ꢁs / ꢁd ꢁotor stꢂrtꢀng cꢂpꢂꢄꢀtorꢃ
120vꢂꢄ
ꢉype number
ꢁꢀn. cꢂp. ꢁꢂx. cꢂp.
ꢉolerꢂnꢄe
cꢂn sꢀze
(mm)
duty cyꢄle
(µf)
(µf)
@ 120v rmꢃ
@ 150v rmꢃ
---MS±2AAMA±STD
---MS±2AAMK±STD
---MS±2ABMA±STD
---MS±2ABMK±STD
---MS±2ACMA±STD
---MS±2ACMK±STD
---MD±2AAMA±STD
---MD±2AAMK±STD
---MD±2ABMA±STD
---MD±2ABMK±STD
---MD±2ACMA±STD
---MD±2ACMK±STD
25
25
85
325
360
460
5±0
670
750
325
360
460
5±0
670
750
-0ꢀ +25ꢀ
±±0ꢀ
-0ꢀ +25ꢀ
±±0ꢀ
-0ꢀ +25ꢀ
±±0ꢀ
-0ꢀ +25ꢀ
±±0ꢀ
-0ꢀ +25ꢀ
±±0ꢀ
-0ꢀ +25ꢀ
±±0ꢀ
38x75
38x75
38x90
38x90
38x±±6
38x±±6
38x75
38x75
38x90
38x90
38x±±6
38x±±6
±.67ꢀ
±.67ꢀ
±.67ꢀ
±.67ꢀ
±.67ꢀ
±.67ꢀ
±.67ꢀ
±.67ꢀ
±.67ꢀ
±.67ꢀ
±.67ꢀ
±.67ꢀ
90
±20
±30
25
25
85
90
±20
±30
0.55ꢀ
0.55ꢀ
0.55ꢀ
0.55ꢀ
0.55ꢀ
0.55ꢀ
220vꢂꢄ
ꢉype number
ꢁꢀn. cꢂp. ꢁꢂx. cꢂp.
ꢉolerꢂnꢄe
cꢂn sꢀze
(mm)
duty cyꢄle
(µf)
(µf)
@ 220v rmꢃ
@ 280v rmꢃ
---MS22AAMA±STD
---MS22AAMK±STD
---MS22ABMA±STD
---MS22ABMK±STD
---MS22ACMA±STD
---MS22ACMK±STD
---MD22AAMA±STD
---MD22AAMK±STD
---MD22ABMA±STD
---MD22ABMK±STD
---MD22ACMA±STD
---MD22ACMK±STD
30
30
40
40
55
65
30
30
40
40
55
65
65
70
90
±00
±30
±50
65
70
90
±00
±30
±30
-0ꢀ +25ꢀ
±±0ꢀ
-0ꢀ +25ꢀ
±±0ꢀ
-0ꢀ +25ꢀ
±±0ꢀ
-0ꢀ +25ꢀ
±±0ꢀ
-0ꢀ +25ꢀ
±±0ꢀ
-0ꢀ +25ꢀ
±±0ꢀ
38x75
38x75
38x90
38x90
38x±±6
38x±±6
38x75
38x75
38x90
38x90
38x±±6
38x±±6
±.67ꢀ
±.67ꢀ
±.67ꢀ
±.67ꢀ
±.67ꢀ
±.67ꢀ
±.67ꢀ
±.67ꢀ
±.67ꢀ
±.67ꢀ
±.67ꢀ
±.67ꢀ
0.55ꢀ
0.55ꢀ
0.55ꢀ
0.55ꢀ
0.55ꢀ
0.55ꢀ
260vꢂꢄ
ꢉype number
ꢁꢀn. cꢂp. ꢁꢂx. cꢂp.
ꢉolerꢂnꢄe
cꢂn sꢀze
(mm)
duty cyꢄle
(µf)
(µf)
@ 260v rmꢃ
@ 330v rmꢃ
---MS26AAMA±STD
---MS26AAMK±STD
---MS26ABMA±STD
---MS26ABMK±STD
---MS26ACMA±STD
---MS26ACMK±STD
---MD26AAMA±STD
---MD26AAMK±STD
---MD26ABMA±STD
---MD26ABMK±STD
---MD26ACMA±STD
---MD26ACMK±STD
*
25
25
35
35
50
55
25
25
30
35
45
50
55
60
75
-0ꢀ +25ꢀ
±±0ꢀ
-0ꢀ +25ꢀ
±±0ꢀ
-0ꢀ +25ꢀ
±±0ꢀ
-0ꢀ +25ꢀ
±±0ꢀ
-0ꢀ +25ꢀ
±±0ꢀ
-0ꢀ +25ꢀ
±±0ꢀ
38x75
38x75
38x90
38x90
38x±±6
38x±±6
38x75
38x75
38x90
38x90
38x±±6
38x±±6
±.67ꢀ
±.67ꢀ
±.67ꢀ
±.67ꢀ
±.67ꢀ
±.67ꢀ
±.67ꢀ
±.67ꢀ
±.67ꢀ
±.67ꢀ
±.67ꢀ
±.67ꢀ
85
±±0
±25
50
55
70
80
±00
±±5
0.55ꢀ
0.55ꢀ
0.55ꢀ
0.55ꢀ
0.55ꢀ
0.55ꢀ
cꢂpꢂꢄꢀtꢂnꢄe ꢄoꢆe
e.g. 030=30µf, 120=120µf
ꢉEcꢐꢇicaꢈ daꢉa
duꢂl voltꢂge ꢍꢂtꢀng
duty cyꢄle
Preꢃenꢄe oꢏ ꢍun cꢂpꢂꢄꢀtor
The MD range of capacitors is designed The standard rating is ±.67ꢀ or ±/60th full When the motor is fitted with both starting
with a dual voltage rating. The lower voltage time and corresponds to a maximum duty and run capacitors, consideration should be
rating relates to a duty cycle of ±.67ꢀ and of 20 starts, each of three seconds duration given to fitting of the appropriate discharge
the upper voltage rating relates to a duty per hour. It is expressed as 3/±.67 (a 3 minute resistor to the starting capacitor. This is
cycle of 0.55ꢀ.
cycle with ±.67ꢀ duration during which the to protect the run capacitor from damage
capacitor may be energised). If the same through discharge of the starting capacitor.
capacitor is to be used for a duty cycle of
Power fꢂꢄtor
The tangent of the loss angle for motor start 60 starts per hour the cycle duration will contꢂꢀner form
capacitors shall not exceed 0.± and shall be be ± minute. The operation time per cycle Cylindrical mouldings, meeting creepage
calculated as follows:
will then have to be reduced to ±.67ꢀ of ± and clearance distances, according to IEC
minute (i.e. ± second). Alternative duty cycles 60335-± and flammability ratings according
Tan δ = W =
true watts
apparent watts
are available on request.
to UL94-V±.
V x I
BHC and Evox Rifa Electrolytic Capacitors
14ꢀ
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