MSA7R250270N [CDE]

Aluminum Electrolytic Capacitor, Non-polarized, Aluminum (wet), 270uF, Chassis Mount,;


型号：	MSA7R250270N
厂家：	CORNELL DUBILIER ELECTRONICS
描述：	Aluminum Electrolytic Capacitor, Non-polarized, Aluminum (wet), 270uF, Chassis Mount,
文件：	总8页 (文件大小：252K)
中文：	中文翻译
下载：	下载PDF数据表文档文件

TYPE MS

ELECTROLYTIC

AC MOTOR START CAPACITORS

FEATURES:

ꢀ Moisture & Oil Resistant Plastic Case

ꢀ Insulated metal case

HIGH LIGHTS:

ꢀ ^Capacitance:

ꢀ Voltage:

21 - 1590 Mfd

110 Vac - 330 Vac

ꢀ UL recognized - File #E199307

ꢀ Long Life and High Reliability

ꢀ Optional Leads and Resistors

ꢀ Operating Frequency: 50 - 60 Hz

ꢀ Power Factor: 10% Max.

ꢀ Ambient Temperature: -40ꢀC +65ꢀC

APPLICATIONS:

Motor Starting and other intermittent AC applications

Proudly Made In U.S.A.

The MS motor start aluminum electrolytic capacitor is used to provide the torque necessary to start AC motors and can be used in other intermittent

AC applications. The capacitor comes in all popular styles with a variety of terminal configuration choices. Mallory Motor Start Capacitors are

designed in accordance with EIA-463-B. The metal case units are covered with a plastic sleeve (PVC) to provide electrical insulation.

4411 South High School Road

Indianapolis,IN 46241

Phone: (317) 612-1000

(800) 625-4369

Fax: (317) 612-1010

MALLORY AC CAP

ACITOR LLC

www.mallory-ac.com

Type MS

Standard Terminal Layouts & Resistor Layout

Inches

Millimeters

(Ref.)

Case

Code

(+0.020, -0.030)

(ꢁ0.015)

(ꢁ0.38)

(+0.51, -0.76)

1-⁷/₁₆(1.4375)

1-¹³/₁₆(1.8125)

2-¹/₁₆(2.0625)

2-⁹/₁₆(2.5625)

2-³/₄

3-³/₈

4-³/₈

3-³/₈

4-³/₈

3-³/₈

4-³/₈

(2.750)

(3.375)

(4.375)

(3.375)

(4.375)

(3.375)

(4.375)

(.500)

36.51

46.04

52.39

65.09

69.85

85.73

111.13

85.73

111.13

85.73

111.13

12.70

15.88

22.23

(.500)

(.625)

(.875)

Standard

Solder Lug Terminals

(SL)

Dual Disconnect Terminals

W/Solder Lug Terminal

(DQCS)

Single Disconnect Terminals

(SQC)

Dual Disconnect Terminals

(DQC)

(All Cases)

(Case 4, 5, 6, 7 & 8 only)

.125

(Ref)

.0625

(Ref)

.0625

(Ref)

.0625

(Ref)

Mounting Accessories

HB Brackets

PL and PLA End Caps

Catalog Number

Dimensions (Ref.)

EIA

Case Code

EIA

Case Code

Wire Hole

Dimension

Toward Bracket Away From Bracket

HB2

HB4

HB8

3-³/₈"

1-¹¹

1-¹³

2-²³

⁷/₈"

1-¹/₂"

1-²⁵

1.258

PL3

PL6

PL8

PL10

PLA3

PLA6

PLA8

PLA10

1-2-3

4-5

6-7

1-⁷/₁₆

1-¹³

2-4-6

3-5-7-8

4-¹/₆₄

5-¹/₆₄

1-³⁷

/ "

2-⁵/₆₄

2-¹/₁₆

2-⁹/₁₆

Material: .042 spring steel

with black parkerized finish.

* Center-to-center dimension.

.2188 R

.3125 R

.375

.750

.9375 Space

.191 R

.094

1.375

PLA

.375

.234

.875

1.1875

HB brackets are used with PL or PLA end caps. The bracket is assembled to the motor or any suitable surface by two screws in line at any convenient position within

the center-to-center dimension (C) shown in the chart. The PL end cap is placed in position and the entire assemby snapped into place with the connecting wires

brought through the bracket hole. Use PLA style caps if the wire is to be direced away from the bracket. (Example: PLA3).

End caps and brackets are shipped loose and should be ordered separately.

Contact the factory for information about wire leads and sub-assemblies.

Mallory AC Capacitor LLC - 4411 South High School Road - Indianapolis IN 46241 - Phone: (317)612-1000 - Fax: (317)612-1010 - www.mallory-ac.com

Ratings Charts

MSA - Type 2 Standard Duty Ratings

MSB - Type 1 Heavy Duty Ratings

EIA-463-B does not specify case sizes for Type 1

Case sizes listed are available from Mallory

Highlighted case sizes per EIA-463-B

Other case sizes listed are available from Mallory

and also meet EIA-463-B Type 2 test specifications.

and also meet EIA-463-B Type 1 test specifications.

MFD

110 Vac 115 Vac 125 Vac 165 Vac 220 Vac 250 Vac 330 Vac

110 Vac 125 Vac 165 Vac 220 Vac 250 Vac 330 Vac

MFD

110 Vac

125 Vac

165 Vac

220 Vac 250 Vac

330 Vac

21-25

25-30

1 or 2

1 thru 4

2 thru 4

3 thru 5

4 or 5

4 thru 7

4 thru 8

5 thru 8

7 or 8

21-25

25-30

1 or 2

30-36

1 or 2

1 thru 4

2 thru 5

4 or 5

4 thru 7

4 thru 8

5 thru 8

7 or 8

30-36

36-43

43-52

1 or 2

1 thru 4

2 thru 5

2 thru 7

4 thru 7

4 thru 8

7 or 8

43-52

47-56

53-64

64-77

1 or 2

3 or 4

64-77

72-87

4 or 5

88-106

108-130

124-149

130-156

145-174

161-193

189-227

216-260

233-280

243-292

270-324

324-389

340-408

378-455

400-480

430-516

460-552

540-648

590-708

645-774

708-850

720-864

800-960

815-978

829-995

850-1020

1 or 2

2 thru 4

2 thru 5

4 thru 7

4 thru 8

5 thru 8

7 or 8

88-106

4 or 5

108-130

124-149

130-156

145-174

161-193

189-227

216-260

233-280

243-292

270-324

324-389

340-408

378-455

400-480

430-516

460-552

540-648

590-708

645-774

708-850

720-864

800-960

815-978

829-995

850-1020

1000-1200

1020-1224

1175-1410

1280-1536

1326-1590

5 thru 7

7 or 8

1or 2

1 or 2

1 thru 3

3 or 4

1 or 2

3 or 4

2 or 3

3 or 4

1 thru 3 2 thru 4

1 thru 4 2 thru 4

2 thru 4 2 thru 4

3 or 4

4 or 5

3 or 4

4 or 5

5 thru 7

3 or 4

5 thru 7

4 or 5

5 thru 7

5 or 6

4 thru 7 4 thru 7

4 thru 7 4 thru 8

4 thru 8 5 thru 8

5 or 6

6 or 7

1000-1200 5 thru 8 5 thru 8

1020-1224 5 thru 8 5 thru 8

1175-1410 5 thru 8 5 thru 8

1280-1536 5 thru 8

1326-1590

Part Number Nomenclature

161

Standard Part Number

Mallory Type Designation

Identifies the basic capacitor design;

Performance

A = EIA Type 2

B = EIA Type 1 S = Special

Case Code

(See standard ratings page)

Case Type

R = Recessed (Standard).

Voltage Rating

10 = 110

22 = 220

12 = 125

25 = 250

16 = 165

33 = 330

Minimum Capacitance

Expressed in microfarads.

Always 3 or 4 digits.

Resistor

N = No resistor (Standard)

R = With Resistor (15kꢂ, 2 Watt is standard)

Mallory AC Capacitor LLC - 4411 South High School Road - Indianapolis IN 46241 - Phone: (317)612-1000 - Fax: (317)612-1010 - www.mallory-ac.com

Metal Case AC Motor Start Capacitors

Maximum Capacitance for Aluminum Case Designs

per EIA ratings Type 2

x L

Case Code

(mm)

110 Vac

125 Vac

165 Vac

220 Vac

250 Vac

330 Vac

10.16

12.7

161

243

145

189

108

130

189

270

378

540

400

540

800

645

1000

324

270

108

161

233

324

216

270

430

378

540

324

270

460

400

460

430

108

161

124

161

243

216

270

12.7

645

590

35 x 101

12.7

850

108

15.9

590

15.9

850

829

108

161

145

189

40 x 101

45 75

45 x 101

15.9

1280

1020

1500

1175

1020

1410

15.9

Insulation hi-pot test is 2000 Vac between metal case and metal foil

wrapped around sleeve for 1 second.

L ꢁ 2.0

7.7mm Max.

C ꢁ 0.5

D ꢁ 1.0

ꢁ0.5

Solder Lug Terminals

(SL)

(25,30mm Cases)

Standard Dual Disconnect Terminals

(DQC)

(35,40,45mm Cases)

Note: Add 1.0mm maximum to diameter and 1.0mm

maximum to length for PVC insulation sleeve.

Metal Case Part Number Nomenclature

189

110

Standard Part Number

Mallory Type Designation

Performance

L = EIA Type II

(Standard)

M = EIA Type I

(Special)

Contact Mallory for size information.

G = Extended Run (Special)

Minimum Capacitance

Expressed in Microfarad

Always in 3 or 4 Digits

Tolerance

D = -0 + 20%

Voltage Rating

3 Digits

Case Code

(See Table)

Resistor

N = No resistor (Standard)

R = With Resistor (15kꢂ, 2 Watt is standard)

Sleeve

3 = Blue PVC

Mallory AC Capacitor LLC - 4411 South High School Road - Indianapolis IN 46241 - Phone: (317)612-1000 - Fax: (317)612-1010 - www.mallory-ac.com

Application Guide for Plastic and Metal Case

Figure A:Type 2 (MSA)

Figure B:Type 1 (MSB)

Capacitance Rating

(mfd)

Duty Cycle

Capacitance Rating

(mfd)

Duty Cycle

ꢂ

ꢁ

Rated

Voltage Test

Volts AC (rms)

Rated

Voltage Test

Volts AC (rms)

Duration of test

(no. of starts)

Duration of test

(no. of starts)

Secs.

(On)

Secs.

(Off)

Secs.

(Off)

(On)

From

110

21-25

130-156

270-324

400-480

590-708

1000-1200

21-25

108-130

161-193

243-292

400-480

645-774

21-25

124-149

243-292

378-454

540-648

850-1020

1326-1590

88-106

145-174

233-280

378-454

590-708

1326-1890

88-106

29¹/₄

119

75,000

40,000

33,500

40,000

33,500

25,000

40,000

33,500

25,000

110

21-25

130-156

270-324

400-480

590-708

1000-1200

21-25

108-130

161-193

243-292

400-480

645-774

21-25

124-149

243-292

378-454

540-648

850-1020

1326-1590

88-106

145-174

233-280

378-454

590-708

1326-1890

88-106

29¹/₄

119

179

239

29¹/₄

50,000

33,500

25,000

16,500

12,500

50,000

33,500

25,000

16,500

12,500

33,500

25,000

16,500

12,500

33,500

25,000

16,500

12,500

33,500

25,000

16,500

12,500

33,500

25,000

16,500

12,500

125

119

179

239

165

220

250

330

165

220

250

330

108-130

130-156

233-280

378-454

21-25

124-149

216-259

340-408

850-1020

43-52

108-130

130-156

233-280

378-454

21-25

124-149

216-259

340-408

850-1020

43-52

119

179

239

37-56

72-86

37-56

72-86

88-106

161-193

270-324

21-25

36-43

72-86

108-130

216-259

21-25

25-30

36-43

145-174

243-292

460-552

30-36

64-77

88-106

189-227

430-516

21-25

30-36

64-77

88-106

161-193

270-324

21-25

36-43

72-86

108-130

216-259

21-25

25-30

36-43

145-174

243-292

460-552

30-36

64-77

88-106

189-227

430-516

21-25

30-36

64-77

119

179

239

119

179

239

119

179

239

72-86

108-130

88-106

270-324

119

72-86

108-130

88-106

270-324

ꢁ The number of starts shown are reduced starts for accelerated

testing so that test time does not exceed 35 days. Type 2 capaci-

tors should be capable of 50,000 starts for ratings to 125 volts

and 40,000 starts for higher voltages. See section 3.0 for testing

procedures.

^ꢂThe number of starts shown are reduced starts for accelerated

testing so that test time does not exceed 35 days. Type 1 capaci-

tors should be capable of 75,000 starts for ratings to 125 volts

and 40,000 starts for higher voltages. See section 3.0 for testing

procedures.

If an application exceeds the duty cycles in Figure B, other meth-

ods of capacitor selection must be used, Contact Mallory for

assistance.

1.1 VOLTAGE RATING

1.2 CAPACITANCE RATING

The rated voltage of the capacitor must be greater than or equal

to the average voltage across the capacitor terminals during the

motor starting cycle. This is not necessarily the same as the mo-

tor line voltage. In addition, the cutoff voltage rating of the ca-

pacitor must be greater than or equal to the maximum voltage

attained across the terminals of the capacitor in actual service.

The maximum recommended cut-off voltages for the seven stan-

dard voltage ratings are as follows:

The capacitance is chosen to give the necessary starting torque

to the motor. The minimum capacitance value is the minimum

designed capacitance. The maximum capacitance is 20% more

than that value.

1.3 DUTY CYCLE

The duty cycle should be calculated for each application. It is the

ratio of the time the capacitor is on voltage to the total time of one

cycle. The duty cycles for the normal performance of Type 2

(MSA) capacitors are listed in Figure A. Mallory Type MSA

capacitors may be used in any intermittant application within their

temperature and voltage range where the duty cycle does not ex-

ceed that listed in the table in Figure A. This is in accordance

with the standards in EIA-463-B for Type 2 capacitors.

If a particular application exceeds the normal duty cycle, but does

not exceed the values listed in Figure B, an extra performance or

Type 1 (MSB) capacitor is required.

Rated

Maximum

Voltage (rms) Cut-Off Voltage (rms)

110

125

165

220

250

330

140

160

210

280

300

400

These ratings are based on the maximum capacitor temperature

of 65ꢀC.

(Continued)

Mallory AC Capacitor LLC - 4411 South High School Road - Indianapolis IN 46241 - Phone: (317)612-1000 - Fax: (317)612-1010 - www.mallory-ac.com

Application Guide (Continued)

1.4 Frequency

1.7 SAFETY

These capacitors are engineered for 60 Hz application but may Because the watt-second value of these capacitors is high, pre-

be operated between 47 Hz and 60 Hz without damage provided cautions should be taken during the testing and application of

voltage limitations stated above are observed. For other varia- these devices.

tions in frequency, contact Mallory.

Discharge resistors should be specified when there is a possibil-

ity of a residual charge left on the capacitor or to protect contacts.

Mis-application, such as exceeding design limits or applying

continuous AC voltage, may result in destruction or explo-

sion of capacitors.

1.5 MOUNTING

Vertical mounting of the capacitor with the terminals up is

recommended. However, horizontal mounting is acceptable pro-

viding the vent is located in the up position. Vertical mounting

with the terminals down is not recommended because the capaci-

tor life may be reduced and the operation of the pressure relief

vent impaired.

1.6 SOLVENTS

Solvent residues on the capacitors after cleaning may penetrate

the seal and cause internal corrosion resulting in shortened life.

Alcohol or water detergent cleaning is not usually harmful but

halogenated cleaning solvents are not recommended and should

be avoided.

Procedure for Capacitance and Power Factor Measurement

Type MS motor start capacitors are intended for intermittent duty application. The capacitance and power factor should be measured

by a Power Analyzer or referenced to the voltmeter, ammeter and wattmeter (impedance) method described as follows.

Capacitance is calculated by the following formula

when frequency is 60 Hertz.

Switch

2652 x Amps

Capacitance (ꢃF) =

Rated (Applied) Volts

Capacitor

Under Load

Line

Power factor is calculated as follows:

Watts

% Power factor =

x 100

Volts x Amps

WARNING: Voltage should not be applied for more than 4 seconds to prevent over-heating of the capacitor

and incorrect measurements. Test with capacitor in upright position (contacts up) to allow proper function-

ing of safety vent. Over heating of any capacitor may result in sudden expulsion of hot flammable material.

Enclose the capacitor under test to prevent injury to persons in the event of abnormal capacitor failure.

All measurements are referenced to 25ꢀC (77ꢀF). Capacitors just brought in from the cold or recently tested (hot) must be allowed

to stabilize to room temperature (3-4 hours)

Other methods of capacitance and power factor measurement may result in erroneous readings.

For further information or help call Mallory AC Capacitor LLC at: (270) 678-4919

Mallory AC Capacitor LLC - 4411 South High School Road - Indianapolis IN 46241 - Phone: (317)612-1000 - Fax: (317)612-1010 - www.mallory-ac.com

Performance Characteristics

2.1 TEMPERATURE

2.7 CASE INSULATION TEST

2.1.1 OPERATING: These capacitors are designed to operate The capacitors shall be capable of withstanding the application

within the ambient temperature range of -40ꢀC to +65ꢀC.

of 1500 volts ac rms 60 Hz for 5 seconds between the terminals

2.1.2 STORAGE: These capacitors may be subjected, with and a metal foil tightly surrounding the lateral surface of the

out permanent damage, to conditions in transit where tempera- plastic case or insulating sleeve without breakdown or flash-

tures range from -55ꢀC to +95ꢀC.

over.

2.1.3 TOLERANCE: Unless otherwise specified, temperature

tolerance shall be ꢁ3ꢀC.

2.8 OVERVOLTAGE TEST

Capacitors shall be capable of withstanding the application of

140 percent of rated voltage ac rms 60 Hz for one second at room

temperature conditions without breakdown or visible damage to

them.

2.2 FREQUENCY

Unless otherwise specified, frequency shall be 50-60 Hz.

2.3 VOLTAGE RATING

2.9 VENT TEST

The rated voltage is the rms value of AC voltage at which the

capacitor may be operated at its normal duty cycle and maximum Capacitors shall be capable of releasing any excessive internal

ambient temperature.

pressure without violent expulsion of capacitor element or cover

or emission of flame, when rated ac rms voltage 60 Hz is applied

continuously to a capacitor. Care should be taken to shield the

capacitor from observers to prevent injury.

2.4 CAPACITANCE AND POWER FACTOR

The capacitance and power factor are measured by the voltage,

current, power method with 60 Hz sinusoidal rated voltage ap-

plied to the capacitor at standard conditions per EIA-463-B, Para-

3.0 ACCELERATED LIFE TEST

graph 9. Whenever voltage is applied, there is the possibility Capacitors shall be capable of withstanding life test in a 65ꢀC

the capacitor may vent. Care should be taken to shield the ꢁ3ꢀC ambient at rated sinusoidal voltage and frequency with cur-

capacitor from observers to prevent injury during testing.

rent limiting and discharge resistors. A resistance equivalent to

approximately 10% of the capacitor impedance shall be connected

in series with each capacitor and a resistor of approximately 1000

ohms shall be connected in parallel with each capacitor. Life test

shall be conducted in a test chamber with capacitors separated by

at least 1 inch of air and with sufficient circulation so that the

ambient temperature remains within the above temperature lim-

its and does not vary more than ꢁ1ꢀC. Also capacitors shall not

be exposed to direct radiation from heating elements.

2.5 TERMINAL STRENGTH

The capacitance terminals shall be capable of withstanding a

steady pull of 10 pounds applied gradually in any direction for a

period of 10 seconds. There shall be no loosening of the termi-

nals or damage to the terminals or seal. Atorque of 4 inch-pounds

applied to the terminals shall not cause them to rotate.

Test voltage is applied to the capacitor resistor combination. Spe-

cial test conditions for Type 1 and Type 2 capacitors are given in

the tables in section 1.3. At the conclusion of the life test, at

room temperature, the capacitance shall not differ from the initial

measured value by more than ꢁ25% and the power factor shall

not exceed 20%.

2.6 VIBRATION

Capacitors shall be clamped rigidly to a vibration platform and

subjected to a simple harmonic motion having a maximum

peak-to-peak amplitude of .06 inches and a maximum accelera-

tion of 10g. The frequency of vibration shall be varied linearly

between 10 and 55 cycles per second. The entire frequency

range, 10 to 55cps, shall be traversed in one minute.

Capacitors shall be vibrated for 1 hour with the direction of mo-

tion be in parallel to the axis of the capacitor. The capacitors

shall then be placed so that the direction of motion is perpendicu-

lar to the axis and the vibration continued for one hour.

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.

The information contained herein is believed to be correct, but no guarantee or warranty, express or implied, with respect to accuracy, completeness or results is extended

and no liability is assumed. Nothing herein is to be construed as advising or authorizing practice of any invention covered by existing patent rights owned by Mallory or

others without license from the owners thereof. In the interest of improved design and performance, Mallory reserves the right to make changes in any specification, data

or material contained herein.

Mallory AC Capacitor LLC - 4411 South High School Road - Indianapolis IN 46241 - Phone: (317)612-1000 - Fax: (317)612-1010 - www.mallory-ac.com

Mallory AC Capacitor LLC

Customer Service

4411 South High School Road

Indianapolis,IN 46241

Phone: (317) 612-1000

(800) 625-4369

Fax: (317) 612-1010

Manufacturing Facility

Sales, Marketing & Engineering

2601 Happy Valley Road

Glasgow KY 42141

Phone: (270) 678-4919

(800) 678-1934

Fax: (270) 678-2032

www.mallory-ac.com

May 2003

TAG MS00

Mallory AC Capacitor LLC - 4411 South High School Road - Indianapolis IN 46241 - Phone: (317)612-1000 - Fax: (317)612-1010 - www.mallory-ac.com

MSA7R250270N [CDE]

相关型号：

SI9130DB

SI9135LG-T1

SI9135LG-T1-E3

SI9135_11

SI9136_11

SI9130CG-T1-E3

SI9130LG-T1-E3

SI9130_11

SI9137

SI9137DB

SI9137LG

SI9122E