡMꢈ32U150Aꢢ2ꢢ
ꢠꢡMX162Uꢈ50Aꢬ2ꢢ
ꢠꢡM192U150Aꢡ2ꢢ
ꢠꢡMX2ꢈ2Uꢈ50Aꢢ2ꢢ
ꢠꢡM262U150ꢢꢢ2ꢢ
ꢠꢡM272Uꢈ50Aꢥ2B
ꢠꢡM312Uꢈ50ꢣꢡ2ꢢ
ꢠꢡMX3ꢈ2U150Aꢡ2B
ꢠꢡM392Uꢈ50ꢢꢡ2B
ꢠꢡMX442U150ꢢꢢ2ꢢ
ꢠꢡMX472U150Aꢥ2B
ꢠꢡMX532U150ꢣꢡ2ꢢ
ꢠꢡM602Uꢈ50ꢢꢥ2ꢢ
ꢠꢡM652U150ꢡꢡ2ꢢ
ꢠꢡMX672U150ꢢꢡ2B
ꢠꢡM982U150ꢠꢡ2B
ꢠꢡM992U150ꢡꢥ2ꢢ
ꢠꢡMXꢈ03U150ꢢꢥ2ꢢ
ꢠꢡMXꢈ13Uꣃ50ꢡꢡ2ꢢ
440 0ꢤ2000 0ꢄ1200 2ꢄ3 3ꢄ7
670 0.ꢈ300 0.0780 3.0 4.8
760 0ꢃ2ꢈ00 0ꢄ1200 2ꢄ3 3ꢄ6
960 0.0920 0.0540 3ꢃ8 5.9
1ꢁ
1ꢁ
1ꢁ
1ꢁ
1ꢁ
1ꢁ
ꢈꢁ
ꢈꢁ
ꢈꢁ
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
300 Vdc Surge
2ꢄ9
1ꢋ
1ꢁ
1ꢁ
ꢈꢁ
ꢈꢁ
1ꢁ
ꢈꢁ
ꢈꢁ
ꢈꢁ
1ꢍ
2
1ꢍ
PA
1ꢁ
2
2
2
ꢠꢡMꢈ7ꢈT250AK2ꢢ
ꢠꢡM251T250AA2ꢢ
ꢠꢡM27ꢈT250AA2B
ꢠꢡMX28ꢈT250AK2ꢢ
ꢠꢡM40ꢈT250Aꢬ2ꢢ
ꢠꢡMX46ꢈT250AA2ꢢ
ꢠꢡM54ꢈT250Aꢢ2ꢢ
ꢠꢡMX681T250Aꢬ2ꢢ
ꢠꢡM811T250Aꢡ2ꢢ
ꢠꢡMX9ꢈꢈT250Aꢢ2ꢢ
ꢠꢡM112T250ꢢꢢ2ꢢ
ꢠꢡM122T250Aꢥ2ꢢ
ꢠꢡM132T250ꢣꢡ2B
ꢠꢡMXꢈ42T250Aꢡ2ꢢ
ꢠꢡMꢈ72T250ꢢꢡ2ꢢ
ꢠꢡMꢈ82T250ꢢꢡ2ꢢ
ꢠꢡMX182T250ꢢꢢ2ꢢ
ꢠꢡMX202T250Aꢥ2ꢢ
ꢠꢡMX232T250ꢣꢡ2ꢢ
ꢠꢡM272T250ꢢꢥ2ꢢ
ꢠꢡM282T250ꢡꢡ2ꢢ
ꢠꢡM292T250ꢠꢡ2ꢢ
ꢠꢡMX292T250ꢢꢡ2ꢢ
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
1ꢁ
2ꢀ
2ꢇe
1ꢁ
2ꢁ
2ꢇꢾ
3ꢇe
2ꢁ
4ꢂa
3ꢌ
3ꢌ
5ꢁ
4Yꢊ
4ꢌ
4ꢌ
4ꢆ
3ꢌ
5ꢁ
4ꢆ
5ꢁ
4ꢇe
4ꢀ
4꣄ꢊ
*250 0ꢄ3300 0ꢄ1900 1.8 2.8
270 0.ꢈ800 0.1000 2.5 3.8
1100 0.ꢈ200 0.0700
ꢈ300 0.0710 0.0420
3.2
5.0
4.4 6.8
2ꢄ7
280 0ꢃ2900 0.1700 1.8
400 0.ꢈ200 0.0680 3.1 4.9
460 0ꢄꢈ600 0.0920 2.6 3.9
1600 0.0890 0.0530 3ꢃ8 6.0
1900 0.0490 0.0290 5.4 8.2
2ꢈ00 0ꢄ0740 0ꢄ0440 4.3 6.7
2600 0.0550 0.0370 5.8 7.7
2700 0.0360 0.0220 6.1 9ꢃꢈ
5.7
540 0.0910 0.0520 3.7
680 0.ꢈ200 0ꢃ0670 3.2 4.8
810 0.0620 0ꢃ0350 4.6 7.0
1ꢁ
ꢈꢯ
ꢈꢁ
2
910 0ꢄ0930 0ꢃ0540 3.6
5ꢄ4
ꢈ100 0.0700 0.0440 5.1 6ꢃ9
0.0450 0.0260 5ꢃ3 7ꢄ9
1300 0.0480 0.0290 5ꢿ9 8ꣀ3
3ꢈ00 0.0390 0.0240
6.7 9.4
3ꢈ00 0ꢄ0510 0ꢃ0300 5ꢄ3 8ꢃꢈ
ꢈ200
3900 0ꢃ0370 0.0240 7.3
4400 0ꢄ05ꢈ0 0.0340 6ꢄ1
9ꢃ6
8.1
2
4.5 6ꢃ6
6ꢃ5 8ꢃ7
5.7 8.3
1400 0.0630 0.0370
1700 0ꢃ0450 0.0290
ꢺ1800 0ꢃ0630 0.0370
4700 0ꢄ0400 0ꣁ0240 5ꢄ9 8ꢃ7
5300 0.03ꢈ0 0.0200 7ꢄ5 ꢈ0.6
ꢈꢁ
PA
2
8.8 ꢈ1ꢃ3
10.6 13.6
6000 0.0250 0.0170
6500 0ꢪ0230 0ꢄ0160
1800 0ꢃ0720 0.0490 4.8 6ꢃ0
2000 0ꢃ0480 0.0290
7.3
2ꢏꢷ
2
3
2ꢏꣂ
2
2Yꢷ
5.1
1ꢎ
ꢈꢯ
2
2ꢏ,
3
2
0.0380
0.0250 7.3
9.6
6700
2300 0.0410 0.0260 6.2 8.1
2700 0.0300 0.0190 7.9 ꢈ0.4
0.0160
12.1 14.1
9800 0ꢃ0200
9900 0ꢃ0ꢈ60 0.0ꢈ10 12.9 16ꢄ2
10000 0ꢃ0260 0.0170 8ꢄ7 ꢈꢈ.3
9.5 12.4
2800 0.0290 0.0180
ꢲ2900 0.0450 0.0290 8ꢄ7 ꣃꢈꢄ5
2900 0.0520 0.0350 5.8 7.2
10ꢃ6 13ꢃ6
1ꢈ000 0ꢿ0240 0.0160
*
Stock Raꢀing
104
• MA (508) 996-8561
SCREW TERMINAL ꢀꢁCITORS
Nominal
Case Sꢂze
D x L (ꢍꢃꢆhes)
ESR max
ohꢉꢊ
120Hz, 20kHꢋ
ꢀipple amꢁs
Nomꢂꢃal
Catalog
Nꢎmber
Capacꢄtaꢅꢆe
uF
as•c
Caꢊe Siꢋe
Caꢇaloꢌ
Numbeꢘ
Capaꢆiꢇaꢃꢈe
ꢎꢏ
ꢐ20ꢑzꢒ 20kHꢓ D x ꢔ ꢕꢖꢃcꢗes)
5ꢃ
5ꢃ
5ꢀ
4ꢔꢕ
5ꢃ
5%
4ꢔꢕ
5ꢃ
8ꢃ
5ꢔꢕ
5ꢃ
5%
8ꢃ
DCM2ꢅ2T400CF2B
DCMX262T400BF2B
DCM272T400DE2B
DCMX282T400CC2B
DCM312T400DF2B
DCM322T400DP2B
DCMX412T400DC2ꢑ
DCMX432T400CF2ꢑ
DCM522T400DG2B
DCMX562T400DE2ꢑ
DCMX642T400DF2B
DCMX672T400DP2B
DCMX113T400DG2B
0ꢇ0320 0.02ꢅ0 ꢅ0.ꢅ 14ꢐ4
0.0550 0ꢁ0360 6ꢁ3
2Y,
2
X
X
X
X
X
X
X
X
X
X
X
X
X
2ꢅ00
2600
2700
4ꢀ
5ꢂe
5ꢃ
4ꢀ
5ꢔꢕ
5ꢌe
5ꢃ
5%
4ꢔs
5ꢃ
5ꢔs
8ꢀ
5ꢃ
5%
8ꢃ
DCM422T250DC2ꢑ
DCM442T250CF2ꢑ
DCMX452T250ꢑF2ꢑ
DCMX482T250CC2ꢑ
DCM582T250DE2ꢑ
DCM602T250DF2ꢑ
DCM652T250DF2ꢑ
DCꢗ692T250Dꢘ2ꢑ
DCMX722T250DC2ꢑ
DCMX742T250CF2ꢑ
DCMX982T250DE2ꢑ
DCM113T250DG2ꢑ
DCMX1ꢅ3T250DF2ꢑ
DCMX123T250Dꢘ2ꢑ
DCMXꢅ93T250DG2ꢑ
0.0240 0.0170 1ꢅꢁꢅ ꢅ3.3
0.0ꢅ90 0.0ꢅ30 ꢅ1ꢁ7ꢒ ꢅ5.0
3
2ꢆ
2
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
4200
4400
8ꢐ6
l
0.0310 0ꢁ0210
ꢅꢅꢇ3 14.7
7.6 10ꢈ2
11ꢁ9 15.5
3
8.7
4500 0.0340 0.0240 7.4
8.4 ꢅ0.2
2800 0ꢁ0520 0.0350
3ꢅ00 0.0270 0ꢁ0190
2Yꢓ
3
3
3
2ꢆ
3
4800 0ꢁ0330 0ꢐ0240
5800 0.0180 0ꢄ0ꢅ30 13ꢁ0 15ꢇ4
*6000 0.0260 0ꢁ0180 ꢅ1.2 ꢅ3.7
6500 0.0ꢅ60 0.0120 13.8 ꢅ6.3
3200 0.0260 0.0ꢅ80 ꢅ2.2 ꢅ5ꢁ8
3
8ꢁ7 10.6
0.0340 0ꢁ0230 9.4 ꢅ2ꢊ5
4100 0.0450 0.0330
3
2Y,
3
4300
0.0160
3
6900
0ꢇ0110
ꢅ4.0 16ꢖ5
12.3 14.3
ꢅ0ꢁ2 ꢅ2.4
10.9 ꢅ3ꢈ2
ꢅꢅꢇ1 13.4
10ꢁ7 11ꢁꢙ
5200 0ꢁ0210 0ꢇ0160
5600 0.0330 0.0240
6400 0.0300 0ꢁ0220
6700 0.0280 0.0210
11000 0ꢁ0250 0ꢁ0210
3
7200 0.0320 0.0250 9.3 ꢅ0.4
7400 0ꢄ0220 0.0ꢅ60 10ꢁ4 ꢅ2.5
3
2ꢆ
3
3
ꢅ0.9 ꢅ2.2
13.1 14.3
11.6 12.9
ꢅꢅ.6 ꢅ3.1
9800 0ꢁ0240 0.0ꢅ90
ꢅ1000 0.0ꢅ50 0.0130
ꢅꢅ000 0.0210 0ꢊ0170
3
3
3
3
0ꢇ0200
3
12000
0.0160
450 Vdc
500 Vdc Surge
3
19000 0.0220 0.0ꢅ90 ꢅ0.6 ꢅ1.2
1ꢊ2
1ꢁ1
1.6
ꢅ.2
1ꢛ
1ꢛ
1ꢛ
ꢅꢛ
1ꢛ
ꢅꢛ
1ꢛ
ꢅꢛ
ꢅꢛ
ꢅꢛ
ꢅꢛ
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
X
X
X
X
X
X
X
ꢀ
X
1ꢃ
2ꢀ
2ꢀ
ꢅꢃ
2ꢃ
2ꢀ
3ꢀ
3ꢉ
2ꢃ
4ꢉ
ꢟꢠ
3ꢔs
5ꢃ
4ꢉ
4ꢀ
4ꢉ
4ꢉ
5ꢃ
3ꢉ
5ꢃ
4ꢔꢕ
5ꢃ
4ꢀ
4ꢔꢕ
4ꢀ
5ꢔꢕ
5ꢌe
4ꢔs
5ꢂe
5ꢉ
4ꢀ
5ꢀ
5ꢃ
5ꢃ
5¥s
4ꢀ
5ꢃ
5ꢔꢕ
8ꢃ
5ꢃ
5¥s
DCM660Tꢚ50AK2B
DCM101T450AA2B
DCM111T450AA2B
DCMX121T450AK2B
DCMꢅ6ꢅT450AH2B
DCMX201T450AA2B
DCM211T450Aꢑ2ꢑ
DCM231T450AB2B
DCMX291T450AH2B
DCM32ꢅT450AC2ꢑ
DCMX39ꢅT450Aꢑ2B
DCM431T450BB2B
DCM481T450AF2B
DCM53ꢅT450EC2ꢑ
DCMX591T450AC2B
DCM651T450BC2B
DCM681T450BC2ꢑ
DCMꢙ01T450BF2B
DCMXꢙ0ꢅT450ꢑB2B
DCMXꢙꢙ1T450AF2B
DꢦMX9ꢙ1T450EC2B
DCM102T450BF2B
DCM112T450CC2ꢑ
DCM112T450DC2B
DCMX132T450BC2B
DCMꢅ52T450DE2ꢑ
DCM172T450CF2ꢑ
DCM172T450DC2ꢑ
DCMXꢅ92T450BF2B
DCM202J450DE2B
DCMX2ꢅ2T450CC2ꢑ
DCM232T450DE2B
DCM242T450DF2B
DCM262T450DF2ꢑ
DCM272ꢲ450Dꢘ2B
DCMX312T450DC2ꢑ
DCMX322T450CF2ꢑ
DCMX422T450DE2B
DCM442T450DG2ꢑ
DCMX4ꢙ2T450DF2ꢑ
DCMX502T450Dꢘ2ꢑ
66 0.8200 0.4900
1.9
1ꢁ9
2ꢁ6
1ꢊ9
350 Vdc
400 Vdc Surge
*ꢅ00
0.9900 0ꢁ6000
ꢅꢅ0 0ꢁ5100 0ꢈ3ꢅ00
ꢅ20 0.7700 0.4700
160 0ꢈ3400 0ꢁ2ꢅ00
1.4 2ꢊ2
1ꢛ
1ꢛ
1ꢛ
1ꢛ
1ꢛ
1ꢛ
1ꢛ
ꢅꢛ
ꢅꢛ
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
X
X
ꢅꢃ
2ꢀ
1ꢃ
2ꢃ
2ꢀ
3ꢀ
2ꢃ
4ꢀ
3ꢔꢕ
3ꢀ
5ꢃ
4ꢉ
4ꢔꢕ
4ꢀ
3ꢉ
5ꢃ
4ꢉ
5ꢃ
4ꢀ
4ꢉ
4ꢔs
5ꢃ
5ꢃ
4ꢀ
5ꢀ
5ꢃ
5%
4ꢉ
5ꢃ
5ꢉ
5ꢃ
5
8ꢃ
DCM1ꢅꢅT350AK2ꢑ
DCM171T350AA2ꢑ
DCMXꢅ81T350AK2ꢑ
DCM26ꢅT350AH2ꢑ
DCMX291T350AA2ꢑ
DCM35ꢅT350Aꢑ2ꢑ
DCMX43ꢝT350AH2ꢑ
DCM521T350AC2ꢑ
DCMX58ꢅT350Aꢑ2ꢑ
DCM7ꢅꢅT350ꢑꢑ2ꢑ
DCM78ꢣT350AF2ꢑ
DCM871T350EC2ꢑ
DCMXꢙ7ꢅT350AC2ꢑ
DCM112T350ꢑC2ꢑ
DCMXꢅ22T350ꢑꢑ2ꢑ
DCMXꢅ32T350AF2ꢑ
DCMXꢅ42T350EC2ꢑ
DCMꢅ72T350ꢑE2ꢑ
DCMꢅ82T350CC2ꢑ
DCMX182T350ꢑC2ꢑ
DCM272T350DC2ꢑ
DCM282T350CF2ꢑ
DCMX282T350ꢑF2ꢑ
DCMX30ꢪT350CC2ꢑ
DCM372T350DE2ꢑ
DCM422T350DF2ꢑ
DCM442T350Dꢘ2ꢑ
DCMX452T350DC2ꢑ
DCMX472T350CF2ꢑ
DCMX622T350DE2ꢯ
DCMX702T350DF2ꢰ
DCM722T350DG2B
DCMX742T350Dꢘ2B
DCMXꢅ23T350DG2B
1ꢅ0 0.6500 0.4100
3.0
2.1
3ꢈ8
3.1
4.4
0ꢇ4000
u
170
ꢅ80
0.2600
2ꢁ0 3.3
0.6400 0.4200 1.4
0ꢁ4800 0.2900 ꢅ.6 2.6
200
260 0.2700 ꢜꢁꢅ700 2.4
2.0
350 0.2000 0.ꢅ300 2.8
2ꢁ4 3.9
ꢅ.8
2ꢁꢅ
2ꢅ0 0.2600 0ꢁꢅ600
*230 0ꢇ4400 0.2600
290 0ꢁ3200 0.1900
290 0ꢐ3500 0.2300
3ꢁ0
3.3
2.4 3.8
3ꢇ5 5ꢈ5
2.8 4ꢁ3
0ꢇ2500 0.1600
520 0ꢁ1400 0.0880
580 0.2000 0.ꢅ300
430
320
0ꢇꢅ700 0ꢁ1000 3ꢁꢞ 4ꢁ8
2.4 3ꢊ9
390 0ꢈ2400 0ꢁꢅ500
430 0ꢡ1300 0ꢇ0820 4.ꢅ 6ꢁ1
0.ꢅ400 0.0960 4ꢢ0 5.8
0.0980 0ꢈ0630 4.ꢅ 6.3
710
780
0ꢁ0710 3ꢊ6
5.8
1ꢛ
PA
ꢅꢛ
2
480 0.1200
1ꢛ
PA
1ꢛ
2
530 0.ꢅ100 0ꢁ0660 4.3 6ꢁ7
6.8
5ꢈ3
7.4
5.3
6.0
7.0
870 0.1000 0ꢈ0670 4.6
590
0.ꢅ600 0ꢁ0990 3.1
4ꢊ8
6.5
870
1100
0ꢤ1400 0.0880 3.5
*650 0.1500
0.0910 4.0
0.0920 0.0610
5ꢈ1
4.0
3.9
2
0.0840 0.0530 5ꢁ2 7.8
0.1300 0ꢈ0800 4.3 6ꢁ4
680
*800
2
1200 0.ꢅ400 0.0950
2
1ꢛ
PA
2
0.1000 0ꢁ0680
1300
-
3ꢋ9
2
ꢙOO 0.ꢅ300 0.0880
5.5
5.8
6ꢁ3
9ꢁ4
ꢅ400
0.0820 0.0550 5.0
0ꢁ0600 0.0410 6.3 8.9
1ꢛ
ꢅꢥ
2
880 0.ꢅ100 0ꢁ0670 3ꢁ7
ꢅ700
980
0.ꢅ000 0ꢁ0660 4.3
7ꢄ6 10.7
4.8 6ꢈ5
9ꢇ5 1ꢧꢈꢅ
9.5 ꢅ3.ꢏ
2Y,
2
3
2Y,
2
1800 0.0570 0ꢄ0380
1800 0.0970 0.0680
2700 0ꢁ0430 0.03ꢅ0
2800 0.0370 0.0250
6.4
1000 0.0550 0.0350
0ꢁ0500 0ꢈ0320 7.9 1ꢅ.5
2Y,
3
2
3
2Y,
3
2
3
ꢅ100
f
\
6ꢨ4
*1ꢅ00 0ꢁ1000 0.0630
9ꢁ7
ꢅ300 0.0860 0ꢁ0560 5.0 7.0
7.8
9.2
2800 0.0640
0ꢁ0440 5.9
7.6 1ꢅꢈ3
9.8 ꢅ4ꢁꢅ
9ꢁ4 12ꢊ4
ꢩꢅ500 0.0750 0.0470
1700 0ꢈ0330 0.0210
1700 0.0430 0ꢁ0290
ꢅ900 0.0560 0.0370
7ꢄꢅ
2ꢆ
3
0.0610 0.0430
300ꢫ
1ꢅ.ꢅ ꢏ4ꢄꢅ
11ꢈ8 lꢬ.9
3700 0.0320 0.0230
4200 0ꢇ0280 0.0200
3
6.2
8ꢈ5
0.0270 0.0200 ꢅ2ꢄ0 15ꢈ2
3
4400
4500
*2000
0.0590 0ꢁ0380 8ꢁ4 1ꢅ.ꢙ
8ꢈ3
9.8
3
0.0500 0ꢁ0380
7.4 10.0 ꢭ2Y,
2ꢅ00 0.0540 0ꢁ0360
2300 0.0320 0.02ꢅ0
*2400 0.0500 0.0330
8ꢈ8 1ꢅ.4
9ꢖ8 1ꢅꢈ5
2Y,
3
0.0280
4700 0.0400
1ꢮ.0 14.5
9.0 12ꢁ5
3
3
0.0370 0ꢁ0280
6200
0.0250 ꢅ0.4 12.2
3
7000 0.0330
7200 0.0220 0ꢐ0180
0.0280 0ꢁ0ꢅ90 1ꢅ.7 ꢅ5.3
3
2600
12ꢈ0 ꢅ3.7
3
3
2700 0.0270 0ꢁ0180 1ꢅꢈ9 ꢅ5ꢊ6
3100 0ꢊ0460 0.0330 8ꢁ6 ꢅ0.5
3200 0ꢁ0350 0.0240 9ꢁ2 ꢅ2ꢈ4
3
0.0320 0ꢄ0240 10.5 12.4
7400
3
0ꢈ0240
ꢅ0ꢈ0 10.9
3
ꢅ20QO 0ꢱ0290
2Y,
3
400 ꢁdc
0.4800 ꢅ.2
450 Vdc Suꢂge
ꢅ0.1 12ꢁ3
4200 0ꢁ0340 0ꢈ0250
2.0
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
1ꢌe
2ꢔs
ꢅꢃ
2ꢃ
3ꢔꢕ
2ꢔꢕ
4ꢉ
2ꢃ
3ꢔs
3ꢀ
5ꢂe
4ꢔs
4ꢉ
4ꢔꢕ
3ꢀ
5ꢃ
5ꢃ
4ꢔs
4ꢎ
4ꢀ
4ꢉ
DCM790T400ꢳK2ꢑ
DCMꢅ31T400AA2B
DCMXꢅ6ꢅT400AK2B
DCM191T400AH2B
DCM25ꢷT400AB2B
DCMX261T400AA2B
DCM38ꢅT400AC2ꢑ
DCMX391T400Aꢸ2ꢑ
DCM5ꢅ1T400ꢑꢑ2ꢺ
DCMX531T400AB2ꢑ
DCM57ꢅT400AF2ꢑ
DCM63ꢏT400EC2B
DCMX791T400AC2B
DCMꢙꢅ1T400BC2ꢑ
DCMXꢅꢅ2T400BB2B
DCMꢅ22T400BF2ꢑ
DCMXꢅ22T400AF2B
DCMꢅ32T400CC2B
DCMX132T400ꢻC2ꢑ
DCMX1ꢼ2T400ꢑC2B
DCM202T400DC2B
ꢅꢛ
1ꢛ
1ꢛ
1ꢛ
ꢶ's
1ꢛ
ꢅꢛ
ꢹ's
2
ꢅꢛ
1ꢛ
PA
1ꢛ
2
79 0ꢁ7900
3
4400 0.0220 0.0160 12ꢈ1 14ꢁ2
2.7
ꢅꢈ6
130 0.5000 0ꢁ3000
160 0.7400 0ꢁ4500
190 0.3300 0.20ꢵ0
250 0.2500 0ꢄ1500
260 0ꢄ4600 0.2800
0.0300 0.0220 10ꢁ7 ꢅ3.0
0ꢈ0290 0.02ꢅ0 10ꢁ9 ꢅ3ꢊ3
3
4800
5000
ꢅꢈ2 2.0
ꢴ.ꢅ 3ꢄ4
2.5
1.7
3
4.0
2.7
5.0
3.4
6ꢈ2
0.1700 0ꢈꢅ000 3.ꢍ
380
2.1
0.ꢅ900
390 0.3ꢅ00
5ꢅ0 0ꢨ1300 0.08ꢅ0 4ꢈ2
2.5 4ꢁ0
530 0.2300 0.1400
6.0
6.8
570
0ꢈꢅ100 0.0690 3.7
630 0.ꢅ000 0ꢄ0650 4.4
3.ꢅ 5.0
5.4 7ꢄ9
790 0.1600 0ꢈ0960
8ꢅ0 0.0820 0ꢈ0520
0.ꢅ300 0.0860 4.0 5.6
2
2
ꢅꢅ00
6ꢈ6 9ꢄ6
3.8 6.0
0.0530 0.0340
0.1ꢅ00 0.0650
1200
1ꢛ
2ꢆ
ꢀ
2
1200
0ꢄ0310 8.1 ꢅꢅ.7
ꢅ300 0ꢖ0490
6ꢊ4
0.0550 5.1 7ꢄꢏ
9.6 ꢅ2.6
4.4
1300
0.1000
0ꢁ0640
ꢅ700 0.0830
2000 0.0410
3
0.0280
* Stock Raꢀing
(
• MA (508) 996-8561
相关型号:
DCM752U040AC2B
CAPACITOR, ALUMINUM ELECTROLYTIC, NON SOLID, POLARIZED, 40V, 7500uF, CHASSIS MOUNT
CDE
DCM752U050AC2B
CAPACITOR, ALUMINUM ELECTROLYTIC, NON SOLID, POLARIZED, 50V, 7500uF, CHASSIS MOUNT
CDE
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