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Pad-mount &substationtransformers Catalog information Eaton’s Cooper Power Systems catalog Pad-mount & substation transformers Contents Description Page Single-phase pad-mounted distribution transformers (201-20) . . . . . . . . . . . . . . . . . . . . . . . . .3 PEAK™ single-phase pad-mounted distribution transformers (201-60) . . . . . . . . . . . . . . . . . . .7 Three-phase pad-mounted compartmental type transformer (210-12) . . . . . . . . . . . . . . . . . . .11 Substation transformers-unit and open types (210-15) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .23 Three-phase pad-mounted PEAK™ transformer (210-80) . . . . . . . . . . . . . . . . . . . . . . . . . . . .35 PEAK™ substation transformers (210-90) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .47 Pad-mount & substation transformers catalog contents Technical Data Effective March 2014 Pad-mount & substation transformers catalog www.cooperpower.com Eaton’s Cooper Power Systems manufactures a complete line of single-phase pad-mounted distribution transformers. They are available in standard ratings and configurations or can be customized to meet specific needs. Single-phase transformers are available as Shrubline™, MaxiShrub™, and Ranch Runner™ transformers (shown above in order). All of these distribution transformers are oil-insulated, self- cooled, available in loop or radial feed, and are dead-front. Both the Shrubline and MaxiShrub transformer versions are manufactured with ratings from10-167 kVA. All of these transformers meet or exceed ANSI®, IEEE® and NEMA® standards. The Shrubline transformer from Eaton’s Cooper Power Systems is a Type-2 single-phase dead- front pad-mounted transformer. The low profile design blends visually with surroundings-shrubs, low hedges, and home air conditioners—making it ideal for residential applications. The MaxiShrub transformer from Eaton’s Cooper Power Systems is an ANSI® and IEEE® Type-1 single-phase dead-front pad-mounted transformer. The ANSI® and IEEE® Type-1 frontplate arrangement allows vertical feed to the primary and secondary bushings. It is ideal for single-phase industrial and residential applications where a wide range of kVAs or heavy cabling is required. The Ranch Runner transformer is manufactured with ratings from 10-50 kVA. It is Rural Utilities Services (RUS) approved, and meets all ANSI® and IEEE® requirements except frontplate arrangements. The Ranch Runner transformer is a very compact pad-mounted transformer. Its compact design makes it ideal for irrigation, oil field and residential applications. It offers an economical design which provides standard transformer capabilities in a very compact space. This unit is shipped complete with its own poly- pad suitable for shipping and installation. Eaton’s Cooper Power Systems offers poly-pads that are usable with most transformers conforming to ANSI® C57.12.25-1990 standard (Type-1 or Type- 2). This polymer pad serves as a shipping pallet as well as an installation pad. Single-phase pad-mounted distribution transformers General 201-20-1 Technical Data 201-20 Effective March 2014 Supersedes August 2012 Standard features • Meet or exceeds ANSI®, IEEE® and NEMA® standards • Meets DOE Energy Efficiency Standard 10 CFR Part 431 for distribution transformers • Tank coating exceeds IEEE Std C57.12.28™-2005 and IEEE Std C57.12.29™-2005 standards (stainless steel units only) • Full compliance with IEEE Std C57.12.28™-2005 standard enclosure integrity requirements • Laser engraved nameplate • Recessed stainless steel lifting provisions • Tank grounding provisions • Automatic pressure relief device • Electrical grade mineral oil • Hinged door with stainless steel hinge pins and barrels • Floating lock pocket for easy alignment • Captive stainless steel pentahead door locking bolt • Oil fill and drain provisions • Removable sill • Welded domed tank cover • High-voltage bushing wells - 200 A • Ground strap from X2 to tank ground • Tamper strips of noncorrosive material • Decal bushing designations • Quality System ISO 9001 certified Optional features • Various multiple voltages or taps • Externally-operable multiple voltage or tap changer switches for safe operation • Stainless steel tank, tank bottom, sill, door, and/or hardware • Service entrance in sill • Various spades and terminals available for secondary bushings • High efficiency transformers at 0.05% above DOE efficiency or higher • Stencilled bushing designations • Various other designations available, e.g., kVA, voltages, fuse number • High-voltage bushing inserts • Ground connectors • Captive stainless steel hexhead door locking bolt • RUS design Figure 1. Shrubline single-phase pad-mounted transformer. LIFTING PROVISION BAY-O-NET FUSE HIGH-VOLTAGE BUSHING GROUNDING PROVISIONS FLOATING LOCK POCKET STRIPS FOR TAMPER RESISTANCE AUTOMATIC PRESSURE RE- LIEF DEVICE GROUNDING PROVISIONS DUAL VOLTAGE SWITCH PARKING STAND LOW-VOLTAGE BUSHING NAMEPLATE REMOVABLE SILL DOOR GROUNDING STRAP 201-20-2 Technical Data 201-20 Effective March 2014 Single-phase pad-mounted distribution transformers www.cooperpower.com 1 Add 3” for 150 kV BiL 2 Includes corrugate 3 Weights, gallons of fluid and dimensions are for reference only, and not for construction. Please contact Eaton’s Cooper Power Systems for exact dimensions. Single-phase pad-mounted shrubline transformer Product Scope: kVA: 10-167 Primary Voltage: 2400-19,920 V Secondary Voltage: 120-600 V Single-phase pad-mounted maxishrub transformer Product Scope: kVA: 10-167 Primary Voltage: 2400-19,920 V Secondary Voltage: 120-600 V Single-phase pad-mounted ranch runner transformer Product Scope: kVA: 10-50 Primary Voltage: 2400-14,400 V Secondary Voltage: 120-600 V CB A 16" (19" for 150 kV BIL) H1A H1BH1B X1 X2 X3 CB 30" 16" (19" for 150 kV BIL) H1A H1B X1 X2 X3 Figure 2. Single-phase pad-mounted Shrubline. Figure 3. Single-phase pad-mounted MaxiShrub. Figure 4. Single-phase pad-mounted Ranch Runner. 1 Add 3” for 150 kV BiL 2 Includes corrugate 3 Weights, gallons of fluid and dimensions are for reference only, and not for construction. Please contact Eaton’s Cooper Power Systems for exact dimensions. 1 Weights, gallons of fluid and dimensions are for reference only, and not for construction. Please contact Eaton’s Cooper Power Systems for exact dimensions. A NP 16" B C Table 1. Typical Dimensions and Weights3 kVA Dimensions (in.)Approx. Weight (lbs.)“A”“B” “C” 10 24 29 1 33 600 15 24 29 1 33 625 25 24 29 1 33 650 37.5 24 30 1 33 700 50 24 32 1 33 750 75 24 34 1 33 1000 100 30 37 1 36 1150 167 30 47 1, 2 36 1650 Table 2. Typical Dimensions and Weights3 kVA Dimensions (in.)Approx. Weight (lbs.)“B” “C” 10 281 33-36 700 15 381 33-36 700 25 281 33-36 700 37.5 281 33-36 750 50 301 33-36 800 75 321 33-36 1000 100 341 36 1150 167 461, 2 36 1650 Typical Dimensions and Weights1 kVA Dimensions (in.)Approx. Weight (lbs.)“A”“B” “C” 10 24 28.5 21 400 15 24 28.5 21 500 25 24 32.5 21 600 37.5 24 35.5 21 650 50 24 35.5 21 720 • One piece high-voltage bushings • High-voltage bushing wells with removable studs • Envirotemp™ FR3™ fluid where less-flammable fluid is required and where superior enviromental characteristics are desired • Canadian Standards Association (CSA) and Consumer Electronics Association (CEA) designs • Special designs to meet international specifications are also available • Loadbreak switches1 • Drain/sampling valve1 • Pressure vacuum gauge1 • Liquid level gauge1 • Temperature gauge1 • Combination shipping and installation poly-pad3 1 Not available with the Ranch Runner. 2 Only available with ANSI®and/or IEEE® Type -2 front plate configurations. 3 Standard with the Ranch Runner transformer. 201-20-3 Technical Data 201-20 Effective March 2014 Single-phase pad-mounted distribution transformers www.cooperpower.com Protection options • Bay-O-Net expulsion fuse with Flapper™ valve • Bay-O-Net and partial range current-limiting fuses • Weak link fuse • Weak link and partial range current-limiting fuses • Secondary breaker with weak link1 • MagneX™ interrupter with isolation link1 • MagneX interrupter with partial range current-limiting fuse1 • Under-oil high-voltage MOV arrester1 • Low-voltage distribution-class MOV arrester, internally or externally mounted • Vacuum Fault Interrupter (VFI) for electronic breaker trip control2 1 Not available with the Ranch Runner. 2 Only available with ANSI® and/or IEEE® Type -2 front plate configurations. Single-phase VFI transformer The VFI transformer combines a conventional Eaton’s Cooper Power Systems distribution transformer with the proven Vacuum Fault Interrupter (VFI). This combination provides both voltage transformation and overcurrent protection in one space-saving, money-saving package. The single-phase pad-mounted VFI transformer with loop protection is designed to protect the loop or downstream section of a feeder, and provide proper coordination with upstream and downstream protective devices. In this configuration, when a fault occurs downstream, the VFI trips and isolates the fault, leaving the transformer load uninterrupted. The VFI breaker has an interrupting rating that far exceeds standard riser pole fuses, enabling better fault clearing coordination and thereby minimizing outage area. Because it is resettable, fault locating is simplified and outage time is reduced. Poly-pad Eaton’s Cooper Power Systems offers a poly-pad that is usable with most transformers conforming to ANSI® C57.12.25-1990 standard (Type-1 or Type-2). This polymer pad enables transformers to be shipped and installed on the same pad. Use of the poly-pad can eliminate the purchasing, inventory, and administrative costs associated with conventional concrete, polymer or fiberglass pads. Installation costs can also be significantly reduced since the transformer is pre-mounted to its pad. These forkliftable units can be transported damage free during shipping and handling. Quality control Single-phase pad-mounted distribution transformers manufactured by Eaton’s Cooper Power Systems provide outstanding performance. All transformers from Eaton’s Cooper Power Systems pass routine tests as prescribed per ANSI® and IEEE® prior to shipment. MaxiShrub ANSI® and IEEE® Type-1, Shrubline ANSI® and IEEE® Type-2 and Ranch Runner designs are in full compliance with IEEE Std C57.12.28™-2005 standard security requirements. Corrosion resistance is optimized with the utilization of a superior coating system, combined with the strategic use of stainless steel material, and a tank designed to reduce the retention of water. Our coating systems exceed IEEE Std C57.12.28™-2005 and IEEE Std C57.12.29™-2005 standards. Stainless steel components include door hinge pins and barrels, parking stands, mounting studs, and recessed lifting provisions. Door and tank covers are permanently domed to eliminate retention of water. All external parts are full-welded to eliminate corrosion caused by moisture entrapment. Bumper pads on doors reduce shipping damage. Lifting provisions are recessed to reduce damage during handling. The Quality System at Eaton’s Cooper Power Systems Transformer Products is ISO 9001 certified. Fluid options Transformers can be filled with standard electrical grade mineral insulating oil, Envirotemp™ FR3™ fluid, or other dielectric coolants. For fire-sensitive locations, Envirotemp™ FR3™ fluid, a fire resistant natural ester-based fluid is recommended. Envirotemp™ FR3™ fluid also offers the benefits of a soy oil-based dielectric coolant that is sustainable and has unique environmental and material properties in addition to increased fire safety over conventional mineral oil. Check with Eaton’s Cooper Power Systems for the availability of other dielectric coolants in single-phase, pad-mounted transformers. Eaton, Cooper Power Systems, MagneX, Ranch Runner, Shrubline, and MaxiShrub are valuable trademarks of Eaton in the U.S. and other countries. You are not permitted to use the these trademarks without the prior written consent of Eaton. IEEE Std C57.12.28™-2005 and Std C57.12.29™-2005 standards are trademarks of the Institute of Electrical and Electronics Engineers, Inc., (IEEE). This publication is not endorsed or approved by the IEEE. IEEE® is a registered trademark of the Institute of Electrical and Electronics Engineers, Inc. ANSI® is a registered trademark of American National Standards Institute. NEMA is a registered trademark of the National Electrical Manufacturers Association. Envirotemp™ and FR3™ are licensed trademarks of Cargill, Incorporated. Single-phase pad-mounted distribution transformers Eaton 1000 Eaton Boulevard Cleveland, OH 44122 United States Eaton.com Eaton’s Cooper Power Systems Business 2300 Badger Drive Waukesha, WI 53188 United States Cooperpower.com © 2014 Eaton All Rights Reserved Printed in USA Publication No. 201-20 March 2014 Technical Data 201-20 Effective March 2014 For Eaton’s Cooper Power Systems single-phase pad- mounted transformer product information call 1-877-277-4636 or visit: www.cooperpower. com. 201-20-4 PEAK™ transformers from Eaton’s Cooper Power Systems are a class of transformer technologies that are designed to improve performance in terms of kVA rating, compact dimensions, lighter weight, safety, and sustainability. Conventional transformers operate at 65 °C for the Average Winding Rise (AWR) at full load. PEAK transformers are currently available with ratings up to 75 °C AWR. PEAK transformers are ANSI® compliant, available with all current conventional transformer options and are backed by Eaton’s Cooper Power Systems quality control assurances. They are offered in either 65/75 °C slash rated or 75 °C rise rated configurations. A 65/75 °C rated PEAK transformer is comparable in size to a conventional transformer but has nameplated overload capability. A 75 °C rise rated PEAK transformer is smaller in size but delivers the same kVA as its conventional counterpart. All PEAK transformers use Envirotemp™ FR3™ dielectric fluid as their cooling fluid. Envirotemp™ FR3™ has a higher flash point than conventional transformer fluids which increases PEAK transformer’s fire protection. Envirotemp™ FR3™ fluid increases the life span of the core and fluid insulation to a point where the overall life expectancy of PEAK transformers is significantly increased. Envirotemp™ FR3™ fluid is also a green product that has nearly neutral carbon footprint. PEAK transformers are available in Shrubline™, MaxiShrub™, and Ranch Runner™ styles. All of these distribution transformers are filled with Envirotemp™ FR3™ fluid, self-cooled, available in loop or radial feed, and are dead-front. They are available in standard ratings and configurations or can be customized to meet specific needs. Transformers shown above (left to right) include the PEAK shrubline, PEAK MaxiShrub and PEAK Ranch Runner style transformers. PEAK™ single-phase pad-mounted distribution transformers General 201-60-1 Technical Data 201-60 Effective March 2014 Supersedes August 2012 Both the PEAK transformer, Shrubline and MaxiShrub styles are manufactured with ratings from 10-167 kVA. All of these transformers meet or exceed ANSI®, IEEE® and NEMA® standards. The PEAK transformer in the Shrubline style is a Type-2 single- phase dead-front pad-mounted transformer. The low profile design blends visually with surroundings-shrubs, low hedges, and home air conditioners-making it ideal for residential applications. The PEAK transformer in the MaxiShrub style is an ANSI® and IEEE® Type-1 single-phase dead-front pad-mounted transformer. The ANSI® and IEEE® Type-1 frontplate arrangement allows vertical feed to the primary and secondary bushings. It is ideal for single-phase industrial and residential applications where a wide range of kVAs or heavy cabling is required. The PEAK transformer in the Ranch Runner style is manufactured with ratings from 10-50 kVA. It is Rural Utilities Services (RUS) approved, and meets all ANSI® and IEEE® requirements except frontplate arrangements. The PEAK transformer, Ranch Runner style, is a very compact pad-mounted transformer. Its compact design makes it ideal for irrigation, oil field and residential applications. It offers an economical design which provides standard transformer capabilities in a very compact space. This unit is shipped complete with its own poly-pad suitable for shipping and installation. Cooper Power Systems offers poly-pads that are usable with most transformers conforming to ANSI C57.12.25™ -1990 standard (Type-1 or Type-2). This polymer pad serves as a shipping pallet as well as an installation pad. Standard features • Meet or exceeds ANSI/IEEE and NEMA standards • Meets DOE Energy Efficiency Standard 10 CFR Part 431 for distribution transformers • Envirotemp™ FR3™ fluid • Tank coating exceeds IEEE Std C57.12.28™-2005 and IEEE Std C57.12.29™-2005 standards (stainless steel units only) • Full compliance with IEEE Std C57.12.28™-2005 standard enclosure integrity requirements • Laser engraved nameplate • Recessed stainless steel lifting provisions • Tank grounding provisions • Automatic pressure relief device • Hinged door with stainless steel hinge pins and barrels • Floating lock pocket for easy alignment • Captive stainless steel pentahead door locking bolt • Fluid fill and drain provisions • Removable sill • Welded domed tank cover • High-voltage bushing wells - 200 A • Ground strap from X2 to tank ground • Tamper strips of noncorrosive material • Decal bushing designations • Quality System ISO 9001 certified Figure 1. PEAK single-phase pad-mounted transformer, Shrubline style. LIFTING PROVISION BAY-O-NET FUSE HIGH-VOLTAGE BUSH- ING GROUNDING PROVISIONS FLOATING LOCK POCKET STRIPS FOR TAMPER RESISTANCE AUTOMATIC PRESSURE RELIEF DEVICE GROUNDING PROVISIONS DUAL VOLTAGE SWITCH PARKING STAND LOW-VOLTAGE BUSHING NAMEPLATE REMOVABLE SILL DOOR GROUNDING STRAP 201-60-2 Technical Data 201-60 Effective March 2014 PEAK single-phase pad-mounted distribution transformers www.cooperpower.com 1 Add 3” for 150 kV BiL 2 Includes corrugate 3 Weights, gallons of fluid and dimensions are for reference only, and not for construction. Please contact Eaton’s Cooper Power Systems for exact dimensions. Shrubline-style Product Scope: kVA: 10-167 Primary Voltage: 2400-19,920 V Secondary Voltage: 120-600 V MaxiShrub-style Product Scope: kVA: 10-167 Primary Voltage: 2400-19,920 V Secondary Voltage: 120-600 V Ranch Runner-style Product Scope: kVA: 10-50 Primary Voltage: 2400-14,400 V Secondary Voltage: 120-600 V CB A 16" (19" for 150 kV BIL) H1A H1BH1B X1 X2 X3 CB 30" 16" (19" for 150 kV BIL) H1A H1B X1 X2 X3 Figure 2. PEAK single-phase pad-mount- ed transformer, Shrubline style. Figure 3. PEAK single-phase pad-mount- ed transformer, MaxiShrub style. Figure 4. PEAK single-phase pad-mount- ed transformer, Ranch Runner style. 1 Add 3” for 150 kV BiL 2 Includes corrugate 3 Weights, gallons of fluid and dimensions are for reference only, and not for construction. Please contact Eaton’s Cooper Power Systems for exact dimensions. 1 Weights, gallons of fluid and dimensions are for reference only, and not for construction. Please contact Eaton’s Cooper Power Systems for exact dimensions. A NP 16" B C Table 1. Typical Dimensions and Weights3 kVA Dimensions (in.)Approx. Weight (lbs.)“A”“B” “C” 10 24 28 1 33 580 15 24 28 1 33 610 25 24 28 1 33 630 37.5 24 29 1 33 680 50 24 31 1 33 730 75 24 33 1 33 970 100 30 36 1 36 1120 167 30 46 1, 2 36 1600 Table 2. Typical Dimensions and Weights3 kVA Dimensions (in.)Approx. Weight (lbs.)“B” “C” 10 27 1 33-36 680 15 27 1 33-36 680 25 27 1 33-36 680 37.5 27 1 33-36 730 50 29 1 33-36 780 75 31 1 33-36 970 100 33 1 36 1120 167 45 1, 2 36 1600 Table 3. Typical Dimensions and Weights1 kVA Dimensions (in.)Approx. Weight (lbs.)“A”“B” “C” 10 24 27.5 21 390 15 24 27.5 21 485 25 24 31.5 21 580 37.5 24 34.5 21 630 50 24 34.5 21 700 PEAK transformer dimensions and weights Optional features • Various multiple voltages or taps • Externally-operable multiple voltage or tap-changer switches for safe operation • Stainless steel tank, tank bottom, sill, door, and/or hardware • Service entrance in sill • Various spades and terminals available for secondary bushings • High efficiency transformers at 0.05% above U.S. Department of Energy (DOE) efficiency or higher • Stencilled bushing designations • Various other designations available, e.g., kVA, voltages, fuse number • High-voltage bushing inserts • Ground connectors • Captive stainless steel hexhead door locking bolt • Rural Utilities Service (RUS) design • One piece high-voltage bushings • High-voltage bushing wells with removable studs • Canadian Standards Association (CSA) and Consumer Electronics Association (CEA) designs • Special designs to meet international specifications are also avail- able • Loadbreak switches1 • Drain/sampling valve1 • Pressure vacuum gauge1 • Liquid level gauge1 • Temperature gauge1 • Combination shipping and installation poly-pad3 1 Not available with the PEAK transformer, Ranch Runner style . 2 Only available with ANSI® and IEEE® Type -2 front plate configurations. 3 Standard with the PEAK transformer, Ranch Runner style. 201-60-3 Technical Data 201-60 Effective March 2014 PEAK single-phase pad-mounted distribution transformers www.cooperpower.com 201-60-4 Protection options • Bay-O-Net expulsion fuse with Flapper™ valve • Bay-O-Net and partial range current-limiting fuses • Weak link fuse • Weak link and partial range current-limiting fuses • Secondary breaker with weak link1 • MagneX™ interrupter with isolation link1 • MagneX interrupter with partial range current-limiting fuse1 • Internal, under-oil VariSTAR™ surge arrester • Storm Trapper™ H.E. (HIgh Energy), low-voltage distribution-class surge arrester, internally or externally mounted1 1 Not available with the PEAK transformer, Ranch Runner-style. Poly-pad Eaton’s Cooper Power Systems offers a poly-pad that is usable with most transformers conforming to ANSI C57.12.25™-1990 standard (Type-1 or Type-2). This polymer pad enables transformers to be shipped and installed on the same pad. Use of the poly-pad can eliminate the purchasing, inventory, and administrative costs associated with conventional concrete, polymer or fiberglass pads. Installation costs can also be significantly reduced since the trans- former is pre-mounted to its pad. These forkliftable units can be transported damage free during shipping and handling. Quality control PEAK single-phase pad-mounted distribution transformers manufactured by Eaton’s Cooper Power Systems provide outstanding performance. PEAK transformers from Eaton’s Cooper Power Systems pass rou- tine tests as prescribed per ANSI® and IEEE® prior to shipment. PEAK transformers offered in the MaxiShrub style ANSI® and IEEE® Type-1, Shrubline style ANSI® and IEEE® Type-2 and Ranch Runner style designs are in full compliance with IEEE Std C57.12.28™-2005 standard security requirements. Corrosion resistance is optimized with the utilization of a superior coating system, combined with the strategic use of stainless steel material, and a tank designed to reduce the retention of water. Our coating systems exceed IEEE Std C57.12.28™-2005 and IEEE Std C57.12.29™-2005 standards stainless steel components include door hinge pins and barrels, parking stands, mounting studs, and recessed lifting provisions. Door and tank covers are permanently domed to eliminate reten- tion of water. All external parts are full-welded to eliminate corrosion caused by moisture entrapment. Bumper pads on doors reduce shipping damage. Lifting provisions are recessed to reduce damage during handling. The Quality System at Eaton’s Cooper Power Systems Transformer Products is ISO 9001 certified. Additional information B201-12076, A New Era in Transformer Design Standards B240-11013, Optimal Overcurrent Transformer Protection S201-20-1, Instructions for Mineral Oil-Filled, single-Phase Pad- mounted Distribution Transformers 201-50, PEAK Single-Phase Overhead Distribution Transformers 240-34, MagneX Single-Phase Interrupter 235-64, VariSTAR Type AZU Heavy Duty Distribution-Class Under-Oil MOV Arrester 235-16, Storm Trapper H.E. (High Energy) Loa-Voltage Distribution-Class MOV Surge Arrester 240-34, Sidewall-Mounted and Cover-Mounted Bay-O-Net Fuse Assembly 240-40, Sidewall-Mounted and Cover-Mounted Bay-O-Net Fuse Assembly 240-45, Current Sensing Bay-O-Net Fuse Link 240-46, Dual Sensing Bay-O-Net Fuse Link 240-48, Dual Element Bay-O-Net Fuse Link 240-31, Oil Immersed Current Sensing Weak Link Cartridge 240-32, Oil Immersed Dual Sensing Weak Link Cartridge Eaton, Cooper Power Systems, PEAK, VariSTAR, MagneX, Flapper, Ranch Runner, Storm Trapper, Shrubline, and MaxiShrub are valuable trademarks of Eaton in the U.S. and other countries. You are not permitted to use the these trademarks without the prior written consent of Eaton. IEEE Std C57.12.28™-2005 and Std C57.12.29™-2005 standards are trademarks of the Institute of Electrical and Electronics Engineers, Inc., (IEEE). This publication is not endorsed or approved by the IEEE. IEEE® is a registered trademark of the Institute of Electrical and Electronics Engineers, Inc. ANSI® is a registered trademark of American National Standards Institute. NEMA® is a registered trademark of the National Electrical Manufacturers Association. Envirotemp™ and FR3™ are licensed trademarks of Cargill, Incorporated. PEAK single-phase pad-mounted distribution transformers Eaton 1000 Eaton Boulevard Cleveland, OH 44122 United States Eaton.com Eaton’s Cooper Power Systems Business 2300 Badger Drive Waukesha, WI 53188 United States Cooperpower.com © 2014 Eaton All Rights Reserved Printed in USA Publication No. 201-60 Technical Data 201-60 Effective March 2014 For Eaton’s Cooper Power Systems PEAK transformer product information call 1-877-277-4636 or visit: www. cooperpower.com. Three-phase pad-mounted compartmental type transformer General At Eaton’s Cooper Power Systems, we are constantly striving to introduce new innovations to the transformer industry, bringing you the highest quality, most reliable transformers. Eaton’s Cooper Power Systems Transformer Products are ISO 9001 compliant, emphasizing process improvement in all phases of design, manufacture, and testing. In order to drive this innovation, we have invested both time and money in the Thomas A. Edison Technical Center, our premier research facility in Franksville, Wisconsin. Headquarters for the Systems Engineering Group of Eaton’s Cooper Power Systems, such revolutionary products as distribution-class UltraSIL™ Polymer-Housed Evolution™ surge arresters and Envirotemp™ FR3™ fluid have been developed at our Franksville lab. With transformer sizes ranging from 45 kVA to 12 MVA and high voltages ranging from 2400 V to 46 kV, Eaton’s Cooper Power Systems has you covered. From fabrication of the tanks and cabinets to winding of the cores and coils, to production of arresters, switches, tap changers, expulsion fuses, current limit fuses, bushings (live and dead) and molded rubber goods, Eaton’s Cooper Power Systems does it all. Eaton’s Cooper Power Systems transformers are available with electrical grade mineral oil or Envirotemp™ FR3™ fluid, a less-flammable and bio-degradable fluid. Electrical codes recognize the advantages of using Envirotemp™ FR3™ fluid both indoors and outdoors for fire sensitive applications. The bio- based fluid meets Occupational Safety and Health Administration (OSHA) and Section 450.23 NEC Requirements. 210-12-1 Technical Data 210-12 Effective August 2013 Supersedes August 2012 Figure 1. Three-phase pad-mounted compartmental type transformer. LOW- VOLTAGE BUSHING SUPPORT SILLSuitable for skidding, rolling, and jacking 5-position tap changer Ground pad and strap for x0Parking stand Liquid level gauge Nameplate laser-scribed anodized aluminum Removeable cabinet walls Drip shield Type Three Phase, 50 or 60 Hz, 65 ºC Rise (55 ºC, 55/65 ºC), 65/75 °C, 75 °C Fluid Type Mineral oil or Envirotemp™ FR3™ fluid Coil Configuration 2-winding or 4-winding or 3-winding (Low-High-Low), 3-winding (Low-Low-High) Size 45 – 12,000 kVA Primary Voltage 2,400 – 46,000 V Secondary Voltage 208Y/120 V to 14,400 V Specialty Designs Inverter/Rectifier Bridge K-Factor (up to K-19) Vacuum Fault Interrupter (VFI) UL® Listed & Labeled and Classified Factory Mutual (FM) Approved® Solar/Wind Designs Differential Protection Seismic Applications (including OSHPD) Hardened Data Center Table 1. Product Scope Bay-O-Net fusing LOW-VOLTAGE BUSHING Low-voltage molded epoxy bushings with NEMA® spades LOADBREAK SWITCH 210-12-2 Technical Data 210-12 Effective August 2013 Three-phase pad-mounted compartmental type transformer www.cooperpower.com HIGH-VOLTAGE BUSHING Table 3. Audible Sound Levels Table 4. Insulation Test Levels Self-Cooled, Two Winding kVA Rating NEMA® TR-1 Average Decibels (dB) 45-500 56 501-700 57 701-1000 58 1001-1500 60 1501-2000 61 2001-2500 62 2501-3000 63 3001-4000 64 4001-5000 65 5001-6000 66 6001-7500 67 7501-12000 68 KV Class Induced Test 180 or 400 Hz 7200 Cycle kV BIL Applied Test 60 Hz (kV)Distribution 1.2 TWICE RATED VOLTAGE 30 10 2.5 45 15 5 60 19 8.7 75 26 15 95 34 25 (grd Y Only)125 40 25 150 50 34.5 (grd Y Only)125 40 34.5 150 70 46 200 95 Table 5. Temperature Rise Ratings 0-3300 Feet (0-1000 meters) Standard Optional Unit Rating (Temperature Rise Winding)65 ºC 55 °C, 55/65 ºC, 75 °C Ambient Temperature Max 40 ºC 50 ºC Ambient Temperature 24 Hour Average 30 ºC 40 ºC Temperature Rise Hotspot 80 ºC 65 ºC Table 2. Three-Phase Ratings Three-Phase 50 or 60 Hz kVA Available1: 45, 75, 112.5, 150, 225, 300, 500, 750, 1000, 1500, 2000, 2500, 3000, 3750, 5000, 7500, 10000, 12000 1Transformers are available in the standard ratings and configurations shown or can be customized to meet specific needs. 210-12-3 Technical Data 210-12 Effective August 2013 Three-phase pad-mounted compartmental type transformer www.cooperpower.com D E B F A* I C F-3 H G PAD DIMENSIONS 3.5" I-3 CABINET/TANK DIMENSIONS Figure 2. Transformer and pad dimensions. * Add 9" for Bay-O-Net fusing. Table 7. Fluid-Filled—Copper Windings 55/65 °C Rise1 1 Weights, gallons of fluid, and dimensions are for reference only and not for construction. Please contact Eaton’s Cooper Power Systems for exact dimensions. * Add 9" for Bay-O-Net fusing. 65° Rise DEAD-FRONT—LOOP OR RADIAL FEED—BAY-O-NET FUSING OIL FILLED—COPPER WINDINGS kVA Rating OUTLINE DIMENSIONS (in.)Gallons of Fluid Approx. Total Weight (lbs.)A* B C D E F G H I 45 50 64 39 34 30 64 69 43 20 110 2,100 75 50 64 39 34 30 64 69 43 20 115 2,350 112.5 50 64 49 34 30 64 69 53 20 115 2,500 150 50 64 49 34 30 64 69 53 20 120 2,700 225 50 64 51 34 30 64 73 55 20 140 3,250 300 50 64 51 34 30 64 75 55 20 160 3,800 500 50 81 53 34 30 64 85 57 20 200 4,800 750 64 89 57 42 30 72 93 61 20 255 6,500 1000 64 89 59 42 30 72 93 63 20 300 7,800 1500 73 89 86 42 30 72 93 90 24 410 10,300 2000 73 72 87 42 30 72 76 91 24 420 11,600 2500 73 72 99 42 30 72 76 103 24 500 14,000 3000 73 84 99 46 37 84 88 103 24 720 18,700 3750 84 85 108 47 38 85 88 112 24 800 20,500 5000 84 96 108 48 48 96 100 112 24 850 25,000 7500 94 102 122 54 48 102 100 126 24 1,620 46,900 Table 6. Fluid-filled—aluminum windings 55/65 °C Rise1 65° Rise DEAD-FRONT—LOOP OR RADIAL FEED—BAY-O-NET FUSING OIL FILLED—ALUMINUM WINDINGS kVA Rating OUTLINE DIMENSIONS (in.)Gallons of Fluid Approx. Total Weight (lbs.)A* B C D E F G H I 45 50 68 39 42 26 68 72 43 20 110 2,100 75 50 68 39 42 26 68 72 43 20 115 2,250 112.5 50 68 49 42 26 68 72 53 20 120 2,350 150 50 68 49 42 26 68 72 53 20 125 2,700 225 50 72 51 42 30 72 76 55 20 140 3,150 300 50 72 51 42 30 72 76 55 20 160 3,650 500 50 89 53 42 30 72 93 57 20 190 4,650 750 64 89 57 42 30 72 93 61 20 270 6,500 1000 64 89 59 42 30 72 93 63 20 350 8,200 1500 73 89 86 42 30 72 93 90 24 410 10,300 2000 73 72 87 42 30 72 76 91 24 490 12,500 2500 73 72 99 42 30 72 76 103 24 530 14,500 3000 73 84 99 46 37 84 88 103 24 620 16,700 3750 84 85 108 47 38 85 88 112 24 660 19,300 5000 84 96 108 48 48 96 100 112 24 930 25,000 7500 94 102 122 54 48 102 100 126 24 1,580 41,900 1 Weights, gallons of fluid, and dimensions are for reference only and not for construction. Please contact Eaton’s Cooper Power Systems for exact dimensions. * Add 9" for Bay-O-Net fusing. 210-12-4 Technical Data 210-12 Effective August 2013 Three-phase pad-mounted compartmental type transformer www.cooperpower.com Standard features Connections and neutral configurations • Delta - Wye: Low voltage neutral shall be a fully insulated X0 bushing with removable ground strap. • Grounded Wye-Wye: High voltage neutral shall be internally tied to the low voltage neutral and brought out as the H0X0 bushing in the secondary compartment with a removable ground strap. • Delta-Delta: Transformer shall be provided without a neutral bushing. • Wye-Wye: High voltage neutral shall be brought out as the H0 bushing in the primary compartment and the low voltage neutral shall be brought as the X0- bushing in the secondary compartment. • Wye-Delta: High voltage neutral shall be brought out as the H0 bushing in the primary compartment. No ground strap shall be provided (line to line rated fusing is required). High and low voltage bushings • 200 A bushing wells (15, 25, and 35 kV) • 200 A, 35 kV Large Interface • 600 A (15, 25, and 35 kV) Integral bushings (dead-front) • Electrical-grade wet-process porcelain bushings (live-front) Tank/cabinet features • Bolted cover for tank access (45-1750 kVA) • Welded cover with hand hole (2000-12,000 kVA) • Three-point latching door for security • Removable sill for easy installation • Lifting lugs (4) • Stainless steel cabinet hinges and mounting studs • Steel divider between HV and LV compartment • 20” Deep cabinet (45-1000 kVA) • 24” Deep cabinet (1500-7500 kVA) • 30” Deep cabinet (34.5/19.92 kV) • Pentahead captive bolt • Stainless steel 1-hole ground pads (45-500 kVA) • Stainless steel 2-hole ground pads (750-10,000 kVA) • Parking Stands Valves/plugs • One-inch upper filling plug • One-inch drain plug (45-500 kVA) • One-inch combination drain valve with sampling device in low voltage compartment (750-12,000 kVA) • Automatic pressure relief valve Nameplate • Laser-scribed anodized aluminum nameplate Figure 3. Drain valve with sampler.Figure 4. Automatic Pressure relief valve.Figure 5. Liquid level gauge. Figure 6. External Gauges.Figure 7. External visible break with gauges. 210-12-5 Technical Data 210-12 Effective August 2013 Three-phase pad-mounted compartmental type transformer www.cooperpower.com Optional features High and low voltage bushings • 200 A (15, 25 kV) bushing inserts • 200 A (15, 25 kV) feed thru inserts • 200 A (15, 25 kV) (HTN) bushing wells with removable studs • High-voltage 600 A (15, 25, 35 kV) deadbreak one-piece bushings • Low voltage 6-, 8-holes spade • Low voltage 12-, 16-, 20-holes spade (750-2500 kVA) • Low voltage bushing supports Tank/cabinet features • Stainless steel tank base and cabinet • Stainless steel tank base, cabinet sides and sill • 100% stainless steel unit • Service entrance (2 inch) in sill or cabinet side • Touch-up paint (domestic) • Copper ground bus bar • Kirk-Key provisions • Nitrogen blanket • Bus duct cutout Special designs • Factory Mutual (FM) • UL® Classified • Triplex • High altitude • K-Factors • Step-up • Critical application • Modulation transformers • Seismic applications (including OSHPD) Switches • One, two, or three On/Off loadbreak switches • 4-position loadbreak V-blade switch or T-blade switch • Delta-wye switch • 3-position V-Blade selector switch • 100 A, 150 A, 300 A tap changers • Dual voltage switch • Visible break with VFI interrupter interlock • External visible break (15, 25, and 35 kV, up to 3 MVA) • External visible break with gauges (15, 25, and 35 kV, up to 3 MVA) Gauges and devices • Liquid level gauge (optional contacts) • Pressure vacuum gauge (optional contacts and bleeder) • Dial-type thermometer (optional alarm contacts) • Cover mounted pressure relief device • Ground connectors • Hexhead captive bolt • Breaker mounting provisions • External gauges in padlockable box Overcurrent protection • Bay-O-Net fusing (Current sensing, dual sensing, dual element, high amperage overload) • Bay-O-Net expulsion fuse in series with a partial range under-oil ELSP current limiting fuse (below 23 kV) • Cartridge fusing in series with a partial range under-oil ELSP cur- rent limiting fuse (above 23 kV) • MagneX™ interrupter with ELSP current-limiting fuse • Vacuum Fault Interrupter (VFI) • Visible break window • Fuse/switch interlock Valves/plugs • Drain/sampling valve in high-voltage compartment • Globe type upper fill valve Overvoltage protection • Distribution-, intermediate-, or station-class surge arresters • Elbow arresters (for dead-front connections) Metering/fan/control • Full metering package • Current Transformers (CTs) • Metering Socket • NEMA® 4 control box (optional stainless steel) • NEMA® 7 control box (explosion proof) • Fan Packages Testing • Customer test witness • Customer final inspection • Zero Sequence Impedance Test • Heat Run Test • ANSI® Impulse Test • Audible Sound Level Test • RIV (Corona) Test • Dissolved Gas Analysis (DGA) Test • 8- or 24-Hour Leak Test Coatings (paint) • ANSI® Bell Green • ANSI® #61 Light Gray • ANSI® #70 Sky Gray • Special paint available per request Nameplate • Stainless steel nameplate Decals and labels • High voltage warning signs • Mr. Ouch • Bi-lingual warning • DOE compliant • Customer stock code • Customer stenciling • Shock and arc flash warning decal • Non-PCB decal 210-12-6 Technical Data 210-12 Effective August 2013 Three-phase pad-mounted compartmental type transformer www.cooperpower.com Construction Core The three-legged, step-lap mitered core construction is manufac- tured using a high-quality cutting machine. For maximum efficiency, cores are precisely stacked, virtually eliminating gaps in the corner joints. Five-legged wound core or shell-type triplex designs are used for wye-wye connected transformers, and other special transformer designs. Cores are manufactured with precision cut, burr-free, grain-oriented silicon steel. Many grades of core steel are available for optimizing core loss efficiency. Coils Pad-mounted transformers feature a rectangular coil configuration with wire-wound, high-voltage primaries and sheet-wound secondaries. The design minimizes axial stress developed by short circuits and provides for magnetic balancing of tap connections. Coils are wound using the highest quality winding machines provid- ing exacting tension control and conductor placement for superior short-circuit strength and maximum efficiency. Extra mechanical strength is provided by diamond pattern, epoxy- coated paper insulation, used throughout the coil, with additional epoxy at heavy stress points. The diamond pattern distribution of the epoxy and carefully arranged ducts, provide a network of passages through which cooling fluid can freely circulate. Coil assemblies are heat-cured under calculated hydraulic pressure to ensure performance against short-circuit forces. Core and coil assemblies Pad-mounted transformer core and coil assemblies are braced with heavy steel ends to prevent the rectangular coil from distorting under short-circuit conditions. Plates are clamped in place using presses, and welded or bolted to form a solid core and coil assembly. Core and coil assemblies exceed ANSI® and IEEE® requirements for short-circuit performance. Due to the rigidity of the design, impedance shift after short-circuit is comparable to that of circular wound assemblies. Tanks Transformer tanks are designed for high strength and ease of handling, installation, and maintenance. Tanks are welded using precision-cut, hot rolled, pickled and oiled steel. They are sealed to protect the insulating fluid and other internal components. Transformer tanks are pressure-tested to withstand 7 psig without permanent distortion and 15 psig without rupture. Tank finish An advanced multi-stage finishing process exceeds IEEE Std C57.12.28™-2005 standards. The eight-stage pre-treatment process assures coating adhesion and retards corrosion. It converts tank surfaces to a nonmetallic, water insoluble iron phosphate coating. The paint method consists of two distinct layers of paint. The first is an epoxy primer (E-coat) layer which provides a barrier against moisture, salt and corrosives. The two-component urethane final coat seals and adds ultraviolet protection. Vacuum processing Transformers are dried and filled with filtered insulating fluid under vacuum, while secondary windings are energized. Coils are heated to drive out moisture, ensuring maximum penetration of fluid into the coil insulation system. Insulating fluid Transformers from Eaton’s Cooper Power Systems are available with electrical-grade mineral insulating oil or Envirotemp™ FR3™ fluid. The highly refined fluids are tested and degassed to assure a chemically inert product with minimal acid ions. Special additives minimize oxygen absorption and inhibit oxidation. To ensure high dielectric strength, the fluid is re-tested for dryness and dielectric strength, refiltered, heated, dried, and stored under vacuum before being added to the completed transformer. Eaton’s Cooper Power Systems transformers filled with Envirotemp™ FR3™ fluid enjoy unique fire safety, environmental, electrical, and chemical advantages, including insulation life extend- ing properties. A bio-based, sustainable, natural ester dielectric coolant, Envirotemp™ FR3™ fluid quickly and thoroughly biodegrades in the environment and is non-toxic per acute aquatic and oral toxicity tests. Building for Environmental and Economic Sustainability (BEES) total life cycle assessment software, utilized by the US Dept. of Commerce, reports its overall environmental performance impact score at 1/4th that reported for mineral oil. Envirotemp™ FR3™ fluid has also earned the EPA Environmental Technology Verification of transformer materials. With a fire point of 360 °C, Envirotemp™ FR3™ fluid is FM Approved® and Underwriters Laboratories (UL®) Classified “Less- Flammable” per NEC® Article 450-23, fitting the definition of a Listed Product per NEC®. Pad-mounted VFI transformer The VFI transformer combines a conventional distribution trans- former from Eaton’s Cooper Power Systems with the proven Vacuum Fault Interrupter (VFI). This combination provides both voltage trans- formation and transformer over current protection in one space sav- ing and money saving package. The pad-mounted VFI transformer protects the transformer and provides proper coordination with upstream protective devices. When a transformer fault or overload condition occurs, the VFI breaker trips and isolates the transformer. The three-phase VFI breaker has independent single-phase initiation, but is three-phase mechanically gang-tripped. A trip signal on any phase will open all three phases. This feature eliminates single-phas- ing of three phase loads. It also enables the VFI breaker to be used as a three-phase load break switch. Due to the resettable characteristics of the VFI breaker, restoring three-phase service is faster and easier. The sealed visible break window and switch is an option that can be installed to provide visible break contact. This feature provides enhanced safety and allows an operator to see if the loadbreak switch contacts are in an open or closed position before performing maintenance. Figure 8. VFI transformer with visible break. 210-12-7 Technical Data 210-12 Effective August 2013 Three-phase pad-mounted compartmental type transformer www.cooperpower.com Envirotran™ FM Approved special protection transformer The Envirotran™ transformer from Eaton’s Cooper Power Systems is FM Approved and suitable for indoor locations. Factory Mutual Research Corporation’s (FMRC) approval of the Envirotran transformer line makes it easy to comply with and verify compliance with Section 450.23, 2008 NEC, Less-Flammable Liquid-Filled Transformer Requirements for both indoor and outdoor locations. Envirotran FM Approved transformers offer the user the benefit of a transformer that can be easily specified to comply with NEC, and makes FM Safety Data Sheet compliance simpler, while also providing maximum safety and flexibility for both indoor and outdoor installations. Because the “FM Approved” logo is readily visible on the transformer and its nameplate, NEC compliance is now easily verifiable by the inspector. Envirotran FM Approved transformers are manufactured under strict compliance with FMRC Standard 3990 and are filled with FM Approved Envirotemp™ FR3™ fluid, a fire-resistant dielectric coolant. Special application transformers Data Center transformer With focus rapidly shifting from simply maximizing uptime and supporting demand to improving energy utilization, the data center industry is continually looking for methods to increase its energy efficiency and reliability. Utilizing cutting edge technology, Eaton’s Cooper Power Systems Hardened Data Center (HDC) transformers are the solution. Designed with special attention given to surge protection, HDC liquid-filled transformers provide superior performance under the harshest electrical environments. Contrary to traditional dry-type units, HDC transformers provide unsurpassed reliability, overloadability, operational life, efficiency, thermal loading and installed footprint. These Eaton’s Cooper Power Systems units have reliably served more than 100 MW of critical data center capacity for a total of more than 6,000,000 hours without any reported downtime caused by a thermal or short-circuit coil failure. The top priority in data center operations is uninterrupted service. Envirotran HDC transformers from Eaton’s Cooper Power Systems, having substantially higher levels of insulation, are less susceptible to voltage surges. Eaton’s Cooper Power Systems has experienced zero failures due to switching transients. The ANSI® and IEEE® standard impulse withstand ratings are higher for liquid-filled transformers, making them less susceptible to insulation failure. The Envirotran HDC transformer provides ultimate protection by increasing the BIL rating one level higher than standard liquid-filled transformer ratings. The cooling system of liquid-filled transformers provides better protection from severe overloads—overloads that can lead to significant loss of life or failure. Data center design typically includes multiple layers of redundancy, ensuring maximum uptime for the critical IT load. When best in class transformer manufacturing lead times are typically weeks, not days, an unexpected transformer failure will adversely affect the facility’s reliability and profitability. Therefore, the ability to determine the electrical and mechanical health of a transformer can reduce the probability of costly, unplanned downtime. Routine diagnostic tests, including key fluid properties and dissolved gas analysis (DGA), can help determine the health of a liquid-filled transformer. Although sampling is not required for safe operation, it will provide the user with valuable information, leading to scheduled repair or replacement, and minimizing the duration and expense of an outage. With a dry-type transformer, there is no reliable way to measure the health or likelihood of an impending failure. Solar transformer As a result of the increasing number of states that are adopting aggressive Renewable & Alternative Energy Portfolio Standards, the solar energy market is growing—nearly doubling year over year. Eaton’s Cooper Power Systems, a key innovator and supplier in this expanding market, is proud to offer Envirotran transformers specifically designed for Solar Photovoltaic medium-voltage applications. Eaton’s Cooper Power Systems is working with top solar photovoltaic developers, integrators and inverter manufacturers to evolve the industry and change the way we distribute power. In accordance with this progressive stance, every Eaton’s Cooper Power Systems Envirotran Solar transformer is filled with non-toxic, biodegradable Envirotemp™ FR3™ dielectric fluid, made from renewable seed oils. On top of its biodegradability, Envirotemp™ FR3™ fluid substantially extends the life of the transformer insulation, saving valuable resources. What better way to distribute green power than to use a green transformer. In fact, delaying conversion to Envirotran transformers places the burden of today’s environmental issues onto tomorrow’s generations. Eaton’s Cooper Power Systems can help you create a customized transformer, based on site specific characteristics including: temperature profile, site altitude, solar profile and required system life. Some of the benefits gained from this custom rating include: • Reduction in core losses • Improved payback on investment • Reduction in footprint • Improved fire safety • Reduced environmental impact For the solar photovoltaic industry, Eaton’s Cooper Power Systems is offering standard step up transformers and dual secondary designs, including 4-winding, 3-winding (Low-High-Low) and 3-winding (Low- Low-High) designs. Wind transformer Eaton’s Cooper Power Systems is offering custom designs for renewable energy power generation. Eaton’s Cooper Power Systems manufactures Generator Step-Up (GSU) transformers for installation at the base of every wind turbine. Additionally, grounding transformers are available for wind power generation. DOE efficiency The United States Department of Energy (DOE) has mandated efficiency values for most liquid type, medium voltage transformers. As a result, all applicable Eaton’s Cooper Power Systems transformers are designed to meet or exceed the standard efficiency values per DOE 2010; Final Ruling, 10 CFR Part 431. Underwriters Laboratories® (UL®) Listed and Labeled/ Classified The Envirotran transformer from Eaton’s Cooper Power Systems can be specified as UL® Listed & Labeled, and/or UL® Classified. Underwriters Laboratories (UL®) listing is a verification of the design and construction of the transformer to the ANSI® and IEEE® standards. UL® listing generally is the most efficient, cost-effective solution for complying with relevant state and local electrical codes. UL® Combination Classification/Listing is another way in which to comply with Section 450.23, 2008 NEC® requirements. This combines the UL® listed transformer with a UL® Classified Less- Flammable Liquid and complies with the use restrictions found within the liquid Classification. 210-12-8 Technical Data 210-12 Effective August 2013 Three-phase pad-mounted compartmental type transformer www.cooperpower.com K-Factor transformer With a drastic increase in the use of ferromagnetic devices, arc- ing devices, and electric power converters, higher frequency loads have increased significantly. This harmonic loading has the potential to generate higher heat levels within a transformer’s windings and leads by as much as 300%. Harmonic loading has the potential to induce premature failure in standard-design distribution transformers. In addition to standard UL® “K-Factor” ratings, transformers can be designed to customer-provided specifications detailing precise load- ing scenarios. Onsite measurements of magnitude and frequency, alongside harmonic analysis of the connected load can be performed by Eaton’s Cooper Power Systems engineers or a third party consul- tant. These field measurements are used to determine exact cus- tomer needs and outline the transformer specifications. Eaton’s Cooper Power Systems will design harmonic-resistant transformers that will be subjected to the unique harmonic loads. These units are designed to maintain normal temperature rise under harmonic, full-load conditions. Standard UL® “K-Factor” designs can result in unnecessary costs when the “next-highest” K-Factor must be selected for a calculated design factor. To save the customer these unnecessary costs, Eaton’s Cooper Power Systems can design the transformer to the specific harmonic spectrum used in the appli- cation. K-factor transformers from Eaton’s Cooper Power Systems are filled with mineral oil or Envirotemp™ FR3™ fluid and enjoy the added benefits of dielectric cooling such as higher efficiencies than dry-type transformers. Modulation transformer Bundled with an Outboard Modulation Unit (OMU) and a Control and Receiving Unit (CRU), a Modulation Transformer Unit (MTU) is designed to remotely achieve two way communication. The use of an MTU reduces travel time and expense versus tra- ditional meter reading performed by high voltage electricians. Additionally, with MTU it is possible to manage and evaluate energy consumption data, providing reduced metering costs and fewer ten- ant complaints. An MTU utilizes existing utility infrastructure, therefore eliminating the need to engineer and construct a dedicated communication net- work. Inverter/rectifier bridge Eaton’s Cooper Power Systems complements its range of appli- cations for transformers by offering dual winding designs. These designs are intended for connection to 12-pulse rectifier bridges. Product attributes To set us apart from other transformer manufactures, Eaton’s Cooper Power Systems includes the following guarantees with every three- phase pad-mounted transformer. Engineered to order (ETO) Providing the customer with a well developed, cost-effective solution is the number one priority at Eaton’s Cooper Power Systems. Using customer specifications, Eaton’s Cooper Power Systems will work with the customer from the beginning to the end to develop a solu- tion to fit their needs. Whether it is application specific, site specific, or a uniquely specified unit, Eaton’s Cooper Power Systems will provide transformers with the best in class value and performance, saving the customer time and money. Made in the U.S.A. Eaton’s Cooper Power Systems three-phase pad-mounted trans- formers are produced right here in the United States of America. Our manufacturing facilities are positioned strategically for rapid shipment of products. Furthermore, should the need arise, Eaton’s Cooper Power Systems has a broad network of authorized service repair shops throughout the United States. Superior paint performance Protecting transformers from nature’s elements worldwide, Eaton’s Cooper Power Systems E-coat system provides unrivaled transformer paint life, and exceeds IEEE Std C57.12.28™-2005 and IEEE Std C57.12.29™-2005 standards. In addition to the outside of the unit, each transformer receives a gray E-coat covering in the interior of the tank and cabinet, providing superior rust resistance and greater visibility during service. If the wide range of standard paint selections does not suit the cus- tomer’s needs, Eaton’s Cooper Power Systems will customize the paint color to meet their requirements. Rectangular coil design Eaton’s Cooper Power Systems utilizes a rectangular coil design. This winding technique results in a smaller overall unit footprint as well as reducing the transformer weight. The smaller unit size does not hinder the transformer performance in the least. Units have proven short circuit withstand capabilities up to 12 MVA. Testing Eaton’s Cooper Power Systems performs routing testing on each transformer manufactured including the following tests: • Insulation Power Factor: This test verifies that vacuum processing has thoroughly dried the insulation system to required limits. • Ratio, Polarity, and Phase Relation: Assures correct winding ratios and tap voltages; checks insulation of HV and LV circuits. Checks entire insulation system to verify all live-to-ground clearances. • Resistance: This test verifies the integrity of internal high-voltage and low-voltage connections; provides data for loss upgrade cal- culations. • Applied Potential: Applied to both high-voltage and low-voltage windings, this test stresses the entire insulation system to verify all live-to-ground clearances. • Induced Potential: 3.46 times normal plus 1000 volts for reduced neutral designs. • Loss Test: These design verification tests are conducted to assure that guaranteed loss values are met and that test values are within design tolerances. Tests include no-load loss and excitation Figure 9. Modular transformer. 210-12-9 Technical Data 210-12 Effective August 2013 Three-phase pad-mounted compartmental type transformer www.cooperpower.com current along with impedance voltage and load loss. • Leak Test: Pressurizing the tank to 7 psig assures a complete seal, with no weld or gasket leaks, to eliminate the possibility of moisture infiltration or fluid oxidation. Design performance tests The design performance tests include the following: • Temperature Rise: Our automated heat run facility ensures that any design changes meet ANSI® and IEEE® temperature rise criteria. • Audible Sound Level: Ensures compliance with NEMA® requirements. • Lightning Impulse: To assure superior dielectric performance, this test consists of one reduced wave, two chopped waves and one full wave in sequence, precisely simulating the harshest conditions. Thomas A Edison Research and Test Facility We are constantly striving to introduce new innovations to the transformer industry, bringing you the highest quality transformer for the lowest cost. Eaton’s Cooper Power Systems Transformer Products are ISO 9001 compliant, emphasizing process improvement in all phases of design, manufacture, and testing. We have invested millions of dollars in the Thomas A. Edison Technical Center, our premier research facility in Franksville, Wisconsin affirming our dedication to introducing new innovations and technologies to the transformer industry. Headquarters for the Systems Engineering group of Eaton’s Cooper Power Systems, this research facility is fully available for use by our customers to utilize our advanced electrical and chemical testing labs. 210-12-10 Technical Data 210-12 Effective August 2013 Three-phase pad-mounted compartmental type transformer www.cooperpower.com 210-12-11 Technical Data 210-12 Effective August 2013 Three-phase pad-mounted compartmental type transformer www.cooperpower.com Eaton, Cooper Power Systems, MagneX, UltraSIL, Evolution, and Envirotran are valuable trademarks of Eaton in the U.S. and other countries. You are not permitted to use the these trademarks without the prior written consent of Eaton. IEEE Std C57.12.28™-2005 and Std C57.12.29™-2005 standards are trademarks of the Institute of Electrical and Electronics Engineers, Inc., (IEEE). This publication is not endorsed or approved by the IEEE. IEEE® is a registered trademark of the Institute of Electrical and Electronics Engineers, Inc. ANSI® is a registered trademark of American National Standards Institute. National Electrical Code® and NEC® are registered trademarks of the National Fire Protection Association, Inc., Quincy, MA. Underwriters Laboratories® and UL® are registered trademarks of UL LLC. FM Approved®, FMRC, and Factory Mutual Research Corporation are trademarks of FM Global. Envirotemp™ and FR3™ are licensed trademarks of Cargill, Incorporated. Three-phase pad-mounted compartmental type transformer Eaton 1000 Eaton Boulevard Cleveland, OH 44122 United States Eaton.com Eaton’s Cooper Power Systems Business 2300 Badger Drive Waukesha, WI 53188 United States Cooperpower.com © 2014 Eaton All Rights Reserved Printed in USA Publication No. 210-12 August 2013 Technical Data 210-12 Effective August 2013 For Eaton’s Cooper Power Systems three-phase pad- mounted transformer product information call 1-877-277-4636 or visit: www.cooperpower. com. 210-12-12 General Eaton's Cooper Power Systems substation transformers are designed to meet a wide variety of customer specifications. Flexibility in design, combined with the highest quality manufacturing processes, equipment, and testing procedures, enable Eaton's Cooper Power Systems to provide a product optimized to the customer’s requirements. All units meet applicable American National Standards Institute (ANSI®), Institute of Electrical and Electronics Engineers, Inc. (IEEE®) and National Electrical Manufacturers Association (NEMA) standards, as well as National Electric Code® (NEC®), Department of Energy (DOE) and Canadian Standards Association (CSA) specifications. Substation transformers are available with cover- mounted bushings or sidewall-mounted bushings for connections to primary and/or secondary switchgear. Substation transformers are made with a wide range of core steels and winding conductors to optimize efficiency versus cost. Flexible core/coil and tank construction enable your dimensional requirements to be met. Eaton's Cooper Power Systems transformers are available with Envirotemp™ FR3™ fluid, a less-flammable and bio-degradable fluid, or electrical grade mineral insulating oil. Substation transformers intended for indoor use are solely filled with Envirotemp™ FR3™ fluid, which meets Occupational Safety and Health Administration (OSHA) and Section 450.23, 2008 NEC® requirements. Electrical codes recognize the advantages of using Envirotemp™ FR3™ fluid both indoors and outdoors for fire-sensitive applications. Substation transformers-unit and open types 210-15-1 Technical Data 210-15 Effective March 2014 Supersedes August 2012 Replaces 210-16 Figure 1. Unit type substation transformer with standard features and optional accessories. PRESSURE/VACUUM GAUGEAvailable with bleeder and/or alarm contacts LIQUID TEMPERATURE GAUGEFor easy monitoring of oil temperature. Available with multiple alarm contacts. FULL LENGTH CABINET LIQUID LEVEL GAUGEMonitors oil level. Available with alarm contacts. DE-ENERGIZED TAP CHANGERTap changer is externally operable. CONTROL BOXWeather-resistant, dust-proof, NEMA®-rated control box for controls and alarm contacts. GROUND PADSNon-corrosive, stainless steel or copper faced ground pads on the front and rear. DRAIN FILTERING VALVEThe combination drain and filtering valve contains a fluid sampling device.Low-voltage bushingsSidewall-mounted low-voltage molded epoxy bushings with NEMA® spades BASESuitable for skidding, rolling and jacking. COOLING RADIATORS THROATAllows connection to low-voltage gear. FILLING/FILTER PRESS CONNECTIONOne inch upper filling and filter press connection. TANK LIFTING LUGSLift hooks welded to the tank at each corner for lifting. PRESSURE RELIEF DEVICEActivated by excessive tank pressure. RAPID PRESSURE RISE RELAYMonitors rapid rise of internal pressure. NAMEPLATELaser-scribed anodized aluminum or stainless steel 210-15-2 Technical Data 210-15 Effective March 2014 Substation transformers-unit and open types www.cooperpower.com Product Scope Type Three-Phase or Single-Phase, 50 or 60 Hz, 65 ºC. 55 ºC and 55/65 ºC available. See 210-90 for 75 °C options. Fluid Type Envirotemp™ FR3™ fluid or Mineral Oil Size Three-Phase: 300 – 12,000 kVA Single-Phase: 250-5000 kVA Primary Voltage 2400 – 46,000 V Secondary Voltage 208-15,000 V (25 kV available upon special request) Specialty Designs Hardened Data Centers Grounding Transformers K-Factor ( up to K-20) Hazardous Location (Class I, Division 2, Groups B, C, and/or D) Internal Vacuum Fault Interrupter (VFI) UL Listed & Labeled/ Classified Factory Mutual (FM) Approved Solar/Wind Designs Variable Speed Drives or Rectifier Duty Mining/Skid-Mounted Applications Table 1. Three-Phase, Single Temperature kVA Ratings Three-Phase kVA Self-Cooled and Forced-Air Cooled with 65 ºC Temperature Rise 65 ºC Rise KNAN 65 ºC Rise KNAN/KNAF 500 +15% N/A 750 863 1000 1150 1500 1725 2000 2300 2500 +25% 3125 3750 4688 5000 6250 7500 9375 10000 12500 12000 +33%16000 Table 2. Impedance Voltage kVA Rating (1PH and 3PH) Impedance Voltage1 HV BIL (kV)LV 600 V and below LV above 600 V 112.5-749 ≤200 1.70-5.75 1.70-5.75 750-4999 ≤110 5.75 5.75 750-4999 150 6.75 6.5 750-4999 200 7.25 7 750-4999 250 7.75 7.5 5000-10000 150 -6.5 5000-10000 200 -7 5000-10000 250 -7.5 1 The standard tolerance is ±7.5%. otee:N Impedances listed above are per IEEE Std C57.12.36™-2007 standard. Impedances per IEEE Std C57.12.10™-2010 standard are also available. Table 3. Three-Phase, Dual Temperature kVA Ratings Three-Phase kVA Self-Cooled and Forced-Air Cooled with Dual Rated 55 °C/65 °C Temperature Rise 55 °C Rise KNAN 65 °C Rise KNAN 55°C Rise KNAN/KNAF 65 °C Rise KNAN/KNAF 500 +12% 560 N/A N/A 750 840 863 966 1000 1120 1150 1288 1500 1680 1725 1932 2000 2240 2300 2576 2500 2800 3125 3500 3750 4200 4688 5250 5000 5600 6250 7000 7500 8400 9375 10500 10000 11200 12500 14000 12000 13440 16000 17920 otee:N For transformers with a 75 degree C rating, please refer to Catalog 210-90, PEAK™ Substation Transformers. 210-15-3 Technical Data 210-15 Effective March 2014 Substation transformers-unit and open types www.cooperpower.com Table 5. Insulation Test Levels kV Class Induced Test 180 or 400 Hz 7200 Cycle kV BIL Applied Test 60 Hz (kV)Distribution Power 1.2 TWICE RATED VOLTAGE 30 45 10 2.5 45 60 15 5 60 75 19 8.7 75 95 26 15 95 110 34 25 (Grd Y Only)125 150 40 25 150 150 50 34.5 (Grd Y Only)150 200 50 34.5 200 200 70 46 250 250 95 Table 6. Temperature Rise Ratings 0-3300 feet (0-1000 meters) Standard Optional Unit Rating 65 ºC 55 ºC, 55/65 °C Maximum Ambient Temperature Rise 40 ºC 50 ºC Ambient Temperature 24 Hour Av.30 ºC 40 ºC Temperature Rise Winding¹65 ºC 55 ºC Temperature Rise Hotspot 80 ºC 65 ºC ¹ Average Rise by resistance. Refer to IEEE Std C57.12.00™-2010 standard. otee:N Derate kVA by 0.4% for each 100 M (330 ft.) that the altitude is above 1000 M (3300 ft.). Table 4. Audible Sound Levels Self-Cooled, Two Winding kVA Rating NEMA Average dB, KNAN dB, KNAF 500 56 N/A 501-700 57 67 701-1000 58 67 1001-1500 60 67 1501-2000 61 67 2001-2500 62 67 2501-3000 63 67 3001-4000 64 67 4001-5000 65 67 5001-6000 66 68 6001-7500 67 69 7501-10000 68 70 10001-12500 69 71 210-15-4 Technical Data 210-15 Effective March 2014 Substation transformers-unit and open types www.cooperpower.com Table 7. Fluid-Filled—Aluminum Windings 55/65 °C Rise1 kVA Drawing Dimensions (in.)Gallons Of Fluid Approx. Total Weight (lbs.) (With Fluid)A B C D E F G H J 500 66 51 26 52 45 45 30 60 35 300 5600 750 75 59 26 52 55 55 34 68 35 360 7000 1000 75 67 26 52 55 55 38 76 35 420 8400 1500 75 59 59 80 55 55 34 68 35 400 9500 2000 85 67 67 90 55 55 38 76 39 520 12000 2500 85 75 68 92 55 55 42 84 41 570 14600 3750 85 75 70 120 65 65 42 84 45 790 20500 5000 99 87 72 144 65 65 48 96 49 1050 26000 7500 99 95 74 148 75 75 52 104 53 1320 35000 10,000 99 103 76 152 75 75 56 112 57 1740 43000 12,000 99 103 82 164 75 75 56 112 61 1850 49000 1 Weights, gallons of fluid, and dimensions are for reference only and not for construction. Please contact Eaton's Cooper Power Systems for exact dimensions. Table 8. Fluid-Filled—Copper Windings 55/65 °C Rise1 kVA Drawing Dimensions (in.)Gallons Of Fluid Approx. Total Weight (lbs.) (With Fluid)A B C D E F G H J 500 66 51 26 52 45 45 30 60 35 310 5900 750 75 59 26 52 55 55 34 68 35 370 7400 1000 75 67 26 52 55 55 38 76 35 430 8800 1500 75 59 59 80 55 55 34 68 35 420 10000 2000 85 63 67 90 55 55 36 72 39 500 12800 2500 85 67 68 92 55 55 38 76 41 590 14900 3750 85 75 70 120 65 65 42 84 45 830 21500 5000 99 87 72 144 65 65 48 96 49 1090 28000 7500 99 95 74 148 75 75 52 104 53 1360 37000 10,000 99 103 76 152 75 75 56 112 57 1780 45000 12,000 99 103 82 164 75 75 56 112 61 1880 50000 1 Weights, gallons of fluid, and dimensions are for reference only and not for construction. Please contact Eaton's Cooper Power Systems for exact dimensions. H G C DH3 H2 H1 X3 X2 X1 X0 8 E A F B J base depth Figure 2. High-Voltage left (Segment 2) shown. High-Voltage right (Segment 4) also available. Figure 3. ANSI® segment designation. 3 1 2 4 Top View Elevation H G C DH3 H2 H1 X3 X2 X1 X0 8 E A F B J base depth 210-15-5 Technical Data 210-15 Effective March 2014 Substation transformers-unit and open types www.cooperpower.com Figure 4. Throat. Figure 5. Air terminal chamber-bottom entry. Figure 6. Full length cabinet-bottom entry. Figure 7. Flange. Figure 8. Air terminal chamber-top entry. Figure 9. Full length cabinet-top entry. 34" 24" 10" 18" 22" BUSHINGCL 38.3" FRONT VIEW (with Lift-Off Front Panel) 38" 34" 18" 9" 9" Ø 0.50" 12 HOLES 9" 9" 9" 9" 8" 15"20" 2" (Typ.) 4" BUSHINGSCL 38.3" 10" 55" 18" 22" FRONT VIEW (with Lift-Off Front Panel) CL BUSHING 4" 8"10.5" 38" 34" 10.5" 10.5" 10.5" BUSHINGSCL 40"44" 2" (TYP.) 9" 9"9"9" 42" Ø 0.50"16 HOLES 36" 38.3" FRONT VIEW (with Lift-Off Front Panel) 18" 22" CL BUSHING 24 " 55" 22" 18" CL BUSHING 10" 24" 34" 38.3" FRONT VIEW (with Lift-Off Front Panel) 210-15-6 Technical Data 210-15 Effective March 2014 Substation transformers-unit and open types www.cooperpower.com Standard features Fluid • Envirotemp™ FR3™ fluid • Electrical grade mineral insulating oil Mechanical features • De-energized tap changer, externally operable High- and low-voltage bushings • Cover or sidewall-mounted high-voltage porcelain bushings • Deadfront bushings also available • Cover or sidewall-mounted low-voltage molded epoxy or porcelain bushings with NEMA® spades Tank • Tank bases designed for skidding or rolling in any direction • Extra-heavy, welded-in-place lifting lugs and jack pads (4) • Stainless steel grounding pads (4) • Cooling radiators welded directly to the tank Gauges and devices • Dial-type thermometer • Dial-type liquid level gauge • Pressure vacuum gauge • Cover-mounted automatic pressure relief device • Pressure test connection Valves/plugs • 1” upper fill plug with filter press connection • 1” drain valve with sampler combination (2500 kVA and below) • 2” drain valve with sampler (over 2500 kVA) • 1” upper filter valve (over 2500 kVA) Coatings (Paint) • ANSI® #61 Light Gray • ANSI® #70 Sky Gray • Special paint available per request Nameplate • Laser-scribed anodized aluminum nameplate Optional features Bushing enclosure options • Throat • Flange • Top- or bottom-entry air terminal chamber • Top- or bottom-entry full length cabinet Gauges and devices • With Alarm Contacts • Dial-type thermometer (Standard with Fan Package) • Liquid level gauge • Pressure/vacuum gauge • Cover-mounted pressure relief device • Winding temperature indicator • Rapid pressure rise relay with optional seal-in panel • Nitrogen gas preservation system • Infrared (IR) Windows Valves/plugs • Pressure vacuum bleeder valve • Detachable, bolt-on radiators with valves Control boxes • Control box (NEMA® 4, NEMA® 4X, NEMA® 7) Forced-air fan control package • Forced-air fan control package includes fans, NEMA® control box, fan controls, dial-type thermometer with alarm contacts Overcurrent protection • Vacuum Fault Interrupter (VFI) • Visible Break Switch • Tri-phase with Ground Trip technology (TPG) • SCADA • Relays • Feeder Protection Relay (iDP-210) • Transformer Protection Relay (iXP-420) • Motor Operator • Bay-O-Net Fuse with Isolation Link • Bay-O-Net Fuse with Partial Range Current Limiting Fuse • Primary air disconnect switch with fuses Overvoltage protection • Distribution-, Intermediate-, or Station-class surge arresters • Elbow arresters (for dead-front connections) Tank • 304L stainless steel Figure 11. 12-pulse application with bushing supports. Figure 10. Automation solutions for remote monitoring. 210-15-7 Technical Data 210-15 Effective March 2014 Substation transformers-unit and open types www.cooperpower.com Overcurrent protection features Figure 19. LIS—interior view showing power fuses. Figure 18. LIS—switch position viewing window. Figure 15. Visible break switch moveable blades shown in the "Open" position. Figure 17. iDP/iXP relays—without and with trip/close pushbuttons. Vacuum fault interrupter (VFI) and load interrupter switch (LIS) Figure 12. VFI—inside transformer tank. Figure 13. VFI—operating handle.Figure 16. TPG control with SCADA shown. Figure 14. Motor-operator for open/close of vacuum fault interrupter (VFI). 210-15-8 Technical Data 210-15 Effective March 2014 Substation transformers-unit and open types www.cooperpower.com Construction Core The three-legged, step-lap mitered core construction is manufac- tured using a high-quality cutting machine. For maximum efficiency, cores are precisely stacked, virtually eliminating gaps in the corner joints. Five-legged wound core or shell-type triplex designs are used for wye-wye connected transformers, and other special transformer designs. Cores are manufactured with precision cut, burr-free, grain-oriented silicon steel. Many grades of core steel are available for optimizing core loss efficiency. Coils Substation transformers feature a rectangular coil configuration with wire-wound, high-voltage primaries and sheet-wound secondaries. The design minimizes axial stress developed by short circuits and provides for magnetic balancing of tap connections. Coils are wound using the highest quality winding machines providing exacting tension control and conductor placement for superior short-circuit strength and maximum efficiency. Extra mechanical strength is provided by diamond pattern, epoxy coated paper insulation, used throughout the coil, with additional epoxy at heavy stress points. The diamond pattern distribution of the epoxy and carefully arranged ducts, provide a network of passages through which cooling fluid can freely circulate. Coil assemblies are heat-cured under calculated hydraulic pressure to ensure performance against short-circuit forces. Core and coil assemblies Substation transformer core and coil assemblies are braced with heavy steel ends to prevent the rectangular coil from distorting under fault conditions. Plates are clamped in place using presses, and welded or bolted to form a solid core and coil assembly. Core and coil assemblies exceed ANSI® and IEEE® requirements for short-circuit performance. Due to the rigidity of the design, impedance shift after short-circuit is comparable to that of circular wound assemblies. Tanks Transformer tanks are designed for high strength and ease of handling, installation, and maintenance. Tanks are welded using precision-cut, hot rolled, pickled and oiled steel. They are sealed to protect the insulating fluid and other internal components. Transformer tanks are design tested to withstand 7 psig without permanent distortion and 15 psig without rupture. Tank finish An advanced multi-stage finishing process exceeds IEEE Std C57.12.28™-2005 standard. The eight-stage pre-treatment process assures coating adhesion and retards corrosion. It converts tank surfaces to a nonmetallic, water insoluble iron phosphate coating. The paint method consists of three distinct layers of paint. The first is an epoxy primer (E-coat) layer which provides a barrier against moisture, salt and corrosives. The two-component urethane final coat seals and adds ultraviolet protection. Vacuum processing Transformers are dried and filled with filtered insulating fluid under vacuum, while secondary windings are energized. Coils are heated to drive out moisture, ensuring maximum penetration of fluid into the coil insulation system. Cooling system Less flammable fluid filled-Air cooling (KNAN) is provided with transformers rated 500 kVA. A choice of KNAN/ Future KNAF (Future Forced-Air) or KNAN/KNAF (Forced-Air) cooling is provided with units rated 750 kVA and above. Insulating fluid Transformers from Eaton's Cooper Power Systems are available with Envirotemp™ FR3™ fluid or electrical grade mineral insulating oil. The highly refined fluids are tested and degassed to assure a chemically inert product with minimal acid ions. Special additives minimize oxygen absorption and inhibit oxidation. To ensure high dielectric strength, the fluid is re-tested for dryness and dielectric strength, refiltered, heated, dried, and stored under vacuum before being added to the completed transformer. Eaton's Cooper Power Systems transformers filled with Envirotemp™ FR3™ fluid enjoy unique fire safety, environmental, electrical, and chemical advantages, including insulation life extend- ing properties. A bio-based, sustainable, natural ester dielectric coolant, Envirotemp™ FR3™ fluid quickly and thoroughly biodegrades in the environment and is non-toxic per acute aquatic and oral toxicity tests. Building for Environmental and Economic Sustainability (BEES) total life cycle assessment software, utilized by the US Dept. of Commerce, reports its overall environmental performance impact score at 1/4th that reported for mineral oil. Envirotemp™ FR3™ fluid has also earned the EPA Environmental Technology Verification of transformer materials. With a fire point of 360 °C, Envirotemp™ FR3™ fluid is FM Approved® and Underwriters Laboratories® Classified “Less- Flammable” per NEC® Article 450-23, fitting the definition of a Listed Product per NEC®. 210-15-9 Technical Data 210-15 Effective March 2014 Substation transformers-unit and open types www.cooperpower.com Substation VFI transformer The VFI transformer combines a conventional distribution transformer from Eaton's Cooper Power Systems with the proven Vacuum Fault Interrupter (VFI). This combination provides both voltage transformation and transformer over current protection in one space saving and money saving package. The substation VFI transformer protects the transformer and provides proper coordination with upstream protective devices. When a transformer fault or overload condition occurs, the VFI breaker trips and isolates the transformer. The three-phase VFI breaker has independent single-phase initiation, but is three-phase mechanically gang-tripped. A trip signal on any phase will open all three phases. This feature eliminates single- phasing of three-phase loads. It also enables the VFI breaker to be used as a three-phase load break switch. Thanks to the resettable characteristics of the VFI breaker, restoring three-phase service is quick and simple. The sealed visible break window and switch is an option that can be installed to provide visible break contact. This feature provides enhanced safety and allows an operator to see if the contacts are in an open or closed position on the VFI before performing maintenance. Envirotran™ FM Approved® transformer The Envirotran™ Transformer from Eaton's Cooper Power Systems is FM Approved® and suitable for indoor locations. Factory Mutual Research Corporation’s (FMRC) approval of the Envirotran transformer line makes it easy to comply and verify compliance with Section 450.23, 2008 NEC®, Less-Flammable Liquid-Filled Transformer Requirements for both indoor and outdoor locations. FM Approved® Envirotran transformers offer the user the benefit of a transformer that can be easily specified to comply with NEC® and makes FM Safety Data Sheet compliance simpler, while also providing maximum safety and flexibility for both indoor and outdoor installations. Since the “FM Approved®” logo is readily visible on the transformer and its nameplate, NEC® compliance is now easily verifiable by the inspector. Substation Envirotran FM Approved® transformers from Eaton's Cooper Power Systems are manufactured under strict compliance with FMRC Standard 3990 and are filled with FM Approved® Envirotemp™ FR3™ fluid, a fire-resistant dielectric coolant. ABS® type approved substation transformers Eaton's Cooper Power Systems offers liquid- filled substation and pad-mounted distribution-class transformers from 0.5 to 10 MVA with type-approved certification from the American Bureau of Shipping (ABS®) for marine and off-shore applications. Specialty designs Hardened data center Envirotran Hardened Data Center (HDC) transformers are designed for critical Data Center power delivery where the absolute highest reliability is required and where mere "Industry Standard" isn't good enough! Envirotran HDC liquid filled transformers are engineered with higher electrical withstand, increased levels of insulation, and greater electrical clearance. All Envirotran HDC transformers are subjected to a more stringent series of factory tests which include a higher BIL withstand than standards dictate for its kV rating and special assurance tests for sealing integrity. Furthermore, Envirotran HDC transformers are provided with biobased Envirotemp™ FR3™ fluid that carries Factory Mutual rated fire resistance, provides extended insulation life, and ultimate biodegradability. All of these characteristics far surpass those of more traditional dry type transformers. Rest assured, Envirotran HDC will deliver the highest standard of reliability, quality, and performance available in the industry today. See Bulletin B210-10035, Data Center Solutions for details. Grounding transformers Eaton's Cooper Power Systems offers customized grounding transformers for applications where a ground path needs to be introduced to a system. Hazardous locations (Class I Division 2) Hazardous locations can be defined as areas where combustible materials are present. Eaton's Cooper Power Systems is offering UL® Listed explosion proof designs that prevent gasses from coming in contact with switching arcs. These explosion proof control boxes are made of cast aluminum and are designed to contain an arc. Underwriters Laboratories® (UL®) Listed & Labeled/ Classified The Envirotran Transformer from Eaton's Cooper Power Systems can be specified as UL® Listed & Labeled and/or UL® Classified. Underwriters Laboratories (UL®) listing is a verification of the design and construction of the transformer to the ANSI® and IEEE® standards. UL® listing generally is the most efficient, cost-effective solution for complying with relevant state and local electrical codes. UL® Combination Classification/Listing is another way in which to comply with Section 450.23, 2008 NEC® requirements. This combines the UL® listed transformer with a UL® Classified Less- Flammable Liquid and complies with the use restrictions found within the liquid Classification. K-Factor Eaton's Cooper Power Systems can design transformers with appropriate K-factor correction to mitigate the effects of non-linear harmonic loading conditions. Solar/wind designs Eaton's Cooper Power Systems is offering custom designs for renewable energy power generation. Eaton's Cooper Power Systems manufactures Generator Step-Up (GSU) transformers for use at the base of each wind turbine. Additionally, grounding transformers are available for wind power generation. For the solar photovoltaic industry, Eaton's Cooper Power Systems is offering inverter step-up transformers, as well as dual secondary designs to isolate a two- inverter input. 210-15-10 Technical Data 210-15 Effective March 2014 Substation transformers-unit and open types www.cooperpower.com Special protection features Vacuum fault interrupter (VFI) • Provides resettable over current protection using reliable vacuum bottle interrupters. • Utilizes Tri-Phase electronic controller which allows tripping of all three phases upon sensing a fault condition. • Eaton's Cooper Power Systems offers intelligent solutions for enhancing the capabilities of the Tri-phase controller. • Tri-Phase with Ground TripTechnology (TPG): Incorporates separate zero sequence circuit and settings for special applications where increased sensitivity and speed is required in detecting ground fault and phase loading imbalance conditions. Package includes standard Tri-Phase control features with an option for SCADA. • Relays • iDP-210 relay: Full featured, multi-function programmable relay includes Phase currents and Event Recorder data and trip signal to LV Circuit breaker (by others). • XP-420 relay: Provides all the protection features of iDP-210 relay with the addition of ANSI Device#87. Primary air disconnect switch • Provides economical, visible disconnect primary load break switching. • Fully coordinated and packaged with the transformer by Eaton's Cooper Power Systems. • Meets IEEE Std C37.20.3™-2013 standard, NEMA® SG-5 and related standards. • Standard features • Switch • Three-pole, two-position, gang-operated air interrupter, unfused • Standard ratings • 600 A continuous and load break; 40 kA fault close and momentary • 5 kV (60 kV BIL) or 15 kV (95 kV BIL) • Enclosure • Standardized modular self supporting, bolted design • Mechanical safety interlock prevents access when switch is closed or closing of switch when door is open. • Optional Features • 1200 A continuous and load break current rating; 61 kA fault close and momentary. Requires 1200 A copper bus option. • Key interlocks (single cylinder) for interlocking primary switch with secondary main circuit protective device. • Auxiliary switch for remote indication of primary switch position • Where high interrupting ratings and short-circuit protection are desired: current-limiting non-expulsion power fuses • Where lower interrupting ratings are adequate: • Non-disconnect power fuses • Disconnect power fuses Testing Eaton's Cooper Power Systems performs routine testing on each transformer manufactured including the following tests: • Insulation Power Factor: This test verifies that vacuum processing has thoroughly dried the insulation system to required limits. • Ratio, Polarity, and Phase Relation: Assures correct winding ratios and tap voltages; checks insulation of HV and LV circuits. Checks entire insulation system to verify all live-to-ground clearances. • Resistance: This test verifies the integrity of internal high-voltage and low-voltage connections; provides data for loss upgrade cal- culations. • Routine Impulse Tests: The most severe test, simulating a lightning surge. Applies one reduced wave and one full wave to verify the BIL rating. • Applied Potential: Applied to both high-voltage and low-voltage windings, this test stresses the entire insulation system to verify all live-to-ground clearances. • Induced Potential: 3.46 times normal plus 1000 volts for reduced neutral designs. • Loss Test: These design verification tests are conducted to assure that guaranteed loss values are met and that test values are within design tolerances. Tests include no-load loss and excitation current along with impedance voltage and load loss. • Leak Test: Pressurizing the tank to 7 psig assures a complete seal, with no weld or gasket leaks, to eliminate the possibility of moisture infiltration or oil oxidation. Design performance tests Design performance tests include the following: • Temperature Rise: Our automated heat run facility ensures that any design changes meet ANSI® and IEEE® temperature rise criteria. • Audible Sound Level: Ensures compliance with NEMA® requirements. • Lightning Impulse: To assure superior dielectric performance, this test consists of one reduced wave, two chopped waves and one full wave in sequence across the medium voltage windings, precisely simulating the harshest conditions. Optional Tests The following tests are available for purchase: • Zero sequence impedance • RIV (Corona) • Extended leak test • Dissolved gas analysis (DGA) • PCB fluid testing • Fluid dielectric strength • Detection of sulfur dioxide Thomas A Edison Technical Center We are constantly striving to introduce new innovations to the transformer industry, bringing you the highest quality transformer for the lowest cost. Eaton's Cooper Power Systems Transformer Products is ISO 9001 compliant, emphasizing process improvement in all phases of design, manufacture, and testing. We have invested millions of dollars in the Thomas A. Edison Technical Center, our premier research facility in Franksville, Wisconsin affirming our dedication to introducing new innovations and technologies to the transformer industry. Headquarters for the Systems Engineering Group of Eaton's Cooper Power Systems, this research facility is fully available for use by our customers to utilize our advanced electrical and chemical testing labs. 210-15-11 Technical Data 210-15 Effective March 2014 Substation transformers-unit and open types www.cooperpower.com Figure 20. Substation transformer with visible break technology.Figure 22. Triplex Indoor Power Center comprised of energy efficient and low noise single-phase substation transformers in a ganged setup. Figure 21. Substation transformer with customer-specific coordination and accessories.Figure 23. Class I Div 2 hazardous duty substation transformer. Eaton, Cooper Power Systems, and Envirotran are valuable trademarks of Eaton in the U.S. and other countries. You are not permitted to use the these trademarks without the prior written consent of Eaton. IEEE Std C37.20.3™-2013 and IEEE Std C57.12.36™-2007, IEEE Std C57.12.10™- 2010, IEEE Std C57.12.00™-2010 and IEEE C57.12.28™-2005 standards are trademarks of the Institute of Electrical and Electronics Engineers, Inc., (IEEE). This publication is not endorsed or approved by the IEEE. IEEE® is a registered trademark of the Institute of Electrical and Electronics Engineers, Inc. ANSI® is a registered trademark of American National Standards Institute. National Electrical Code® and NEC® are registered trademarks of the National Fire Protection Association, Inc., Quincy, MA. Underwriters Laboratories® and UL® are registered trademarks of UL LLC. FM Approved®, FMRC, and Factory Mutual Research Corporation are trademarks of FM Global. Envirotemp™ and FR3™ are licensed trademarks of Cargill, Incorporated. ABS® is a registered trademark of the American Bureau of Shipping. Substation transformers-unit and open types Eaton 1000 Eaton Boulevard Cleveland, OH 44122 United States Eaton.com Eaton’s Cooper Power Systems Business 2300 Badger Drive Waukesha, WI 53188 United States Cooperpower.com © 2014 Eaton All Rights Reserved Printed in USA Publication No. 210-15 March 2014 Technical Data 210-15 Effective March 2014 For Eaton’s Cooper Power Systems substation transformer product information call 1-877-277-4636 or visit: www.cooperpower. com. 210-15-12 General PEAK™ transformers from Eaton's Cooper Power Systems represent the next generation of transformer design, and with two distinct product offerings there is a PEAK transformer to fit your needs. The first PEAK transformer option is a 75 °C average winding rise (AWR) design that offers users a smaller and lighter footprint than today’s 65 °C AWR transformers. This design is ideal for applications with size, weight, and dimensional constraints. The second PEAK transformer option is a 65/75 °C AWR design that offers users sustained overload capacity while maintaining IEEE Std C57.91™-2011 standard per unit life requirements. This design offers customers flexibility in transformer sizing by offering the ability to accommodate future load growth without oversizing relative to current load, or the ability to meet periods of peak demand without oversizing based on continuous load. With both PEAK product offerings being comprised of thermally upgraded kraft paper and Envirotemp™ FR3™ dielectric fluid, all PEAK transformers offer customers a high temperature insulation system that is fully compatible with the new IEEE® standard for transformers using high-temperature insulation systems, IEEE Std C57.154™-2012 standard. In addition, all PEAK transformers provide the high fire point and environmental benefits of Envirotemp™ FR3™ fluid. PEAK transformers are available in various designs and configurations to match almost every application. Three-phase pad-mounted PEAK™ transformer 210-80-1 Technical Data 210-80 Effective August 2013 Supersedes February 2013 Figure 1. Three-phase pad-mounted PEAK transformer. Low-Voltage Bushing Low-voltage molded epoxy bushings with NEMA® spades Low-Voltage Bushing Support SILL Suitable for skidding, rolling, and jacking Loadbreak Switch 5-position tap changer Ground pad and strap for x0Parking stand Liquid level gauge Nameplate laser-scribed anodized aluminum Removable cabinet walls Drip shieldBay-O-Net fusing High-Voltage Bushing Type Three-Phase, 50 or 60 Hz, 75 ºC Rise and 65 °C/75 °C Fluid Type Only Envirotemp™ FR3™ fluid Coil Configuration 2-winding or 4-winding or 3-winding (Low-High-Low), 3-winding (Low-Low-High) Size 45 – 12,000 kVA Primary Voltage 2,400 – 46,000 V Secondary Voltage 208Y/120 V to 14,400 V Specialty Designs Inverter/Rectifier Bridge K-Factor (up to K-19) Solar/Wind Designs Differential Protection Seismic Applications (including OSHPD) Hardened Data Center UL® Listed & Label and Classified Factory Mutual (FM) Approved® Table 1. Product scope 210-80-2 Technical Data 210-80 Effective August 2013 Three-phase pad-mounted PEAK transformer www.cooperpower.com Table 3. Audible Sound Levels Table 4. Insulation Test Levels Self-Cooled, Two Winding kVA Rating NEMA® TR-1 Average Decibels (dB) 45-500 56 501-700 57 701-1000 58 1001-1500 60 1501-2000 61 2001-2500 62 2501-3000 63 3001-4000 64 4001-5000 65 5001-6000 66 6001-7500 67 7501-12000 68 KV Class Induced Test 180 or 400 Hz 7200 Cycle kV BIL Distribution Applied Test 60 Hz (kV) 1.2 Twice Rated Voltage 30 10 2.5 45 15 5 60 19 8.7 75 26 15 95 34 25 (grd Y Only)125 40 25 150 50 34.5 (grd Y Only)125 40 34.5 150 70 Table 5. Temperature Rise Ratings 0-3300 Feet (0-1000 meters) Unit Rating (Temperature Rise Winding) 75 ºC 65/75 °C Ambient Temperature Max. 40 ºC 40 ºC Ambient Temperature 24 Hour Average 30 ºC 30 ºC Temperature Rise Hotspot 90 ºC 90 ºC Table 2. Three-Phase Ratings Three-Phase 50 or 60 Hz kVA Available1: 45, 75, 112.5, 150, 225, 300, 500, 750, 1000, 1500, 2000, 2500, 3000, 3750, 5000, 7500, 10000, 12000 1Transformers are available in the standard ratings and configurations shown or can be customized to meet specific needs. 210-80-3 Technical Data 210-80 Effective August 2013 Three-phase pad-mounted PEAK transformer www.cooperpower.com D E B F A* I C F-3 H G PAD DIMENSIONS 3.5" I-3 CABINET/TANK DIMENSIONS Figure 2. Transformer and pad dimensions. * Add 9" for Bay-O-Net fusing. Table 7. Fluid-Filled—Aluminum Windings 75 °C Rise1 1 Weights, gallons of fluid, and dimensions are for reference only and not for construction. Please contact Eaton's Cooper Power Systems for exact dimensions. * Add 9" for Bay-O-Net fusing. Table 6. Fluid-Filled—Aluminum Windings 65 °C Rise1 1 Weights, gallons of fluid, and dimensions are for reference only and not for construction. Please contact Eaton's Cooper Power Systems for exact dimensions. * Add 9" for Bay-O-Net fusing. kVA A B C D E F G H I GALLONS WEIGHT 45 50 66 40 41 25 66 70 44 20 102 1990 75 50 66 40 41 25 66 70 44 20 102 1990 112.5 50 66 40 41 25 66 70 44 20 108 2150 150 50 66 41 41 25 66 70 45 20 115 2330 225 50 71 50 41 30 71 75 54 20 127 2810 300 50 71 50 41 30 71 75 54 20 136 3200 500 50 79 52 41 30 71 83 56 20 170 4200 750 64 82 56 41 30 71 86 60 20 242 5390 1000 64 82 59 41 30 71 86 63 20 305 7120 1500 64 76 90 42 29 71 80 94 24 356 9980 2000 72 76 90 42 29 71 80 94 24 520 11079 2500 72 79 97 42 29 71 83 101 24 550 13340 3000 84 88 98 49 29 78 92 102 24 625 14820 3750 84 88 103 49 29 78 92 107 24 671 17640 5000 84 99 108 50 30 80 103 112 24 910 21750 7500 94 100 108 48 48 96 104 112 24 1017 25100 10000 94 100 120 48 48 96 104 124 24 1500 38900 kVA A B C D E F G H I GALLONS WEIGHT 45 50 66 40 41 25 66 70 44 20 102 1990 75 50 66 40 41 25 66 70 44 20 102 1990 112.5 50 66 40 41 25 66 70 44 20 104 2150 150 50 66 40 41 25 66 70 44 20 106 2310 225 50 70 40 41 29 70 74 44 20 120 2710 300 50 70 50 41 29 70 74 54 20 132 3160 500 50 70 53 41 29 70 74 57 20 168 4090 750 64 70 57 41 29 70 74 61 20 237 5300 1000 64 70 58 41 29 70 74 62 20 284 6650 1500 64 71 64 42 29 71 75 68 24 347 9840 2000 64 71 68 42 29 71 75 72 24 393 10790 2500 64 71 91 42 29 71 75 95 24 406 13300 3000 72 71 108 42 29 71 75 112 24 559 14560 3750 72 78 102 46 32 78 82 106 24 634 17440 5000 84 85 112 47 38 85 89 116 24 755 20645 7500 84 88 120 48 40 88 92 124 24 890 23060 10000 84 88 130 48 40 88 92 134 24 990 27300 210-80-4 Technical Data 210-80 Effective August 2013 Three-phase pad-mounted PEAK transformer www.cooperpower.com Standard features Connections and neutral configurations • Delta-Wye: Low voltage neutral shall be a fully insulated X0 bushing with removable ground strap. • Grounded Wye-Wye: High voltage neutral shall be internally tied to the low voltage neutral and brought out as the H0X0 bushing in the secondary compartment with a removable ground strap. • Delta-Delta: Transformer shall be provided without a neutral bushing. • Wye-Wye: High voltage neutral shall be brought out as the H0 bushing in the primary compartment and the low voltage neutral shall be brought as the X0- bushing in the secondary compartment. • Wye-Delta: High voltage neutral shall be brought out as the H0 bushing in the primary compartment. No ground strap shall be provided (line to line rated fusing is required). High and low voltage bushings • 200 A bushing wells (15, 25, 35 kV) • 200 A, 35 kV large Interface • 600 A (15, 25, 35 kV) integral bushings (dead-front) • Electrical-grade wet-process porcelain bushings (live-front) Tank/cabinet features • Bolted cover for tank access (45-1750 kVA) • Welded cover with hand hole (2000-12,000 kVA) • Three-point latching door for security • Removable sill for easy installation • Lifting lugs (4) • Stainless steel cabinet hinges and mounting studs • Steel divider between HV and LV compartment • 20” deep cabinet (45-1000 kVA) • 24” deep cabinet (1500-7500 kVA) • 30” deep cabinet (34.5/19.92 kV) • Pentahead captive bolt • Stainless steel 1-hole ground pads (45-500 kVA) • Stainless steel 2-hole ground pads (750-10,000 kVA) • Parking stands Valves/plugs • One-inch upper filling plug • One-inch drain plug (45-500 kVA) • One-inch combination drain valve with sampling device in low voltage compartment (750-12,000 kVA) • Automatic pressure relief valve Nameplate • Laser-scribed anodized aluminum nameplate Figure 3. Drain valve with sampler.Figure 4. Automatic pressure relief valve.Figure 5. Liquid level gauge. Figure 6. External Gauges.Figure 7. External visible break with gauges. 210-80-5 Technical Data 210-80 Effective August 2013 Three-phase pad-mounted PEAK transformer www.cooperpower.com Optional features High and low voltage bushings • 200 A (15, 25 kV) bushing inserts • 200 A (15, 25 kV) feed thru inserts • 200 A (15, 25 kV) (HTN) bushing wells with removable studs • High-voltage 600 A (15, 25, 35 kV) deadbreak one-piece bushings • Low-voltage 6-, 8-holes spade • Low-voltage 12-, 16-, 20-holes spade (750-2500 kVA) • Low-voltage bushing supports Tank/cabinet features • Stainless steel tank base and cabinet • Stainless steel tank base, cabinet sides and sill • 100% stainless steel unit • Service entrance (2 inch) in sill or cabinet side • Touch-up paint (domestic) • Copper ground bus bar • Kirk-Key provisions • Nitrogen blanket • Bus duct cutout Special designs • Triplex • High Altitude • K-Factors • Step-up • Critical application • Modulation transformers • Seismic applications (including California Office of Statewide Health Planning and Development, OSHPD) Switches • 100 A, 150 A, 300 A tap-changers • Dual-voltage switch • One, two, or three On/Off loadbreak switches • 4-position loadbreak V-blade switch or T-blade switch • Delta-wye switch • 3-position V-blade selector switch • Visible break with VFI interrupter interlock • External visible break (15, 25, and 35 kV, up to 3 MVA) • External visible break with gauges (15, 25, and 35 kV, up to 3 MVA) Gauges and devices • Liquid level gauge (optional contacts) • Pressure vacuum gauge (optional contacts and bleeder) • Dial-type thermometer (optional alarm contacts) • Cover-mounted pressure relief device • Ground connectors • Hexhead captive bolt • Breaker mounting provisions • External gauges in padlockable box Overcurrent protection • Cartridge fusing in series with a partial-range under-oil ELSP current-limiting fuse (above 23 kV) • MagneX™ interrupter with ELSP current-limiting fuse • Visible break window • Fuse/switch interlock Valves/plugs • Drain/sampling valve in high-voltage compartment • Globe-type upper fill valve Overvoltage protection • Distribution-, intermediate-, or station-class surge arresters • Elbow arresters (for dead-front connections) Metering/fan/control • Full metering package • Metering socket • NEMA® 4 control box (optional stainless steel) • NEMA® 7 control box (explosion proof) • Fan packages Testing • Customer test witness • Customer final inspection • Zero sequence impedance test • Heat Run Test • ANSI® Impulse Test • Audible Sound Level Test • RIV (Corona) Test • Dissolved Gas Analysis (DGA) Test • 8- or 24-Hour Leak Test Coatings (Paint) • ANSI® bell green • ANSI® #61 light gray • ANSI® #70 sky gray • Special paint (available per request) Nameplate • Stainless steel nameplate Decals and labels • High-voltage warning signs • Mr. Ouch decal • Bi-lingual warning • DOE compliant • Customer stock code • Customer stenciling • Shock and arc flash warning decal • Non-PCB decal 210-80-6 Technical Data 210-80 Effective August 2013 Three-phase pad-mounted PEAK transformer www.cooperpower.com Construction Core The three-legged, step-lap mitered core construction is manufactured using a high-quality cutting machine. For maximum efficiency, cores are precisely stacked, virtually eliminating gaps in the corner joints. Five-legged wound core or shell-type triplex designs are used for wye-wye connected transformers, and other special transformer designs. Cores are manufactured with precision cut, burr-free, grain-oriented silicon steel. Many grades of core steel are available for optimizing core loss efficiency. Coils Pad-mounted transformers feature a rectangular coil configuration with wire-wound, high-voltage primaries and sheet-wound secondaries. The design minimizes axial stress developed by short circuits and provides for magnetic balancing of tap connections. Coils are wound using the highest quality winding machines providing exacting tension control and conductor placement for superior short-circuit strength and maximum efficiency. Extra mechanical strength is provided by diamond pattern, epoxy- coated paper insulation, used throughout the coil, with additional epoxy at heavy stress points. The diamond pattern distribution of the epoxy and carefully arranged ducts, provide a network of passages through which cooling fluid can freely circulate. Coil assemblies are heat-cured under calculated hydraulic pressure to ensure performance against short-circuit forces. Core and coil assemblies Pad-mounted transformer core and coil assemblies are braced with heavy steel ends to prevent the rectangular coil from distorting under short-circuit conditions. Plates are clamped in place using presses, and welded or bolted to form a solid core and coil assembly. Core and coil assemblies exceed ANSI® and IEEE® requirements for short-circuit performance. Due to the rigidity of the design, impedance shift after short-circuit is comparable to that of circular wound assemblies. Tanks Transformer tanks are designed for high strength and ease of handling, installation, and maintenance. Tanks are welded using precision-cut, hot rolled, pickled and oiled steel. They are sealed to protect the insulating fluid and other internal components. Transformer tanks are pressure-tested to withstand 7 psig without permanent distortion and 15 psig without rupture. Tank finish An advanced multi-stage finishing process exceeds the IEEE Std C57.12.28™-2005 standard. The eight-stage pre-treatment process assures coating adhesion and retards corrosion. It converts tank surfaces to a nonmetallic, water insoluble iron phosphate coating. The paint method consists of two distinct layers of paint. The first is an epoxy primer (E-coat) layer which provides a barrier against moisture, salt and corrosives. The two-component urethane final coat seals and adds ultraviolet protection. Vacuum processing Transformers are dried and filled with filtered insulating fluid under vacuum, while secondary windings are energized. Coils are heated to drive out moisture, ensuring maximum penetration of fluid into the coil insulation system. Insulating fluid Transformers from Eaton's Cooper Power Systems are available with Envirotemp™ FR3™ fluid. The highly refined fluids are tested and degassed to assure a chemically inert product with minimal acid ions. Special additives minimize oxygen absorption and inhibit oxidation. To ensure high dielectric strength, the fluid is re-tested for dryness and dielectric strength, refiltered, heated, dried, and stored under vacuum before being added to the completed transformer. Eaton's Cooper Power Systems transformers filled with Envirotemp™ FR3™ fluid enjoy unique fire safety, environmental, electrical, and chemical advantages, including insulation life extending properties. A bio-based, sustainable, natural ester dielectric coolant, Envirotemp™ FR3™ fluid quickly and thoroughly biodegrades in the environment and is non-toxic per acute aquatic and oral toxicity tests. Building for Environmental and Economic Sustainability (BEES) total life cycle assessment software, utilized by the US Dept. of Commerce, reports its overall environmental performance impact score at 1/4th that reported for mineral oil. Envirotemp™ FR3™ fluid has also earned the EPA Environmental Technology Verification of transformer materials. With a fire point of 360 °C, Envirotemp™ FR3™ fluid is FM Approved® and Underwriters Laboratories (UL®) Classified “Less- Flammable” per NEC® Article 450-23, fitting the definition of a Listed Product per NEC®. Special application transformers Data center transformer With focus rapidly shifting from simply maximizing uptime and supporting demand to improving energy utilization, the data center industry is continually looking for methods to increase its energy efficiency and reliability. Utilizing cutting edge technology, Eaton's Cooper Power Systems Envirotran™ Hardened Data Center (HDC) transformers are the solution. Designed with special attention given to surge protection, HDC liquid-filled transformers provide superior performance under the harshest electrical environments. Contrary to traditional dry-type units, HDC transformers provide unsurpassed reliability, overloadability, operational life, efficiency, thermal loading and installed footprint. These Eaton's Cooper Power Systems units have reliably served more than 100 MW of critical data center capacity for a total of more than 6,000,000 hours without an hour of downtime caused by a thermal or short-circuit coil failure. The top priority in data center operations is uninterrupted service. Envirotran HDC transformers from Eaton's Cooper Power Systems, having substantially higher levels of insulation, are less susceptible to voltage surges. Eaton's Cooper Power Systems has experienced zero failures due to switching transients. The ANSI® and IEEE® standard impulse withstand ratings are higher for liquid-filled transformers, making them less susceptible to insulation failure. The Envirotran HDC transformer provides ultimate protection by increasing the BIL rating one level higher than standard liquid-filled transformer ratings. The cooling system of liquid-filled transformers provides better protection from severe overloads—overloads that 210-80-7 Technical Data 210-80 Effective August 2013 Three-phase pad-mounted PEAK transformer www.cooperpower.com can lead to significant loss of life or failure. Data center design typically includes multiple layers of redundancy, ensuring maximum uptime for the critical IT load. When best in class transformer manufacturing lead times are typically weeks, not days, an unexpected transformer failure will adversely affect the facility’s reliability and profitability. Therefore, the ability to determine the electrical and mechanical health of a transformer can reduce the probability of costly, unplanned downtime. Routine diagnostic tests, including key fluid properties and dissolved gas analysis (DGA), can help determine the health of a liquid-filled transformer. Although sampling is not required for safe operation, it will provide the user with valuable information, leading to scheduled repair or replace- ment, and minimizing the duration and expense of an outage. With a dry-type transformer, there is no reliable way to measure the health or likelihood of an impending failure. Solar transformer As a result of the increasing number of states that are adopting aggressive Renewable & Alternative Energy Portfolio Standards, the solar energy market is growing—nearly doubling year over year. Eaton's Cooper Power Systems, a key innovator and supplier in this expanding market, is proud to offer Envirotran transformers specifically designed for Solar Photovoltaic medium-voltage applications. Eaton's Cooper Power Systems is working with top solar photovoltaic developers, integrators and inverter manufacturers to evolve the industry and change the way we distribute power. In accordance with this progressive stance, every Eaton's Cooper Power Systems Envirotran Solar transformer is filled with non-toxic, biodegradable Envirotemp™ FR3™ dielectric fluid, made from renewable seed oils. On top of its biodegradability, Envirotemp™ FR3™ fluid substantially extends the life of the transformer insulation, saving valuable resources. What better way to distribute green power than to use a green transformer. In fact, delaying conversion to Envirotran transformers places the burden of today’s environmental issues onto tomorrow’s generations. Eaton's Cooper Power Systems can help you create a customized transformer, based on site specific characteristics including: temperature profile, site altitude, solar profile and required system life. Some of the benefits gained from this custom rating include: • Reduction in core losses • Improved payback on investment • Reduction in footprint • Improved fire safety • Reduced environmental impact For the solar photovoltaic industry, Eaton's Cooper Power Systems is offering standard step up transformers and dual secondary designs, including 4-winding, 3-winding (Low-High-Low) and 3-winding (Low- Low-High) designs. Wind transformer Eaton's Cooper Power Systems is offering custom designs for renewable energy power generation. Eaton's Cooper Power Systems manufactures Generator Step-Up (GSU) transformers for installation at the base of every wind turbine. Additionally, grounding transformers are available for wind power generation. DOE efficiency The United States Department of Energy (DOE) has mandated efficiency values for most liquid type, medium voltage transformers. As a result, all applicable Eaton's Cooper Power Systems transformers are designed to meet or exceed the standard efficiency values per DOE 2010; Final Ruling, 10 CFR Part 431. K-Factor transformer With a drastic increase in the use of ferromagnetic devices, arcing devices, and electric power converters, higher frequency loads have increased significantly. This harmonic loading has the potential to generate higher heat levels within a transformer's windings and leads by as much as 300%. Harmonic loading has the potential to induce premature failure in standard-design distribution transformers. In addition to standard UL® "K-Factor" ratings, transformers can be designed to customer-provided specifications detailing precise loading scenarios. Onsite measurements of magnitude and frequency, alongside harmonic analysis of the connected load can be performed by Eaton's Cooper Power Systems engineers or a third party consultant. These field measurements are used to determine exact customer needs and outline the transformer specifications. Eaton's Cooper Power Systems will design harmonic-resistant transformers that will be subjected to the unique harmonic loads. These units are designed to maintain normal temperature rise under harmonic, full-load conditions. Standard UL® "K-Factor" designs can result in unnecessary costs when the "next-highest" K-Factor must be selected for a calculated design factor. To save the customer these unnecessary costs, Eaton's Cooper Power Systems can design the transformer to the specific harmonic spectrum used in the application. K-factor transformers from Eaton's Cooper Power Systems are filled with mineral oil or Envirotemp™ FR3™ fluid and enjoy the added benefits of dielectric cooling such as higher efficiencies than dry-type transformers. Modulation transformer Bundled with an Outboard Modulation Unit (OMU) and a Control and Receiving Unit (CRU), a Modulation Transformer Unit (MTU) is designed to remotely achieve two way communication. The use of an MTU reduces travel time and expense versus traditional meter reading performed by high voltage electricians. Additionally, with MTU it is possible to manage and evaluate energy consumption data, providing reduced metering costs and fewer tenant complaints. An MTU utilizes existing utility infrastructure, therefore eliminating the need to engineer and construct a dedicated communication network. Figure 8. Modular transformer. 210-80-8 Technical Data 210-80 Effective August 2013 Three-phase pad-mounted PEAK transformer www.cooperpower.com Inverter/rectifier bridge Eaton's Cooper Power Systems complements its range of applications for transformers by offering dual winding designs. These designs are intended for connection to 12-pulse rectifier bridges. Product attributes To set us apart from other transformer manufactures, Eaton's Cooper Power Systems includes the following guarantees with every three-phase pad-mounted transformer. Engineered to order (ETO) Providing the customer with a well developed, cost-effective solution is the number one priority at Eaton's Cooper Power Systems. Using customer specifications, Eaton's Cooper Power Systems will work with the customer from the beginning to the end to develop a solution to fit their needs. Whether it is application specific, site specific, or a uniquely specified unit, Eaton's Cooper Power Systems will provide transformers with the best in class value and performance, saving the customer time and money. Made in the U.S.A. Eaton's Cooper Power Systems three-phase pad-mounted transformers are produced right here in the United States of America. Our manufacturing facilities are positioned strategically for rapid shipment of products. Furthermore, should the need arise, Eaton's Cooper Power Systems has a broad network of authorized service repair shops throughout the United States. Superior paint performance Protecting transformers from nature's elements worldwide, Eaton's Cooper Power Systems E-coat system provides unrivaled transformer paint life, and exceeds IEEE Std C57.12.28™-2005 and IEEE C57.12.29™-2005 standards. In addition to the outside of the unit, each transformer receives a gray E-coat covering in the interior of the tank and cabinet, providing superior rust resistance and greater visibility during service. If the wide range of standard paint selections does not suit the customer's needs, Eaton's Cooper Power Systems will customize the paint color to meet their requirements. Rectangular coil design Eaton's Cooper Power Systems utilizes a rectangular coil design. This winding technique results in a smaller overall unit footprint as well as reducing the transformer weight. The smaller unit size does not hinder the transformer performance in the least. Units have proven short circuit withstand capabilities up to 12 MVA. Testing Eaton's Cooper Power Systems performs routing testing on each transformer manufactured including the following tests: • Insulation Power Factor: This test verifies that vacuum processing has thoroughly dried the insulation system to required limits. • Ratio, Polarity, and Phase Relation: Assures correct winding ratios and tap voltages; checks insulation of HV and LV circuits. Checks entire insulation system to verify all live-to-ground clearances. • Resistance: This test verifies the integrity of internal high-voltage and low-voltage connections; provides data for loss upgrade calculations. • Applied Potential: Applied to both high-voltage and low-voltage windings, this test stresses the entire insulation system to verify all live-to-ground clearances. • Induced Potential: 3.46 times normal plus 1000 volts for reduced neutral designs. • Loss Test: These design verification tests are conducted to assure that guaranteed loss values are met and that test values are within design tolerances. Tests include no-load loss and excitation current along with impedance voltage and load loss. • Leak Test: Pressurizing the tank to 7 psig assures a complete seal, with no weld or gasket leaks, to eliminate the possibility of moisture infiltration or fluid oxidation. Design performance tests The design performance tests include the following: • Temperature Rise: Our automated heat run facility ensures that any design changes meet ANSI® and IEEE® temperature rise cri- teria. • Audible Sound Level: Ensures compliance with NEMA® requirements. • Lightning Impulse: To assure superior dielectric performance, this test consists of one reduced wave, two chopped waves and one full wave in sequence, precisely simulating the harshest conditions. Thomas A Edison Research and Test Facility We are constantly striving to introduce new innovations to the transformer industry, bringing you the highest quality transformer for the lowest cost. Eaton's Cooper Power Systems Transformer Products are ISO 9001 compliant, emphasizing process improvement in all phases of design, manufacture, and testing. We have invested millions of dollars in the Thomas A. Edison Technical Center, our premier research facility in Franksville, Wisconsin affirming our dedication to introducing new innovations and technologies to the transformer industry. Headquarters for the Systems Engineering group of Eaton's Cooper Power Systems, this research facility is fully available for use by our customers to utilize our advanced electrical and chemical testing labs. 210-80-9 Technical Data 210-80 Effective August 2013 Three-phase pad-mounted PEAK transformer www.cooperpower.com 210-80-10 Technical Data 210-80 Effective August 2013 Three-phase pad-mounted PEAK transformer www.cooperpower.com 210-80-11 Technical Data 210-80 Effective August 2013 Three-phase pad-mounted PEAK transformer www.cooperpower.com Eaton, Cooper Power Systems, PEAK, MagneX, and Envirotran are valuable trademarks of Eaton in the U.S. and other countries. You are not permitted to use these trademarks without the prior written consent of Eaton. IEEE Std C57.12.28™-2005, IEEE Std C57.12.29™-2005, IEEE Std C57.91™-2011, and IEEE Std C57.154™-2012 standards are trademarks of the Institute of Electrical and Electronics Engineers, Inc., (IEEE). This publication is not endorsed or approved by the IEEE. IEEE® is a registered trademark of the Institute of Electrical and Electronics Engineers, Inc. ANSI® is a registered trademark of American National Standards Institute. National Electrical Code® and NEC® are registered trademarks of the National Fire Protection Association, Inc., Quincy, MA. FM Approved® is a trademark of FM Global. NEMA® is a registered trademark of the National Electrical Manufacturers Association. Envirotemp™ and FR3™ are licensed trademarks of Cargill, Incorporated. For Eaton’s Cooper Power Systems PEAK pad-mounted transformer product information call 1-877-277-4636 or visit: www.cooperpower. com. Three-phase pad-mounted PEAK transformer Eaton 1000 Eaton Boulevard Cleveland, OH 44122 United States Eaton.com Eaton’s Cooper Power Systems Business 2300 Badger Drive Waukesha, WI 53188 United States Cooperpower.com © 2013 Eaton All Rights Reserved Printed in USA Publication No. 210-80 August 2013 Technical Data 210-80 Effective August 2013 210-80-12 General Eaton's Cooper Power Systems PEAK™ Substation Transformers are a class of transformer technologies that are designed to improve performance in terms of kVA rating, compact dimensions, lighter weight, safety, and sustainability. Flexibility in design, combined with the highest quality manufacturing processes, equipment, and testing procedures, enable Eaton's Cooper Power Systems to provide a product optimized to the customer’s requirements. All units meet applicable American National Standards Institute (ANSI®), Institute of Electrical and Electronics Engineers, Inc. (IEEE®) and National Electrical Manufacturers Association (NEMA®) standards, as well as National Electric Code (NEC®), Department of Energy (DOE) and Canadian Standards Association (CSA) specifications. PEAK substation transformers are available with cover-mounted bushings or enclosed sidewall- mounted bushings for connections to primary and/or secondary switchgear. Conventional transformers operate at 65 °C for the Average Winding Rise (AWR) at full load. PEAK transformers are currently available with ratings up to 75 °C AWR. PEAK transformers are IEEE Std C57.154™-2012 standard compliant, available with all current conventional transformer options. They are offered in either 65/75 °C or 55/75 °C slash ratings or 75 °C rise rated configurations. A 65/75 °C rated PEAK transformer is comparable in size to a conventional transformer but has nameplated overload capability. A 75 °C rise rated PEAK transformer is smaller in size but delivers the same kVA as its conventional counterpart. All PEAK transformers use Envirotemp™ FR3™ dielectric fluid. Envirotemp™ FR3™ has a higher flash point than conventional transformer fluids which increases PEAK transformers fire protection. Envirotemp™ FR3™ fluid increases the life span of the transformer insulation to a point where the overall life expectancy for PEAK transformers is significantly increased. In addition, PEAK transformers meet Occupational Safety and Health Administration (OSHA) and Section 450.23, 2008 NEC® requirements. Electrical codes recognize the advantages of using Envirotemp™ FR3™ fluid both indoors and out- doors for fire-sensitive applications. PEAK™ substation transformers 210-90-1 Technical Data 210-90 Effective March 2014 Supersedes February 2013 Figure 1. PEAK substation transformer with standard features and optional accessories. PRESSURE/VACUUM GAUGEAvailable with bleeder and/or alarm contacts LIQUID TEMPERATURE GAUGEFor easy monitoring of oil temperature. Available with multiple alarm contacts. FULL LENGTH CABINET LIQUID LEVEL GAUGEMonitors oil level. Available with alarm contacts. DE-ENERGIZED TAP CHANGERTap changer is externally operable. CONTROL BOXWeather-resistant, dust-proof, NEMA®-rated control box for controls and alarm contacts. GROUND PADSNon-corrosive, stainless steel or copper faced ground pads on the front and rear. DRAIN FILTERING VALVEThe combination drain and filtering valve contains a fluid sampling device. LOW-VOLTAGE BUSHINGSSidewall-mounted low-voltage molded epoxy bushings with NEMA® spades. BASESuitable for skidding, rolling and jacking. COOLING RADIATORS THROATAllows connection to low-voltage gear. FILLING/FILTER PRESS CONNECTIONOne inch upper filling and filter press connection. TANK LIFTING LUGSLift hooks welded to the tank at each corner for lifting. PRESSURE RELIEF DEVICEActivated by excessive tank pressure. RAPID PRESSURE RISE RELAYMonitors rapid rise of internal pressure. NAMEPLATELaser-scribed anodized aluminum or stainless steel Type Three-Phase or Single-Phase, 50 or 60 Hz (65/75 °C, 55/75 °C, or 75 °C) Fluid Type Envirotemp™ FR3™ fluid Size Three-Phase: 300 – 12,000 kVA Single-Phase: 250 – 5000 kVA Primary Voltage 2400 – 46,000 V Secondary Voltage 208-15,000 V (25 kV available upon special request) Specialty Designs Hardened Data Centers Grounding Transformers K-Factor ( up to K-20) Hazardous Location (Class I, Division 2, Groups B, C, and/or D) Solar/Wind Designs Variable Speed Drives or Rectifier Duty Mining/Skid-Mounted Applications Product Scope 210-90-2 Technical Data 210-90 Effective March 2014 PEAK substation transformers www.cooperpower.com Table 1. Three-Phase, Single Temperature kVA Ratings Three-Phase kVA Self-Cooled and Forced-Air Cooled with 75 ºC Temperature Rise 75 ºC Rise KNAN 75 ºC Rise KNAN/KNAF 500 +15% N/A 750 863 1000 1150 1500 1725 2000 2300 2500 +25% 3125 3750 4688 5000 6250 7500 9375 10000 12500 12000 +33%16000 Table 3. Audible Sound Levels Self-Cooled, Two Winding kVA Rating NEMA® Average dB, KNAN dB, KNAF 500 56 N/A 501-700 57 67 701-1000 58 67 1001-1500 60 67 1501-2000 61 67 2001-2500 62 67 2501-3000 63 67 3001-4000 64 67 4001-5000 65 67 5001-6000 66 68 6001-7500 67 69 7501-10000 68 70 10001-12500 69 71 Table 5. Insulation Test Levels kV Class Induced Test 180 or 400 Hz 7200 Cycle kV BIL Applied Test 60 Hz (kV)Distribution Power 1.2 TWICE RATED VOLTAGE 30 45 10 2.5 45 60 15 5 60 75 19 8.7 75 95 26 15 95 110 34 25 (Grd Y Only)125 150 40 25 150 150 50 34.5 (Grd Y Only)150 200 50 34.5 200 200 70 46 250 250 95 Table 6. Temperature Rise Ratings 0-3300 feet (0-1000 meters) Standard Unit Rating 75 ºC, 65/75 °C, 55/75 °C Maximum Ambient Temperature Rise 40 ºC, 65/75 °C, 55/75 °C Ambient Temperature 24 Hour Av.30 ºC, 65/75 °C, 55/75 °C Temperature Rise Winding¹75 ºC, 65/75 °C, 55/75 °C ¹ Average Rise by resistance. Refer to IEEE Std C57.12.00™-2010 standard. Note: Derate kVA by 0.4% for each 100 M (330 ft.) that the altitude is above 1000 M (3300 ft.). Table 4. Three-Phase, Dual or Triple Temperature kVA Ratings1 Three-Phase kVA Self-Cooled and Forced-Air Cooled with PEAK Triple Rated 55 ºC/65 ºC/75 ºC Temperature Rise 55 ºC Rise KNAN 65 ºC Rise KNAN 75 ºC Rise KNAN 55 ºC Rise KNAN/KNAF 65 ºC Rise KNAN/KNAF 75 ºC Rise KNAN/KNAF 500 +12% 560 +9% 610 N/A N/A N/A 750 840 916 863 966 1053 1000 1120 1221 1150 1288 1404 1500 1680 1831 1725 1932 2106 2000 2240 2442 2300 2576 2808 2500 2800 3052 3125 3500 3815 3750 4200 4578 4688 5250 5723 5000 5600 6104 6250 7000 7630 7500 8400 9156 9375 10500 11445 10000 11200 12208 12500 14000 15260 12000 13440 14650 16000 17920 19533 1 If 65 °C Rise is the base rating, the 75 °C slash rating will increase the kVA capacity by 12%. Table 2. Impedance Voltage kVA Rating (1PH and 3PH) Impedance Voltage1 HV BIL (kV)LV 600 V and below LV above 600 V 112.5-749 ≤200 1.70-5.75 1.70-5.75 750-4999 ≤110 5.75 5.75 750-4999 150 6.75 6.5 750-4999 200 7.25 7 750-4999 250 7.75 7.5 5000-10000 150 -6.5 5000-10000 200 -7 5000-10000 250 -7.5 1 The standard tolerance is ±7.5%. Note: Impedances listed above are per IEEE Std C57.12.36™-2007 standard. Impedances per IEEE Std C57.12.10™-2010 standard are also available. 210-90-3 Technical Data 210-90 Effective March 2014 PEAK substation transformers www.cooperpower.com 1 Weights, gallons of fluid, and dimensions are for reference only and not for construction. Please contact Eaton's Cooper Power Systems for exact dimensions. 1 Weights, gallons of fluid, and dimensions are for reference only and not for construction. Please contact Eaton's Cooper Power Systems for exact dimensions. H G C DH3 H2 H1 X3 X2 X1 X0 8 E A F B J base depth Figure 2. High-Voltage left (Segment 2) shown. High-Voltage right (Segment 4) also available. Figure 3. ANSI® segment designation. 3 1 2 4 Top View Elevation H G C DH3 H2 H1 X3 X2 X1 X0 8 E A F B J base depth Table 2. Fluid-Filled—Aluminum Windings 75 °C Rise1 kVA Drawing Dimensions (in.) Gallons WeightABCDEFGHJ 500 66 51 26 47 45 45 29 58 35 290 5400 750 66 55 26 52 55 55 31 62 35 330 6200 1000 66 59 26 52 55 55 33 66 35 360 7200 1500 75 59 26 52 55 55 33 66 35 370 9200 2000 75 63 50 78 55 55 35 70 35 400 11000 2500 75 67 56 85 55 55 37 74 37 460 12300 3750 85 75 64 95 65 65 41 82 41 730 18500 5000 85 83 66 107 65 65 45 90 45 820 22600 7500 99 87 67 120 75 75 47 94 47 1100 31000 10000 99 95 70 142 75 75 51 102 53 1360 38000 12000 99 103 75 152 75 75 55 110 57 1550 45000 Table 3. Fluid-Filled—Copper Windings 75 °C Rise1 kVA Drawing Dimensions (in.) Gallons WeightABCDEFGHJ 500 66 47 26 47 45 45 27 54 35 280 5200 750 66 51 26 52 55 55 29 58 35 340 6300 1000 66 55 26 52 55 55 31 62 35 360 7400 1500 75 59 26 52 55 55 33 66 35 410 9700 2000 75 59 55 83 55 55 33 66 35 420 11200 2500 75 63 61 89 55 55 35 70 35 460 12800 3750 75 71 64 95 55 55 39 78 41 590 17200 5000 85 79 66 105 65 65 43 86 45 880 23700 7500 85 87 67 120 75 75 47 94 47 990 30800 10000 99 91 69 140 75 75 49 98 51 1310 37000 12000 99 95 74 150 75 75 51 102 55 1430 43000 210-90-4 Technical Data 210-90 Effective March 2014 PEAK substation transformers www.cooperpower.com Table 4. Fluid-Filled—Aluminum Windings 65/75 degree C Rise1 kVA Drawing Dimensions (in.) Gallons WeightABCDEFGHJ 500 66 51 26 45 45 45 29 58 35 300 5500 750 66 55 26 52 55 55 31 62 35 350 6600 1000 66 59 26 52 55 55 33 66 35 390 7800 1500 75 59 50 78 55 55 33 66 35 400 9400 2000 75 63 55 84 55 55 35 70 37 450 11600 2500 85 67 62 91 55 55 37 74 35 520 14000 3750 85 75 64 104 65 65 41 82 41 770 19600 5000 85 83 66 120 65 65 45 90 45 920 24000 7500 99 91 68 137 75 75 49 98 49 1260 33300 10000 99 99 70 141 75 75 53 106 53 1550 40000 12000 99 103 75 152 75 75 55 110 57 1670 47000 Table 5. Fluid-Filled—Copper Windings 65/75 degree C Rise1 kVA Drawing Dimensions (in.) Gallons WeightABCDEFGHJ 500 66 47 26 45 45 45 27 54 35 290 5600 750 66 55 26 52 55 55 31 62 35 360 7000 1000 66 59 26 52 55 55 33 66 35 390 8200 1500 75 55 50 78 55 55 31 62 35 410 9900 2000 75 63 61 89 55 55 35 70 35 450 12000 2500 75 67 61 89 55 55 37 74 35 480 13600 3750 85 75 65 110 65 65 41 82 43 740 20000 5000 85 83 66 120 65 65 45 90 45 960 25000 7500 99 91 68 137 75 75 49 98 49 1250 34000 10000 99 95 70 141 75 75 51 102 53 1520 41000 12000 99 103 75 152 75 75 55 110 57 1740 46000 1 Weights, gallons of fluid, and dimensions are for reference only and not for construction. Please contact Eaton's Cooper Power Systems for exact dimensions. 1 Weights, gallons of fluid, and dimensions are for reference only and not for construction. Please contact Eaton's Cooper Power Systems for exact dimensions. 210-90-5 Technical Data 210-90 Effective March 2014 PEAK substation transformers www.cooperpower.com Figure 4. Throat. Figure 5. Air terminal chamber-bottom entry. Figure 6. Full length cabinet-bottom entry. Figure 7. Flange. Figure 8. Air terminal chamber-top entry. Figure 9. Full length cabinet-top entry. 34" 24" 10" 18" 22" BUSHINGCL 38.3" FRONT VIEW (with Lift-Off Front Panel) 38"34" 18" 9" 9" Ø 0.50" 12 HOLES 9" 9" 9" 9" 8" 15"20" 2" (Typ.) 4" BUSHINGSCL 38.3" 10" 55" 18" 22" FRONT VIEW (with Lift-Off Front Panel) CL BUSHING 4" 8"10.5" 38" 34" 10.5" 10.5" 10.5" BUSHINGSCL 40"44" 2" (TYP.) 9" 9"9"9" 42" Ø 0.50"16 HOLES 36" 38.3" FRONT VIEW (with Lift-Off Front Panel) 18" 22" CL BUSHING 24 " 55" 22" 18" CL BUSHING 10" 24" 34" 38.3" FRONT VIEW (with Lift-Off Front Panel) 210-90-6 Technical Data 210-90 Effective March 2014 PEAK substation transformers www.cooperpower.com Standard features Fluid • Envirotemp™ FR3™ fluid Mechanical Features • De-energized tap changer, externally operable High- and Low-Voltage Bushings • Cover or sidewall-mounted high-voltage porcelain bushings • Cover or sidewall-mounted low-voltage molded epoxy bushings with NEMA® spades • Deadfront bushings also available Tank • Tank bases designed for skidding or rolling in any direction • Extra-heavy, welded-in-place lifting lugs and jack pads (4) • Stainless steel grounding pads (4) • Cooling radiators welded directly to the tank Gauges and Devices • Dial-type thermometer • Dial-type liquid level gauge • Pressure vacuum gauge • Cover-mounted automatic pressure relief device • Pressure test connection Valves/Plugs • 1” upper fill plug with filter press connection • 1” drain valve with sampler combination (2500 kVA and below) • 2” drain valve with sampler (over 2500 kVA) • 1” upper filter valve (over 2500 kVA) Coatings (Paint) • ANSI® #61 Light Gray • ANSI® #70 Sky Gray • Special paint available per request Nameplate • Laser-scribed anodized aluminum nameplate Optional features Bushing Enclosure Options • Throat • Flange • Top- or bottom-entry air terminal chamber • Top- or bottom-entry full length cabinet Gauges and Devices • With Alarm Contacts • Dial-type thermometer (Standard with Fan Package) • Liquid level gauge • Pressure/vacuum gauge • Cover-mounted pressure relief device • Winding temperature indicator • Rapid pressure rise relay with optional seal-in panel • Nitrogen gas preservation system • Infrared (IR) Windows Valves/Plugs • Pressure vacuum bleeder valve • Detachable, bolt-on radiators with valves Control Boxes • Control box (NEMA® 4, NEMA® 4X, NEMA® 7) Forced-Air Fan Control Package • Forced-air fan control package includes fans, NEMA® control box, fan controls, dial-type thermometer with alarm contacts. Overcurrent Protection • Bay-O-Net Fuse with Isolation Link • Bay-O-Net Fuse with Partial Range Current Limiting Fuse • Primary air disconnect switch with fuses Overvoltage Protection • Distribution-, Intermediate-, or Station-class surge arresters • Elbow arresters (for dead-front connections) Tank • 304L stainless steel Figure 11. 12-pulse application with bushing supports. Figure 10. Automation solutions for remote monitoring. 210-90-7 Technical Data 210-90 Effective March 2014 PEAK substation transformers www.cooperpower.com Construction Core The three-legged, step-lap mitered core construction is manufactured using a high-quality cutting machine. For maximum efficiency, cores are precisely stacked, virtually eliminating gaps in the corner joints. Five-legged wound core or shell-type triplex designs are used for wye-wye connected transformers, and other special transformer designs. Cores are manufactured with precision cut, burr-free, grain-oriented silicon steel. Many grades of core steel are available for optimizing core loss efficiency. Coils Substation transformers feature a rectangular coil configuration with wire-wound, high-voltage primaries and sheet-wound secondaries. The design minimizes axial stress developed by short circuits and provides for magnetic balancing of tap connections. Coils are wound using the highest quality winding machines providing exacting tension control and conductor placement for superior short-circuit strength and maximum efficiency. Extra mechanical strength is provided by diamond pattern, epoxy coated paper insulation, used throughout the coil, with additional epoxy at heavy stress points. The diamond pattern distribution of the epoxy and carefully arranged ducts, provide a network of passages through which cooling fluid can freely circulate. Coil assemblies are heat-cured under calculated hydraulic pressure to ensure performance against short-circuit forces. Core and coil assemblies Substation transformer core and coil assemblies are braced with heavy steel ends to prevent the rectangular coil from distorting under fault conditions. Plates are clamped in place using presses, and welded or bolted to form a solid core and coil assembly. Core and coil assemblies exceed ANSI® and IEEE® requirements for short-circuit performance. Due to the rigidity of the design, impedance shift after short-circuit is comparable to that of circular wound assemblies. Tanks Transformer tanks are designed for high strength and ease of handling, installation, and maintenance. Tanks are welded using precision-cut, hot rolled, pickled and oiled steel. They are sealed to protect the insulating fluid and other internal components. Transformer tanks are design tested to withstand 7 psig without permanent distortion and 15 psig without rupture. Tank finish An advanced multi-stage finishing process exceeds IEEE Std C57.12.28™-2005 standard. The eight-stage pre-treatment process assures coating adhesion and retards corrosion. It converts tank surfaces to a nonmetallic, water insoluble iron phosphate coating. The paint method consists of three distinct layers of paint. The first is an epoxy primer (E-coat) layer which provides a barrier against moisture, salt and corrosives. The two-component urethane final coat seals and adds ultraviolet protection. Vacuum processing Transformers are dried and filled with filtered insulating fluid under vacuum, while secondary windings are energized. Coils are heated to drive out moisture, ensuring maximum penetration of fluid into the coil insulation system. Cooling system Less flammable fluid filled-Air cooling (KNAN) cooling is provided with transformers rated 500 kVA. A choice of KNAN/ Future KNAF (Future Forced-Air) or KNAN/KNAF (Forced-Air) cooling is provided with units rated 750 kVA and above. Insulating fluid Transformers from Eaton's Cooper Power Systems are available with Envirotemp™ FR3™ fluid. The highly refined fluid is tested and degassed to assure a chemically inert product with minimal acid ions. Special additives minimize oxygen absorption and inhibit oxidation. To ensure high dielectric strength, the fluid is re-tested for dryness and dielectric strength, refiltered, heated, dried, and stored under vacuum before being added to the completed transformer. Eaton's Cooper Power Systems transformers filled with Envirotemp™ FR3™ fluid enjoy unique fire safety, environmental, electrical, and chemical advantages, including insulation life extending properties. A bio-based, sustainable, natural ester dielectric coolant, Envirotemp™ FR3™ fluid quickly and thoroughly biodegrades in the environment and is non-toxic per acute aquatic and oral toxicity tests. Building for Environmental and Economic Sustainability (BEES) total life cycle assessment software, utilized by the US Dept. of Commerce, reports its overall environmental performance impact score at 1/4th that reported for mineral oil. Envirotemp™ FR3™ fluid has also earned the EPA Environmental Technology Verification of transformer materials. 210-90-8 Technical Data 210-90 Effective March 2014 PEAK substation transformers www.cooperpower.com Underwriters Laboratories® (UL®) Listed & Labeled/ Classified The Envirotran™ Transformer from Eaton's Cooper Power Systems can be specified as UL® Listed & Labeled and/or UL® Classified. Underwriters Laboratories (UL®) listing is a verification of the design and construction of the transformer to the ANSI® and IEEE® standards. UL® listing generally is the most efficient, cost-effective solution for complying with relevant state and local electrical codes. UL® Combination Classification/Listing is another way in which to comply with Section 450.23, 2008 NEC® requirements. This combines the UL® listed transformer with a UL® Classified Less- Flammable Liquid and complies with the use restrictions found within the liquid Classification. Specialty designs Hardened data center Envirotran Hardened Data Center (HDC) transformers are designed for critical Data Center power delivery where the absolute highest reliability is required and where mere "Industry Standard" isn't good enough! HDC liquid filled transformers are engineered with higher electrical withstand, increased levels of insulation, and greater electrical clearance. All HDC transformers are subjected to a more stringent series of factory tests which include a higher BIL withstand than standards dictate for its kV rating and special assurance tests for sealing integrity. Furthermore, Envirotran HDC transformers are provided with bio-based Envirotemp™ FR3™ fluid that carries FM Approved® rated fire resistance, provides extended insulation life, and ultimate biodegradability. All of these characteristics far surpass those of more traditional dry type transformers. Rest assured, Envirotran HDC will deliver the highest standard of reliability, quality, and performance available in the industry today. See Bulletin B210- 10035, Data Center Solutions for details. Grounding transformers Eaton's Cooper Power Systems offers customized grounding transformers for applications where a ground path needs to be introduced to a system. Hazardous Locations (Class I Division 2) Hazardous locations can be defined as areas where combustible materials are present. Eaton's Cooper Power Systems is offering UL® Listed explosion proof designs that prevent gasses from com- ing in contact with switching arcs. These explosion proof control boxes are made of cast aluminum and are designed to contain an arc. K-Factor Eaton's Cooper Power Systems is designing transformers with appropriate K-factor correction to mitigate the effects of non-linear harmonic loading conditions. Solar/Wind Designs Eaton's Cooper Power Systems is offering custom designs for renewable energy power generation. Eaton's Cooper Power Systems manufactures Generator Step-Up (GSU) transformers for use at the base of each wind turbine. Additionally, grounding transformers are available for wind power generation. For the solar photovoltaic industry, Eaton's Cooper Power Systems is offering inverter step-up transformers, as well as dual secondary designs to isolate a two- inverter input. Special protection features Primary Air Disconnect Switch • Provides economical, visible disconnect primary load break switching. • Fully coordinated and packaged with the transformer by Eaton's Cooper Power Systems. • Meets IEEE Std C37.20.3™-2013 standard, NEMA® SG-5 and related standards. • Standard features • Switch • Three-pole, two-position, gang-operated air interrupter, unfused • Standard ratings • 600 A continuous and load break; 40 kA fault close and momentary • 5 kV (60 kV BIL) or 15 kV (95 kV BIL) • Enclosure • Standardized modular self supporting, bolted design • Mechanical safety interlock prevents access when switch is closed or closing of switch when door is open. • Optional features • 1200 A continuous and load break current rating; 61 kA fault close and momentary. Requires 1200 A copper bus option. • Key interlocks (single cylinder) for interlocking primary switch with secondary main circuit protective device. • Auxiliary switch for remote indication of primary switch position • Where high interrupting ratings and short-circuit protection are desired: current-limiting non- expulsion power fuses • Where lower interrupting ratings are adequate: • Non-disconnect power fuses • Disconnect power fuses 210-90-9 Technical Data 210-90 Effective March 2014 PEAK substation transformers www.cooperpower.com Testing Eaton's Cooper Power Systems performs routine testing on each transformer manufactured including the following tests: • Insulation Power Factor: This test verifies that vacuum processing has thoroughly dried the insulation system to required limits. • Ratio, Polarity, and Phase Relation: Assures correct winding ratios and tap voltages; checks insulation of HV and LV circuits. Checks entire insulation system to verify all live-to-ground clearances. • Resistance: This test verifies the integrity of internal high-voltage and low-voltage connections; provides data for loss upgrade calculations. • Routine Impulse Tests: The most severe test, simulating a lightning surge. Applies one reduced wave and one full wave to verify the BIL rating. • Applied Potential: Applied to both high-voltage and low-voltage windings, this test stresses the entire insulation system to verify all live-to-ground clearances. • Induced Potential: 3.46 times normal plus 1000 volts for reduced neutral designs. • Loss Test: These design verification tests are conducted to assure that guaranteed loss values are met and that test values are within design tolerances. Tests include no-load loss and excitation current along with impedance voltage and load loss. • Leak Test: Pressurizing the tank to 7 psig assures a complete seal, with no weld or gasket leaks, to eliminate the possibility of moisture infiltration or oil oxidation. Design Performance Tests Design performance tests include the following: • Temperature Rise: Our automated heat run facility ensures that any design changes meet ANSI® and IEEE® temperature rise criteria. • Audible Sound Level: Ensures compliance with NEMA® requirements. • Lightning Impulse: To assure superior dielectric performance, this test consists of one reduced wave, two chopped waves and one full wave in sequence across the medium voltage windings, precisely simulating the harshest conditions. Optional Tests The following tests are available for purchase: • Zero sequence impedance • RIV (Corona) • Extended leak test • Dissolved gas analysis (DGA) • PCB fluid testing • Fluid dielectric strength • Detection of sulfur dioxide Thomas A Edison Technical Center We are constantly striving to introduce new innovations to the transformer industry, bringing you the highest quality transformer for the lowest cost. Eaton's Cooper Power Systems Transformer Products is ISO 9001 compliant, emphasizing process improvement in all phases of design, manufacture, and testing. We have invested millions of dollars in the Thomas A. Edison Technical Center, our premier research facility in Franksville, Wisconsin affirming our dedication to introducing new innovations and technologies to the transformer industry. Headquarters for the Systems Engineering Group of Eaton's Cooper Power Systems, this research facility is fully available for use by our customers to utilize our advanced electrical and chemical testing labs. 210-90-10 Technical Data 210-90 Effective March 2014 PEAK substation transformers www.cooperpower.com Figure 12. Substation transformer with visible break technology. Figure 14. Triplex Indoor Power Center comprised of energy efficient and low noise single-phase substation transformers in a ganged setup. Figure 13. Substation transformer with customer-specific coor- dination and accessories. Figure 15. Class 1 Div 2 hazardous duty substation trans- former. 210-90-11 Technical Data 210-90 Effective March 2014 PEAK substation transformers www.cooperpower.com Eaton, Cooper Power Systems, PEAK, and Envirotran are valuable trademarks of Eaton in the U.S. and other countries. You are not per- mitted to use the these trademarks without the prior written consent of Eaton. IEEE Std C57.154™-2012. Std C57.12.00™- 2010, and IEEE Std C57.12.28™-2005 standards are trademarks of the Institute of Electrical and Electronics Engineers, Inc., (IEEE). This publication is not endorsed or approved by the IEEE. IEEE® is a registered trademark of the Institute of Electrical and Electronics Engineers, Inc. National Electrical Code® and NEC® are registered trademarks of the National Fire Protection Association, Inc., Quincy, MA. ANSI® is a registered trademark of American National Standards Institute. NEMA® is a registered trademark of the National Electrical Manufacturers Association. Envirotemp™ and FR3™ are licensed trademarks of Cargill, Incorporated. Underwriters Laboratories® and UL® are registered trademarks of UL LLC. FM Approved is a registered trademark of FM Global. PEAK substation transformers Eaton 1000 Eaton Boulevard Cleveland, OH 44122 United States Eaton.com Eaton’s Cooper Power Systems Business 2300 Badger Drive Waukesha, WI 53188 United States Cooperpower.com © 2014 Eaton All Rights Reserved Printed in USA Publication No. 210-90 March 2014 Technical Data 210-90 Effective March 2014 For Eaton’s Cooper Power Systems PEAK substation transformer product information call 1-877-277-4636 or visit: www.cooperpower. com. 210-90-12 Eaton and Cooper Power Systems are valuable trademarks of Eaton in the U .S . and other countries . You are not permitted to use these trademarks without the prior written consent of Eaton . All other trademarks are property of their respective owners . Eaton 1000 Eaton Boulevard Cleveland, OH 44122 United States Eaton .com Eaton’s Cooper Power Systems Business 2300 Badger Drive Waukesha, WI 53186 United States CooperPower .com © 2014 Eaton All Rights Reserved Printed in USA