BCcomponents, Inc.
SERIES 3500
DESCRIPTION
BCcomponents Series 3500 AC motor start
Capacitor is an electrochemical device
consisting of compactly wound aluminum
foil separated by layers of paper impregnated
with a conducting electrolyte. Etching of the
foil prior to formation and winding increases
the effective foil surface area and the capacitance per unit volume. The entire assembly
is housed in a molded plastic container.
Eight case sizes are available along with a
choice of terminals and mounting methods.
Four types of terminals are available. All
have a special metal to metal under cover
connection for positive terminal contact with
the capacitor roll tabs. Units may be special
ordered with bleeder resistors soldered
across the terminals.
Capacitors may be ordered with leads and
end cap & bracket assembly for mounting.
Electrolytic Capacitors
A.C. Motor Start Capacitor
FEATURES
♦ Operation temperature from - 40°C to +65°C
♦ Storage temperature from - 55°C to +95°C
♦ 50-60 Hz operating frequency
♦ Plastic case requires no insulation
♦ Stable electrical characteristics after 75,000
start cycles (110VAC and 125VAC)
♦ Type 3535 meets EIA Type I specifications
♦ Type 3534 meets EIA Type II specifications
♦ Longer life due to cooler operation
♦ Four styles of terminals available
AGENCIES
EIA Standard EIA-463
UL & CSA Recognized component
(File E207040)
VDE Approved (series 3535)
Document # 2000 06011500
BCcomponents, Inc. ♦ 6071 St. Andrews Road ♦ Columbia, SC 29212-3198 USA ♦ Tel:803-772-2500 ♦ Fax:803-772-2445
�SERIES 3500
A.C. Motor Start Capacitor
Case Dimensions and Styles
Dimensions in Inches
Case Size
1
2
3
4
5
6
7
8
D
+/- 0.020
1 7/16
1 7/16
1 7/16
1 13/16
1 13/16
2 1/16
2 1/16
2 9/16
H
+/- 0.020
2 3/4
3 3/8
4 3/8
3 3/8
4 3/8
3 3/8
4 3/8
4 3/8
Case Style B
W (Max)
0.032
0.032
0.032
0.032
0.032
0.032
0.032
0.032
End Caps
W
H
D
Top Lead Hole
Bottom Lead Hole
Bottom Lead Hole
Top Lead Hole
Case Size
Catalog #
Case Size
Catalog #
1,2,3
614A766AAP1
1,2,3
614A766ABP1
4,5
614A766AAP2
4,5
614A766ABP2
6,7
614A766AAP3
6,7
614A766ABP3
8
614A766AAP4
8
614A766ABP4
Brackets
Case
Size
Catalog #
A
B
3,5,7,8
2,4,6
614A765ABP1
614A765ABP2
5.015
4.015
4.656
3.650
1
614A765ABP3
3.374
3.015
Leads and Terminals
Stripped leads, or leads terminated with eyelet or
female quick connect terminals are available as an
option.
Four capacitor terminals are available for capacitors
supplied without leads.
BCcomponents, Inc ♦ 6071 St. Andrews Road ♦ Columbia, SC 29212-3198 USA ♦ Tel: 803-772-2500 ♦ Fax: 803-772-2445
�SERIES 3500
A.C. Motor Start Capacitor
PERFORMANCE SPECIFICATIONS
1. TEMPERATURE
1.1 Operating. These capacitors are designed to
operate within the ambient temperature range of
-40°C to 65°C.
1.2 Storage. These capacitors may be subjected
without permanent damage, to conditions in transit
where temperatures range from -55°C to +95°C.
1.3 Tolerance. Unless otherwise specified, temperature tolerance shall be ±3°C.
2. FREQUENCY. Unless otherwise
frequency shall be 50-60 Hz.
specified
3. VOLTAGE RATING. The rated voltage is the
r-m-s value of AC voltage at which the capacitor
may be operated at its normal duty cycle and
maximum ambient temperature.
4. CAPACITANCE AND POWER FACTOR.
4.1 Measurement. Using the circuit shown in Fig.1,
apply rated r-m-s voltage from a 60 Hz source to
the capacitor and record the reading from the amp
meter and wattmeter. Current shall be measured
within 3 seconds and power within 4 seconds after
application of rated voltage.
ATTENTION: Measurement of capacitance and
power factor at conditions other then specified
may result in error.
4.4 Requirements. Capacitance shall be within
specified limits and the power factor shall not
exceed 10%.
5. LIFETEST. *
5.1 Capacitors shall be placed in a circulating air
oven at an ambient temperature of 65°C.
Spacing between capacitors must be at least 1" and
capacitors must not be subjected to direct radiation
from heating elements. Circulation of air shall be
sufficient to keep the temperature, within six (6)
inches of the capacitor, below 68°C.
* CautionConfine capacitor(s) under test to isolate all
electrical connections for the safety of personnel.
5.1.1 A resistance equivalent to approximately
10% of the capacitor impedance shall be connected
in series with each capacitor. A resistor of
approximately 1000 ohms shall be connected in
parallel with each capacitor.
5.1.2 Rated voltage shall be applied to the
capacitor resistor combination for Type 3535, EIA
Type I capacitors as specified below.
Rated
Voltage
(r-m-s)
110,115
and 125
Voltage Cycle
Duty
Cycle
2 times per minute
3/4 sec. on; 29 1/4 0.0250
sec. off
165,220 1 time per minute
250 and 1 sec. On; 59 sec. 0.0167
330
Off
Minimum
Number of
Starts
75,000
40,000
(Table per EIA-463 Standard for Type I capacitors)
4.2 Temperature. Measurement shall be made at
a temperature of 25°C.
4.3 Calculation. Capacitance and Power Factor
c=
i × 10 6
2πfv
Where:
% pf =
c
f
i
π
v
pf
w
=
=
=
=
=
=
=
w
x100
vi
capacitance in MFD
frequency (Hz)
current in amperes
constant 3.14
applied r-m-s voltage
power factor
power in watts
BCcomponents, Inc ♦ 6071 St. Andrews Road ♦ Columbia, SC 29212-3198 USA ♦ Tel: 803-772-2500 ♦ Fax: 803-772-2445
�SERIES 3500
A.C. Motor Start Capacitor
5.1.3 Rated voltage shall be applied to the
capacitor resistor combination for Type 3534, EIA
Type II, capacitors as specified below.
Rated
Voltage
(r-m-s)
110
115
125
165
220
250
330
Duty Cycle
Capacitance Rating
(uF)
From
To
21-25
130-156
270-324
400-480
590-708
1000-1200
21-25
124-149
216-259
378-454
540-648
829-995
21-25
108-130
161-193
243-292
400-480
645-774
21-25
108-130
130-156
233-280
378-454
21-25
37-56
68-106
161-193
270-324
21-25
36-43
72-86
108-130
216-259
21-25
25-30
36-43
72-86
108-130
124-149
243-292
378-454
540-648
850-1020
1280-1546
108-130
189-227
340-408
460-552
815-978
1020-1224
88-106
145-174
233-280
378-454
590-708
800-960
88-106
124-149
216-259
340-408
590-708
43-52
72-86
145-174
243-292
430-516
30-36
64-77
88-106
189-227
324-389
21-25
30-36
64-77
88-106
130-156
(Table per
capacitors)
EIA-463
Seconds
On
Seconds
Off
Duration
of Test*
(Number
of Starts)
3/4
1
1
1
1
1
3/4
1
1
1
1
1
3/4
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
29 ¼
59
89
119
179
239
29 ¼
59
89
119
179
239
29 ¼
59
89
119
179
239
59
89
119
179
239
59
89
119
179
239
59
89
119
179
239
59
89
119
179
239
50,000
50,000
33,500
25,000
16,500
12,500
50,000
50,000
33,500
25,000
16,500
12,500
50,000
50,000
33,500
25,000
16,500
12,500
33,500
33,500
25,000
16,500
12,500
33,500
33,500
25,000
16,500
12,500
33,500
33,500
25,000
16,500
12,500
33,500
33,500
25,000
16,500
12,500
Standard
for
Type
II
* The number of starts shown in this column are
reduced starts for accelerated testing so that test time
does not exceed 35 days. Type 2 capacitors should be
capable of 50,000 starts for ratings to 125 volts and
40,000 starts for higher voltages.
5.2 Upon completion of the life test, the capacitors
shall be returned to room ambient for a minimum
of 24 hours. The capacitors shall then meet the
following requirements:
5.2.1 Capacitance, when measured per paragraph
4, shall not differ from the initial measured value by
more than 25%.
5.2.2 The power factor, when measured per
paragraph 4, shall not exceed 20%.
6. OVERVOLTAGE TEST. Capacitors shall withstand, without breakdown or visible mechanical
damage, 140% of rated voltage for one second at
room temperature (EIA Type I capacitors only).
7. TERMINAL STRENGTH. The capacitor
terminals shall be capable of withstanding a steady
pull of 10 pounds applied in any direction for a
period of 10 seconds. There shall be no loosening
of the terminals or damage to the terminals or seal.
A torque of 4 pounds applied to the terminals shall
not cause them to rotate.
8. CASE INSULATION. Capacitors are designed
to withstand a 1500-volt 60 hertz r-m-s voltage
applied for 5 seconds between terminals and case
without breakdown or flashover.
9. VIBRATION. Capacitors shall be clamped
rigidly to a vibration platform and subjected to a
simple harmonic motion having a maximum peakto-peak amplitude of .06 inches and a maximum
acceleration of 10g. The frequency of vibration
shall be varied linearly between 10 and 55 cycles
per second. The entire frequency range, 10 to 55
to 10 cycle per second, shall be traversed in one
minute. Capacitors shall be vibrated for 1½ hours
with the direction of motion being parallel to the
axis of the capacitor. The capacitors shall then be
placed so that the direction of motion is
perpendicular to the axis and the vibration
continued for 1½ hours. During the last ½ hour of
the test, the capacitor shall be connected to a
bridge and observed for a 3 minute period. The
capacitor under test shall meet the requirements of
paragraph 9.1.
9.1 There shall be no evidence of loosening of the
capacitor element within the container, when
shaken by hand following the test. There shall be
no indication of intermittent contact during the 3
minute observation period. Capacitors shall not be
open or shorted.
10. MARKING. Capacitors will have the following
minimum marking:
Manufacturer's Name And / Or Symbol
Manufacturer's Part Number
Capacitance (Min-Max value in MFD)
Rated Voltage
Rated Frequency
EIA Source and Date Code
BCcomponents, Inc ♦ 6071 St. Andrews Road ♦ Columbia, SC 29212-3198 USA ♦ Tel: 803-772-2500 ♦ Fax: 803-772-2445
�SERIES 3500
Application Guidelines
The BCcomponents AC Motor Start capacitors are
non-polar aluminum electrolytic capacitors
designed for intermittent AC duty; more
specifically, the starting of small AC motors. They
are not suitable for most DC or continuous AC
applications.
1. DUTY CYCLE. The duty cycle of an AC Motor
Start capacitor may be determined by dividing the
capacitor's on-time (energized time) by the sum of
its on-time (energized time) and its off-time (deenergized time). For a given AC Motor Start
capacitor, operating at a given voltage and
ambient temperature, the time-averaged power
dissipated by the capacitor, the internal operating
temperature of the capacitor and therefore the life
expectancy of the capacitor are all directly
proportional to the capacitor's duty cycle.
1.1 Normal capacitor life may be realized
(assuming voltage and temperature limits are not
exceeded) when the on-time of a capacitor does
not exceed 3 seconds and its duty cycle does not
exceed 0.0167. Example: Twenty (20) three (3)
second starts per hour yield a duty cycle of 0.0167
and does not exceed the three (3) second on-time
limit.
1.2 Longer than 3 second on-times are not recommended as they will cause the capacitor's life to be
shortened. Should they be unavoidable, there are
certain precautions that can be taken to minimize
the degradation of the capacitor's life expectancy.
For on-times up to 6 seconds:
• Reduce the duty cycle by increasing the off-time
• Reduce the ambient temperature
• Provide forced air cooling
• Use a capacitor with a higher voltage rating
• Use two capacitors connected in Series, with
each having twice the capacitance value of the
original.
2. FREOUENCY. These capacitors are designed
and are tested at 60 Hz. However, they are
suitable for use from 50 to 60 Hz.
3. VOLTAGE. (Rated voltage and over voltage
are covered in the PERFORMANCE SPECIFICATIONS section). However, there is a third
voltage that should be considered in the
application of AC Motor Start capacitors. During
the start cycle of a normal capacitor start motor the
voltage impressed across the AC motor start
A.C. Motor Start Capacitor
capacitor does not remain constant. It should start
close to the rated voltage, dip slightly and then
begin to increase as the motor's RPM increases.
Should the start switch fail to open, it is possible for
the capacitor's voltage to increase to as much as 2
to 3 times the capacitor's rated voltage.
3.1 Normal capacitor life may be realized
(assuming temperature and duty cycle limits are
not exceeded) when, during the start cycle the
voltage impressed across the capacitor does not
exceed 125% of its rated voltage.
4. TEMPERATURE. (Storage and operating
temperatures are covered in the PERFORMANCE SPECIFICATIONS section). There has
been some misunderstanding about the -40°C
lower limit. As the temperature decreases from
room temperature, capacitance starts to fall and
power factor (measurement of losses) starts to
rise. Either one of these effects will cause a
decrease in a motor's starting torque. The effects
are such that below -40°C a stalled rotor condition
could occur. However, because the losses are so
high, the internal capacitor temperature will rise
rather quickly, thus restoring normal start torque.
The total effect may just be a delay in the motor
reaching switch out speed.
5. SHELF LIFE. The normal shelf life expectancy
for these capacitors is typically in excess of 5 years
when stored in ambient temperatures not
exceeding 40°C.
6. RESISTORS. Some specialized applications
require that the motor start capacitor be discharged prior to the closing of the start switch.
This minimizes shock hazard, switch bounce
noise, and peak contact currents. The resistor
used to discharge the capacitor should be
sufficiently large so as not to significantly increase
the power factor and small enough to ensure the
capacitor is discharged within the required time.
Normally, a 15K ohm ±20% 2-Watt resistor is
used. Consult factory for this option.
7. MOUNTING. Vertical mounting of the capacitor
with the terminals up is recommended; however
horizontal mounting with the pressure relief vent
up is acceptable. Vertical mounting with
terminals down or horizontal mounting with a
relief vent down is not recommended as this
may reduce capacitor life and could impair the
operation of the pressure relief vent.
BCcomponents, Inc ♦ 6071 St. Andrews Road ♦ Columbia, SC 29212-3198 USA ♦ Tel: 803-772-2500 ♦ Fax: 803-772-2445
�SERIES 3500
A.C. Motor Start Capacitor
9.2 Care should be exercised in the mounting
of these capacitors to insure minimal damage
in the event of an explosion.
8. CLEANING SOLVENTS. Recommended cleaning solvents are those free of halogens or halogen
groups such as ethyl alcohol, butyl alcohol, methyl
alcohol, propyl alcohol and deionized or distilled
water. Solvents that are NOT recommended are
halogenated hydrocarbon solvents such as
Freon TF, Freon TMC; carbon tetrachloride,
chloroform trichloroethylene, trichioroethane, and
methylene chloride.
10. GENERAL. Consult factory if the application
requirements do not match the parameters as
specified for the capacitor.
11. INQUIRIES. When consulting about a special
application or an application problem, the following
minimum information should be made available:
a. Capacitor nameplate information; capacitance
value (in MFD), AC voltage rating, etc.
b. Case size (diameter & length)
c. Application duty cycle (on time, off time)
d. Maximum switch out voltage
e. Maximum ambient temperature
f. Any special or unusual application characteristic.
9. SAFETY. The watt-second capability of these
capacitors is high enough that precautions should
be taken during the testing and application of these
devices. Normally, the DC series resistance of the
main and auxiliary windings are such that the
capacitor is completely discharged prior to the
motor coming to a complete stop. However if this is
not the case, or if this is deemed inadequate,
discharge resistors are available trom the factory.
9.1 Misapplication, such as exceeding design
limits or applying continuous AC voltage, may
result in destruction or explosion of the
capacitors.
Trademark El DuPont & Company.
HOW TO SPECIFY a BCCOMPONENTS
AC MOTOR START CAPACITOR
35
35
B
BC
Components
AC Motor
Start
Capacitors
1
A
Case Code
(see rating
tables)
Case Style
B = Recessed
(Standard)
Performance
Class
34 = Type II
light duty
35 = Type I
heavy duty
30 = Special
0021
A
Minimum
Capacitance
Rating
(MFD)
Terminal
Style
(see physical
specifications)
110
AC
(R-M-S)
Voltage
Rating
Bracket & End
Cap Code
A = No Bracket
or End Cap
B = End Cap only
C = End Cap &
Bracket
D = Bracket only
BCcomponents, Inc ♦ 6071 St. Andrews Road ♦ Columbia, SC 29212-3198 USA ♦ Tel: 803-772-2500 ♦ Fax: 803-772-2445
�SERIES 3500
Standard Capacitance values EIA Type
uF Min-Max
Case Size
Part Number
110 Volts AC
21-25
25-30
30-36
36-43
43-53
47-56
53-64
64-77
72-88
88-108
108-130
124-149
130-156
145-175
161-193
189-227
216-259
233-280
243-292
270-324
340-408
378-440
400-480
430-516
460-552
540-648
590-708
710-850
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
2
2
2
4
4
4
4
4
4
4
7
7
8
3535B1A0021A110 * *
3535B1A0025A110 * *
3535B1A0030A110 * *
3535B1A0036A110 * *
3535B1A0043A110 * *
3535B1A0047A110 * *
3535B1A0053A110 * *
3535B1A0064A110 * *
3535B1A0072A110 * *
3535B1A0088A110 * *
3535B1A0108A110 * *
3535B1A0124A110 * *
3535B1A0130A110 * *
3535B1A0145A110 * *
3535B1A0161A110 * *
3535B2A0189A110 * *
3535B2A0216A110 * *
3535B2A0233A110 * *
3535B4A0243A110 * *
3535B4A0270A110 * *
3535B4A0340A110 * *
3535B4A0378A110 * *
3535B4A0400A110 * *
3535B4A0430A110 * *
3535B4A0460A110 * *
3535B7A0540A110 * *
3535B7A0590A110 * *
3535B8A0710A110 * *
125 Volts AC
21-25
25-30
30-36
36-43
43-53
47-56
53-64
64-77
72-88
88-108
108-130
124-149
130-156
145-175
161-193
189-227
216-259
233-280
243-292
270-324
340-408
378-440
400-480
430-516
460-552
540-648
1
1
1
1
1
1
1
1
1
1
1
1
1
2
2
2
4
4
4
4
5
5
5
7
7
8
3535B1A0021A125 * *
3535B1A0025A125 * *
3535B1A0030A125 * *
3535B1A0036A125 * *
3535B1A0043A125 * *
3535B1A0047A125 * *
3535B1A0053A125 * *
3535B1A0064A125 * *
3535B1A0072A125 * *
3535B1A0088A125 * *
3535B1A0108A125 * *
3535B1A0124A125 * *
3535B1A0130A125 * *
3535B2A0145A125 * *
3535B2A0161A125 * *
3535B2A0189A125 * *
3535B4A0216A125 * *
3535B4A0233A125 * *
3535B4A0243A125 * *
3535B4A0270A125 * *
3535B5A0340A125 * *
3535B5A0378A125 * *
3535B5A0400A125 * *
3535B7A0430A125 * *
3535B7A0460A125 * *
3535B8A0540A125 * *
1
1
1
1
1
1
1
1
3535B1A0021A165 * *
3535B1A0025A165 * *
3535B1A0030A165 * *
3535B1A0036A165 * *
3535B1A0043A165 * *
3535B1A0047A165 * *
3535B1A0053A165 * *
3535B1A0064A165 * *
A.C. Motor Start Capacitor
I
72-88
88-108
108-130
124-149
130-156
145-175
161-193
189-227
216-259
233-280
243-292
270-324
340-408
378-440
400-480
1
2
2
4
4
4
4
4
5
5
5
5
7
8
8
3535B1A0072A165 * *
3535B2A0088A165 * *
3535B2A0108A165 * *
3535B4A0124A165 * *
3535B4A0130A165 * *
3535B4A0145A165 * *
3535B4A0161A165 * *
3535B4A0189A165 * *
3535B5A0216A165 * *
3535B5A0233A165 * *
3535B5A0243A165 * *
3535B5A0270A165 * *
3535B7A0340A165 * *
3535B8A0378A165 * *
3535B8A0400A165 * *
1
1
1
2
2
2
4
4
4
4
5
5
5
7
8
8
3535B1A0021A220 * *
3535B1A0025A220 * *
3535B1A0030A220 * *
3535B2A0036A220 * *
3535B2A0043A220 * *
3535B2A0047A220 * *
3535B4A0053A220 * *
3535B4A0064A220 * *
3535B4A0072A220 * *
3535B4A0088A220 * *
3535B5A0108A220 * *
3535B5A0124A220 * *
3535B5A0130A220 * *
3535B7A0145A220 * *
3535B8A0161A220 * *
3535B8A0189A220 * *
1
1
2
2
4
4
4
4
4
5
5
7
8
8
8
3535B1A0021A250 * *
3535B1A0025A250 * *
3535B2A0030A250 * *
3535B2A0036A250 * *
3535B4A0043A250 * *
3535B4A0047A250 * *
3535B4A0053A250 * *
3535B4A0064A250 * *
3535B4A0072A250 * *
3535B5A0088A250 * *
3535B5A0108A250 * *
3535B7A0124A250 * *
3535B8A0130A250 * *
3535B8A0145A250 * *
3535B8A0161A250 * *
2
2
4
4
4
4
5
5
5
7
8
3535B2A0021A330 * *
3535B2A0025A330 * *
3535B4A0030A330 * *
3535B4A0036A330 * *
3535B4A0043A330 * *
3535B4A0047A330 * *
3535B5A0053A330 * *
3535B5A0064A330 * *
3535B5A0072A330 * *
3535B7A0088A330 * *
3535B8A0108A330 * *
220 Volts AC
21-25
25-30
30-36
36-43
43-53
47-56
53-64
64-77
72-88
88-108
108-130
124-149
130-156
145-175
161-193
189-227
250 Volts AC
21-25
25-30
30-36
36-43
43-53
47-56
53-64
64-77
72-88
88-108
108-130
124-149
130-156
145-175
161-193
330 Volts AC
21-25
25-30
30-36
36-43
43-53
47-56
53-64
64-77
72-88
88-108
108-130
165 Volts AC
21-25
25-30
30-36
36-43
43-53
47-56
53-64
64-77
Note: ** The last two digits are for internal use only. They are
sequentially assigned and have NO predetermined meaning.
BCcomponents, Inc ♦ 6071 St. Andrews Road ♦ Columbia, SC 29212-3198 USA ♦ Tel: 803-772-2500 ♦ Fax: 803-772-2445
�SERIES 3500
Standard Capacitance values EIA Type
uF Min-Max
Case Size
Part Number
110 Volts AC
21-25
25-30
30-36
36-43
43-53
47-56
53-64
64-77
72-88
88-108
108-130
124-149
130-156
145-175
161-193
189-227
216-259
233-280
243-292
270-324
340-408
378-440
400-480
430-516
460-552
540-648
590-708
710-850
829-995
1000-1200
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
2
2
2
2
4
4
4
4
4
5
5
7
7
8
3534B1A0021A110 * *
3534B1A0025A110 * *
3534B1A0030A110 * *
3534B1A0036A110 * *
3534B1A0043A110 * *
3534B1A0047A110 * *
3534B1A0053A110 * *
3534B1A0064A110 * *
3534B1A0072A110 * *
3534B1A0088A110 * *
3534B1A0108A110 * *
3534B1A0124A110 * *
3534B1A0130A110 * *
3534B1A0145A110 * *
3534B1A0161A110 * *
3534B1A0189A110 * *
3534B2A0216A110 * *
3534B2A0233A110 * *
3534B2A0243A110 * *
3534B2A0270A110 * *
3534B4A0340A110 * *
3534B4A0378A110 * *
3534B4A0400A110 * *
3534B4A0430A110 * *
3534B4A0460A110 * *
3534B5A0540A110 * *
3534B5A0590A110 * *
3534B7A0710A110 * *
3534B7A0829A110 * *
3534B8A1000A110 * *
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
2
2
2
3
3
4
4
4
4
4
5
7
8
3534B1A0021A125 * *
3534B1A0025A125 * *
3534B1A0030A125 * *
3534B1A0036A125 * *
3534B1A0043A125 * *
3534B1A0047A125 * *
3534B1A0053A125 * *
3534B1A0064A125 * *
3534B1A0072A125 * *
3534B1A0088A125 * *
3534B1A0108A125 * *
3534B1A0124A125 * *
3534B1A0130A125 * *
3534B1A0145A125 * *
3534B1A0161A125 * *
3534B2A0189A125 * *
3534B2A0216A125 * *
3534B2A0233A125 * *
3534B3A0243A125 * *
3534B3A0270A125 * *
3534B4A0340A125 * *
3534B4A0378A125 * *
3534B4A0400A125 * *
3534B4A0430A125 * *
3534B4A0460A125 * *
3534B5A0540A125 * *
3534B7A0645A125 * *
3534B8A0829A125 * *
1
1
1
1
1
1
3534B1A0021A165 * *
3534B1A0025A165 * *
3534B1A0030A165 * *
3534B1A0036A165 * *
3534B1A0043A165 * *
3534B1A0047A165 * *
125 Volts AC
21-25
25-30
30-36
36-43
43-53
47-56
53-64
64-77
72-88
88-108
108-130
124-149
130-156
145-175
161-193
189-227
216-259
233-280
243-292
270-324
340-408
378-440
400-480
430-516
460-552
540-648
645-774
829-995
165 Volts AC
21-25
25-30
30-36
36-43
43-53
47-56
A.C. Motor Start Capacitor
II
53-64
64-77
72-88
88-108
108-130
124-149
130-156
145-175
161-193
189-227
216-259
233-280
243-292
270-324
340-408
400-480
460-552
1
1
1
1
2
2
4
4
4
4
4
5
5
5
7
7
8
3534B1A0053A165 * *
3534B1A0064A165 * *
3534B1A0072A165 * *
3534B1A0088A165 * *
3534B2A0108A165 * *
3534B2A0124A165 * *
3534B4A0130A165 * *
3534B4A0145A165 * *
3534B4A0161A165 * *
3534B4A0189A165 * *
3534B4A0216A165* *
3534B5A0233A165 * *
3534B5A0243A165 * *
3534B5A0270A165 * *
3534B7A0340A165 * *
3534B7A0400A165 * *
3534B8A0460A165 * *
1
1
1
1
2
2
2
4
4
4
4
5
5
7
7
7
8
8
3534B1A0021A220 * *
3534B1A0025A220 * *
3534B1A0030A220 * *
3534B1A0036A220 * *
3534B2A0043A220 * *
3534B2A0047A220 * *
3534B2A0053A220 * *
3534B4A0064A220 * *
3534B4A0072A220 * *
3534B4A0088A220 * *
3534B4A0108A220 * *
3534B5A0124A220 * *
3534B5A0130A220 * *
3534B7A0145A220 * *
3534B7A0161A220 * *
3534B7A0189A220 * *
3534B8A0233A220 * *
3534B8A0270A220 * *
1
1
2
2
2
2
4
4
4
5
5
5
5
7
7
8
8
3534B1A0021A250 * *
3534B1A0025A250 * *
3534B2A0030A250 * *
3534B2A0036A250 * *
3534B2A0043A250 * *
3534B2A0047A250 * *
3534B4A0053A250 * *
3534B4A0064A250 * *
3534B4A0072A250 * *
3534B5A0088A250 * *
3534B5A0108A250 * *
3534B5A0124A250 * *
3534B5A0130A250 * *
3534B7A0145A250 * *
3534B7A0161A250 * *
3534B8A0189A250 * *
3534B8A0233A250 * *
2
2
4
4
4
4
5
5
5
7
8
8
8
3534B2A0021A330 * *
3534B2A0025A330 * *
3534B4A0030A330 * *
3534B4A0036A330 * *
3534B4A0043A330 * *
3534B4A0047A330 * *
3534B5A0053A330 * *
3534B5A0064A330 * *
3534B5A0072A330 * *
3534B7A0088A330 * *
3534B8A0108A330 * *
3534B8A0124A330 * *
3534B8A0145A330 * *
220 Volts AC
21-25
25-30
30-36
36-43
43-53
47-56
53-64
64-77
72-88
88-108
108-130
124-149
130-156
145-175
161-193
189-227
233-280
270-324
250 Volts AC
21-25
25-30
30-36
36-43
43-53
47-56
53-64
64-77
72-88
88-108
108-130
124-149
130-156
145-175
161-193
189-227
233-280
330 Volts AC
21-25
25-30
30-36
36-43
43-53
47-56
53-64
64-77
72-88
88-108
108-130
124-149
145-175
Note: ** The last two digits are for internal use only. They are
sequentially assigned and have NO predetermined meaning.
BCcomponents, Inc ♦ 6071 St. Andrews Road ♦ Columbia, SC 29212-3198 USA ♦ Tel: 803-772-2500 ♦ Fax: 803-772-2445
�
