tb 02608001 e
TRANSCRIPT
CA08104001E For more information, visit:
www.eaton.com/consultants
September 2011
Contents
Power Factor Capacitors and Harmonic Filters 35.0-1
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Power Factor Capacitors and Harmonic Filters
Capacitor Application Considerations
Capacitor Selection . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
35.0-2
NEC Code Requirements for Capacitors . . . . . . . . . . . . . . . . . . . . . . .
35.0-2
Capacitor Switching Devices . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
35.0-3
Installing Capacitors in a Plant Distribution System . . . . . . . . . . . . .
35.0-5
Locating Capacitors on Reduced Voltageand Multi-Speed Motor Starters . . . . . . . . . . . . . . . . . . . . . . . . . . . .
35.0-6
Harmonic Considerations . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
35.0-7
Capacitor Banks and Transformers Can Cause Resonance . . . . . . . .
35.0-7
Diagnosing a Potential Harmonics Related Problem . . . . . . . . . . . . .
35.0-7
Eliminating Harmonic Problems —Passive and Switched Harmonic Filters . . . . . . . . . . . . . . . . . . . . . .
35.0-8
Motor Power Factor Correction . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
35.0-9
Capacitor Application Tables for Motors. . . . . . . . . . . . . . . . . . . . . . .
35.0-11
600 Volts AC and Below
Low Voltage Power Factor Correction Capacitor Banks and Harmonic Filters
UNIPUMP Power Factor Correction Capacitors . . . . . . . . . . . . . . . . .
35.1-1
Power Factor Correction Capacitors . . . . . . . . . . . . . . . . . . . . . . . . . .
35.1-3
Harmonic Filtering. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
35.1-3
UNIPAK. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
35.1-4
Automatic Power Factor Correction Systems
AUTOVAR 300 Wall-Mounted up to 300 kVAR . . . . . . . . . . . . . . . . . .
35.2-1
AUTOVAR 300 Dimensions. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
35.2-2
AUTOVAR 600 Floor-Mounted up to 1200 kVAR. . . . . . . . . . . . . . . . .
35.2-3
AUTOVAR 600 Dimensions. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
35.2-6
AUTOVAR Filter . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
35.2-8
AUTOVAR Switched Harmonic Filter Dimensions . . . . . . . . . . . . . . .
35.2-10
Active Harmonic Filter-Harmonic Correction Unit (480V Max.)
General Description . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
35.3-1
Dimensions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
35.3-5
Transient-Free Statically Switched Capacitor Bank
General Description . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
35.4-1
Dimensions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
35.4-4
Metal-Enclosed—Medium Voltage
UNIVAR XV (5 kV Class)
General Description . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
35.5-1
Layout Dimensions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
35.5-4
UNIVAR (15 kV Class)
General Description . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
35.5-6
Layout Dimensions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
35.5-7
Autovar MV
General Description . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
35.6-2
Layout Dimensions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
35.6-6
Specifications
See Eaton’s
Product Specification Guide
, available on CD or on the Web.CSI Format: . . . . . . . . . . . . . . . . . . . . . . . . . . 1995 2010
Fixed Power Factor Correction Equipment—LV(UNIVAR) . . . . . . . . . . .
Section 16280A
Section 23 35 33.11
Switched Power Factor Correction Equipment—LV (AUTOVAR) . . . . . . . . . . .
Section 16280B
Section 23 35 33.13
Switched Harmonic Filter Equipment—LV (AUTOVAR) . . . . . . . . .
Section 16280C
Section 26 35 26.11
Switched Power Factor Correction—MV . . . . . . . . . . . . . . . . . . .
Section 16280D
Section 23 35 33.17
Switched Capacitor & Harmonic Filter Equipment—MV (AUTOVAR)
. . . . . . . . . .
Section 16280E
Section 23 35 33.19
35.0-2
For more information, visit:
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CA08104001E
September 2011
Power Factor Capacitors and Harmonic Filters
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Application Considerations
Capacitors
002
Capacitor Selection
There are two basic types of capacitor installations: individual capacitors on linear or sinusoidal loads, and banks of fixed or automatically switched capacitors at the feeder or substation.
Individual vs. Banked Installations
Advantages of individual capacitors at the load:
■
Complete control. Capacitors cannot cause problems on the line during light load conditions
■
No need for separate switching. Motor always operates with capacitor
■
Improved motor performance due to more efficient power utilization and reduced voltage drops
■
Motors and capacitors can be easily relocated together
■
Easier to select the right capacitor for the load
■
Reduced line losses
■
Increased system capacity
Advantages of bank installations at the feeder or substation:
■
Lower cost per kVAR
■
Total plant power factor improved—reduces or eliminates all forms of kVAR charges
■
Automatic switching ensures exact amount of power factor correction, eliminates overcapacitance and resulting overvoltages
Table 35.0-1. Summary of Advantages/Disadvantages of Individual, Fixed Banks, Automatic Banks, Combination
Selection Criteria
The selection of the type of capacitor installation will depend on advantages and disadvantages of each type and several plant variables, including load type, load size, load constancy, load capacity, motor starting methods and manner of utility billing.
Load Type
If a facility has many large motors, 50 hp and above, it is usually economical to install one capacitor per motor and switch the capacitor and motor together. If there are many small motors, 1/2 to 25 hp, motors can be grouped with one capacitor at a central point in the distribution system. Often, the best solution for plants with large and small motors is to use both types of capacitor installations.
Load Size
Facilities with large loads benefit from a combination of individual load, group load and banks of fixed and automatically-switched capacitor units. A small facility, on the other hand, may require only one capacitor at the service entrance.
Sometimes, only an isolated trouble spot requires power factor correction in applications such as welding machines, induction heaters or DC drives. If a particular feeder serving a low power factor load is corrected, it may raise overall plant power factor enough that additional capacitors are unnecessary.
Load Constancy
If a facility operates around-the-clock and has a constant load demand, fixed capacitors offer the greatest economy. If load is determined by eight-hour shifts five days a week, use switched units to decrease capacitance during times of reduced load.
Method Advantages Disadvantages
Individualcapacitors
Most technically efficient, most flexible Higher installation and maintenance cost
Fixed bank Most economical, fewer installations Less flexible, requires switches and/or circuit breakers
Automaticbank
Best for variable loads, prevents overvoltages, low installation cost
Higher equipment cost
Combination Most practical for larger numbers of motors
Least flexible
Load Capacity
If feeders or transformers are over-loaded, or to add additional load to already loaded lines, correction must be applied at the load. If a facility has surplus amperage, capacitor banks can be installed at main feeders. If load varies a great deal, automatic switching is a good solution.
Utility Billing
The severity of the local electric utility tariff for power factor will affect payback and ROI. In many areas, an optimally designed power factor correction system will pay for itself in less than two years.
National Electrical Code Requirements for Capacitors
Nameplate kVAR
: Tolerance +15, –0%.
Discharge resistors
: Capacitors rated at 600V and less must reduce the charge to less than 50V within 1 minute of de-energization. Capacitors rated above 600V must reduce the charge within5 minutes.
Continuous operation
: Up to 135% rated (nameplate) kVAR, includingthe effects of 110% rated voltage (121% kVAR), 15% capacitance tolerance and harmonic voltages over the fundamental frequency (60 Hz).
Dielectric strength test:
Twice the rated AC voltage (or a DC voltage 4.3 times the AC rating for non-metallized systems).
Overcurrent Protection
: Fusing between 1.65 and 2.5 times rated current to protect case from rupture. Does not preclude NEC
®
requirement for overcurrent protection in all three ungrounded conductors.
Note:
When capacitor is connected to the load side of the motor overcurrent protection, fused disconnects or breaker protection is not required. Fuses are recom-mended for all other indoor applications.
CA08104001E For more information, visit:
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35.0-3
September 2011
Power Factor Capacitors and Harmonic Filters
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Application Considerations
Switching Devices
003
Capacitor Switching Devices
Low Voltage Capacitor Switching
Circuit breakers and switches for use with a capacitor must have a current rating in excess of rated capacitor current to provide for overcurrent from overvoltages at fundamental frequency and harmonic currents. The following percent of the capacitor-rated current should be used as a general guideline:
Fused and unfused switches. . . . . . . . . . . . . . . . . . . .165%
Molded-case breaker or equivalent . . . . . . . . . . . . . . . . . .150%
DS
II
power circuit breakers . . . . .135%
Magnum DS power circuit breaker . . . . . . . . . . . . . . .135%
Contactors:Open type . . . . . . . . . . . . . . . . . . .135%
Enclosed type . . . . . . . . . . . . . . . .150%
The NEC, Section 460.8(c)(4), requires the disconnecting means to be rated not less than 135% of the rated capacitor current (for 600V and below). See
Page 35.0-4
for more information on
Low Voltage Capacitor Switching Devices.
Medium Voltage Capacitor Switching
Capacitance switching constitutes severe operating duty for a circuit breaker. At the time the breaker opens at near current zero the capacitor is fully charged. After interruption, when the alternating voltage on the source side of the breaker reaches its opposite maximum, the voltage that appears across the contacts of the open breaker is at least twice the normal peak line-to-neutral voltage of the circuit. If a breakdown occurs across the open contact the arc is re-established. Due to the circuit constants on the supply side of the breaker, the voltage across the open contact can reach three times the normal line-to-neutral voltage. After it is interrupted and with subsequent alternation of the supply side voltage, the voltage across the open contact is even higher.
ANSI Standard C37.06 (indoor oilless circuit breakers) indicates the preferred ratings of Eaton’s Type VCP-W vacuum breaker. For capacitor switching careful attention should be paid to the notes accompanying the table. The definition of the terms are in ANSI Standard C37.04 Article 5.13 (for the latest edition). The application guide ANSI/IEEE Standard C37.012 covers the method of calculation of the quan-tities covered by C37.06 Standard.
Note that the definitions in C37.04 make the switching of two capacitors banks in close proximity to the switch-gear bus a back-to-back mode of switching. This classification requires a definite purpose circuit breaker (breakers specifically designed for capacitance switching).
We recommend that such application be referred to Eaton.
A breaker specified for capacitor switching should include as applicable:
1. Rated maximum voltage.
2. Rated frequency.
3. Rated open wire line charging switching current.
4. Rated isolated cable charging and shunt capacitor switching current.
5. Rated back-to-back cable charging and back-to-back capacitor switching current.
6. Rated transient overvoltage factor.
7. Rated transient inrush current and its frequency.
8. Rated interrupting time.
9. Rated capacitive current switching life.
10. Grounding of system and capacitor bank.
Loadbreak interrupter switches
are permitted by ANSI/IEEE Standard C37.30 to switch capacitance but they must have tested ratings for the purpose. Refer to Eaton Type MVS ratings.
Projects that anticipate requiring capacitor bank switching or fault interrupting should identify the breakers that must have capacitive current switching ratings on the equip-ment schedules and contract drawings used for the project. Manufacturer’s standard medium voltage breakers meeting ANSI C37.xx are not all rated for switching capacitive loads. Special breakers are usually available from vendors to comply with the ANSI C37.012 (Application Guide for Capacitor Current Switching) and other applicable ANSI standards. The use of capacitive current rated breakers can affect the medium voltage switchgear layout, thus early identification of these capacitive loads are critical to the design process.
For example, the standard 15 kV Eaton 150 VCP-W 500, 1200A vacuum breaker does not have a capacitive current switching rating; however, the 15 kV Eaton 150 VCP-W 25C, 1200A vacuum breaker does have the following general purpose ratings:
■
25A rms cable charging current switching
■
Isolated shunt capacitor bank switching current ratings of 25A to 600A
■
Definite purpose back-to-back capacitor switch ratings required when two banks of capacitors are independently switched from the 15 kV switchgear bus
The special breakers with these capacitive current ratings do not have UL labels, thus UL assembly ratings are not available.
Contact Eaton for more details on vacuum breaker and fused load interrupter switch products with capacitive switching current ratings at medium voltages.
35.0-4
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CA08104001E
September 2011
Power Factor Capacitors and Harmonic Filters
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Application Considerations
Switching Devices
004
Table 35.0-2. Recommended Switching Devices
�
Table 35.0-2. Recommended Switching Devices (Continued)
�
Switching device ratings are based on percentage of capacitor-rated current as indicated (above). The interrupting rating of the switch must be selected to match the system fault current available at the point of capacitor application. Whenever a capacitor bank is purchased with less than the ultimate kVAR capacity of the rack or enclosure, the switch rating should be selected based on the ultimate kVAR capacity—not the initial installed capacity.
Capacitor Rating Amperes
kVAR CapacitorRatedCurrent
SafetySwitchFuse Rating
Molded-Case BreakerTrip Rating
PowerBreakerTrip Rating
240V
2.5 5 7.5
6.0 12.0 18.0
15 20 30
15 20 30
15 20 30
10 15 20
24.1 36.1 48.1
40 60 80
40 70 90
40 50 70
25 30 45
60 72.2108
100 125 200
100 125 175
90 100 150
50 60 75
120144180
200 250 300
200 225 275
175 200 250
90100120
217240289
400 400 500
350 400 500
300 350 400
125135150
301325361
500 600 600
500 500 600
450 500 500
180200225
433480541
800 800 900
700 800 900
600 700 800
240250270
578602650
100010001200
900 9001000
800 9001000
300360375
720866903
120016001500
———
120012001200
480V
2 5 7.5
2.41 6.01 9.0
15 15 15
15 15 15
15 15 15
10 15 20
12.0 18.0 24.0
20 30 40
20 30 40
20 30 40
25 30 35
30.0 36.1 42
50 60 70
50 70 70
50 50 60
40 45 50
48.1 54 60.1
80 90 100
100 100 100
70 80 90
60 75 80
72.2 90.2 96.2
125 150 175
125 150 150
100 125 150
90100120
108120144
200 200 250
175 200 225
150 175 200
125150160
150180192
250 300 350
225 300 300
200 250 300
180200225
216241271
400 400 500
350 400 500
300 350 400
240250300
289301361
500 500 600
500 500 600
400 400 500
320360375
385433451
700 800 800
600 700 700
600 600 600
400450
481541
800 900
800 900
800 800
Capacitor Rating Amperes
kVAR CapacitorRatedCurrent
SafetySwitchFuse Rating
Molded-Case BreakerTrip Rating
PowerBreakerTrip Rating
600V
5 7.5 10
4.8 7.2 9.6
15 15 20
15 15 15
15 15 15
15 20 25
14.4 19.2 24.1
25 35 40
30 30 40
20 30 40
30 35 40
28.9 33.6 38.5
50 60 70
50 50 70
40 50 70
45 50 60
43.3 48.1 57.8
80 80100
70100100
70 70 90
75 80100
72.2 77.0 96.2
125150175
125125150
100125150
120125150
115120144
200200250
175200225
175175200
160180200
154173192
300300350
250300300
225250300
225240250
217231241
400400400
350350400
300350350
300320360
289306347
500600600
500500600
400500500
375400450
361385433
600700800
600600700
500600600
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35.0-5
September 2011
Power Factor Capacitors and Harmonic Filters
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Application Considerations
Capacitor Installation
005
Installing Capacitors in aPlant Distribution System
At the Load
Because capacitors act as kVAR generators, the most efficient place to install them is directly at the motor, where kVAR is consumed. Three options or other low power factor load exist for installing capacitors at the motor. Use
Figures 35.0-1
–
35.0-7
, and the information below to determine which option is best for each motor.
Location A—Motor Side of Overload Relay
■
New motor installations in which overloads can be sized in accor-dance with reduced current draw
■
Existing motors when no overload change is required
Location B—Line Side of Overload Relay
■
Existing motors when overload rating surpasses code (see Appendix for NEC code requirements)
Location C—Line Side of Starter
■
Motors that are jogged, plugged, reversed
■
Multi-speed motors
■
Starters with open transition and starters that disconnect/reconnect capacitor during cycle
■
Motors that start frequently
■
Motor loads with high inertia, where disconnecting the motor with the capacitor can turn the motor into a self-excited generator
At the Service Feeder
When correcting entire plant loads, capacitor banks can be installed at the service entrance, if load conditions and transformer size permits. If the amount of correction is too large, some capacitors can be installed at individual motors or branch circuits.
When capacitors are connected to the bus, feeder, motor control center or switchboard, a disconnect and over-current protection must be provided.
Figure 35.0-2. Installing Capacitors Online
�
Refer to
Pages 35.0-3
and
35.0-14
for switching device considerations and conductor sizing.
Locating Capacitors on Motor Circuits
Figure 35.0-1. Locating Capacitors on Motor Circuits
Main Busor Feeder
Fused Switch or Circuit Breaker �
CapacitorBank
Motor
MotorFeed
MotorStarter
Fused SafetySwitch or Breaker
Install atLocation:
CapacitorC
CapacitorB
CapacitorA
Thermal OverloadB AC
35.0-6
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Power Factor Capacitors and Harmonic Filters
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Application ConsiderationsLocating Capacitors
006
Locating Capacitors on Reduced Voltage and Multi-Speed Motors
Figure 35.0-3. Autotransformer—Closed TransitionNote: Connect capacitor on motor side of starting contacts (2, 3, 4) at points A–B–C.
Figure 35.0-4. Series Resistance StartingNote: Connect capacitor on motor side of starting contactor (1, 2, 3) at points A–B–C.
Figure 35.0-5. Part-Winding StartingNote: Connect capacitor on motor side of starting contacts (1, 2, 3) at points A–B–C.
Figure 35.0-6. Wye-Delta StartingNote: Connect capacitor on motor side of starting contacts (1, 2, 3) at points A–B–C.
Figure 35.0-7. Reactor StartingNote: Connect capacitor on motor side of starting contactor (1, 2, 3) at points A–B–C.
MotorStator
5
4
3
2
1
C
B
A
6
7Line
Start: Close 6-7-2-3-4Transfer: Open 6-7Run: Close 1-5
MotorStator
1
2
3 A
B
6 9
5 8
4 7
Line
Start: Close 1-2-3Second Step: Open 4-5-6Third Step: Close 7-8-9
C
MotorStatorStart: Close 1-2-3
Run: Close 4-5-6
A
B
C2
1
3Line
6
5
4
1
2
Line
Wye Start: Close 1-2-3-7-8Delta Run: Close 1-2-3-4-5-6
4
B 5
A
7
8
63
C
MotorStator
MotorStator
A
Line
3
B2
C1
6
5
4
Start: Close 1-2-3Run: Close 4-5-6
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Power Factor Capacitors and Harmonic Filters
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Application ConsiderationsHarmonic Considerations
007
Harmonic ConsiderationsA discussion of power system harmonics is incomplete without discussing the effects of power factor correction capacitors. In an industrial plant containing power factor correction capacitors, harmonic currents and voltages can be magnified considerably due to the interaction of the capacitors with the service transformer. This is referred to as harmonic resonance or parallel resonance. For a typical plant containing power factor correction capacitors, the resonant frequency (frequency at which amplification occurs) normally falls in the vicinity of the 5th to the 13th harmonic. Because nonlinear loads typically inject currents at the 5th, 7th, 11th and 13th harmonics, a resonant or near-resonant condition will often result if drives and capacitors are installed on the same system, producing the symptoms and problems with blown fuses, damaged capacitors or failures in other portions of the electrical distribution system.
Note: Capacitors themselves do not cause harmonics, but only aggravate potential harmonic problems. Often, harmonic-related problems do not “show up” until capacitors are applied for power factor correction.
It is a common misconception that the problem of applying capacitors in harmonic environments is limited to problems caused for the capacitor itself—that the capacitor’s lower impedance at higher frequencies causes a current overload into the capacitor and, therefore, must be removed. However, the capacitor/harmonics problem must be viewed from a power system standpoint. The capacitor-induced increase of harmonic voltages and currents on a plant’s system may be causing problems while the capacitor itself remains within its acceptable current rating.
Capacitor Banks and Transformers Can Cause ResonanceCapacitors and transformers can create dangerous resonance conditions when capacitor banks are installed at the service entrance. Under these conditions, harmonics produced by nonlinear devices can be amplified many fold.
Problematic amplification of harmonics becomes more likely as more kVAR is added to a system which contains a significant amount of nonlinear load.
An estimate of the resonant harmonic frequency is found by using the following formula:
If h is near the values of the major harmonics generated by a nonlinear device—i.e., 3, 5, 7, 11—then the resonance circuit will greatly increase harmonic distortion.
For example, if a plant has a 1500 kVA transformer with a 5-1/2% impedance and the short-circuit rating of the utility is 48,000 kVA, then kVAsys would equal 17,391 kVA.
If 350 kVAR of capacitors were used to improve power factor, h would be:
Because h falls right on the 7th harmonic, these capacitors could create a harmful resonance condition if nonlinear devices were present in the factory. In this case the capacitors should be applied only as harmonic filtering assemblies.
Diagnosing a Potential Harmonics Related ProblemNegative symptoms of harmonics on plant equipment include blown fuses on capacitors, reduced motor life, false or spurious operations of fuses or circuit breakers, decreased life or increased noise in transformers or mis-operation of electronic or microprocessor controls. If one or more of these symptoms occurs with regularity, then the following steps should be taken.
1. If the plant contains power factor correction capacitors, the current into the capacitors should be measured using a ‘true rms’ current meter. If this value is higher than the capacitor’s rated current at the system voltage (by >5% or so), the presence of harmonic voltage distortion is likely.
2. Conduct a paper audit of the plant’s harmonic-producing loads and system configuration. This analysis starts with the gathering of kVA or horsepower data on all the major nonlinear devices in the plant, all capacitors, and rating information on service entrance transformer(s). This data is analyzed to determine whether the conditions are present to create unfavorable levels of harmonics.
3. If the electrical distribution system is complex—e.g., multiple service entrances, distributed capacitors—or if the paper audit is incomplete or considered to be too burdensome, the most definitive way to determine whether harmonics are causing a problem is through an on-site plant audit. This audit involves an inspection of the electrical system layout and connected loads, as well as harmonic measurements taken at strategic locations. This data can then be assembled and analyzed to obtain a clear and concise understanding of the power system.
hkVAsys
kVAR------------------=
kVAsys Short-Circuit Capacity of the System=
h The Harmonic Number referred to a 60 Hz Base=kVAR Amount of Capacitor kVAR on the Line=
h 17,391350
------------------ 49.7 7.0= = =
35.0-8
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Power Factor Capacitors and Harmonic Filters
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Application ConsiderationsHarmonic Considerations
008
Eliminating HarmonicProblemsWhen power factor correction is required in the presence of nonlinear loads, or the amount of harmonic distortion must be reduced to solve power quality problems or avoid penalties, the most reliable, lowest cost solution is often realized with the use of harmonic filters.
Passive and Switched Harmonic FiltersA shunt harmonic filter (seeFigure 35.0-8) is, essentially, a power factor correction capacitor combined with a series iron core reactor. A filter provides power factor correction at the fundamental frequency and becomes an inductance (like a motor) at frequencies higher than its “tuning point.” Most harmonic filters are tuned below the 5th harmonic. Therefore, the filter provides an inductive impedance path to those currents at harmonic frequencies created by nearly all three-phase non-linear loads (5th, 7th, 11th, 13th, etc.). Because the filter is not capacitive at these frequencies, the plant electrical system can no longer resonate at these frequencies and can not magnify the harmonic voltages and currents.
A shunt harmonic filter therefore accomplishes three things:
1. Provides power factor correction.
2. Prevents harmonic overvoltages due to resonance.
3. Reduces voltage harmonic distortion and transformer harmonic loading at frequencies above its tuning point.
In some circumstances, a harmonic resonance condition may accrue gradually over time as capacitors and nonlinear loads are installed in a plant. The replacement of such capacitors with harmonic filters in order to correct a problem may be prohibitively expensive. Custom-designed harmonic filters which are able to eliminate problems associated with resonance at any particular frequency while providing an extremely low amount of power factor correction capacitance. These low kVAR filters are therefore able to provide the same amount of filtering capacity as a much larger conventional filter, but at a lower cost.
Solutions for Systems with High HarmonicsIf the plant loads vary, then a switched capacitor/filter bank is recommended. For systems with widely varying loads where harmonic cancellation is the primary goal, a Harmonic Correction Unit (HCU) is recommended.
Figure 35.0-8. Shunt Harmonic Filter
PhaseABC
Reactor
CapacitorBank
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35.0-9September 2011
Power Factor Capacitors and Harmonic Filters
Sheet 35
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Application ConsiderationsMotor Power Factor Correction
009
Motor Power Factor CorrectionTables 35.0-3 and 35.0-4 contain suggested maximum capacitor ratings for induction motors switched with the capacitor. The data is general in nature and representative of general purpose induction motors of standard design. The preferable means to select capacitor ratings is based on the “maximum recommended kVAR” information available from the motor manufacturer. If this is not possible or feasible, the tables can be used.
An important point to remember is that if the capacitor used with the motor is too large, self-excitation may cause a motor-damaging overvoltage when the motor and capacitor combi-nation is disconnected from the line. In addition, high transient torques capable of damaging the motor shaft or coupling can occur if the motor is reconnected to the line while rotating and still generating a voltage of self-excitation.
DefinitionskVAR—rating of the capacitor in reactive kilovolt-amperes. This value is approximately equal to the motor no-load magnetizing kilovars.
% AR—percent reduction in line current due to the capacitor. A capacitor located on the motor side of the over-load relay reduces line current through the relay. Therefore, a different over-load relay and/or setting may be necessary. The reduction in line current may be determined by measuring line current with and without the capacitor or by calculation as follows:
If a capacitor is used with a lower kVAR rating than listed in tables, the % AR can be calculated as follows:
The tables can also be used for other motor ratings as follows:
A. For standard 60 Hz motors operating at 50 Hz:
kVAR = 1.7–1.4 of kVAR listed% AR= 1.8–1.35 of % AR listed
B. For standard 50 Hz motors operating at 50 Hz:
kVAR = 1.4–1.1 of kVAR listed% AR= 1.4–1.05 of % AR listed
C. For standard 60 Hz wound-rotor motors:
kVAR = 1.1 of kVAR listed% AR= 1.05 of % AR listed
Note: For A, B, C, the larger multipliers apply for motors of higher speeds; i.e., 3600 rpm = 1.7 mult., 1800 rpm = 1.65 mult., etc.
To derate a capacitor used on a system voltage lower than the capacitor voltage rating, such as a 240V capacitor used on a 208V system, use the following formula:
For the kVAC required to correct the power factor from a given value of COS φ1 to COS φ2, the formula is:
kVAC = kW (tan phase1–tan phase2)
Capacitors cause a voltage rise. At light load periods the capacitive voltage rise can raise the voltage at the location of the capacitors to an unacceptable level. This voltage rise can be calculated approximately by the formula
MVAR is the capacitor rating and MVASC is the system short-circuit capacity.
With the introduction of variable speed drives and other harmonic current generating loads, the capacitor impedance value determined must not be resonant with the inductive reactances of the system. This matter is discussed further under the heading “Harmonics and Nonlinear Loads.”
% AR 100 100 (Original PF)(Improved PF)−−−−−−−−−−−−−−−−−−−−−−−−×–=
% AR Listed % AR Actual kVARkVAR in Table−−−−−−−−−−−−−−−−−−−−−−−−×=
Actual kVAR =
Nameplate kVAR Applied Voltage( )2
Nameplate Voltage( )2-------------------------------------------------------×
% VRMVAr
MVASC−−−−−−−−−−−−=
35.0-10
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September 2011
Power Factor Capacitors and Harmonic Filters
Sheet 35
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Application ConsiderationsMotor Power Factor Correction
010
Useful Capacitor FormulasNomenclature: C = Capacitance in µF
V = VoltageA = CurrentK = 1000
A. Additional Data
1. Simplified Voltage Rise:
2. Losses Reduction:
3. Operation at other than rated voltage and frequencyNote: Use of voltages and frequencies above the rated values can be dangerous. Consult the factory for any unusual operating conditions.
a. Reduced Voltage:
b. Reduced Frequency:
c. Examples:
(a) Voltage Reduction:
(b) Frequency Reduction:
B. Miscellaneous
% L.R. kVAR (Cap.) % Transformer Reactance×kVA(Transformer)
----------------------------------------------------------------------------------------------------------------=
% L.R. 100 – 100 Original PFImproved PF-----------------------------------
2=
Actual kVAR (Output) Rated kVAR Actual VoltageRated Voltage-----------------------------------------
2=
Actual kVAR Rated kVAR Actual Freq.Rated Freq.---------------------------------
2=
kVAR (208) kVAR (240) 208240----------
20.75= =
(10 kVAR @ 240V 7.5 kVAR @ 208V)=
kVAR (120) kVAR (240) 120240----------
20.25= =
(10 kVAR @ 240V 2.5 kVAR @ 120V)=
kVAR (50 Hz) kVAR (60 Hz) 5060------
0.83= =
(60 kVAR @ 480V 60 Hz 50 kVAR, 480V, 50 Hz)=
Single-Phase
Three-Phase
2. kW =
3. kVA =
4. Line Current Amperes =
1. Power Factor Cos θ kWkVA-----------= =
Tan θ kWkVA-----------=
V A PF××103
--------------------------- 3 V× A× PF×103
-----------------------------------------
V A×103
-------------- 3 V× A×103
----------------------------
kVA 103×V
--------------------------- kVA 103×3 V×
---------------------------
5. Capacitor Current (Amperes) 2πf( )CV 10–6×=
also: kVAR 103×V
------------------------------- kVAR 103×3 V×
-------------------------------
6. kVA kWPF--------
(kW Motor Input)=
7. kW (Motor Input) hp 0.746×efficiency----------------------------=
8. Approx. Motor kVA Motor hp (at full load)=
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35.0-11September 2011
Power Factor Capacitors and Harmonic Filters
Sheet 35
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Application ConsiderationsApplication Considerations—Motors
011
Table 35.0-3. Suggested Maximum Capacitor Ratings
� For use with three-phase, 60 Hz NEMA Classification B motors to raise full load power factor to approximately 95%.
InductionMotor hp Rating
Number of Poles and Nominal Motor Speed in RPM
2—3600 RPM 4—1800 RPM 6—1200 RPM 8—900 RPM 10—720 RPM 12—600 RPM
CapacitorkVAR
CurrentReduction %
CapacitorkVAR
CurrentReduction %
CapacitorkVAR
CurrentReduction %
CapacitorkVAR
CurrentReduction %
CapacitorkVAR
CurrentReduction %
CapacitorkVAR
CurrentReduction %
Used for High Efficiency Motors and Older Design (Pre “T-Frame”) Motors �
3 5 7.5
1.5 2 2.5
141211
1.5 2 2.5
151312
1.5 2 3
201715
2 3 4
272522
2.5 4 5
353230
3 4 6
413734
10 15 20
3 4 5
10 9 9
3 4 5
111010
3 5 6
141312
5 6 7.5
211816
6 8 9
272321
7.5 9 12.5
312725
25 30 40
6 7 9
9 8 8
6 7 9
10 9 9
7.5 910
111110
9 10 12.5
151413
10 12.5 15
201816
15 17.5 20
232220
50 60 75
12.51517.5
8 8 8
101517.5
9 8 8
12.51517.5
101010
15 17.5 20
121110
20 22.5 25
151514
25 27.5 35
191918
100125150
22.527.530
8 8 8
202530
8 8 8
253035
9 9 9
27.5 30 37.5
101010
35 40 50
131312
40 50 50
171615
200250300
405060
8 8 8
37.54550
8 7 7
405060
9 8 8
50 60 60
10 9 9
60 70 80
121111
60 75 90
141312
350400450500
60757575
8 8 8 8
60607575
7 6 6 6
75758085
8 8 8 8
75 85 90100
9 9 9 9
90 95100100
1010 9 9
95100110120
11111110
T-Frame NEMA® “Design B” Motors �
2 3 5
1 1.5 2
141414
1 1.5 2.5
242322
1.5 2 3
302826
2 3 4
423831
2 3 4
404040
3 4 5
504949
7.5 10 15
2.5 4 5
141412
3 4 5
201818
4 5 6
212120
5 6 7.5
282724
5 7.5 8
383632
6 8 10
453834
20 25 30
6 7.5 8
121211
6 7.5 8
171716
7.5 8 10
191919
9 10 15
232322
10 12.5 15
292524
12.5 17.5 20
303030
40 50 60
12.5 15 17.5
121212
15 17.5 20
161515
15 20 22.5
191917
17.5 22.5 25
212120
20 22.5 30
242422
25 30 35
303028
75100125
20 22.5 25
121110
25 30 35
141412
25 30 35
151212
30 35 40
171614
35 40 45
211515
40 45 50
191717
150200250
30 35 40
101011
40 50 60
121110
40 50 60
121110
50 70 80
141413
50 70 90
131313
60 90100
171717
300350400
45 50 75
111210
70 75 80
10 8 8
75 90100
121212
100120130
141313
100120140
131313
120135150
171515
450500
80100
8 8
90120
8 9
120150
1012
140160
1212
160180
1413
160180
1515
35.0-12
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September 2011
Power Factor Capacitors and Harmonic Filters
Sheet 35
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Application ConsiderationsApplication Considerations—Motors
012
Table 35.0-4. Suggested Capacitor Ratings, in kVARs, for NEMA Design C, D and Wound-Rotor Motors
Note: Applies to three-phase, 60 Hz motors when switched with capacitors as single unit.Note: Use motor manufacturer’s recommended kVAR as published in the performance data sheets for specific motor types:drip-proof, TEFC, severe duty, high efficiency and NEMA design.
Table 35.0-5. 2400 Volts and 4160 Volt Motors NEMA Design B
Table 35.0-6. NEMA Design B and C 2300 and 4000V Motors (after 1956)
Induction Motor Rating (hp)
Design C Motor Design D Motor1200 r/Minimum
Wound-RotorMotor1800 and 1200 r/Minimum 900 r/Minimum
15 20 25
5 5 6
5 6 6
5 6 6
5.5 7 7
30 40 50
7.51012
91215
101215
111317.5
60 75100
17.51927
1822.527
1822.530
202533
125150200
3537.545
37.54560
37.54560
405065
250300
5465
7090
7075
7585
Nominal Motor Speed in RPM and Number of Poles
InductionMotorRating (hp)
3600 RPM 2 1800 RPM 4 1200RPM 6 900 RPM 8 720 RPM 10 600 RPM 12
kVAR CurrentReduction %
kVAR CurrentReduction %
kVAR CurrentReduction %
kVAR CurrentReduction %
kVAR CurrentReduction %
kVAR CurrentReduction %
100 120 150 200
25 25 25 50
8777
25 25 25 50
10 9 8 8
25 25 25 50
1110 9 9
25 25 25 50
1110 9 9
25 25 25 50
12111110
25 50 50 75
16151414
250 300 350 400
50 50 50 75
7766
50 50 50 75
7 7 6 6
50 75 75 75
8 8 8 7
75 75 75100
9 9 9 9
75 75 75100
10 9 9 9
75100100100
14131211
450 500 600 700
75 75 75100
6555
75 75100100
6 6 6 6
75100100125
6 6 6 6
100125125150
9 9 8 8
100125150150
9 9 9 8
125125150150
10 9 9 8
800 90010001250
100125150200
5555
150150200200
6 6 6 6
150200250250
6 6 5 5
150200250300
7 7 6 6
200250250300
8 8 7 6
200250250300
8 8 7 6
Nominal Motor Speed in RPM and Number of Poles
InductionMotorRating (hp)
3600 RPM 2 1800 RPM 4 1200 RPM 6 900 RPM 8 720 RPM 10 600 RPM 12
kVAR CurrentReduction %
kVAR CurrentReduction %
kVAR CurrentReduction %
kVAR CurrentReduction %
kVAR CurrentReduction %
kVAR CurrentReduction %
NEMA Design B 2300 and 4000V Motors (after 1956) 100 120 150 200 250
25 25 25 25 30
77777
25 25 25 25 30
10 9 8 6 5
25 25 25 50 50
1110 8 8 8
25 25 25 50 50
1110 9 9 9
25 25 50 50 75
1211111010
25 50 50 75100
1715151414
300 350 400 450 500
50 50 50 75 75
76555
50 50 50 50 75
5 5 5 5 5
75 75 75 75100
8 8 6 6 6
75 75100100125
9 9 9 8 8
75 75100100125
9 9 9 8 8
100100100100125
121110 8 8
600 700 800 90010001250
75100100125150200
555555
100100125150200200
5 5 5 5 5 5
100100125200250250
5 5 5 5 5 5
125125150200250300
7 7 7 6 6 6
125150150250250300
8 8 8 7 7 6
125150150250250300
8 8 8 7 7 6
NEMA Design C 2300 and 4000V Motors (after 1956) 100 125 150 200 250
—————
—————
2525255050
1111 9 9 8
25 25 25 50 50
1111 9 9 9
25 25 50 50 50
1111 9 9 9
25 25———
1111———
—————
—————
300 350
——
——
5050
6 6
75 75
9 8
75 75
9 9
——
——
——
——
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35.0-13September 2011
Power Factor Capacitors and Harmonic Filters
Sheet 35
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Application ConsiderationsApplication Considerations—System kVAR Selection
013
Table 35.0-7. Multipliers to Determine Capacitor Kilovars Required for Power Factor Correction
Note: To obtain required capacitor kVAR:1. Get PF correction factor from Table 35.0-7 above.2. Required capacitor kVAR = kW load x factor.
How Much kVAR Do I Need?The unit for rating power factor capacitors is kVAR, equal to 1000 volt-amperes of reactive power. The kVAR rating signifies how much reac-tive power the capacitor will provide.
Instructions:
1. Find the present power factor in column 1.
2. Read across to optimum power factor column.
3. Multiply that number by kW demand.
Example:
If your plant consumed 410 kW, was currently operating at 73% power factor and you wanted to correct power factor to 95%, you would:
1. Find 0.73 in column 1.
2. Read across to 0.95 column.
3. Multiply 0.607 by 410 = 249 (round to 250).
4. You need 250 kVAR to bring your plant to 95% power factor.
If you don’t know the existing power factor level of your plant, you will have to calculate it before using the table above. To calculate existing power factor: kW divided by kVA = Power Factor.
OriginalPowerFactor
Corrected Power Factor
0.80 0.81 0.82 0.83 0.84 0.85 0.86 0.87 0.88 0.89 0.90 0.91 0.92 0.93 0.94 0.95 0.96 0.97 0.98 0.99 1.0
0.500.510.520.530.54
0.9820.9370.8930.8500.809
1.0080.9620.9190.8760.835
1.0340.9890.9450.9020.861
1.0601.0150.9710.9280.887
1.0861.0410.9970.9540.913
1.1121.0671.0230.9800.939
1.1391.0941.0501.0070.966
1.1651.1201.0761.0330.992
1.1921.1471.1031.0601.019
1.2201.1751.1311.0881.047
1.2481.2031.1591.1161.075
1.2761.2311.1871.1441.103
1.3061.2611.2171.1741.133
1.3371.2921.2481.2051.164
1.3691.3241.2801.2371.196
1.4031.3581.3141.2711.230
1.4401.3951.3511.3081.267
1.4811.4361.3921.3491.308
1.5291.4841.4401.3971.356
1.5891.5441.5001.4571.416
1.7321.6871.6431.6001.559
0.550.560.570.580.59
0.7690.7300.6920.6550.619
0.7950.7560.7180.6810.645
0.8210.7820.7440.7070.671
0.8470.8080.7700.7330.697
0.8730.8340.7960.7590.723
0.8990.8600.8220.7850.749
0.9260.8870.8490.8120.776
0.9520.9130.8750.8380.802
0.9790.9400.9020.8650.829
1.0070.9680.9300.8930.857
1.0350.9960.9580.9210.885
1.0631.0240.9860.9490.913
1.0931.0541.0160.9790.943
1.1241.0851.0471.0100.974
1.1561.1171.0791.0421.006
1.1901.1511.1131.0761.040
1.2271.1881.1501.1131.077
1.2681.2291.1911.1541.118
1.3161.2771.2391.2021.166
1.3761.3371.2991.2621.226
1.5191.4801.4421.4051.369
0.600.610.620.630.64
0.5830.5490.5160.4830.451
0.6090.5750.5420.5090.474
0.6350.6010.5680.5350.503
0.6610.6270.5940.5610.529
0.6870.6530.6200.5870.555
0.7130.6790.6460.6130.581
0.7400.7060.6730.6400.608
0.7660.7320.6990.6660.634
0.7930.7590.7260.6930.661
0.8210.7870.7540.7210.689
0.8490.8150.7820.7490.717
0.8770.8430.8100.7770.745
0.9070.8730.8400.8070.775
0.9380.9040.8710.8380.806
0.9700.9360.9030.8700.838
1.0040.9700.9370.9040.872
1.0411.0070.9740.9410.909
1.0821.0481.0150.9820.950
1.1301.0961.0631.0300.998
1.1901.1561.1231.0901.068
1.3331.2991.2661.2331.201
0.650.660.670.680.69
0.4190.3880.3580.3280.299
0.4450.4140.3840.3540.325
0.4710.4400.4100.3800.351
0.4970.4660.4360.4060.377
0.5230.4920.4620.4320.403
0.5490.5180.4880.4580.429
0.5760.5450.5150.4850.456
0.6020.5710.5410.5110.482
0.6290.5980.5680.5380.509
0.6570.6260.5960.5660.537
0.6850.6540.6240.5940.565
0.7130.6820.6520.6220.593
0.7430.7120.6820.6520.623
0.7740.7430.7130.6830.654
0.8060.7750.7450.7150.686
0.8400.8090.7790.7490.720
0.8770.8460.8160.7860.757
0.9180.8870.8570.8270.798
0.9660.9350.9050.8750.846
1.0260.9950.9650.9350.906
1.1691.1381.1081.0781.049
0.700.710.720.730.74
0.2700.2420.2140.1860.159
0.2960.2680.2400.2120.185
0.3220.2940.2660.2380.211
0.3480.3200.2920.2640.237
0.3740.3460.3180.2900.263
0.4000.3720.3440.3160.289
0.4270.3990.3710.3430.316
0.4530.4250.3970.3690.342
0.4800.4520.4240.3960.369
0.5080.4800.4520.4240.397
0.5360.5080.4800.4520.425
0.5640.5360.5080.4800.453
0.5940.5660.5380.5100.483
0.6250.5970.5690.5410.514
0.6570.6290.6010.5730.546
0.6910.6630.6350.6070.580
0.7280.7000.6720.6440.617
0.7690.7410.7130.6850.658
0.8170.7890.7610.7330.706
0.8770.8490.8210.7930.766
1.0200.9920.9640.9360.909
0.750.760.770.780.79
0.1320.1050.0790.0520.026
0.1580.1310.1050.0780.052
0.1840.1570.1310.1040.078
0.2100.1830.1570.1300.104
0.2360.2090.1830.1560.130
0.2620.2350.2090.1820.156
0.2890.2620.2360.2090.183
0.3150.2880.2620.2350.209
0.3420.3150.2890.2620.236
0.3700.3430.3170.2900.264
0.3980.3710.3450.3180.292
0.4260.3990.3730.3460.320
0.4560.4290.4030.3760.350
0.4870.4600.4340.4070.381
0.5190.4920.4660.4390.413
0.5530.5260.5000.4730.447
0.5900.5630.5370.5100.484
0.6310.6040.5780.5510.525
0.6790.6520.6260.5990.573
0.7390.7120.6850.6590.633
0.8820.8550.8290.8020.776
0.800.810.820.830.84
0.000 0.0260.000
0.0520.0260.000
0.0780.0520.0260.000
0.1040.0780.0520.0260.000
0.1300.1040.0780.0520.026
0.1570.1310.1050.0790.053
0.1830.1570.1310.1050.079
0.2100.1840.1580.1320.106
0.2380.2120.1860.1600.134
0.2660.2400.2140.1880.162
0.2940.2680.2420.2160.190
0.3240.2980.2720.2460.220
0.3550.3290.3030.2770.251
0.3870.3610.3350.3090.283
0.4210.3950.3690.3430.317
0.4580.4320.4060.3800.354
0.4990.4730.4470.4210.395
0.5470.5210.4950.4690.443
0.6090.5810.5550.5290.503
0.7500.7240.6980.6720.646
0.850.860.870.880.89
0.000 0.0270.000
0.0530.0260.000
0.0800.0530.0270.000
0.1080.0810.0550.0280.000
0.1360.1090.0830.0560.028
0.1640.1370.1110.0840.056
0.1940.1670.1410.1140.086
0.2250.1980.1720.1450.117
0.2570.2300.2040.1770.149
0.2910.2640.2380.2110.183
0.3280.3010.2750.2480.220
0.3690.3420.3160.2890.261
0.4170.3900.3640.3370.309
0.4770.4500.4240.3970.369
0.6200.5930.5670.5400.512
0.900.910.920.930.94
0.000 0.0280.000
0.0580.0300.000
0.0890.0610.0310.000
0.1210.0930.0630.0320.000
0.1550.1270.0970.0660.034
0.1920.1640.1340.1030.071
0.2330.2050.1750.1440.112
0.2810.2530.2230.1920.160
0.3410.3130.2830.2520.220
0.4840.4560.4260.3950.363
0.950.960.970.980.99
0.000 0.0370.000
0.0790.0410.000
0.1260.0890.0480.000
0.1860.1490.1080.0600.000
0.3290.2920.2510.2030.143
35.0-14
For more information, visit: www.eaton.com/consultants CA08104001E
September 2011
Power Factor Capacitors and Harmonic Filters
Sheet 35
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Application ConsiderationsApplication Considerations—Capacitors
014
Table 35.0-8. Recommended Feeder Wire Sizes, Switches and Fuses for Three-Phase, 60 Hz Capacitors
� 90°C Copper Type THHN, XHHW or equivalent, applied at 75°C ampacity. Rate current based on operation at rated voltage, frequency and kVAR. Consult National Electrical Code for other wire types. Above size based on 30°C Ambient Operation. (Refer to NEC Table 310.16.)
Note: Fuses furnished within Capacitor Assembly may be rated at higher value than shown in this table. The table is correct for field installations and reflects the manufacturer’s suggested rating for overcurrent protection and disconnect means in compliance with the National Electrical Code. Fuses used internally in capacitor banks are not sized by this chart.
kVAR 240V 480V 600V
Current(Amps)
WireSize �
Fuse(Amps)
Switch(Amps)
Current(Amps)
WireSize �
Fuse(Amps)
Switch(Amps)
Current(Amps)
WireSize �
Fuse(Amps)
Switch(Amps)
0.5 1 1.5
1.2 2.4 3.6
141414
3 6 6
30 30 30
— 1.2 1.8
—1414
— 3 3
— 30 30
— 1.0 1.4
—1414
— 3 3
— 30 30
2 2.5 3
4.8 6.0 7.2
141414
10 10 15
30 30 30
2.4 3.0 3.6
141414
6 6 6
30 30 30
1.9 2.4 2.9
141414
6 6 6
30 30 30
4 5 6
9.6 12 14
141414
20 20 25
30 30 30
4.8 6.0 7.2
141414
10 10 15
30 30 30
3.8 4.8 5.8
141414
10 10 10
30 30 30
7.5 8 10
18 19 24
121010
30 35 40
30 60 60
9.0 9.6 12
141414
15 20 20
30 30 30
7.2 7.7 9.6
141414
15 15 20
30 30 30
12.5 15 17.5
30 36 42
886
50 60 80
60 60100
15 18 21
141210
25 30 40
30 30 60
12 14 17
141412
20 25 30
30 30 30
20 22.5 25
48 54 60
644
80100100
100100100
24 27 30
10108
40 50 50
60 60 60
19 22 24
101010
35 40 40
60 60 60
30 35 40
72 84 96
321
125150175
200200200
36 42 48
866
60 80 80
60100100
29 34 38
886
50 60 80
60 60100
45 50 60
108120144
1/02/03/0
200200250
200200400
54 60 72
442
100100125
100100200
43 48 58
664
90100100
100100100
75 80 90
180192216
250M300M350M
300350400
400400400
90 96108
1/01/01/0
150175200
200200200
72 77 86
331
125150150
200200200
100120125
241289300
400M(2)3/0(2)3/0
400500500
400600600
120144150
2/03/03/0
200200250
200200400
96115120
12/02/0
175200200
200200200
150180200
361432481
(2)250M(2)350M(2)400M
600750800
600800800
180216241
250M350M400M
300400400
400400400
144173192
3/0250M300M
250300350
400400400
240250300
———
———
———
———
289300361
(2)3/0(2)4/0(2)250M
500500600
600600600
231241289
400M400M(2)3/0
400400500
400400600
360400
——
——
——
——
432480
(2)350M(2)500M
750800
800800
346384
(2)250M(2)300M
600650
600800
CA08104001E For more information, visit: www.eaton.com/consultants
35.1-1September 2011
Power Factor Capacitors and Harmonic Filters
Sheet 35
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600 Volts AC and BelowGeneral Description
015
UNIPUMP Power Factor Correction Capacitors
UNIPUMP
General DescriptionNon-fused capacitors for outdoor irrigation and oil field installations.
■ Designed expressly for outdoor pumping applications
■ Pole or wall mounting■ Small, light-weight enclosure
for easy installation■ SO-WA type flexible cable
facilitates installation (4-conductor)■ Gland-type weatherproof bushings■ Strong outer case■ UL and CSA listed
Application DescriptionOutdoor irrigation and oil and gas field pumping.
Features
Configuration■ Outer case: Heavy, No. 14 gauge
steel finished with durable baked-on enamel. Integral strap mounting bracket with keyhole at top for pole or wall installation. No knockouts
Capacitor Cells■ Terminals: Insulated finger-safe
terminals rated for 3 kVAC withstand■ Dielectric fill: Cells use soft organic
polymer resin—Resinol❑ Eliminates potential for corona/
partial discharge/electrochemical oxidation
❑ Excellent heat dissipation❑ Flash point: +444°F (+229°C)❑ Fire point: +840°F (+449°C)
■ Design: Self-healing metallized high crystalline polypropylene with ramp metallization film. Total losses less than 0.45 watt per kVAR. (Dielectric losses less than 0.2 watt per kVAR)
■ Ramp metallization: Provides thicker film at higher current density areas, allowing for reduced internal losses, lower operating temperatures and longer life expectancy. Also prevents chain reaction breakdown by limiting propagation of film vaporization
■ Pressure sensitive interrupter: Built-in UL recognized three-phase pressure-sensitive interrupter and thermally or mechanically activated disconnecting link removes capaci-tor from the supply before danger-ous pressure buildup or excessive fault current. Bulged capacitor cell top provides easy visual indication of interrupter operation
■ Ceramic discharge resistors: Reduce residual voltage to less than 50V within one minute of de-energiza-tion. Selected for 20-year nominal life. Exceeds NEC requirements
■ Capacitor operating temperature: –40° to +115°F (–40° to +46°C)
■ Case: Weatherproof aluminum housing
■ Warranty: The longest in the industry—five full years of warranty on capacitor cells
Product SelectionTable 35.1-1. UNIPUMP Selection Chart kVAR Rated
CurrentCaseSize
CableSize
Shipping Weightin Lbs (kg)
CatalogNumber
240 Vac 2 2.5 3
4.8 6.0 7.2
AAAAAA
14.014.014.0
10.0 (4.7)10.0 (4.7)10.0 (4.7)
223JMR2X23JMR323JMR
4 5 6 7.5
9.612.014.418.0
AAAABBBB
14.014.012.012.0
11.0 (4.8)11.0 (4.8)15.0 (6.6)15.0 (6.6)
423JMR523JMR623JMR7X23JMR
480 Vac 2 2.5 3
2.4 3.0 3.6
AAAAAA
14.014.014.0
10.4 (4.7)10.4 (4.7)10.4 (4.7)
243JMR2X43JMR343JMR
4 5 6
4.8 6.0 7.2
AAAAAA
14.014.014.0
10.4 (4.7)10.4 (4.7)10.6 (4.8)
443JMR543JMR643JMR
7.51012.5
9.012.015.0
AAAABB
14.014.012.0
10.6 (4.8)10.8 (4.9)15.0 (6.8)
7X43JMR1043JMR12X43JMR
1517.52025
18.021.024.030.0
BBBBBBBB
12.0 8.0 8.0 8.0
15.0 (6.8)15.8 (7.2)16.8 (7.7)16.8 (7.7)
1543JMR17X43JMR2043JMR2543JMR
600 Vac 5 6 7.5
4.9 5.9 7.4
AAAAAA
14.014.014.0
10.8 (4.9)10.8 (4.9)10.8 (4.9)
563JMR663JMR7X63JMR
1012.515
9.812.314.7
AABBBB
14.012.012.0
10.8 (4.9)15.0 (6.8)15.8 (7.2)
1063JMR12X63JMR1563JMR
17.520
17.219.6
BBBB
8.0 8.0
16.8 (7.7)16.8 (7.7)
17X63JMR2063JMR
35.1-2
For more information, visit: www.eaton.com/consultants CA08104001E
September 2011
Power Factor Capacitors and Harmonic Filters
Sheet 35
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600 Volts AC and BelowDimensions
016
Dimensions
Figure 35.1-1. UNIPUMP—Dimensions in Inches (mm)
Table 35.1-2. UNIPUMP Dimension Chart Case Size
Dimensions in Inches (mm)
A B C D
AABB
11.00 (279.7)14.00 (354.5)
14.20 (360.9)17.10 (435.6)
12.60 (320.0)15.50 (394.7)
13.20 (335.5)16.10 (410.2)
CA08104001E For more information, visit: www.eaton.com/consultants
35.1-3September 2011
Power Factor Capacitors and Harmonic Filters
Sheet 35
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600 Volts AC and BelowGeneral Description
017
Low Voltage Power Factor Correction Capacitor Banks and Harmonic Filters
Low Voltage Power Factor Correction Capacitor Banks and Harmonic Filters
General Description
Power Factor Correction CapacitorsEaton Power factor correctioncapacitors and harmonic filters are an essential part of modern electric power systems. Power factor correction capacitors are the simplest and most economical means of increasing the capacity of any power system, minimizing energy losses and correcting load power factor. In addition, power factor penalties can be reduced and power quality can be greatly enhanced.
There are several reasons to correct poor power factor. The first is to reduce or eliminate a power factor penalty charged by the utility. Another reason is that your existing trans-former is, or shortly will be, at full capacity and installing power factor correction capacitors can be a very cost-effective solution to installing a brand new service. Depending on the amount of power factor correction (kVAR that needs to be injected into the electrical system to improve the power factor) and the dynamic nature of the load, a fixed or switched capaci-tor bank may be the best solution. When capacity becomes a problem, the choice of a solution will be depen-dent upon the size of the increase needed. Like all power quality solu-tions, there are many factors that need to be considered when determining which solution will be best to solve your power factor problem.
Note: Images contained in this document may be shown with optional components and features not included as part of the base offering.
Harmonic FilteringAs the world becomes more dependent on electric and electronic equipment, the likelihood that the negative impact of harmonic distortion increases dramatically. The efficiency and productivity gains from these increasingly sophisticated pieces of equipment have a negative side effect…increased harmonic distortion in the power lines. The difficult thing about harmonic distortion is determin-ing the cause. Once this has been determined, the solution can be easy. Passive and active harmonic filtering equipment will mitigate specific harmonic issues, and correct poor power factor as well.
Features, Benefits and Functions■ Five-year warranty on capacitor cells■ Designed for heavy-duty applications■ Twenty-year life design■ Indoor/outdoor service■ Wall (up to 180 kVAR) and floor-
mounted units available■ Internally fused through the use of
an overpressure disconnector■ Quick lead times■ Harmonic filters available■ Slim profile allows reduced footprint,
conserving valuable floor space■ New capacitor configuration leads
to cooler operating conditions and extended capacitor life
Configuration■ Outer case: Heavy, No. 14 gauge
steel finished with durable baked-on enamel. Wall-mounting flanges and floor-mounting feet. Elimination of knockouts permits indoor/outdoor use. Manufactured to NEMA requirements 1, 3R and 12
■ Elevated floor-mounting feet allow access for easy maintenance
Note: NEMA 12 from enclosure sizes A1 through C1.
■ Cover: “L” shaped gasketed cover with multiple fasteners provides front opening for ease of installation and service
■ Ground terminal: Furnished inside case
■ Power terminal lugs: Large size provided for easy connection
■ Options:❑ Replaceable fuses and
indicator lights❑ Air filters for enclosure sizes C2
and larger■ Optional Fusing:
❑ Size Code A1: Three midget-type fuses with 100,000 ampere inter-rupting capacity
❑ Size Code A2 and larger: Slotted-blade type fuses with 200,000A interrupting capacity; fuses mounted on stand-off bushings; solderless connectors for easy hookup of incoming line conductors
❑ Fuse indicating lights: Red, neon blown-fuse indicating lights are protected by transparent weather-proof guard
UNIPAK with Optional Air Filter
Standards and Certifications■ UL and CSA listed
35.1-4
For more information, visit: www.eaton.com/consultants CA08104001E
September 2011
Power Factor Capacitors and Harmonic Filters
Sheet 35
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600 Volts AC and BelowGeneral Description
018
UNIPAK
UNIPAK
UNIPAK Interior
UNIPAK with Optional Air Filter
General Description
UNIPAK Filter—Harmonic FilteringHarmonic filter systems for low voltage, heavy-duty applications.
■ Reduce harmonics and correct power factor
■ Tuned for maximum efficiency in reducing harmonic currents associated with nonlinear load environments (such as VFDs)
■ Two-enclosure design isolates capacitors from high-temperature operating reactors, and allows for flexible installation
■ Twenty-year life design■ Five-year cell warranty/one-year
reactor warranty■ Three-phase cell capacitor construc-
tion. Three-phase interrupter system■ UL and CSA listed
Capacitor Cells■ Terminals: Insulated finger-safe
terminals rated for 3 kVAC withstand■ Dielectric fill: Cells use soft organic
polymer resin—Resinol❑ Eliminates potential for corona/
partial discharge/electrochemical oxidation
❑ Excellent heat dissipation❑ Flash point: +444°F (+229°C)❑ Fire point: +840°F (+449°C)
■ Design: Self-healing metallized high crystalline polypropylene with ramp metallization film. Total losses less than 0.45 watt per kVAR (dielectric losses less than 0.2 watt per kVAR)
■ Ramp metallization: Provides thicker film at higher current density areas, allowing for reduced internal losses, lower operating tempera-tures and longer life expectancy. Also prevents chain reaction breakdown by limiting propagation of film vaporization
■ Pressure sensitive interrupter: Built-in UL recognized three-phase pressure-sensitive interrupter and thermally or mechanically activated disconnecting link removes capaci-tor from the supply before danger-ous pressure buildup or excessive fault current. Bulged capacitor cell top provides easy visual indication of interrupter operation
■ Ceramic discharge resistors: Reduce residual voltage to less than 50V within one minute of de-energiza-tion. Selected for 20-year nominal life. Exceeds NEC requirements
■ Capacitor operating temperature: –40° to +115°F (–40° to +46°C)
■ Case: Weatherproof aluminum housing
■ Warranty: The longest in the industry—five full years of warranty on capacitor cells
Harmonic rated capacitor cells■ Standard voltage rated capacitor
cells designed for higher dielectric strength and with added ability to withstand stress caused by dv/dt voltage transients caused by harmonics
■ Better suited for harmonic applica-tions than higher voltage rated cells
UNIPAK with harmonic rated capacitor cells■ Standard capacitor systems using
harmonic rated capacitor cells■ For use in moderate harmonic
environments where engineering supervision allows in place of harmonic filter designs
■ Provides future conversion capability into a harmonic filter design due to facility growth or increased nonlinear load levels
Reactors■ Tuning: Tuned to 4.7 harmonic order■ Detuning: Reactor designs can be
detuned upon request (4.2nd, 6.7th for example) to protect capacitors against alternate harmonics
■ Construction: 100% copper windings for cool operating temperatures; designed operating temperature rise less than 80ºC. Open frame construction with 220ºC insulation system
■ Thermal sensors: One per phase, self-resetting thermistors provide reactor over-temperature protection and indication
■ Reactor indicating light: Thermal overload indicating light activates when reactor temperature reaches 180ºC
■ Warranty: One-year replacement of reactors
CA08104001E For more information, visit: www.eaton.com/consultants
35.1-5September 2011
Power Factor Capacitors and Harmonic Filters
Sheet 35
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600 Volts AC and BelowTechnical Data
019
UNIPAK Low Voltage Fixed Capacitor Banks Table 35.1-3. 240 Vac UNIPAK Selection Chart
Notes:
■ Multiply the 240 Vac kVAR rating by 0.75 to calculate the kVAR value at 208 Vac
■ Internally fused available standard. Replaceable fuses and indicator lights also available—please consult the factory
■ For dimensional information, refer to Pages 35.1-8 and 35.1-9
Part numbers for Tables 35.1-3 and 35.1-4:
■ PMURN—internally fused
■ PMURF—replaceable fuses and indicator lights
Table 35.1-4. 480 Vac UNIPAK Selection Chart
Notes:
■ Internally fused available standard. Replaceable fuses and indicator lights also available—please consult the factory
■ For dimensional information, refer to Pages 35.1-8 and 35.1-9
kVAR RatedCurrent
Enclosure Shipping Weightin Lbs (kg)
CatalogNumber
1.0 1.5 2.0
2.4 3.6 4.8
A1A1A1
18 (8) 18 (8) 19 (9)
123PMURN1X23PMURN223PMURN
2.5 3.0 4.0
6.0 7.2 9.6
A1A1A1
19 (9) 19 (9) 20 (9)
2X23PMURN323PMURN423PMURN
5.0 6.0 7.5
12.0 14.4 18.0
A2A2A2
29 (13) 29 (13) 30 (14)
523PMURN623PMURN7X23PMURN
8.0 10.0 12.5
19.2 24.0 30.0
A2A2A2
31 (14) 31 (14) 32 (14)
823PMURN1023PMURN12X23PMURN
15.0 17.5 20.0
36.0 42.0 48.0
A2B1B1
33 (15) 44 (20) 45 (20)
1523PMURN17X23PMURN2023PMURN
22.5 25.0 30.0
54.0 60.0 72.0
B1B1B1
46 (21) 46 (21) 47 (21)
22X23PMURN2523PMURN3023PMURN
32.5 35.0 37.5
78.0 84.0 90.0
B1B1C1
47 (22) 48 (22) 60 (27)
32X23PMURN3523PMURN37X23PMURN
40.0 42.5 45.0
96.0102.0108.0
C1C1C1
64 (29) 65 (30) 66 (30)
4023PMURN42X23PMURN4523PMURN
50.0 60.0 70.0
120.0144.0168.0
C1C1C2
68 (31) 69 (31) 99 (45)
5023PMURN6023PMURN7023PMURN
75.0 80.0 90.0
180.0192.0216.0
C2C2C2
100 (46)101 (46)103 (47)
7523PMURN8023PMURN9023PMURN
100.0120.0140.0
240.0288.0336.0
C2D1D1
104 (47)133 (60)137 (62)
10023PMURN12023PMURN14023PMURN
150.0160.0180.0200.0
360.0384.0432.0480.0
D1E1E1E1
140 (64)175 (80)182 (83)189 (86)
15023PMURN16023PMURN18023PMURN20023PMURN
kVAR RatedCurrent
Enclosure Shipping Weightin Lbs (kg)
CatalogNumber
1.5 2.0 2.5
1.8 2.4 3.0
A1A1A1
17 (8) 18 (8) 18 (8)
1X43PMURN243PMURN2X43PMURN
3.0 4.0 5.0
3.6 4.8 6.0
A1A1A1
19 (9) 19 (9) 19 (9)
343PMURN443PMURN543PMURN
6.0 7.5 8.0
7.2 9.0 9.6
A1A1A1
19 (9) 20 (9) 20 (9)
643PMURN7X43PMURN843PMURN
9.0 10.0 12.5
10.8 12.0 15.0
A1A1A2
20 (9) 20 (9) 29 (13)
943PMURN1043PMURN12X43PMURN
15.0 17.5 20.0
18.0 21.0 24.0
A2A2A2
29 (13) 30 (14) 31 (14)
1543PMURN17X43PMURN2043PMURN
22.5 25.0 27.5
27.0 30.0 33.0
B1A2B1
44 (20) 32 (15) 44 (20)
22X43PMURN2543PMURN27X43PMURN
30.0 32.5 35.0
36.0 39.0 42.0
B1B1B1
44 (20) 45 (20) 45 (20)
3043PMURN32X43PMURN3543PMURN
37.5 40.0 42.5
45.0 48.0 51.0
B1B1B1
46 (21) 46 (21) 47 (21)
37X43PMURN4043PMURN42X43PMURN
45.0 50.0 55.0
54.0 60.0 66.0
B1B1B1
47 (22) 48 (22) 48 (22)
4543PMURN5043PMURN5543PMURN
60.0 65.0 70.0
72.0 78.0 84.0
B1C1C1
48 (22) 64 (29) 65 (30)
6043PMURN6543PMURN7043PMURN
75.0 80.0 85.0
90.0 96.0102.0
C1C1C1
65 (30) 66 (30) 68 (31)
7543PMURN8043PMURN8543PMURN
90.0100.0120.0
108.0120.0144.0
C1C1C1
68 (31) 69 (31) 69 (31)
9043PMURN10043PMURN12043PMURN
125.0140.0150.0
150.0168.0180.0
C2C2C2
99 (45)100 (46)101 (46)
12543PMURN14043PMURN15043PMURN
160.0180.0200.0
192.0216.0240.0
C2C2D1
103 (47)104 (47)137 (62)
16043PMURN18043PMURN20043PMURN
225.0250.0300.0
270.0300.0360.0
D1E1E1
140 (64)170 (77)175 (80)
22543PMURN25043PMURN30043PMURN
350.0400.0
420.0480.0
E1E1
182 (83)189 (86)
35043PMURN40043PMURN
35.1-6
For more information, visit: www.eaton.com/consultants CA08104001E
September 2011
Power Factor Capacitors and Harmonic Filters
Sheet 35
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600 Volts AC and BelowTechnical Data
020
UNIPAK Low Voltage Fixed Capacitor BanksTable 35.1-5. 600 Vac UNIPAK Selection Chart
Notes:
■ Internally fused available standard. Replaceable fuses and indicator lights also available—please consult the factory
■ For dimensional information, refer to Pages 35.1-8 and 35.1-9
Part numbers
■ PMURN—internally fused
■ PMURF—replaceable fuses and indicator lights
UNIPAK—With Harmonic CellsTable 35.1-6. Low Voltage Fixed Capacitor Systems with Harmonic Cells
kVAR RatedCurrent
Enclosure Shipping Weight in Lbs (kg)
CatalogNumber
5.0 7.5 10.0
4.9 7.4 9.8
A1A1A1
19 (9) 19 (9) 20 (9)
563PMURN7X63PMURN1063PMURN
12.5 15.0 17.5
12.3 14.7 17.2
A1A2A2
20 (9) 29 (13) 29 (13)
12X63PMURN1563PMURN17X63PMURN
20.0 22.5 25.0
19.6 22.1 24.5
A2B1B1
30 (14) 44 (20) 31 (14)
2063PMURN22X63PMURN2563PMURN
27.5 30.0 32.5
27.0 29.4 31.9
B1B1B1
44 (20) 45 (20) 45 (20)
27X63PMURN3063PMURN32X63PMURN
35.0 37.5 40.0
34.3 36.8 39.2
B1B1B1
46 (21) 46 (21) 47 (21)
3563PMURN37X63PMURN4063PMURN
42.5 45.0 50.0
41.7 44.1 49.0
B1B1B1
47 (22) 48 (22) 48 (22)
42X63PMURN4563PMURN5063PMURN
55.0 60.0 65.0
53.9 58.8 63.7
C1C1C1
64 (29) 64 (29) 65 (30)
5563PMURN6063PMURN6563PMURN
70.0 75.0 80.0
68.6 73.5 78.4
C1C1C1
65 (30) 66 (30) 68 (31)
7063PMURN7563PMURN8063PMURN
85.0 90.0100.0
83.3 88.2 98.0
C1C1C1
68 (31) 69 (31) 69 (31)
8563PMURN9063PMURN10063PMURN
120.0125.0140.0
117.6122.5137.2
C2C2C2
99 (45)100 (46)101 (46)
12063PMURN12563PMURN14063PMURN
150.0160.0180.0
147.0156.8176.4
C2D1D1
103 (47)135 (61)137 (62)
15063PMURN16063PMURN18063PMURN
200.0225.0250.0
196.0220.5245.0
D1D1E1
140 (64)143 (65)170 (77)
20063PMURN22563PMURN25063PMURN
300.0350.0400.0
294.0343.0392.0
E1E1E1
175 (80)182 (83)189 (86)
30063PMURN35063PMURN40063PMURN
kVAR RatedCurrent
CaseSize
Shipping Weight in Lbs (kg)
CatalogNumber
240V 15 25 30
36.0 60.0 72.0
B1B1C1
38.4 (17) 38.4 (17) 55.2 (25)
1523HURN2523HURN3023HURN
50 60 75
120.0144.0180.0
C1C2C2
57.6 (26)100.8 (46)104.4 (47)
5023HURN6023HURN7523HURN
100125
240.0300.0
D1E1
136.8 (62)189.6 (86)
10023HURN12523HURN
480V 15 25 30
18.0 30.0 36.0
A2B1B1
25.2 (11) 37.2 (17) 38.4 (17)
1543HURN2543HURN3043HURN
50 60 75
60.0 72.0 90.0
B1C1C1
39.6 (18) 52.8 (24) 55.2 (25)
5043HURN6043HURN7543HURN
100125150
120.0150.0180.0
C1C2C2
57.6 (26)100.8 (46)104.4 (47)
10043HURN12543HURN15043HURN
200250300
240.0300.0360.0
D1E1E1
136.8 (62)186.0 (84)189.6 (86)
20043HURN25043HURN30043HURN
600V 15 25 30
14.7 24.5 29.4
B1B1B1
37.2 (17) 38.4 (17) 39.6 (18)
1563HURN2563HURN3063HURN
50 60 75
49.0 58.8 73.5
C1C1C2
55.2 (25) 57.6 (26)100.8 (46)
5063HURN6063HURN7563HURN
100125150
98.0122.5147.0
C2D1D1
104.4 (47)136.8 (62)136.8 (62)
10063HURN12563HURN15063HURN
200250
196.0245.0
E1E1
186.0 (84)189.6 (86)
20063HURN25063HURN
CA08104001E For more information, visit: www.eaton.com/consultants
35.1-7September 2011
Power Factor Capacitors and Harmonic Filters
Sheet 35
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600 Volts AC and BelowTechnical Data
021
UNIPAK Low Voltage Fixed Harmonic FiltersTable 35.1-7. Fixed UNIPAK Harmonic Filters
Note: Other ratings available, please consult factory.
Figure 35.1-2. Reactor Cabinet
Table 35.1-8. Reactor Cabinet—Dimensions in Inches (mm)
Figure 35.1-3. Filter Schematic with Wiring Interconnects� Refer to NEC.
kVAR RatedCurrent
CaseSize
Shipping Weightin Lbs (kg)
Reactor CabinetCase Size
Reactor ShippingWeight in Lbs (kg)
Combined Shipping Weight in Lbs (kg)
CatalogNumber
240V 15 25 30
36.0 60.0 72.0
B1B1C1
48.4 (22.0) 48.4 (22.0) 65.2 (29.6)
RRR
90.0 (40.9)105.0 (47.7)110.0 (49.9)
138.4 (62.8)153.4 (69.6)175.2 (79.5)
15232HMURF25232HMURF30232HMURF
50 60 75
120.0144.0180.0
C1C2C2
67.6 (30.7)110.8 (50.3)114.4 (51.9)
RRR
130.0 (59.0)160.0 (72.6)185.0 (84.0)
197.6 (89.7)270.8 (122.9)299.4 (135.9)
50232HMURF60232HMURF75232HMURF
100125150
240.0300.0360.0
D1E1E1
146.8 (66.6)199.6 (90.6)220.0 (99.9)
RSS
240.0 (109.0)280.0 (127.1)280.0 (127.1)
386.8 (175.6)479.6 (217.7)500.0 (227.0)
100232HMURF125232HMURF150232HMURF
480V 15 25 30
18.0 30.0 36.0
A2B1B1
35.2 (16.0) 47.2 (21.4) 48.4 (22.0)
RRR
90.0 (40.9)105.0 (47.7)110.0 (49.9)
125.2 (56.8)152.2 (69.1)158.4 (71.9)
15432HMURF25432HMURF30432HMURF
50 60 75
60.0 72.0 90.0
B1C1C1
49.6 (22.5) 62.8 (28.5) 65.2 (29.6)
RRR
130.0 (59.0)160.0 (72.6)185.0 (84.0)
179.6 (81.5)222.8 (101.2)250.2 (113.6)
50432HMURF60432HMURF75432HMURF
100125150
120.0150.0180.0
C1C2C2
67.6 (30.7)110.8 (50.3)114.4 (51.9)
RRS
240.0 (109.0)280.0 (127.1)280.0 (127.1)
307.6 (139.7)390.8 (177.4)394.4 (179.1)
100432HMURF125432HMURF150432HMURF
200250300
240.0300.0360.0
D1E1E1
146.8 (66.6)196.0 (89.0)199.6 (90.6)
STT
330.0 (149.8)570.0 (258.8)575.0 (261.1)
476.8 (216.5)766.0 (347.8)774.6 (351.7)
200432HMURF250432HMURF300432HMURF
600V 15 25 30
14.7 24.5 29.4
B1B1B1
47.2 (21).4 48.4 (22.0) 49.6 (22.5)
RRR
90.0 (40.9) 90.0 (47.7)105.0 (49.9)
137.2 (62.3)153.4 (69.6)159.6 (72.5)
15632HMURF25632HMURF30632HMURF
50 60 75
49.0 58.8 73.5
C1C1C2
65.2 (29.6) 67.6 (30.7)110.8 (50.3)
RRR
110.0 (59.0)130.0 (72.6)160.0 (84.0)
195.2 (88.6)227.6 (103.3)295.8 (134.3)
50632HMURF60632HMURF75632HMURF
100125150
98.0122.5147.0
C2D1D1
114.4 (51.9)146.8 (66.6)146.8 (66.6)
RSS
185.0 (109.0)240.0 (127.1)280.0 (127.1)
354.4 (160.9)426.8 (193.8)426.8 (193.8)
100632HMURF125632HMURF150632HMURF
200250
196.0245.0
E1E1
196.0 (89.0)199.6 (90.6)
TT
330.0 (149.8)570.0 (258.8)
526.0 (238.8)769.6 (349.4)
200632HMURF250632HMURF
Case Size Height Width Depth
RST
20.50 (520.7)24.50 (622.3)32.00 (812.8)
20.50 (520.7)24.50 (622.3)30.75 (781.1)
20.75 (527.1)22.00 (558.8)27.75 (704.9)
Power Lines from Disconnect
Lugs
Fuses
Reactor
Lugs
Lugs
Interconnects (Provided by Customer) �
Capacitor Bank
35.1-8
For more information, visit: www.eaton.com/consultants CA08104001E
September 2011
Power Factor Capacitors and Harmonic Filters
Sheet 35
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600 Volts AC and BelowDimensions
022
Low Voltage Fixed Capacitor Banks and Fixed Harmonic Filters—Dimensions in Inches (mm)
Figure 35.1-4. Case A1, A2 Figure 35.1-5. Case B1
CA08104001E For more information, visit: www.eaton.com/consultants
35.1-9September 2011
Power Factor Capacitors and Harmonic Filters
Sheet 35
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600 Volts AC and BelowDimensions
023
Low Voltage Fixed Capacitor Banks and Fixed Harmonic Filters—Dimensions in Inches (mm)
Figure 35.1-6. Case C1, C2 Figure 35.1-7. Case D1, E1
Table 35.1-9. UNIPAK Enclosures
Legend:
A = Total depth
B = Total width
D = Height of removable front cover
E = Depth of feet
F = Height of middle mounting hole in wall bracket
H = Total height
L = Width without feet and brackets
X = Depth between front and rear mounting holes in inches
Y = Width between floor mounting holes
Z = Width between wall bracket mounting holes
Case Size
Dimensions in Inches (mm)
A B D E F H L X1 X2 X3 Y Z
A1 5.30 (133.5)
8.50 (215.9)
3.50 (88.7)
3.80 (96.8)
10.60 (270.2)
17.30 (439.4)
6.80 (173.9)
2.00 (51.5)
N/A N/A 7.70 (195.6)
7.20 (181.7)
A2 6.00 (151.2)
8.50 (215.9)
5.60 (141.9)
4.50 (114.6)
13.30 (336.7)
22.30 (567.6)
6.80 (173.9)
2.30 (58.3)
N/A N/A 7.70 (195.6)
7.20 (181.7)
B1 11.10 (280.8)
10.10(257.3)
5.80 (148.0)
9.60 (244.1)
15.70 (399.0)
25.30 (642.6)
8.50 (215.3)
4.10 (104.4)
4.50(114.3)
N/A 9.30 (237.0)
8.80 (223.1)
C1 10.60 (270.4)
12.10 (306.8)
7.10 (180.0)
9.10(231.5)
16.20 (412.5)
26.30 (668.0)
10.40 (264.8)
3.40 (86.9)
1.10(27.3)
3.6 (92.0)
11.30 (286.5)
10.70 (272.6)
C2 12.00(304.2)
19.30(490.7)
16.90(428.3)
9.50(240.5)
16.30(413.0)
36.00(914.4)
17.70(448.8)
3.00(75.3)
1.50(38.1)
3.8(95.3)
18.30(465.3)
18.00(456.5)
D1 16.80(426.6)
19.30(490.7)
16.90(428.3)
14.60(370.1)
N/A 36.00(914.4)
17.70(448.8)
5.10(129.1)
2.40(59.7)
5.0(127.9)
18.30(465.3)
N/A
E1 22.30(566.4)
24.40(618.7)
16.80(425.5)
19.50(494.1)
N/A 36.00(914.4)
22.70(576.7)
6.50(165.1)
4.40(111.9)
5.0(127.0)
22.40(567.9)
N/A
35.1-10
For more information, visit: www.eaton.com/consultants CA08104001E
September 2011
Power Factor Capacitors and Harmonic Filters
Sheet 35
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024
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CA08104001E For more information, visit: www.eaton.com/consultants
35.2-1September 2011
Power Factor Capacitors and Harmonic Filters
Sheet 35
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600 Volts AC and BelowGeneral Description
025
AUTOVAR® 300 Automatic Power Factor Correction Capacitor Systems
AUTOVAR 300
General DescriptionAutomatically switched power factor correction systems for low voltage applications.
■ Wall-mount design is ideal for minimum space requirements
■ Programmable to automatically add/subtract capacitor banks to maintain preset target power factor
■ Heavy-duty, three-phase capacitor construction
■ Five-year warranty of cells
Application DescriptionService entrance power factor correction installations requiring precise maintenance of target power factor in a very small footprint.
Features
Configuration■ Cabinet: Wall-mounting 12 gauge
steel with ANSI 61 gray, NEMA 1 (gasketed)
■ Power line interconnect: Rugged, power distribution block connection
■ Fusing: 200,000A interrupting capacity provided on all three phases of each bank. Blade-type fuses mounted on insulator stand-offs with blown-fuse indicating lights
■ Blown-fuse lights: Blown-fuse indicating lights for each phase and stage located on the door
■ Door interlock: Door interlock auto-matically disengages capacitors. Power continues to be provided to the unit until the disconnect is open
■ Exhaust fan: Provides ventilation; dust filtering included
■ Safety: Personnel ground fault interruption provides protection in case of accidental contact with control power and ground
Controller■ Visual indication of incorrect
CT polarity■ Digital display of power factor
and number of energized banks■ Automatic setting of c/k value
(sensitivity based on CT ratio and kVAR available)
■ Alarm on failed step■ Visual indication of insufficient
kVAR to reach target power factor■ Capacitors disabled in steps
within 35 milliseconds of main power interruption
■ Automatic sensing of kVAR values per step
■ Optional communications capable (RS-485/Modbus®) from controller
■ Optional metering capability:❑ Voltage❑ Current (sensed phase only)❑ Frequency❑ Active power (kW)❑ Reactive power (kVAR)❑ Apparent power (kVA)
■ Optional thermostatic control exhaust fans
Contactor■ Fully rated for capacitor switching
up to 60 kVAR at 600V■ Integral pre-charge/pre-insertion
module standard. The contactor reduces damaging switching tran-sients. This provides safety and durability for the system:❑ Lessens the chance of disrupting
sensitive electronic equipment❑ Reduced inrush current extends
the life of the capacitor cells
Options■ Optional molded-case circuit
breaker rated 65 kAIC at 480V and 600V
■ NEMA 3R weatherproofing
Standards and Certifications■ AUTOVAR 300—UL and CSA listed■ Contactor—UL/CSA recognized
35.2-2
For more information, visit: www.eaton.com/consultants CA08104001E
September 2011
Power Factor Capacitors and Harmonic Filters
Sheet 35
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600 Volts AC and BelowTechnical Data
026
Table 35.2-1. Wall-Mounted Switched Capacitor Banks—Low Voltage Applications
� Available only in rectangular style cell option. Consult factory for more information.
Note: Other ratings available, please consult factory.
Table 35.2-2. Options
� A current transformer with a 5A secondary is required to operate an automatic capacitor bank. Rating based on service entrance ampacity. For other ratios, please consult factory.
Table 35.2-3. Enclosure J—Dimensions in Inches (mm)
Enclosure J—Dimensions in Inches (mm)
Figure 35.2-1. Front View of Enclosure J
Figure 35.2-2. Side View of Enclosure J
kVAR Step xkVAR
Rated Current Amperes
CaseSize
Shipping WeightLbs (kg)
FusedCatalogNumber
240V 25 50 75
5 x 55 x 105 x 15
60120180
JJJ
217 (98.5)255 (115.8)260 (118.0)
25MCSR231350MCSR231375MCSR2313
100125150
5 x 205 x 255 x 30
240300361
JJJ
270 (122.6)292 (132.6)314 (142.6)
100MCSR231125MCSR231150MCSR231
480V 50 75100
5 x 105 x 155 x 20
60 90120
JJJ
200 (90.8)210 (95.3)210 (95.3)
50MCSR431375MCSR4313100MCSR4313
125150175
5 x 255 x 305 x 35
150180210
JJJ
240 (109.0)240 (109.0)260 (118.0)
125MCSR4313150MCSR4313175MCSR431
200225250300
5 x 405 x 455 x 505 x 60
241270300361
JJJJ
270 (122.6)290 (131.7)292 (132.6)310 (140.7)
200MCSR431225MCSR431250MCSR431300MCSR431
600V 50 75100
5 x 105 x 155 x 20
48 72 96
JJJ
200 (90.8)210 (95.3)210 (95.3)
50MCSR631375MCSR6313100MCSR6313
125150175
5 x 255 x 305 x 35
120144168
JJJ
240 (109.0)240 (109.0)260 (118.0)
125MCSR6313150MCSR6313175MCSR631
200225250300 �
5 x 405 x 455 x 505 x 60
192216240288
JJJJ
270 (122.6)290 (131.7)292 (132.6)310 (140.7)
200MCSR631225MCSR631250MCSR631300MCSD631
Description OptionCode
Current transformer—multi-tap, split core current transformer (3000:5 A) �
TX2
Hands-off auto switch—provides manual control to connect or disconnect capacitor stages regardless of controller output
H
Remote alarm relay—relay for a remote alarm to indicate inability to reach target power factor
A
Molded-case circuit breaker (65 kAIC at 480V) M
Weatherproofing (NEMA 3R) W
Communicating controller (RS-485/Modbus) C
Metering and thermostatic temperature control L
Description Height A Depth B
Without MCCBWith MCCB
36.00 (914.4)60.00 (1524.0)
13.67 (347.2)13.67 (347.2)
36.00(914.4)
29.88(759.0)
On/OffSwitch
PowerFactorController
KeylockHandle
BlownFuseLights
A
B
0.63(16.0)
0.63(16.0)
CA08104001E For more information, visit: www.eaton.com/consultants
35.2-3September 2011
Power Factor Capacitors and Harmonic Filters
Sheet 35
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600 Volts AC and BelowGeneral Description
027
AUTOVAR 600 Automatic Power Factor Correction Capacitor Systems
AUTOVAR 600
General DescriptionService entrance power factor correction installations requiring precise maintenance of target power factor.
■ Programmable to automatically add/subtract capacitor banks to maintain preset target power factor
■ Heavy-duty, three-phase capacitor construction
■ Five-year warranty of cells
Features
Configuration■ Cabinet: 12 gauge steel with ANSI
61 gray, baked enamel finish. Lift bolts standard, NEMA 1
■ Power line interconnect: Rugged, copper bus bar connection with access provided for top or bottom entry. Bus bars are braced for 65 kAIC at 480V. All internal power wiring connections from bus are laid out on a most direct basis with minimum bends for ease of troubleshooting. Clear barrier limiting access to live parts included standard
■ Modular tray design: Capacitor banks arranged in modular trays with capacitors, fuses, blown-fuse indicating lights, and contactors grouped in a logical, easily under-stood layout. This permits easy access, quick identification of operating problems and ease of expandability
■ Fusing: UL recognized, 200,000A interrupting capacity provided on all three phases of each bank. Blade-type fuses mounted on insulator stand-offs
■ Blown-fuse lights: Blown-fuse indicating lights located on the door-mounted blown and at individual fuses to facilitate tracing of cleared fuses
■ Push-to-test: Allows testing of door-mounted blown fuse indicating lights
■ AutoLocate: When door is open and bus is energized, fuse circuit automatically checks for cleared fuses. If a fuse has cleared, the light at the fuse comes on for easy troubleshooting
■ Door interlock: Door interlock automatically turns off control circuit when engaged. Power continues to be provided to the unit until disconnect is open
■ Exhaust fans: Two fans per cabinet provide thermal protection. Dust filtering provided
■ Ease of expansion: Capacitor stage nests are self-contained and can be added in the field. Two bolts mount the nest in the field. Control wire plugs connect to factory standard wire harness on the left side of the cabinet
■ Ease of replacement: Cells can be easily individually replaced by removing the mounting bolt andlifting out of the nest without removal of any other components
Controller■ Visual indication of incorrect
CT polarity■ Digital display of power factor
and number of energized banks■ Automatic setting of c/k value
(sensitivity based on CT ratio and kVAR available)
■ Alarm on failed step■ Visual indication of insufficient kVAR
to reach target power factor■ Capacitors disabled in steps within
35 milliseconds of main power interruption
■ Automatic sensing of kVAR values per step
■ Optional communications capable (RS-485/Modbus) controller
■ Optional metering capability:❑ Voltage❑ Current (sensed phase only)❑ Frequency❑ Active power (kW)❑ Reactive power (kVAR)❑ Apparent power (kVA)
■ Optional thermostatic control exhaust fans
35.2-4
For more information, visit: www.eaton.com/consultants CA08104001E
September 2011
Power Factor Capacitors and Harmonic Filters
Sheet 35
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600 Volts AC and BelowGeneral Description
028
Contactor■ Fully rated for capacitor switching
up to 60 kVAR at 600V■ Integral pre-charge/pre-insertion
module standard. The contactor reduces damaging switching transients. This provides safety and durability for the system:❑ Lessens the chance of disrupting
sensitive electronic equipment❑ Reduced inrush current extends
the life of the capacitor cells
Additional Features
■ Optional molded-case circuit breaker, rated 65 kAIC at 480V and 600V
■ Personnel ground fault interruption provides protection in case of accidental contact with control power and ground
■ Control wiring—standard NEC color-coded modular bundles with quick disconnect feature for ease of troubleshooting or ease of expendability
■ Optional digital metering—IQ 250■ Bottom cable entry spacing
AUTOVAR 600—Interior View
Modular Step Nest Assembly
Bottom Entry Location
Factory Pre-Wired for Future Expansion
Standards and Certifications■ AUTOVAR 600—UL and CSA listed■ Contactor—UL/CSA recognized
CA08104001E For more information, visit: www.eaton.com/consultants
35.2-5September 2011
Power Factor Capacitors and Harmonic Filters
Sheet 35
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600 Volts AC and BelowTechnical Data
029
Technical Data and SpecificationsTable 35.2-4. Floor-Mounted Switched Capacitor Bank—Low Voltage Applications
Note: Other ratings available, please consult factory.
Table 35.2-5. Options
� A current transformer with a 5A secondary is required to operate an automatic capacitor bank. Rating based on service entrance ampacity. For other ratios, please consult factory.
� Not available with weatherproofing option.
kVAR Step xkVAR
RatedCurrentAmperes
EnclosureSize
Shipping WeightLbs (kg)
FusedCatalogNumber
240 Vac 75 100 125
3 x 25 4 x 25 5 x 25
180 214 300
LLL
644 (292.4) 692 (314.2) 740 (336.0)
75TPCSR231100TPCSR231125TPCSR231
150 200 250
6 x 25 8 x 2510 x 25
316 481 600
LLL
788 (357.8) 884 (401.3) 944 (428.6)
150TPCSR231200TPCSR231250TPCSR231
300 350 400
12 x 25 7 x 50 8 x 50
720 844 965
LKKKK
1022 (464.0)1616 (734.0)1704 (774.0)
300TPCSR231350TPCSR231400TPCSR231
480 Vac 150 200 250
3 x 50 4 x 50 5 x 50
180 240 300
LLL
632 (287.0) 676 (306.9) 720 (326.9)
150TPCSR431200TPCSR431250TPCSR431
300 350 400
6 x 50 7 x 50 8 x 50
360 420 480
LLL
764 (346.9) 808 (366.8) 852 (386.8)
300TPCSR431350TPCSR431400TPCSR431
450 500 550
9 x 5010 x 5011 x 50
540 600 660
LLL
896 (406.8) 944 (428.6) 984 (446.7)
450TPCSR431500TPCSR431550TPCSR431
600 660 700
12 x 5011 x 60 7 x 100
720 792 840
LLL
1022 (464.0)1010 (458.5)1616 (734.0)
600TPCSR431660TPCSR431700TPCSR431
720 800 840
12 x 60 8 x 10014 x 60
864 9601008
LKKL
1050 (476.7)1704 (774.0)1690 (767.7)
720TPCSR431800TPCSR431840TPCSR431
900 100011001200
9 x 10010 x 10011 x 10012 x 100
1080120013201440
KKKKKKKK
1792 (814.0)1888 (857.0)1966 (893.0)2044 (928.0)
900TPCSR4311000TPCSR4311100TPCSR4311200TPCSR431
600 Vac 150 200 250
3 x 50 4 x 50 5 x 50
144 192 240
LLL
632 (287.0) 676 (306.9) 720 (326.9)
150TPCSR631200TPCSR631250TPCSR631
300 350 400
6 x 50 7 x 50 8 x 50
288 336 384
LLL
764 (346.9) 808 (366.8) 852 (386.8)
300TPCSR631350TPCSR631400TPCSR631
450 500 550
9 x 5010 x 5011 x 60
432 480 528
LLL
896 (406.8) 944 (428.6) 984 (446.7)
450TPCSR631500TPCSR631550TPCSR631
600 660 700
12 x 5011 x 60 7 x 100
576 634 672
LLKK
1022 (464.0)1010 (458.5)1616 (734.0)
600TPCSR631660TPCSR631700TPCSR631
720 800 840
12 x 60 8 x 10014 x 60
692 7681008
LKKKK
1050 (476.7)1704 (774.0)1690 (767.7)
720TPCSR631800TPCSR631840TPCSR631
900100011001200
9 x 10010 x 10011 x 10012 x 100
864 96010561152
KKKKKKKK
1792 (814.0)1888 (857.0)1966 (893.0)2044 (928.0)
900TPCSR6311000TPCSR6311100TPCSR6311200TPCSR631
Description OptionCode
Current transformer—multi-tap, split core current transformer (3000:5 A) �
TX2
Hands-off auto switch—provides manual control to connect or disconnect capacitor stages regardless of controller output
H
Remote alarm relay—relay for a remote alarm to indicate inability to reach target power factor
A
Molded-case circuit breaker (65 kAIC at 480V) M
Weatherproofing (NEMA 3R) W
Communicating controller (RS-485/Modbus) C
Metering and thermostatic temperature control L
IQ 250 solid-state meter � Q
35.2-6
For more information, visit: www.eaton.com/consultants CA08104001E
September 2011
Power Factor Capacitors and Harmonic Filters
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030
Dimensions in Inches (mm)
Figure 35.2-3. AUTOVAR “L” (Single Door) Enclosure
CA08104001E For more information, visit: www.eaton.com/consultants
35.2-7September 2011
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031
Dimensions in Inches (mm)
Figure 35.2-4. AUTOVAR “KK” (One Double Door) Enclosure
35.2-8
For more information, visit: www.eaton.com/consultants CA08104001E
September 2011
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600 Volts AC and BelowGeneral Description
032
AUTOVAR Filter—LV Automatic Harmonic Filter
AUTOVAR Filter
AUTOVAR Filter—Interior View
General DescriptionAutomatically switched harmonic filter/power factor corrections systems.
■ Programmable to automatically add/subtract filter banks to maintain preset target power factor
■ Filter steps tuned for maximum efficiency in reducing harmonic currents in three-phase environ-ments with heavy nonlinear loads
■ Efficient modular design for short lead times, ease of maintenance and ease of future expansion
■ Heavy-duty, three-phase capacitor construction with reliable, threaded terminal connections
■ Cool operating, 100% copper wound, thermal protected reactors are sized up to 150% of rated capacitor current
Application DescriptionService entrance power factor correction installations requiring precise maintenance of target power factor in three-phase, nonlinear, high harmonic environments.
Features
Configuration■ Operation: AUTOVAR harmonic
filters are designed to be sized the same as any power factor correction unit. In most low voltage applications where harmonics are generated by nonlinear loads, no harmonic audit is necessary to design the AUTOVAR filter because it is already designed for typical harmonic spectrums at the kVAR size specified
■ Cabinet: 12 gauge steel with ANSI 61 gray, baked enamel finish. Lift bolts standard, NEMA 1
■ Power line interconnect: Rugged, copper bus bar connection with access provided for top or bottom entry. Bus bars are braced for 65 kAIC at 480V. All internal power wiring connections from bus are laid out on a most direct basis with minimum bends for ease of troubleshooting. Clear barrier limiting access to live parts included standard
CA08104001E For more information, visit: www.eaton.com/consultants
35.2-9September 2011
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600 Volts AC and BelowGeneral Description
033
■ Modular tray design: Capacitor banks arranged in modular trays with capacitors, fuses, blown-fuse indicating lights, and contactors grouped in a logical, easily under-stood layout. This permits easy access, quick identification of operating problems and easeof expandability
■ Fusing: UL recognized, 200,000A interrupting capacity provided on all three phases of each bank. Blade-type fuses mounted on insulator stand-offs
■ Blown-fuse lights: Blown-fuse indicating lights located on the door-mounted blown and at individual fuses to facilitate tracing of cleared fuses
■ Push-to-test: Allows testing of door-mounted blown fuse indicating lights
■ AutoLocate: When door is open and bus energized, fuse circuit automatically checks for cleared fuses. If a fuse has cleared, the light at the fuse comes on for easy troubleshooting
■ Door interlock: Door interlock automatically turns off control circuit when engaged. Power continues to be provided to the unit until disconnect is open
■ Exhaust fans: Two fans per cabinet provide thermal protection. Dust filtering provided
■ Ease of expansion: Capacitor stage nests are self-contained and can be added in the field. Control wire plugs connect to factory standard wire harness on the left side of the cabinet
■ Ease of replacement: Cells can be easily individually replaced by removing the mounting bolt and lifting out of the nest without removal of any other components
Controller■ Visual indication of incorrect
CT polarity■ Digital display of power factor
and number of energized banks■ Automatic setting of c/k value
(sensitivity based on CT ratio and kVAR available)
■ Alarm on failed step
■ Visual indication of insufficient kVAR to reach target power factor
■ Capacitors disabled in steps within 35 milliseconds of main power interruption
■ Automatic sensing of kVAR values per step
■ Optional communications capable (RS-485/Modbus) controller
■ Optional metering capability:❑ Voltage❑ Current (sensed phase only)❑ Frequency❑ Active power (kW)❑ Reactive power (kVAR)❑ Apparent power (kVA)
■ Optional thermostatic control exhaust fans
Contactor■ Fully rated for capacitor switching
up to 60 kVAR at 600V■ Integral pre-charge/pre-insertion
module standard. The contactor reduces damaging switching transients. This provides safety and durability for the system:❑ Lessens the chance of disrupting
sensitive electronic equipment❑ Reduced inrush current extends
the life of the capacitor cells
Reactors■ Tuning: Reactors tuned to the 4.7th
harmonic order (nominal 5th). This provides maximum effectiveness in reducing harmonic currents in three-phase systems with harmonics caused by 6-pulse devices
■ Detuning: Reactor designs can be detuned upon request (4.2nd, 6.7th for example) to protect capacitors against alternate harmonics
■ Windings: 100% copper windings for minimal temperature rise under load
■ Thermal overload protection: Each reactor includes three normally closed, auto reset thermostats that open at 180°C. When thermostats engage, the contactor opens
■ Insulation: 220°C insulation system■ Warranty: One-year replacement
of reactors
Additional Features■ Optional molded-case circuit
breaker rated 65 kAIC at 480V and 600V
■ Personnel ground fault interruption provides protection in case of accidental contact with control power and ground
■ Control wiring—standard NEC color-coded modular bundles with quick disconnect feature for ease of troubleshooting or ease of expendability
AUTOVAR Filter—Reactor Cabinet
Standards and Certifications■ AUTOVAR filter—UL and CSA listed■ Contactor—UL/CSA recognized
35.2-10
For more information, visit: www.eaton.com/consultants CA08104001E
September 2011
Power Factor Capacitors and Harmonic Filters
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034
Technical Data and SpecificationsTable 35.2-6. Floor-Mounted Switched Harmonic Filters—Low Voltage
Notes:
■ L + L under Enclosure Size denotes two Size L enclosures—one for the capacitors, one for the reactor case
■ For KK enclosure design, change the last digit of the catalog number to 1. For example, 500THFSR431
■ Other ratings available, please consult factory
■ Enclosures for 550 and 600 kVAR at 480V and 600V will be one double-door section wide if circuit breakers are required(Enclosure Size KK)
■ 240V filters available, please consult factory
Table 35.2-7. Options
� A current transformer with a 5A secondary is required to operate an automatic capacitor bank. Rating based on service entrance ampacity. For other ratios, please consult factory.
� Not available with weatherproofing option.
kVAR Step xkVAR
RatedCurrentAmperes
EnclosureSize
Shipping WeightLbs (kg)
FusedCatalogNumber
480 Vac150200250
3 x 50 4 x 50 5 x 50
180240300
LLL
1242 (564.6)1438 (652.9)1634 (741.8)
150THFSR431200THFSR431250THFSR431
300350400
6 x 50 7 x 50 8 x 50
360420480
KK or L + LKK or L + LKK or L + L
1830 (830.8)2026 (919.8)2222 (1008.8)
300THFSR432350THFSR432400THFSR432
450500550600
9 x 5010 x 5011 x 5012 x 50
540600660720
KK or L + LKK or L + LKK or L + LKK or L + L
2371 (1076.4)2525 (1146.4)2750 (1248.5)2830 (1284.8)
450THFSR432500THFSR432550THFSR432600THFSR432
600 Vac150200250
3 x 50 4 x 50 5 x 50
144192241
KK or L + LKK or L + LKK or L + L
1242 (564.6)1438 (652.9)1634 (741.8)
150THFSR632200THFSR632250THFSR632
300350400
6 x 50 7 x 50 8 x 50
288336384
KK or L + LKK or L + LKK or L + L
1830 (830.8)2026 (919.8)2222 (1008.8)
300THFSR632350THFSR632400THFSR632
450500550600
9 x 5010 x 5011 x 5012 x 50
432480528576
KK or L + LKK or L + LKK or L + LKK or L + L
2371 (1076.4)2525 (1146.4)2750 (1248.5)2830 (1284.8)
450THFSR632500THFSR632550THFSR632600THFSR632
Description OptionCode
Current transformer—multi-tap, split core current transformer �
TX2
Hands-off Auto Switch—provides manual control to connect or disconnect capacitor stages regardless of controller output
H
Remote alarm relay—relay for a remote alarm to indicate inability to reach target power factor
A
Molded case circuit breaker (65 kAIC at 480 V) M
Weatherproofing (NEMA 3R) W
Communicating controller (RS-485/Modbus) C
Metering and thermostatic temperature control L
IQ 250 solid-state meter � Q
CA08104001E For more information, visit: www.eaton.com/consultants
35.2-11September 2011
Power Factor Capacitors and Harmonic Filters
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600 Volts AC and BelowDimensions
035
Dimensions
Figure 35.2-5. AUTOVAR “l + l” (Two Single Door) Enclosures
35.2-12
For more information, visit: www.eaton.com/consultants CA08104001E
September 2011
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CA08104001E For more information, visit: www.eaton.com/consultants
35.3-1September 2011
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480 Volts AC and BelowGeneral Description
037
Active-Harmonic Filter-Harmonic Correction Unit—NEMA 1 Enclosure Specifications
Harmonic Correction Units—NEMA 1 Enclosure
General Description
Harmonic Correction UnitsHarmonic correction unit (HCU) provides dynamic harmonic cancella-tion when connected to an electrical network. The HCU monitors the distorted electrical signal, separates the fundamental and harmonic content and actively injects the opposing distorted spectrum to cancel and correct the harmonics.
The HCU can guarantee the harmonic cancellation performance to the requirements of standards such as IEEE 519, IEC 61000 3-2, 3-4, G5/4-1 and GB/T 14549; irrespective of the loading conditions of the system or the load.
The HCU also is ideal for critical installations where the shunt connected HCU does not interfere with the reliability and operation of the installation compared to some series-connected solutions.
HCUs are very easy to size, select and apply and are available in a variety of enclosure options including Chassis, NEMA and IP ratings.
The HCU can be used in both three-phase, three-wire and three-phase, four-wire electrical networks, and up to medium voltages of 15 kV (direct connect up to 480V. The HCU’s auto-detecting voltage and frequency features make it a versatile device to select without having the system information upfront.
The HCU is unique in its capabilityto operate in dual mode of operation, allowing cancellation of both integral harmonics in discreet spectrum mode and subharmonics and interharmonics in continuous spectrum mode.
The HCU also features the capability of providing dynamic VAR injection, thereby providing both true and displacement power factor correction to lagging 0.98 without the inherrent drawbacks of resonance and harmonic overload experienced by traditional passive solutions.
The ability to use the HCU in either dynamic VAR compensation mode or harmonic mitigation mode, or in combination mode makes this an ideal solution in improving other types of power quality problems such as flicker reduction.
The three frame sizes of HCU and practically unlimited paralleling capability allow it to be connected either as a bus connected or a load connected solution, providing the desired harmonics performance at the bus or at the load.
Applications■ PWM AC drives■ DC drives■ Water and wastewater
treatment plants■ HVAC—commercial■ Compliance to IEEE 519:
❑ Military❑ Industrial❑ Commercial
35.3-2
For more information, visit: www.eaton.com/consultants CA08104001E
September 2011
Power Factor Capacitors and Harmonic Filters
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480 Volts AC and BelowGeneral Description
038
Product SpecificationTable 35.3-1. AccuSine Product Specification Description Specification
Standard rms output current ratings 50A, 100A, 300A
Nominal voltage 208–480 V ±10% auto-sensing
Other voltages With transformer
Nominal frequency 50/60 Hz ±3 Hz auto-sensing
Number of phases 3P/3W, 3P/4W
Power electronics IGBT
Topology Analog/digital interface
Operation with single-phase loads Yes
Current transformers (CT) 1000/5, 3000/5, 5000/5 (400 Hz)
Number of CTs required 2 or 3
Normal spectrum of compensation 2nd to 50th harmonic global
Attenuation ratio > 10:1
Parallel multiple units Yes, any rating combinations
CT location Either source or load sensing
Power factor correction Yes, leading or lagging injection to target power factor
Response time 100 microseconds for step load changes, 1 cycle full response
Overload Limited to nominal output, continuous operation
Dynamic current injection Up to 2.25 times rated current
Display High quality 3.8 inches QVGA screen
Languages English, with other language capability
Operators Graphic touch screen terminal
Display parameters AC line voltage, DC bus voltage, load power factor unit output power factor
Load harmonic current, load reactive current, output harmonic current, corrected load current
Various fault codes, set up parameter points start, stop control screen
Communication capability Modbus, Modbus TCP/IP
Heat losses N1 unit: 1800W for 50A, 3000W for 100A, 9000W for 300A
N12, IP units: 2150W for 50A, 3700W for 100A, 10,000W for 300A
Noise level (ISO 3746) < 80 db at one meter from unit surface
Color NEMA 1 quartz gray, all others RAL7032
Operating temperature 0° to 40°C continuous
Relative humidity 0–95% noncondensing
Seismic qualification IBC and ASCE7
Operating altitude < 1000m (derating factors apply for higher altitudes at 10% per 1000m)
Protection (enclosure) NEMA 1, NEMA 12, IP30, IP54
Optional: CE EMC certification IEC/EN60439-1, EN61000-6-4 Class A, EN61000-6-2
CA08104001E For more information, visit: www.eaton.com/consultants
35.3-3September 2011
Power Factor Capacitors and Harmonic Filters
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480 Volts AC and BelowTechnical Data
039
Sizing and Product SelectionTable 35.3-2. Harmonic Control Units Ratings—NEMA 1 Enclosed—Dimensions in Inches (mm)
Table 35.3-3. Current Transformer Ratings—Dimensions in Inches (mm)
Note: Current transformers are rated for 400 Hz. Two current transformers are required for three-phase loads. Three current transformers are required when single-phase loads are present.
Installation Options
Figure 35.3-1. Source CT Location Figure 35.3-2. Load CT Location
Voltage Frequency Total Current Amperes(rms)
WattLosses(kW)
ExteriorH x W x D
Unit WeightLbs (kg)
EnclosureType
Disconnect Model Type
208–480208–480208–480
50/6050/6050/60
50100300
1.83.08.0
51.80 x 20.70 x 18.50 (1315.7 x 525.8 x 469.9)68.70 x 20.70 x 18.50 (1745.0 x 525.8 x 469.9)74.90 x 32.20 x 19.50 (1902.5) x 817.9 x 495.3)
250 (113.5)350 (158.9)775 (351.9)
Wall-mount/NEMA 1Wall-mount/NEMA 1Free-standing/NEMA 1
——X
HCUE050D5N1HCUE100D5N1HCUE300D5N1
AC LineCurrent Rating
Type Internal Diameter
Model Type
100030005000
SplitSplitSplit
4.65 (118.1)6.50 (165.1)7.50 (190.5)
CT1000SC
CT3000SC
CT5000SC
AHF
ConnectedLoad
ConnectedLoad
ConnectedLoad
Power Sourceor Upstream
Panel
Distribution Power orMotor Control Center
Harmonic Cancellation and/orPower Factor Correction of
All Loads on Panel
AHF
OtherLoad
ConnectedLoad
OtherLoad
Power Sourceor Upstream
Panel
Distribution Power orMotor Control Center
Harmonic Cancellation and/orPower Factor Correction of
All Loads on Panel
35.3-4
For more information, visit: www.eaton.com/consultants CA08104001E
September 2011
Power Factor Capacitors and Harmonic Filters
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480 Volts AC and BelowTechnical Data
040
Figure 35.3-3. Source or Load CT Location—Three Possible CT Locations Shown
Figure 35.3-4. Source or Load CT Location—Four Possible CTLocations Shown
Figure 35.3-5. Automatic Capacitor Banks—Medium Voltage Main–Tie–Main
AHF
OtherLoad
OtherLoad
Power Sourceor Upstream
Panel
Distribution Power orMotor Control Center
Less Than25 Feet perNEC 240.21
= Source CT Location= Load CT Location
Connected Load
AHF
Other Load Other Load
Power Sourceor Upstream
Panel
Distribution Power orMotor Control Center
More Than25 Feet perNEC 240.21
= Source CT Location= Load CT Location
ConnectedLoad
Harmonic Cancellationand/or Power Factor
Correction of theLoads on a
Single Branch
Breakeror Fused
Disconnect
Junction Box
Utility Line #1
MainTransformer
Utility Line #2
MainTransformer
Main ANC
Main BNC52
CT Phase AXXXX/5
CT Phase AXXXX/5
CT Phase AXXXX/5
CT Phase AXXXX/5
52 52
52
52T
Tie
No
Bus A Bus B
CapacitorBank A
CapacitorBank B
Note: Both main and tie CT ratio have to be identical.
Note: Low voltage system is similar.
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35.3-5September 2011
Power Factor Capacitors and Harmonic Filters
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480 Volts AC and BelowDimensions
041
Model DrawingsModel HCUE050 Layout Dimensions—NEMA 1 EnclosureThe HCUE050 series offers 50A of corrective current in a convenient package. The enclosed model comes standard with a human machine interface panel for control diagnostics, communications and programming. Input fuses are included. The enclosed unit includes a removable panel for bottom conduit entry.
Figure 35.3-6. HCUE050—50A, 208–480V
20.70(525.8)
Heat Sink Opening
4.60(116.8)
9.80(248.9)
16.70(424.2)
HMI
4.00(101.6)
5.10(129.5)
17.30(439.4)
50.30(1277.6)
18.70(475.0)
51.80(1315.7)
Inlet Air Opening
6.30(160.0)
5.30(134.6)
6.30(160.0)
5.30(134.6)
5.70(144.8)
8.90(226.1)
Conduit Plate
5.90(149.9)
35.3-6
For more information, visit: www.eaton.com/consultants CA08104001E
September 2011
Power Factor Capacitors and Harmonic Filters
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480 Volts AC and BelowDimensions
042
Model HCUE100 Layout Dimensions—NEMA 1 EnclosureThe HCUE100 series offers 100A of corrective current in a wall-mounted NEMA 1 enclosure. The enclosed model comes standard with a human machine interface module for control, diagnostics, communications and programming. Input fuses are included. The enclosed unit includes a removable panel for bottom conduit entry.
Figure 35.3-7. HCUE100—100A 208–480V
20.70(525.8)
Heat Sink Opening
4.60(116.8)
9.80(249.0)
16.70(424.2)
HMI4.00
(101.6)
5.10(129.5)
20.60(523.2)
67.20(1706.9)
18.70(475.0)
68.70(1745.0)
Inlet Air Opening
6.30(160.0)
5.30(134.6)
6.30(160.0)
5.30(134.6)
5.70(144.8)
8.90(226.1)
Conduit Plate
5.90(149.9)
CA08104001E For more information, visit: www.eaton.com/consultants
35.3-7September 2011
Power Factor Capacitors and Harmonic Filters
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480 Volts AC and BelowDimensions
043
Model HCUE300 Layout Dimensions—NEMA 1 EnclosureThe HCUE300 series offers 300A of corrective current for large capacity applications. It is available in a floor-standing NEMA 1 enclosure (including a door-interlocking disconnect). The enclosed model comes standard with a human machine interface module for control, diagnostics, communications and programming. Input fuses are included. The enclosed unit includes a removable panel for top conduit entry.
Figure 35.3-8. HCUE300—300A 208–480V
32.00(812.8)
Heat Sink Opening
6.50(165.1)
23.20(589.3)
28.90(734.1)
HMI
4.00(101.6)
5.10(129.5)
14.80(375.9)
74.80(1899.9)
17.10(434.3)
77.10(1958.3)
InletAir Opening
10.80(274.3)
12.50(317.5)
14.70(373.4)
7.40(188.0)
8.00(203.2)
Conduit Plate
3.10(78.7)
”A“
24.30(617.2)
Detail ”A“Scale 1:12
4X 0.40 (10.2)
4X 0.60 (15.2)
21.80(553.7)
35.3-8
For more information, visit: www.eaton.com/consultants CA08104001E
September 2011
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35.4-1September 2011
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Low Voltage
General Description045
Transient-Free Statically SwitchedCapacitor Bank
Power Factor Correction Unit
General DescriptionThe Eaton transient-free statically switched (TFSS) capacitor systems represent the “next level” of power system enhancements by using semi-conductor devices to switch capacitors at the same potential or zero potential difference, thereby eliminating the possible problem of transients caused by capacitor switching and increasing the speed of capacitive VAR compen-sation. This level of performance is needed when high-current loads rapidly switch on and off and require power factor, voltage flicker, sag or harmonic correction. These disturbances can be found in many industries, including rock crushing, arc-welding, plastic injection molding and crane applications.
Transient-free statically switched capacitor units are available in two broader models.
The FTE model is a real-time transient-free system, used to compensate extremely rapid loads within one cycle of operation (typically 5–20 msec).
The FTA model is a fast transient-free system, used to compensate any loads within 3–4 seconds.
Units are available in a variety of tuning orders/ percentage reactor combinations.
Application DescriptionApplications to correct power factor and/or provide voltage support can include:
■ Flicker reduction■ Motor starting ■ Bus voltage stabilization ■ Grid fault ride-through■ On-site generation support■ Spot welding■ Wind turbines■ Other dynamic loads
Three current transformers with a 5A secondary are required for proper operation of a TFSS system. Primary CT current rating is based on service entrance ampacity.
Startup and commissioning by factory-trained personnel is required for proper operation and warranty of a TFSS system.
35.4-2
For more information, visit: www.eaton.com/consultants CA08104001E
September 2011
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Low Voltage
Features and Benefits046
Features and Benefits■ Transient-free capacitor group
switching, using electronic switching elements
■ Simultaneous connection/disconnection of all required steps
■ Consistent capacitor values and stable filter characteristics
■ Harmonic filtration■ Smaller footprints for larger
capacitor banks■ Reduced maintenance cost■ Ultra-fast compensation of reactive
power with response time as quick as 2–4 ms
■ Three independent control modes:❑ Power factor control❑ Voltage control❑ Load sharing with another
compensation system connected to the same transformer
■ Unique SCAN feature reduces capacitor duty cycles
■ Remote control of compensation systems available via LAN or Ethernet
■ Integrated three-phase network analyzer:❑ Measures all power parameters on
each phase (V, I, kW, kVAR, kVA)❑ Measures voltage and current
harmonics to the 63rd harmonic FTE unit includes all of the above, and:
■ Reduces voltage flicker and voltage sag
■ Provides network reactive power support
■ Offers voltage control options■ Base product is three-phase
balanced delta connected. For unbalanced single-phase system, please consult factory
Standards and Certifications
Enclosure■ EMC—EN50081-2, EN50082-2,
EN55011, EN61000-4-2/3/4/5, ENV50204, ENV50141
■ CE Mark—73/23/EEC am 93/68, 98/37/EC Article 4(2)
■ Safety—EN61010-1, EN60439-1, EN60204
■ UL 508■ CSA
Technical Data and Specifications
Network Voltage■ 210–690V■ Engineered solutions up to 35 kV
Frequency■ 45–55 Hz for 50 Hz network■ 55–65 Hz for 60 Hz network
Capacitor Group Configurations■ Up to 12 groups per one controller■ Switching sequence:
❑ 1:1:1:1 (all equal)❑ 1:2:2:2 (half group)❑ 1:2:4:4 (quarter, half groups)
Response Time■ FTE—5–20 ms for a 50 Hz network■ FTE—4–16 ms for a 60 Hz network■ FTA—1–4 second maximum
Figure 35.4-1. Application Example—Spot Welding
CA08104001E For more information, visit: www.eaton.com/consultants
35.4-3September 2011
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Low Voltage
General Description047
Catalog Number Selection
Table 35.4-1. Transient-Free Statically Switched Unit Catalog Numbering System
OptionalCommunications Card
RS-485/Modbus
FTE SZ G SW U P N M L1 COM
Type
FTE = Real time balancedFTEU = Real time unbalancedFTEW = Voltage control optionFTA = Fast acting
� MV units require a correctly sized and specified step up transformer and MV and LV interconnection, switching and protection.
� All systems are offered with Measurement Level 1 and no communications card. The measurement levels can be upgraded to higher measurement options as well as for communications.
Note: Balanced system employs two-phase switching. Unbalanced system employs individual three-phase switching.
Optional
Measurement Levels �
L1 = Default (includes f, l, V, Power)
L2 = L1 + HarmonicsL3 = L2 + Waveform
Enclosure
N1 = NEMA 1N12 = NEMA 12N3R = NEMA 3R
Percent Reactor (Tuning)
P14 = 14% (2.67th order)P7 = 7% (3.8th order)P567 = 6.67% (4.2nd order)P49 = 4.9% (4.5th order)
Circuit Breaker
kVAR
Total power in kVARTypically in steps of 50 kVAR beginning with 100 kVAR
Number of Groups
Maximum 12
Switching Sequence
1 = 1:1:1:12 = 1:2:2:24 = 1:2:4:4
System Voltage
480 = 480V600 = 600V690 or above = MV �
35.4-4
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September 2011
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Low Voltage
Dimensions048
DimensionsTypical modular section is 31.50 W x 23.50 D x 82.70 H inches (800.1 W x 596.9 D x 2100.6 H mm) for up to 400 kVAR at 480V. An integral breaker can add a 25.00 inch (635.0 mm) width section to the enclosure.
Figure 35.4-2. 900 kVAR Fast Transient-Free Switching System—Dimensions in Inches (mm)
110.39(2804.0)
30.28(769.0)
6.18(157.0)
109.41(2779.0)
36.30(922.0)
104.88(2664.0)
Cable Entry
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35.5-1September 2011
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Metal-Enclosed—Medium VoltageGeneral Description
049
Univar XV (5 kV Class)
Univar XV Fixed Medium Voltage PFC Unit
General DescriptionCapacitors for medium voltage, heavy-duty applications:
■ Univar capacitors are designed for power factor correction in applications where a fixed amount of capacitance (kVAR) is required
■ 2400V, 4160V, 4800V■ Fast economical payback■ Individual units or multiple
assemblies can be designed■ Indoor dustproof/outdoor
waterproof enclosures (NEMA 12, NEMA 3R)
■ Floor mounting.■ Two- or three-phase fused options
for 2400–4800V■ NEMA 3R terminal box
Note: NEC® Article 460.8 (b)(1)requires capacitors to have overcurrent protection in all ungrounded conductors (except if connected on the load side of a motor overload protection device). Three-phase capacitors fused only on two phases will not provide adequate protection if a line-to-ground fault should occur in the unfused phase.
Application Description■ Large motors■ Motor control centers■ Branch circuits■ Service entrances
Features, Benefits and Functions
Standard Features
Enclosure Terminal Box14-gauge steel finished with durable baked-on enamel. The wiring enclo-sure is gasketed to create a weather-proof, dustproof seal. Universal mounting flanges are provided for floor installation. The elimination of knockouts permits indoor/outdoor use. Unit meets NEMA 1, 3R and 12 requirements. Enclosure is painted ANSI 61 gray.
Features■ Viewing window■ Top and side entry■ Removable front cover
FusingFuses are rated 50,000A symmetrical interrupting capacity. Ratings are 165% to 250% of rated current. Fuses have visual pop-up blown fuse indication standard.
Discharge ResistorsThese reduce the residual voltage to less than 50V residual within 5 minutes of de-energization.
Grounding Stud■ Standard
Power Line Terminals■ Large size for easy connection■ Plated copper one-hole
termination pad
Operating Temperature■ –40º to 115ºF (–40º to +46ºC)
Optional Features■ Two or three fuses■ CSA testing and labels
35.5-2
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September 2011
Power Factor Capacitors and Harmonic Filters
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Metal-Enclosed—Medium VoltageTechnical Data
050
Technical Data and SpecificationsTable 35.5-1. Univar Three-Phase Ratings
Table 35.5-2. Two-Phase Fused
Note: To be used on un-grounded delta systems or high-resistance grounded systems only.
Note: Add suffix “C” for CSA label.
Volts Hertz kVAR
240041604800
606060
25–82525–90025–900
kVAR 2400V 4160V 4800V Dimension (A) Inches (mm)
Approx. WeightLbs (kg)
FigureNumber
25 50 75
25243MVF50243MVF75243MVF
25413MVF50413MVF75413MVF
25483MVF50483MVF75483MVF
34.44 (875.0)34.44 (875.0)34.44 (875.0)
70 (32) 70 (32) 70 (32)
Figure 35.5-1Figure 35.5-1Figure 35.5-1
100125150
100243MVF125243MVF150243MVF
100413MVF125413MVF150413MVF
100483MVF125483MVF150483MVF
36.19 (919.0)36.19 (919.0)36.19 (919.0)
75 (34) 83 (38) 88 (40)
Figure 35.5-1Figure 35.5-1Figure 35.5-1
175200225
175243MVF200243MVF225243MVF
175413MVF200413MVF225413MVF
175483MVF200483MVF225483MVF
36.19 (919.0)36.19 (919.0)41.94 (1065.0)
93 (42) 99 (45)109 (49)
Figure 35.5-1Figure 35.5-1Figure 35.5-1
250275300
250243MVF275243MVF—
250413MVF275413MVF300413MVF
250483MVF275483MVF300483MVF
41.94 (1065.0)41.94 (1065.0)41.94 (1065.0)
109 (49)121 (55)121 (55)
Figure 35.5-1Figure 35.5-1Figure 35.5-1
300325350
300243MVF325243MVF350243MVF
—325413MVF350413MVF
—325483MVF350483MVF
36.19 (919.0)36.19 (919.0)36.19 (919.0)
172 (78)177 (80)182 (83)
Figure 35.5-2Figure 35.5-2Figure 35.5-2
375400425
375243MVF400243MVF425243MVF
375413MVF400413MVF425413MVF
375483MVF400483MVF425483MVF
36.19 (919.0)36.19 (919.0)41.94 (1065.0)
188 (85)194 (88)206 (93)
Figure 35.5-2Figure 35.5-2Figure 35.5-2
450475500
450243MVF475243MVF500243MVF
450413MVF475413MVF500413MVF
450483MVF475483MVF500483MVF
41.94 (1065.0)41.94 (1065.0)41.94 (1065.0)
214 (97)214 (97)214 (97)
Figure 35.5-2Figure 35.5-2Figure 35.5-2
525550575
525243MVF550243MVF—
525413MVF550413MVF575413MVF
525483MVF550483MVF575483MVF
41.94 (1065.0)41.94 (1065.0)41.94 (1065.0)
226 (103)238 (108)238 (108)
Figure 35.5-2Figure 35.5-2Figure 35.5-2
575600600
575243MVF—600243MVF
—600413MVF—
—600483MVF—
36.19 (919.0)41.94 (1065.0)36.19 (919.0)
259 (118)238 (108)265 (121)
Figure 35.5-3Figure 35.5-2Figure 35.5-3
625650675
625243MVF650243MVF675243MVF
625413MVF650413MVF675413MVF
625483MVF650483MVF675483MVF
41.94 (1065.0)41.94 (1065.0)41.94 (1065.0)
279 (127)287 (131)295 (134)
Figure 35.5-3Figure 35.5-3Figure 35.5-3
700725750
700243MVF725243MVF750243MVF
700413MVF725413MVF750413MVF
700483MVF725483MVF750483MVF
41.94 (1065.0)41.94 (1065.0)41.94 (1065.0)
295 (134)295 (134)295 (134)
Figure 35.5-3Figure 35.5-3Figure 35.5-3
775800825
775243MVF800243MVF825243MVF
775413MVF800413MVF825413MVF
775483MVF800483MVF825483MVF
41.94 (1065.0)41.94 (1065.0)41.94 (1065.0)
307 (140)319 (145)331 (151)
Figure 35.5-3Figure 35.5-3Figure 35.5-3
850875900
———
850413MVF875413MVF900413MVF
850483MVF875483MVF900483MVF
41.94 (1065.0)41.94 (1065.0)41.94 (1065.0)
331 (151)331 (151)331 (151)
Figure 35.5-3Figure 35.5-3Figure 35.5-3
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35.5-3September 2011
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Metal-Enclosed—Medium VoltageTechnical Data
051
Table 35.5-3. Three-Phase Fused
Note: Add suffix “C” for CSA label.
kVAR 2400V 4160V 4800V Dimension (A) Inches (mm)
Approx. Weight Lbs (kg)
FigureNumber
25 50 75
25243MVF350243MVF375243MVF3
25413MVF350413MVF375413MVF3
25483MVF350483MVF375483MVF3
34.44 (875.0)34.44 (875.0)34.44 (875.0)
72 (32) 72 (32) 72 (32)
Figure 35.5-1Figure 35.5-1Figure 35.5-1
100125150
100243MVF3125243MVF3150243MVF3
100413MVF3125413MVF3150413MVF3
100483MVF3125483MVF3150483MVF3
36.19 (919.0)36.19 (919.0)36.19 (919.0)
77 (34) 85 (38) 90 (40)
Figure 35.5-1Figure 35.5-1Figure 35.5-1
175200225
175243MVF3200243MVF3225243MVF3
175413MVF3200413MVF3225413MVF3
175483MVF3200483MVF3225483MVF3
36.19 (919.0)36.19 (919.0)41.94 (1065.0)
95 (42)101 (45)111 (49)
Figure 35.5-1Figure 35.5-1Figure 35.5-1
250275300
250243MVF3275243MVF3—
250413MVF3275413MVF3300413MVF3
250483MVF3275483MVF3300483MVF3
41.94 (1065.0)41.94 (1065.0)41.94 (1065.0)
111 (49)123 (55)123 (55)
Figure 35.5-1Figure 35.5-1Figure 35.5-1
300325350
300243MVF3325243MVF3350243MVF3
—325413MVF3350413MVF3
—325483MVF3350483MVF3
36.19 (919.0)36.19 (919.0)36.19 (919.0)
176 (78)181 (80)186 (83)
Figure 35.5-2Figure 35.5-2Figure 35.5-2
375400425
375243MVF3400243MVF3425243MVF3
375413MVF3400413MVF3425413MVF3
375483MVF3400483MVF3425483MVF3
36.19 (919.0)36.19 (919.0)41.94 (1065.0)
192 (85)198 (88)210 (93)
Figure 35.5-2Figure 35.5-2Figure 35.5-2
450475500
450243MVF3475243MVF3500243MVF3
450413MVF3475413MVF3500413MVF3
450483MVF3475483MVF3500483MVF3
41.94 (1065.0)41.94 (1065.0)41.94 (1065.0)
218 (97)218 (97)218 (97)
Figure 35.5-2Figure 35.5-2Figure 35.5-2
525550575
525243MVF3550243MVF3—
525413MVF3550413MVF3575413MVF3
525483MVF3550483MVF3575483MVF3
41.94 (1065.0)41.94 (1065.0)41.94 (1065.0)
230 (103)242 (108)242 (108)
Figure 35.5-2Figure 35.5-2Figure 35.5-2
575600600
575243MVF3—600243MVF3
—600413MVF3—
—600483MVF3—
36.19 (919.0)41.94 (1065.0)36.19 (919.0)
265 (118)242 (108)271 (121)
Figure 35.5-3Figure 35.5-2Figure 35.5-3
625650675
625243MVF3650243MVF3675243MVF3
625413MVF3650413MVF3675413MVF3
625483MVF3650483MVF3675483MVF3
41.94 (1065.0)41.94 (1065.0)41.94 (1065.0)
285 (127)293 (131)301 (134)
Figure 35.5-3Figure 35.5-3Figure 35.5-3
700725750
700243MVF3725243MVF3750243MVF3
700413MVF3725413MVF3750413MVF3
700483MVF3725483MVF3750483MVF3
41.94 (1065.0)41.94 (1065.0)41.94 (1065.0)
301 (134)301 (134)301 (134)
Figure 35.5-3Figure 35.5-3Figure 35.5-3
775800825
775243MVF3800243MVF3825243MVF3
775413MVF3800413MVF3825413MVF3
775483MVF3800483MVF3825483MVF3
41.94 (1065.0)41.94 (1065.0)41.94 (1065.0)
313 (140)325 (145)337 (151)
Figure 35.5-3Figure 35.5-3Figure 35.5-3
850875900
———
850413MVF3875413MVF3900413MVF3
850483MVF3875483MVF3900483MVF3
41.94 (1065.0)41.94 (1065.0)41.94 (1065.0)
337 (151)337 (151)337 (151)
Figure 35.5-3Figure 35.5-3Figure 35.5-3
35.5-4
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September 2011
Power Factor Capacitors and Harmonic Filters
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Metal-Enclosed—Medium VoltageDimensions
052
Dimensions
Figure 35.5-1. UNIVAR XV 5 kV Class, 25–300 kVAR
Figure 35.5-2. UNIVAR XV 5 kV Class, 300–600 kVAR
CA08104001E For more information, visit: www.eaton.com/consultants
35.5-5September 2011
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Metal-Enclosed—Medium VoltageDimensions
053
Dimensions
Figure 35.5-3. UNIVAR XV 5 kV Class, 575–900 kVAR
35.5-6
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Metal-Enclosed—Medium VoltageDimensions
054
Univar (15 kV Class)
Univar Fixed Medium Voltage PFC Unit
General DescriptionCapacitors for medium voltage, heavy-duty applications:
■ Univar capacitors are designed for power factor correction in applications where a fixed amount of capacitance (kVAR) is required.
■ 6600V, 7200V, 12,470V or 13,800V■ Fast economical payback■ Individual units or multiple
assemblies can be designed■ Indoor dustproof/outdoor
waterproof enclosures (NEMA 12, NEMA 3R)
■ Floor mounting■ All units above 4800V are supplied
with fusing on all three phases■ NEMA 3R terminal box
Application Description■ Large motors■ Motor control centers■ Branch circuits■ Service entrances
Features, Benefits and Functions
Standard Features
Enclosure16-gauge steel finished with durable baked-on enamel. The wiring enclo-sure is gasketed to create a weather-proof, dustproof seal. Universal mounting flanges are provided for floor installation. The elimination of knockouts permits indoor/outdoor use. Unit meets NEMA 1, 3R and 12 requirements. Enclosure is painted ANSI 70 gray.
FusingFuses are rated 50,000A symmetrical interrupting capacity. Ratings are 165% to 250% of rated current. Fuses have visual pop-up blown fuse indication standard.
Discharge ResistorsThese reduce the residual voltage to less than 50V residual within 5 minutes of de-energization.
Grounding Stud■ Standard
Power Line Terminals■ Large size for easy connection
Operating Temperature■ –40° to 115°F (–40° to +46°C)
Optional Features■ CSA testing and labels
CA08104001E For more information, visit: www.eaton.com/consultants
35.5-7September 2011
Power Factor Capacitors and Harmonic Filters
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Metal-Enclosed—Medium VoltageDimensions
055
Technical Data and SpecificationsTable 35.5-4. Univar Three-Phase Ratings
Table 35.5-5. Standard Three Fuses (6600–13,800V)—Refer to Figure 35.5-4 Below
Dimensions
Figure 35.5-4. UNIVAR 15 kV Class, 50–500 kVAR—Drawing Number 5D10243
Volts Hertz kVAR
6600 720012,47013,800
60606060
50–40050–40050–50050–500
Standard Three Fuses Dimensions Approx.WeightLbs (kg)
StandardDrawingNumber
kVAR 6600V 7200V 12,470V 13,800V (A) Inches (mm)
(B)Inches (mm)
(C) Inches (mm)
(D)Inches (mm)
50100150
50663FKED3100663FKED3150663FKED3
50723FKED3100723FKED3150723FKED3
50123FKED3100123FKED3150123FKED3
50133FKED3100133FKED3150133FKED3
4.25 (108.0)4.25 (108.0)4.25 (108.0)
45.50 (1156.0)45.50 (1156.0)45.50 (1156.0)
14.46 (367.0)14.46 (367.0)14.46 (367.0)
0.25 (6.0)0.25 (6.0)0.25 (6.0)
198 (90)198 (90)198 (90)
5D102435D102435D10243
200250300
200663FKED3250FKY66323300FKY66323
200723FKED3250FKY72323300FKY72323
200123FKED3250FKY12323300FKY12323
200133FKED3250FKY13323300FKY13323
5.62 (143.0)5.62 (143.0)5.62 (143.0)
45.50 (1156.0)48.50 (1232.0)53.50 (1359.0)
14.46 (367.0)17.46 (443.0)17.46 (443.0)
0.25 (6.0)0.25 (6.0)0.25 (6.0)
220 (100)246 (112)246 (112)
5D102435D102435D10243
350400450500
350FKY66323400FKY66323——
350FKY72323400FKY72323——
350FKY12323400FKY12323450FKY12323500FKY12323
350FKY13323400FKY13323450FKY13323500FKY13323
5.62 (143.0)5.62 (143.0)5.62 (143.0)5.62 (143.0)
53.50 (1359.0)57.25 (1454.0)57.25 (1454.0)57.25 (1454.0)
17.46 (443.0)22.46 (570.0)22.46 (570.0)26.21 (666.0)
0.25 (6.0)0.25 (6.0)0.25 (6.0)0.25 (6.0)
246 (112)281 (128)281 (128)336 (153)
5D102435D102435D102435D10243
A
CB
D
0.250-20Grd. Scr.
16.42
RemovableTop Cover
Solderless Conn.for A #10 Solidto A #4 Str’d. Conn.
(2) 0.500 x 0.625Slots [13 x 16]
25.0824.12
34.00Barriers
35.5-8
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Metal-Enclosed—Medium VoltageGeneral Description
057
Metal-Enclosed Medium Voltage
Safety and Aesthetics are Just Two Compelling Reasons to Use Metal-Enclosed PFC Systems
Application Description
Utility CustomersMetal-enclosed power factor correc-tion systems are fully assembled, tested and ready for installation. Very little field assembly is required. Installation and maintenance costsfor metal-enclosed systems are low compared to pole and rack mounted capacitor banks. Metal-enclosed systems and harmonic filters are less vulnerable to wildlife and airborne contaminants that can cause tracking and faults. In addition, metal-enclosed systems significantly reduce the risks and the associated liability involving untrained personnel. All live parts are contained in a grounded, key inter-locked enclosure and no internal hardware is accessible. Metal-enclosed systems are aesthetically pleasing due to their low profile, and can be painted to match the surround-ing architecture. These are just some of the reasons more and more utilities are using metal-enclosed capacitor and harmonic filter systems.
Industrial CustomersLarge industrial power users can use the benefits associated with medium voltage power factor correction and harmonic filtering. Medium voltage solutions usually support the scale and scope of larger services. Medium voltage applications can be found in the following types of industries as examples: automotives, pulp and paper, plastics, petrochemical and heavy manufacturing.
Individual fixed capacitors provide power factor correction directly at the cause of the problem, such as a large horsepower MV motor. Medium voltage systems allow large industrials to correct power factor at or close to the point of common coupling (PCC), where the utility electrical system meets theirs. This allows correctionfor an entire facility, instead of having to correct at multiple locations. The Eaton NEMA 3R design also allows the system to be placed outdoors, saving valuable manufacturing floor space. The savings can be enormous, in materials, installation costs and floor space. In short, medium voltage solutions provide a cost-effective alternative to many local low voltage power factor correction units, while protecting the customer’s entire electrical distribution system.
Commercial CustomersMany commercial customers are purchasing power from their utility at higher voltages today (2.4–15 kV), and can also take advantage of medium voltage power factor correction systems. These solutions can meet the needs of large office complexes, hospitals and universities, among others. The benefits of safety (key interlocking, no exposed live parts, etc.), and aesthetics (low profile, can be painted to match environment) both meet the needs of these applications where there are large numbers of untrained personnel in proximity of electrical equipment.
AdvantagesEaton’s purchase of the Common-wealth Sprague capacitor systems business, with its over 70 years of market experience, provides a combination that allows the end user to obtain a world-class solution to fill their power factor needs. Quality and reliability are of paramount importance to not only the Eaton engineering team, but are also the backbone of all Eaton products and services. This commitment to quality means the customer can have a great deal of confidence with the medium voltage capacitor orharmonic filter solution from Eaton’s electrical business.
Benefits
Ease of InstallationEaton makes installation easy. All systems are completely assembled in the factory, with all equipment pre-wired and pre-tested for easy on-site installation. Only shipping splits must be connected in the field. Splice kits connect bus systems, and control wiring is easily connected at each enclosure. Current limiting fuses, contactor assemblies, and the incom-ing switch assembly can be removed from the enclosure if needed. Line terminals are completely accessible from the front of the system.
Personnel SafetyPositive mechanical isolating switch with visible disconnect completely grounds and isolates the unit from the line connectors. A screened barrier protects personnel from live parts. All medium voltage doors are mechanically interlocked with the disconnect switch. Key interlocks are provided standard on all enclosure doors, and can be coordinated with upstream disconnect devices. The low voltage control section has a separate door-in-door design, and is segregated from the medium voltage sections so that an operator can work in that section safely.
Ease of MaintenanceAll components are front-accessible, facilitating routine inspection or parts replacement. A viewing window is standard on all compartment doors.
FlexibilitySystems are expandable. The customer can add stages in the future by connecting the phase bus in the field via splice kits. Structures can be bolted together in the field.
Insulated Splice Kits Allow for SimpleInterconnection in the Field
35.6-2
For more information, visit: www.eaton.com/consultants CA08104001E
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Metal-Enclosed—Medium VoltageGeneral Description
058
Autovar MV (2.4–14.4 kV)
Medium VoltageMetal-Enclosed PFC System
General DescriptionThe Autovar medium voltage automatic power factor capacitor systems are designed for power factor correction in applications where plant power factor can be constant or changing, and an engineered solution is required. These systems can be a fixed amount of capacitance with a disconnect, a number of switched capacitance stages or a combination of both. The Autovar medium voltage capacitor system can switch stages of capacitance in and out automatically based on information collected by the power factor controller on the door-in-door control panel.
Features, Benefits and Functions■ Voltages from 2400 to 14,400V■ Reactive power ratings through
15 MVAR■ Harmonic tuned, de-tuned or
multi-tuned filter designs available■ Externally fused capacitor units
standard■ Blown fuse indication standard■ Integral load interrupter switch,
NEMA 2- or 4-hole termination pad■ Delivered fully assembled, tested
and ready for interconnection■ Integral protection and
control system■ Top or bottom cable entry■ Earthing switch■ 60 kV BIL up to 4.8 kV■ 95 kV BIL from 7.2 kV to 14.4 kV■ Up to 12 automatic switched
capacitor stages■ Warning labels■ Removable air filters without
opening enclosure doors■ Adjustable blocking timers to
prevent re-closing of a capacitor stage in less than 200 seconds
■ Meets the following requirements:❑ ANSI❑ IEEE❑ NEC❑ NESC❑ CSA (when specified)
■ Main incoming fuses are rated 50 kAIC to provide main bus protection, as well as backup protection for the capacitor systems
■ 4.00-inch base channel is standard
Standard Features
EnclosureFree-standing, 11-gauge steel construction with 3-point padlockable latching handles and stainless steel hinges. The enclosure is painted with a corrosion-resistant ANSI 61 light gray enamel paint as standard. Other colors are available as an option. NEMA 3R construction is standard, NEMA 3R stainless steel is available as an option.
Enclosure is UL/CSA approved. Enclo-sure design is modular and future sec-tions can be added on the left or right.
See Figure 35.6-1 for typical dimensions and elevations.
See Figure 35.6-2 for a typical single-line drawing.
Medium Voltage PFC Enclosure
Bottom Plate IncomingCutout Provided Standard
Load Interrupter Air Disconnect SwitchIntegral disconnect switch, externally operated, mechanically chain driven with visible blades is available as per NEC requirements. Disconnect switch is mechanically interlocked with the ground switch, and with the customer’s upstream device (if applicable). Incoming section is front-accessible only for safety, and barrier isolates live connections from the user.
Incoming Section
Ground SwitchA ground switch is provided to ground the load-side terminals of the incoming switch (or MLO) for safety during maintenance. Optional controls are available to permit closing contactors after the grounding switch has been closed to ground capacitors immedi-ately (rather than waiting 5 minutes for full discharge).
CA08104001E For more information, visit: www.eaton.com/consultants
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Metal-Enclosed—Medium VoltageGeneral Description
059
Vacuum SwitchesOn 2.4 to 4.8 kV multi-stage capacitor systems, each stage is controlled by low maintenance Eaton “SL” AMPGARD three-pole vacuum contactors.
On 6.6 to 14.4 kV multi-stage capacitor systems, each stage is controlled by low maintenance single-pole vacuum switches.
15 kV Switched Capacitor Stage Enclosure
Vacuum ContactorsThe type SL power contactors were designed and engineered specifically for use in AMPGARD starters. They are self-supporting, compact, three-pole vacuum contactors. The SL contactor uses a solid-state control board, allow-ing the user maximum flexibility to change control voltages and dropout times in the field simply by adjusting DIP switch settings. The SL contactor is available for 2.4 –4.8 kV volts at ratings of 200A and 800A (the highest rated 800A contactor available), and contactor interruption ratings of 8500A allowing for higher levels of coordination with power fuses.
5 kV Switched Capacitor Stage Enclosure
Individual Capacitor FusingEach capacitor is externally fused with current limiting fuses. Fuses are equipped with blown fuse indication. Internally fused capacitors are also available as an option.
Fuses are rated for capacitor protection. All fuses are rated 50 kAIC.
Environmental Controls■ Exhaust fans: Exhaust fans are
provided for forced air ventilation of all enclosures as standard
■ Thermal controls: Thermostats are included as standard to help maintain an acceptable internal environment for all components
■ Space heaters: Space heaters are provided to control moisture and humidity inside all enclosures
■ Each compartment has individual thermostats for fan and space heater controls
CapacitorsLow loss, double-bushing capacitors that meet or exceed IEC 871, IEEE Std. 18 and CSA standards are supplied. Capacitors are available in delta, ungrounded wye or solidly grounded wye. The dielectric fluid is environmentally friendly, biodegrad-able, non-PCB. Capacitor units are equipped with internal discharge resistors which reduce the residual voltage to less than 50V within 5 minutes of de-energization.
Harmonic FilteringEaton’s medium voltage harmonic filter systems are designed for industrial, utility and commercial power systems to improve power factor, reduce harmonic distortion, increase system capacity and reduce I2R losses. The reactors are typically tuned to the 4.7th harmonic, to mitigate the most damaging 5th level harmonic. This is the most common harmonic produced by six pulse variable speed drives. These filters are designed to the unique specifications of each electrical distribution system. Medium voltage capacitor banks can also be configured with de-tuned anti-resonant harmonic filters, typically set to the 4.2nd harmonic. This helps avoid harmonic resonance problems, provides harmonic filter-ing, and avoids the overloading that is possible with an improperly applied filter.
Harmonic Filter Capacitor Stage Enclosure
Key Interlock SystemThe key interlock system controls the sequential operation of the load break switch (or circuit breaker) and the ground switch to permit safe entry into the capacitor system. All capacitor stage enclosures are also interlocked with the ground switch. If applicable, the customer’s upstream disconnect device can be interlocked as well. See Figure 35.6-2 for key interlock opera-tion on a typical single-line drawing.
35.6-4
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Power Factor Capacitors and Harmonic Filters
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Metal-Enclosed—Medium VoltageGeneral Description
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Blown Fuse Detection SystemA visual pop-up blown fuse detection system is provided as standard.
Control Power TransformerA fused control power transformer rated for 1.5 kVA is provided for protection, control and operation of the capacitor or harmonic filter system.
Surge Protective Device (SPD)An SPD unit is supplied standard for protection of all low voltage controls in the system.
Control PanelA door-in-door NEMA 3R swing-out control panel is provided on the main incoming structure as standard. This unit includes a viewing window so that all controls and information can be viewed without opening the panel. All low voltage controls and logic are accessible from the front of the system, and are isolated from the medium voltage section.
Included:
■ PFC power factor controller■ Multifunction digital meter/relay■ Full voltage LED lights for status,
alarm and trip indication■ Manual stage operation switches■ Any special controls requested by
the customer
Control Panel
Solid-State ControllerAutomatic metal-enclosed capacitors and harmonic filter systems come equipped with an automatic controller that switches each capacitor stage based upon power factor. The cus-tomer simply programs in the target PF to meet. The controller analyzes current PF, the size of each stage, and turns on and off stages to meet the customer’s programmed target. Power factor controller comes with the following alarms as standards:
■ Over/under compensation■ No current input■ Step fault■ Step warning■ Target power factor not reached■ Vthd harmonics■ Lthd harmonics■ Over/undervoltage
Up to 12 steps of capacitance can be designed into any system. Customers can note this feature when designing for future expansions.
CommunicationsCommunications of power factor data via RS-485. Modbus is available as an option. Communicated information from the controllers:
■ Voltage■ Current■ Target power factor■ Current power factor■ Active power■ Apparent power■ Reactive power■ Number of steps in the circuit■ All alarm status■ All counters■ Time and date
Inrush ReactorsInrush reactors are provided as standard on all switched (non-harmonic filtered) capacitor systems for protection against transients from back-to-back switching. Reactors in harmonic filtered applications provide this same protection.
BusContinuous 1/4 x 2 inch silver-plated copper bus rated 600A standard is provided throughout the line-up for easy interconnection, field installation and future expansion.
Phase Bus
Continuous 1/4 x 1 inch silver-plated copper ground bus rated 300A is provided throughout the line-up for easy interconnection, field installation and future expansion. Ground studs are available in all structures for customer connection.
Continuous Ground Bus with Pad in Each Section
CA08104001E For more information, visit: www.eaton.com/consultants
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Metal-Enclosed—Medium VoltageGeneral Description
061
Additional Standard Controls and Features■ Three-phase manual current moni-
toring, for maintenance purposes■ Unbalance alarm and unit shutdown
on all wye-connected systems■ Unit alarm and isolated fail-safe
contacts for customer use on all systems. Controls allow sufficient time (5 minutes) to allow the capacitors time to discharge before re-energization can occur
■ Temperature alarms on all harmonic filter units
■ Manual stage controls (H-O-A Selector Switches)
Optional Features
Harmonic Filter ReactorsIron core reactors provide the necessary reactance to tune the capacitor system to a desired frequency. Filters are available in 4.2H, 4.4H, 4.6H, 4.7H or other tuning frequencies. Iron core reactors are 100% copper windings, 115°C rise with 220°C insulation VPI varnish.
Harmonic Filter
Lightning ArrestersOptional heavy-duty distribution class/intermediate/station lightning arrest-ers protect the capacitor system from lightning and switching transients.
15 kV Capacitor Vacuum Switch15 kV capacitor vacuum switch is available in vacuum contactor in oil dielectric or vacuum contactor in solid dielectric. Vacuum switches are certified to ANSI C37.66 Standard.
Harmonic Manager Multifunctional Digital Meter/RelayMultifunctional harmonic manager meter/relay with current and voltage harmonic monitoring and various alarm/trip set points.
Enclosure OptionsNEMA 3R stainless steel construction for highly caustic environments.
Alarm StrobeStrobe light can be provided for visual indication of faults and alarms.
Unbalance ProtectionNeutral PT or CT-based unbalance protection for wye ungrounded capacitor configuration.
Power Cable TerminationIncoming power cable lugs are available when specified.
Time Delayed Enclosure Entry InterlockElectrically controlled solenoid time delay to allow adjustable time delay between opening of main switch and entry into capacitor section.
Heavy-Duty Capacitor UnitsCapacitor units suited to the rigors of industrial power systems for power factor harmonic filter and excessive switching applications. Heavy-duty capacitor units have 125% continuous rms overvoltage capability, 15,000A fault handling capability, 100 kA transient current withstand capability, +55°C (+131°F) ambient temperature operation and 135% peak overvoltage capability.
35.6-6
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Metal-Enclosed—Medium VoltageDimensions
062
Dimensions
Figure 35.6-1. Typical Engineered Metal-Enclosed Power Factor Correction System Dimensional Data
Shipping SplitIncoming Main Section
Mai
n S
wit
chG
rou
nd
Sw
itch
92.56(2351.0)
90.33(2294.4)
K1
K1
D1D2D3
Door InterlocksD2D2
180.80(4592.3)
Front Elevation8 Tieddown Pointsper EnclosureFront and Rearfor 1/2 Inch Hardware Rear Access Doors Optional
Base Channel40-Inches High
1.50(38.1)(Typ)
45.00(1143.0)
DangerHigh Voltage
Keep Out
Bottom PowerCable Entry
Right Side Elevation
49.10(1247.1)
NAMEPLATE
DANGER
CAUTION
DANGER
CAUTION CAUTION
DANGERDANGER
CAUTION
D1
DangerHigh Voltage
Keep Out
DangerHigh Voltage
Keep Out
DangerHigh Voltage
Keep Out
Control Panel
D3
13.50(342.9)
15.00(381.0)
13.50(342.9)
49.00(1244.6)
18.00(457.2)
21.79(553.5)
18.00(457.2)
Bottom EntryCover Plate
5.09(129.3)
9.07(230.4)
1.00(25.4)
Front Access 5 Foot Clearance
Floor Plan
Top View
Top EntryControlConduit
4.00 x 4.00
4.00(101.6)
Top EntryMV Conduit
Area19.00
(482.6)
16.00(406.4)
13.00(330.2)
15.00(381.0)
38.00(965.2)
Top PowerCable Entry
Lifting Eyes
24.00(609.6)
18.00(457.2)Customer
CableTermination(ApproximateLocation, SeeActual Unitfor ExactDimensions)
Gourd Bus1/4-inch x 1-inch
Base Channel
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Metal-Enclosed—Medium VoltageLayout Dimensions
063
Figure 35.6-2. Typical Medium Voltage Automatic Power Factor Correction Single-Line Drawing
Alarm or Trip
CapacitorCapacitorCapacitorDelta/Wye Delta/Wye Delta/Wye
Fuse
Reactor
ContactorVacuum
59
TransformerUtility
Utility Line
A-Phase 1
CT
Plant Loads
Feeder Breaker K0
B & CTap On
1-Phase
MainCPT
ControllerPower Factor
BLR-CM
K1
K1K-K Interlock
SwitchGround
Switch
K0
K-K Interlock
ControlS3S2S1
3
CT1 46 Relays
C1C
S1
S1
EnclosureDoor
C1
K-K Interlock (Optional)
AMAS
Main Breaker
35.6-8
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