Part # P152 Rev 1 (01/13/10) Page 1
Users are cautioned that maintenance and repairs must be performed by a Garland authorized service agent using genuine Garland replacement parts . Garland will have no obligation with respect to any product that has been improperly installed, adjusted, operated or not maintained in accordance with national and local codes or installation instructions provided with the product, or any product that has its serial number defaced, obliterated or removed, or which has been modified or repaired using unauthorized parts or by unauthorized service agents . For a list of authorized service agents, please refer to the Garland web site at http://www .garland-group .com . The information contained herein, (including design and parts specifications), may be superseded and is subject to change without notice .
GARLAND COMMERCIAL INDUSTRIES, LLC185 East South StreetFreeland, Pennsylvania 18224Phone: (570) 636-1000Fax: (570) 636-3903
GARLAND COMMERCIAL RANGES, LTD .1177 Kamato Road, Mississauga, Ontario L4W 1X4CANADAPhone: 905-624-0260Fax: 905-624-5669
Part # P152 Rev 1 (01/13/10) © 2004 Garland Commercial Industries, LLC
FOR YOUR SAFETY:DO NOT STORE OR USE GASOLINE
OR OTHER FLAMMABLE VAPORS OR LIQUIDS IN THE VICINITY OF
THIS OR ANY OTHERAPPLIANCE
WARNING:IMPROPER INSTALLATION, ADJUSTMENT, ALTERATION, SERVICE OR MAINTENANCE CAN CAUSE PROPERTY DAMAGE, INJURY,
OR DEATH. READ THE INSTALLATION, OPERATING AND MAINTENANCE
INSTRUCTIONS THOROUGHLY BEFORE INSTALLING OR
SERVICING THIS EQUIPMENT
INSTALLATION AND SERVICE MANUAL
GARLAND S680, SS680 & SU680 SERIES RESTAURANT
RANGES AND SALAMANDERS
PLEASE READ ALL SECTIONS OF THIS MANUAL AND RETAIN FOR FUTURE REFERENCE .
THIS PRODUCT HAS BEEN CERTIFIED AS COMMERCIAL COOKING EQUIPMENT AND MUST BE INSTALLED BY PROFESSIONAL PERSONNEL AS SPECIFIED .
INSTALLATION AND ELECTRICAL CONNECTION MUST COMPLY WITH CURRENT CODES:IN CANADA - THE CANADIAN ELECTRICAL CODE PART 1 AND / OR LOCAL CODES .IN USA – THE NATIONAL ELECTRICAL CODE ANSI / NFPA – CURRENT EDITION .
ENSURE ELECTRICAL SUPPLY CONFORMS WITH ELECTRICAL CHARACTERISTICS SHOWN ON THE RATING PLATE .
Part # P152 Rev 1 (01/13/10)Page 2
IMPORTANT INFORMATION
WARNING:This product contains chemicals known to the state of California to cause cancer and/or birth defects or other reproductive harm. Installation and servicing of this product could expose you to airborne particles of glass wool/ceramic fibers. Inhalation of airborne particles of glass wool/ceramic fibers is known to the state of California to cause cancer.
Part # P152 Rev 1 (01/13/10) Page 3
TABLE OF CONTENTS
IMPORTANT INFORMATION . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2
DIMENSIONS AND SPECIFICATIONS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4
INTRODUCTION . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 8Uncrating . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .8Rating Plate . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .8Safety Precautions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .8
INSTALLATION . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9Clearances . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .9Positioning . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .9Legs . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .9Casters . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .9Ventilation Air . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .9Installation Of Range Mount Salamander . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .9Assembly of Backguard/High Shelf . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .10Code Requirements . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .10Electrical Supply . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .10Single And Three Phase Connection . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .10Commissioning . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .10Thermostat Calibration . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .11
REPLACEMENT OF PARTS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 12Door Switch . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .12Fan Cook/Cool Down Switch . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .12Thermostat . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .12Heat On Lamp . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .12Miscellaneous . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .12Motor . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .13
TROUBLE SHOOTING . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 13Griddle Diagnostics . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .13Hot Top or Open Tubular Diagnostics . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .13Sealed Hotplate Diagnostics . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .13Oven Diagnostics . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .14RC Oven Diagnostics . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .14
APPENDIX . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 15Wiring Diagrams and Loading Charts . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .15
Part # P152 Rev 1 (01/13/10)Page 4
DIMENSIONS AND SPECIFICATIONS, MODELS S,SU & SS684
7-1/2"[190mm]
REAR CABLEENTRANCE 3-1/2"
[829mm]
24-1/2"[622mm]
34-1/4"[870mm]
41"[1041mm]
9-1/4"[235mm]
31-3/4"[806mm]
6"[152mm]
60"[1524mm]
REAR CABLEENTRANCE
15-1/4"[387mm]
29"[737mm]
3"[76mm]
4-3/4"[121 mm]
W/OPTIONALRC MOTOR
6"[152mm]
OPTIONALHIGH SHELF
13-5/8"[346mm]
57-5/8"[1465mm]
Model Total Kw Load
Nominal Amps
208V/1Ph 208V/3 Ph 240V/1Ph 240V/3 Ph 400 V/3N 415V/3N
S684* 27 127 76 110 66 — —
SS/SU684** 33 157 97 136 84 60 58
SS/SU684RC2*** 34 N/A 100 142 87 60 58
Salamander Broiler****
7 N/A***** 23 29 20 4 4
*(All purpose tubular elements) **(Sealed -top elements, Model # SS684 in North America) *** Maximum on any 684 series range .****Add when wired to range base (SER/SUER-680) *****Note: For 208V/1phase the salamander cannot be wired into the range .
Exterior Dimensions Oven Interior Dimensions
Height Width Depth† Height Width Depth
47" (1194mm) 60" (1524mm) 34-1/4" (870mm) 13-1/2" (343mm) 26-1/4” (667mm) 22" (559mm)
† With Front Rail Note: Shipping Cubic Feet is 84 .5 .
Ratings:Tubular Elements - Small 6-1/2" (165mm) - 1250 Watts . Large 8-1/2" (216mm) - 2100 WattsSealed Elements - Small 7” (180mm) - 2000 Watts . Large 8-5/8” (220mm) - 2600 WattsHot Plate - (per 12"/305mm section) - Front and Rear sections each 1675 Watts, (3350 Watts total)Griddle - (per 12"/305mm section) - 3350 WattsStandard Oven - 4 .85 kWConvection Oven - 5 .0 kW (plus 0 .5kW fan motor, for 5 .5kW total)
NOTE: Many local codes exist, and it is the responsibility of the Owner and the Installer to comply with those codes .
Installation Clearances: Side Back
Range w/o Salamander 3” (76mm) 2” (51mm)
Range w/ Salamander 7” (178mm) 2” (51mm)
Hot Plate 10” (254mm) —
NOTE: For ranges with convection oven(s), (models with suffix `RC’ or `RC2’), air circulation is required for proper operation of fan motors . These models must not be dais mounted or installed without legs .
Part # P152 Rev 1 (01/13/10) Page 5
DIMENSIONS AND SPECIFICATIONS, MODELS S,SU & SS686
8-3/8"[213mm]
34-1/4"[870 mm]
3-1/2"[89mm]
24-1/2"[622mm]
REAR CABLEENTRANCE
41"[1041mm]
9-1/4"[235mm]
31-3/4"[806mm]
6"[152mm]
36"[914mm]
15-1/4"[387mm]
29"[737mm]
3"[76mm]
4-3/4"[121mm]
W/OPTIONALRC MOTOR
REAR CABLEENTRANCE
6"[152mm]
OPTIONALHIGH SHELF
13-5/8"[346mm]
57-5/8"[1465mm]
Model Total Kw Load
Nominal Amps
208V/1Ph 208V/3 Ph 240V/1Ph 240V/3 Ph 400 V/3N 415V/3N
S686* 15 72 48 62 42 — —
S686RC 16 75 51 64 44 — —
SS/SU686** 19 90 59 78 52 40 38
SS/SU686RC 20 93 62 80 54 40 38
Salamander Broiler*** 7 34 19 29 16 4 4
*Tubular elements; **Sealed -top elements, Model # SS686 in North America; ***Add when wired to range base (SER/SUER-680)
Exterior Dimensions Oven Interior Dimensions
Height Width Depth† Height Width Depth
47" (1194mm)
36" (914mm)
34-1/4" (870mm)
13-1/2" (343mm)
26-1/4" (667mm)
22" (559mm)
† With front rail Note: Shipping Cubic Feet is 58 .5
Entry Clearances
Crated Uncrated Uncrated "RC" Model
45" (1143mm) 35" (889mm) 40" (1016mm)
NOTE: Many local codes exist, and it is the responsibility of the Owner and the Installer to comply with those codes .
Installation Clearances: Side Back
Range w/o Salamander
3" (76mm)
2" (51mm)
Range w/Salamander
7" (178mm)
2" (51mm)
Hot Top 10" (254mm) —
Ratings:
Tubular Elements: 6-1/2" (165mm): 1250 Watts8-1/2" (216mm): 2100 Watts
Sealed Elements: 7" (180mm): 2000 Watts8-5/8" (220mm): 2600 Watts
Hot Tops: (per 12"/305mm section): Front and Rear sections each 1675 Watts, (3350 Watts total)
Griddle (per 12"/305mm section): 3350 WattsStandard Oven: 4 .85 kWConvection Oven: 5 .0 kW (+0 .5kW fan motor; for 5 .5kW total)
NOTE: For ranges with convection oven, (models with suffix `RC’), air circulation is required for proper operation of fan motors . These models must not be dais mounted or installed without legs .
Part # P152 Rev 1 (01/13/10)Page 6
S/SS/SU 686/684 RC (2) -(1,2,3) (L,C,R) -(12,24,36) (L,C,R)
-12 = 12" (305 mm) wide griddle-24 = 24" (610 mm) wide griddle-36 = 36" (915 mm) wide griddle- L = griddle on left hand side of range- C = griddle in center of range- R = griddle on right hand side of range
-1 = 12" (305mm) wide solid top-2 = 24" (610mm) wide solid top-3 = 36" (915mm) wide solid top-L = Solid top on left hand side of range-C = Solid top in center of range-R = Solid top on right hand side of range
RC = Convection OvenRC2 = Double convention oven base
686 = 36" (915mm) wide range684 = 60" (1524mm) wide range
S = Sentry series rangeSU = Sentry series range CE marked designSS = Sentry series range with sealed top elements
DIMENSIONS AND SPECIFICATIONS, RANGE MODELS
Range Suffix Definitions
Part # P152 Rev 1 (01/13/10) Page 7
DIMENSIONS AND SPECIFICATIONS, MODELS SERC, SER-680
S/SU ERC, ER-680
-ERC = 34” (864mm) wide counter top salamander-ER-680 = 34” (864mm) wide range mount salamander
S = Sentry series salamanderSU = Sentry series salamander CE marked design
Salamander Suffix Definitions
3"[76mm]REAR CABLE
ENTRANCE
34"[864mm]
16-1/4"[413mm]
1-1/8"[29mm]
18"[457mm]
34-1/4"[870mm]
20-1/4"[514mm]
36"[914mm]
Model Total Kw LoadTOTAL AMPS
208V/1Ph 208V/3 Ph 240V/1Ph 240V/3 Ph 400 V/3N 415V/3N
SERC, SER-680 wired independently 7 34 29 29 25 15 15
Installation Notes:Clearances from combustible surfaces should be minimum 7” (178mm) from sides, 2” (51mm) from back .*Note: 3 phase ratings apply to SERC and SER-680 ordered separately . When a range and salamander are ordered together it is standard for the salamander to be prewired at the factory to interconnect with the range (single phase) . For further information on ratings and connection options consult the factory .
KW RatingsTotal kW loading is 7 .0 kW
ModelShipping
Cu Ft Lbs/Kg
S/SUERC 11 210/95
S/SUER-686 25 176/80
S/SUER-684 35 209/95
Part # P152 Rev 1 (01/13/10)Page 8
INTRODUCTION
The following instructions should be read carefully as the manufacturer cannot be held responsible for any damage to the property or persons by incorrect installation or operation of the equipment .
Uncrating
1 . Check the crate for possible damage sustained during transit . Carefully remove the unit from the crate and again check for damage . Any damage to the appliance must be reported to the carrier immediately .
2 . All packing material must be removed from the unit . The protective material covering the stainless steel must be removed immediately, after the unit is installed .
3 . All ranges are shipped from the factory with legs or casters fitted unless specially ordered without .
4 . The splash back and high shelf is packed and ordered separately .
5 . Do not remove permanently affixed labels, warnings or data plates from the appliance, for this may void approvals and create a safety hazard .
Rating Plate
The data plate is readily accessible, located behind the lower panel on ranges & behind the drip tray on salamanders . It contains all the pertinent information required by the installer .
When corresponding with the factory or your local authorized factory service center regarding service problems or replacement parts, be sure to refer to the particular unit by the correct model number (including the prefix and suffix letters and numbers) and the warranty serial number . The rating plate affixed to the unit contains this information .
Safety Precautions
This manual pertains to ranges and salamanders . The reader/operator must interpret its contents to applicable needs . If there is any question of interpretation of any of the literature pertaining to Garland ranges or salamanders, please contact your authorized service agency, or our customer service department at the phone number listed on the front of this manual or on our web site: http://www .garland-group .com .
A qualified person must make the installation of these products in accordance with the local codes of the country of destination .
Always follow these safety precautions when operating the range or salamander .
1 . The Unit must only be operated by qualified persons . DO NOT operate without reading this manual and operation manual .
2 . DO NOT operate the product unless it has been properly installed and grounded .
3 . DO NOT operate the product unless all service and access panels are in place and fastened properly .
4 DO NOT attempt to repair or replace any part of this product unless all main power supplies have been disconnected .
WARNING: to avoid personal injury: Use Extreme caution in setting up, operating and cleaning the product to avoid coming in contact with the hot grill surfaces or hot grease . Suitable protective clothing should be worn to prevent the risk of burns .
WARNING: this appliance must not be cleaned with a water jet .
Part # P152 Rev 1 (01/13/10) Page 9
INSTALLATION
This equipment must be installed by a competent factory trained, certified, licensed and / or authorized service or installation person . Electrical work must be installed by a qualified person as required by the local electrical authorities .
WARNING: This appliance must be grounded .
CAUTION: Prior to installation check the electrical supply to ensure the input voltage and phase match the equipment voltage rating and phase as shown on the rating plate .
Clearances
The space in which the appliance is to be positioned must include the minimum installation clearances to combustible surfaces .
MINIMUM INSTALLATION CLEARANCES
Clearance To Combustible Material
LocationModels
Ranges Ranges c/w Hot Top Salamander
Top * * *
Sides 3” (76mm) 10” (254mm) 7” (178mm)
Rear 2” (51mm) 2” (51mm) 2” (51mm)
* NOTE: Garland recommends equipment be installed under a ventilation canopy .
LOCATION
Models Type Of Floor Or Base
Ranges Combustible
Ranges c/w Hot Top Combustible
Salamander Non-Combustible
IMPORTANT: For ranges with convention oven (models with suffix “RC”), air circulation is required for proper operation of the fan motors . Allow 1” (25mm) rear clearance for ventilation of the motor .
Adequate clearance must be provided for servicing, ventilation and proper operation . The range must be kept clear of combustible material .
Positioning
The range should be installed on a firm, smooth and level floor designed to withstand the weight of the fully laden appliance . Refer to dimension and specifications for weights .
Place the range or salamander in desired position and level from side to side and back to front and diagonally . This leveling must be done with the unit under the hood and in it’s normal operating position . If the range is to be dais or cove mounted ,the base on which it is to be set should be level . If it is not, the range must be shimmed to level .
Legs
All ranges are shipped from the factory with legs installed unless otherwise specified . When the range is specified for dais or cove base mounting, it is shipped less legs . Legs must be adjusted to a minimum height of 6” (152mm) in order to comply with NSF standards .
Casters
1 . The front casters on the unit are equipped with brakes to limit the movement of the range without depending on the electrical connection to limit appliance movement .
2 . A restraint can be attached to the unit near the electric connection . If the restraint is disconnected, be sure to reconnect it after the range has been returned to its originally installed position .
Ventilation Air
The area in which the appliance is installed must be adequately ventilated to provide air for removal of steam, heat generated by the appliance, etc . These products are recommended to be installed under a ventilation hood .
Proper operation of exhaust fans (proper speed, rotation and adjustment) is essential . The hood, and the filters must be cleaned on a regular bases and kept grease free .
Installation Of Range Mount Salamander
1 . The rear of the range must be easily accessible .
2 . Place the salamander in position on the range . Slide the uprights into the opening at the oven rear . Secure the salamander uprights to the range with the hex head bolts provided .
Part # P152 Rev 1 (01/13/10)Page 10
3 . Remove the terminal block access cover .
4 . Pass the wires though cable entrance hole .
5 . Secure the cable connector
6 . Terminate the salamander wire at the terminal block provided (Red to L1, Black to L2 or N, Green to GRN or E) .
NOTE: When mounting a salamander over an existing range in the field, an independent fussed connection must be made though the knock out plate provided in the main back of the salamander .
Assembly of Backguard/High Shelf
The back guard or high shelf will have been shipped separately . To install, put the backguard/high shelf on the rear of the range, slipping the uprights into the opening on each burner box side . Fasten the upright to the burner box side with four hex fasteners provided .
Code Requirements
The Garland S/SS680 series complies with the standards CSA C22 .2 no .109 – latest edition, the UL197 – latest edition and the NSF#4 – latest edition . The installation and connection of this appliance must comply with current codes . In Canada – The Canadian Electrical Code Part 1 and in the USA – The National Electrical Code .
The Garland SU680 series complies with the essential requirements of the Directives 73/23/EEC, 89/336/EEC, 89/392/EEC, 93/68/EEC and the standards, EN60335, IEC801 .2, IEC801 .3, IEC801 .4, IEC801 .5, IEC801 .6 and IEC801 .11 .
Electrical Supply
Before attempting the electrical connection, the rating plate should be checked to ensure that the equipment’s electrical characteristics and supply electrical characteristics agree . On ranges and salamanders the supply entrance is located at the rear or alternatively on the main bottom . The supply terminal block is accessible from the front . The electrical supply must be adequate for the voltage, phase, and current marked on the rating plate .
INSTALLATION continued
NOTE: A means of disconnection from the supply having a contact separation of at least 3 mm in all poles must be incorporated in the fixed wiring .
This equipment is intended to be installed with fixed permanent wiring .
WARNING: This appliance must be grounded .
Single And Three Phase Connection
Unless otherwise noted, all ranges are shipped from the factory for three phase connection . Salamanders are shipped from the factory for single phase connection . A wiring diagram is attached to the rear of each appliance . Visually check all electrical connections . The range is wired at the factory as specified on the order . If it is necessary to change the phasing refer to the wiring diagram .
Commissioning
Ensure all circuit breakers located in the lower compartment are set to the ON (1) position .
1 . Ensure that all controls are in the OFF position and turn on the main electrical supply .
2 . Operate each section of the range or salamander in accordance with the instructions given in the Use’s Manual .
3 . Check that the product functions correctly and that the voltage supply to the unit does not drop more than 5% when all sections are operated simultaneously .
When the operation has been checked, hand the OPERATING INSTRUCTIONS to the User or purchaser for retention and instruct them in the efficient and safe operation of the appliance .
Part # P152 Rev 1 (01/13/10) Page 11
MAINTENANCE AND CLEANING
Regular servicing by a competent person is recommended to ensure safe and efficient performance of the appliance .
WARNING: Turn off the electrical mains before commencing any service work .
Thermostat Calibration
Oven
It is normal for an electromechanical thermostat to cycle with a 45°F - 50° F (25°C - 28°C) range when checking calibration allow the thermostat to cycle a minimum of two times .
1 . Place the thermocouple of the test instrument in the center of the oven .
2 . Turn the oven temperature control dial to 400° F (205° C) . In order to allow the oven temperature to stabilize, the oven control must be allowed to cycle twice before taking a test reading .
3 . Check the temperature reading just when the control cycles “OFF” as indicated by the cycling pilot lamp . If the temperature does not read with in 15° F (8°C) of the dial setting, recalibrate as follows:
4 . Carefully remove the thermostat dial, not disturbing the dial setting .
5 . Hold the thermostat shaft steady with a small flat blade screw driver . Turn the calibration screw located inside the shaft clockwise to decrease the temperature and counter clockwise to increase the temperature . NOTE: each ¼ turn of the screw will create a change of approximately 35° F (20°C) .
6 . Replace the thermostat dial and repeat steps 1 though 3 to verify that the correct adjustment has been made .
Dial Shaft
Calibration Screw Head
Calibration Screw Head
Increase
Decrease
1/4" Turn
Griddle
1 . Use a test instrument with a special disc type thermocouple or a reliable surface type pyrometer . NOTE: a drop of oil on the face of the disc will provide better contact with the plate .
2 . Set all griddle thermostats to 350°F (177°C) . In order to allow the griddle temperature to stabilize, the thermostats must be allowed to cycle twice before taking a test reading .
3 . Check the griddle temperature when the thermostat just cycles “OFF” by placing the thermocouple firmly on the griddle directly about the sensing bulb of the thermostat . The reading should be between 335° F (168°C) and 365° F and (185°C) . If the reading is outside of these limits, calibrate as follows:
4 . Carefully remove the dial, not disturbing the shaft position .
5 . Hold the shaft steady and with a small flat screw driver turn the calibration screw located inside the shaft clockwise to decrease temperature and counter clockwise to increase temperature . NOTE: Each ¼ turn of the screw will create a change of approximately 35° F (20°C) .
6 . Replace the thermostat dial and repeat steps 1 through 3 verify that a correct adjustment has been made .
Part # P152 Rev 1 (01/13/10)Page 12
Miscellaneous
1 . Grease the door hinges and check for loose fasteners . Tighten as necessary .
2 . Wire brush the surface of the griddle to remove baked on material, wash with hot water, dry thoroughly . Lightly coat the surface with vegetable oil to prevent rusting .
MAINTENANCE AND CLEANING continued
3 . Wipe exposed cleanable surfaces with a mild detergent and hot water . Stubborn residue may be removed with a light weight non-metallic scouring pad . Stainless steel areas should be washed with a mild detergent, hot water and a soft cloth . If necessary use a nonmetallic scouring pad always rub in the of the grain in the metal to prevent scratching . NEVER USE STEEL WOOL .
4 . Clean the oven racks shelves and guides with hot soapy water and dry thoroughly . Clean the oven interior with a propriety oven cleaner following instructions .
REPLACEMENT OF PARTS
Servicing must be carried out by competent persons in accordance with the law .
WARNING: Turn off the electrical mains before commencing any servicing work .
Door Switch
1 . Drop the lower kick panel .
2 . Remove the screws securing the door switch and mounting brackets and remove screws securing the door switch .
3 . Remove the terminal cover and disconnect the wires from the terminals on the body of the switch .
4 . Replace the faulty door switch .
5 . Make certain that the newly installed door switch is properly adjusted so as the interrupt the power supply to the control system and fan motor when the door is opened .
Fan Cook/Cool Down Switch
1 . Remove the screws securing the front panel to the front rail and drop the panel .
2 . Disconnect the wires from the terminals on the switch .
3 . Depress the tabs of the switch body and push the switch through the opening in the control panel .
4 . Replace the switch and reassemble in reverse order .
Thermostat
1 . Remove the screws securing the front panel to the front rail and drop the panel .
2 . Disconnect the wires from the taps on the thermostat .
3 . Remove the dial from the thermostat and the screws securing the thermostat body to the control panel .
4 . Remove the wires from the thermostat terminals . Be sure to note which wire connects to which terminal on the thermostat .
5 . Remove the thermostat bulb .
6 . Replace the faulty thermostat and reassemble in reverse order .
Heat On Lamp
1 . Remove the screws securing the front panel to the front rail and drop the panel .
2 . Disconnect the supply wires to the lamp and remove the faulty lamp .
3 Reassemble in the reverse order .
Part # P152 Rev 1 (01/13/10) Page 13
Motor
1 . Open the door .
2 . Remove the oven racks and guides
3 . Remove the two (2) wing screws securing the fan guard and remove the guard .
4 . Using a hex head wrench loosen the screw securing the
blower wheel to the motor shaft and remove the wheel .
5 . Remove the four (4) screws securing the motor mount plate to the oven casing back and pull the plate froward into the oven compartment .
6 . Disconnect the motor wire connections (note which wires connect to which) and replace faulty motor .
7 . Reassemble in reverse order .
REPLACEMENT OF PARTS continued
TROUBLE SHOOTING
NOTE: Servicing must be carried out by competent persons in accordance with the law .
Griddle Diagnostics
PROBLEM POSSIBLE CAUSE SOLUTION
Griddle heating unevenly . Adjacent griddle is operating at a different temperature .
Check adjacent griddle section .
Griddle was not thoroughly heated before using .
Allow more time for griddle to saturate . Increase warm-up time .
Hot Top or Open Tubular Diagnostics
PROBLEM POSSIBLE CAUSE SOLUTION
Top to hot or too cold . Defective infinite switch . Replace infinite switch .
Top not heating at all . Defective element Replace element .
Defective infinite switch . Replace Infinite switch .
Sealed Hotplate Diagnostics
PROBLEM POSSIBLE CAUSE SOLUTION
Water in pot does not Boil . Water takes to long to Boil . Switch set to position ‘6’ .
Pot has irregular bottom . Use flat bottom pot .
Pot too large for element size . Use smaller diameter pot .
Pot too small for element size . Use larger diameter pot .
Element was preheated before pot was placed on element .
Allow element to cool . Protector will reset .
One element circuit may be defective . Replace heating element .
Six heat switch may be defective . Replace 6 heat switch .
Part # P152 Rev 1 (01/13/10)Page 14
TROUBLE SHOOTING continued
Oven Diagnostics
PROBLEM POSSIBLE CAUSE SOLUTION
Oven too hot or not hot enough . Thermostat out of calibration . Check Thermostat/replace thermostat .
RC Oven Diagnostics
PROBLEM POSSIBLE CAUSE SOLUTION
Cook/Cool Down Switch set to “Cook” position . Light off . Motor not working .
No Power to Oven . Check power supply .
Defective Cook/Cool Down switch . Replace switch .
Faulty wiring . Check condition of wires and all connections .
Cook/Cool Down Switch set to “Cook” position . Light on . Motor not working .
Defective door switch . Replace switch .
Oven door partially open . Close door .
Door switch out of alignment . Align switch .
Defective Motor . Replace Motor .
Faulty wiring . Check condition of wires and all connections .
Cook/Cook Down Switch set to “Cook” Position . Motor working, thermostat set to temperature, lamp “on”, oven not heating .
Relay RL1 is defective . Replace relay .
Defective heating element or wiring . Replace heating element or repair wiring .
Noisy motor . Blower wheel rubbing on oven baffled . Adjust blower wheel .
Blower wheel loose on motor shaft . Retighten blower wheel .
Defective Motor . Replace Motor .
Cook/Cool Down switch set to “Cool Down”, motor not working .
Defective Cook/Cool Down switch . Replace switch .
Defective door switch . Replace switch .
Door switch out of alignment . Align switch .
Faulty wiring . Check condition of wires and all connections .
Oven too hot or not hot enough . Thermostat out of calibration . Check calibration/replace thermostat
Oven doors will not stay closed . Broken or damaged door spring . Replace door spring .
Sealed Hoptate Wattages and Applications
Application Boiling, Frying, Braising Simmering Warming
Dial Setting 6 5 4 3 2 1
8-5/8” (220mm) 2600W 1750W 1300W 450W 340W 240W
7” (180mm) 2000W 1400W 950W 450W 305W 200W
Part # P152 Rev 1 (01/13/10) Page 15
APPENDIX
Wiring Diagrams and Loading Charts
Part # P152 Rev 1 (01/13/10)Page 16
GR
IDD
LE T
HE
RM
OS
TAT
40°-
230°
C
3.35
kW
OV
EN
TH
ER
MO
STA
T
65°-
290°
C
1675
W
1675
W
2200
W
1900
W
750W
WIR
ING
DIA
GR
AM
S/S
S68
6S
680
SE
RIE
S
AP
R 2
3,19
99N
AV
C
21
2693
100
34
21
6 H
EAT
SW
ITC
H
P2P1
P3
43
12
5
G
3 P
HA
SE
ZYX
_0A
SA
LAM
AN
DE
RTO
P 1
TOP
2TO
P 3
OV
EN
_0A
_0A
30A
40A
OV
EN
6 H
EAT
SW
ITC
H
P2P1
P3
43
12
5
34
21
ER
7kW
SA
LAM
AN
DE
R
L (R
ED
)
N (
BLA
CK
)
N (
BLA
CK
)
L (R
ED
)
SE
ALE
D E
LEM
EN
T
2.6k
W, 2
20m
m2.
0kW
, 180
mm
TOP
1
TOP
2
TOP
3
LNLNLN
12
34
56
1011
:
ALL
DIM
EN
SIO
NS
AR
E IN
INC
HE
S
TOLE
RA
NC
E ±
0.01
5" U
NLE
SS
OT
HE
RW
ISE
SP
EC
IFIE
D
CO
MM
ER
CIA
L R
AN
GE
S L
IMIT
ED
MIS
SIS
SA
UG
A, O
NTA
RIO
, CA
NA
DA
::
:
TIT
LE:
DAT
ES
CA
LED
R.
SH
T
OF
CH
K. B
Y
RE
VR
EV.
#D
ATE
DR
.D
ES
CR
IPT
ION
RE
VIS
ION
S
3350
W T
OP
S =
20A
4600
W T
OP
S =
30A
12
N (
BLA
CK
)
L1 (
RE
D)
L1H2
L2
H1 P
L1H2
L2
H1 P
3.35
kW T
OTA
L /(
8"=
2.1k
W, 6
"=1.
25kW
)H
OT
TO
P /
(OP
EN
TO
P)
30A
_0A
_0A
_0A
40A
SA
LAM
AN
DE
R B
LAC
KO
VE
N 1
BLA
CK
TOP
3 B
LAC
KTO
P 2
BLA
CK
TOP
1 B
LAC
K
SA
LAM
AN
DE
R R
ED
OV
EN
1 R
ED
TOP
3 R
ED
TOP
2 R
ED
TOP
1 R
ED
T1(
1)
T2(
1)
T3(
1)
O1(
1)
S(1
)
T1(
2)T
2(2)
T3(
2)O
1(2)
S(2
)
T1(
3)T
1(4)
T2(
3)
O1(
3)
O1(
4)T
3(4)
T3(
3)T
2(4)
S(3
)S
(4)
S(7
)S
(6)
S(8
) S(5
)
TB1
TB
1-1
TB
1-2
TB
1-3
TB
1-4
TB
1-5
TB
1-6
TB1-10c
TB1-12b
TB1-11a
TB1-10a
TB
1-12
a
TB
1-12
cT
B1-
10f
O2(
4)
TB1-10a
GR
IDD
LEE
4
E3
E2
21
3
4
2
1
3
4
H1
H2
H2
H1
G4
G2
G1
G3
ST
1
ST
2
ST
4
ST
3
OT
4
OT
2
OT
1
OT
3
UP
PE
R
INN
ER
OU
TE
R
OV
EN
ELE
ME
NT
S 4
.85k
W
E1b
SE
E T
ER
MIN
AL
BLO
CK
C
ON
NE
CT
ION
SH
EE
TS
G
T1(
1)
T2(
1)
T3(
1)
O1(
1)
T2(
2)
O1(
2)
S(1
)
Y Z
1 P
HA
SE
XR
ED
T1(
2)B
LAC
K
T3(
2)
S(2
)B
LAC
KB
LAC
KB
LAC
KB
LAC
K
RE
D
RE
D
RE
D
RE
D
Part # P152 Rev 1 (01/13/10) Page 17
WIR
ING
DIA
GR
AM
S/S
S68
6S
680
SE
RIE
S
AP
R 2
3,19
99N
AV
C
22
2693
100
:
ALL
DIM
EN
SIO
NS
AR
E IN
INC
HE
S
TOLE
RA
NC
E ±
0.01
5" U
NLE
SS
OT
HE
RW
ISE
SP
EC
IFIE
D
CO
MM
ER
CIA
L R
AN
GE
S L
IMIT
ED
MIS
SIS
SA
UG
A, O
NTA
RIO
, CA
NA
DA
::
:
TIT
LE:
DAT
ES
CA
LED
R.
SH
T
OF
CH
K. B
Y
RE
VR
EV.
#D
ATE
DR
.D
ES
CR
IPT
ION
RE
VIS
ION
S
SS
686
Mod
els:
-12R
, -1L
-12R
, -1R
, -1R
-12L
,-2
4L
T3(
1)
T2(
1)
T1(
1)
T2(
2)
O1(
2)
T3(
2)
T1(
2)
O1(
1)
GR
OU
P 2
NO
SA
LMA
ND
ER
TOP
2 B
LAC
K
TOP
3 B
LAC
K
S/S
S68
6 M
odel
s:-S
TD
, -12
L, -
1C, -
1C-1
2L,
-1L,
-1L
-24R
, -1R
-24L
,-2
L, -
2L-1
2R, -
2R-1
2L, -
36
OV
EN
1 R
ED
TOP
3 R
ED
TOP
2 R
ED
TOP
1 R
ED
OV
EN
1 B
LAC
K
TOP
1 B
LAC
K
SA
LAM
AN
DE
R B
LAC
K
OV
EN
1 B
LAC
K
SA
LAM
AN
DE
R R
ED
S(1
)
S/S
S68
6 M
odel
s:-S
TD
, -12
L, -
1C, -
1C-1
2L,
-1L,
-1L
-24R
, -1R
-24L
,-2
L, -
2L-1
2R, -
2R-1
2L, -
36
GY Z
S(2
)
T3(
2)
T1(
2)
T2(
2)
O1(
2)
TOP
3 B
LAC
K
TOP
1 B
LAC
K
TOP
2 B
LAC
K
SS
686
Mod
els:
-1C
-12R
, -24
R, -
2R
GR
OU
P 1
WIT
H S
ALM
AN
DE
R
3 P
HA
SE
X
T3(
1)
O1(
1)
T2(
1)
T1(
1)
TOP
3 R
ED
OV
EN
1 R
ED
TOP
2 R
ED
TOP
1 R
ED
O1(
1)
GZY
T2(
2)
T1(
2)
O1(
2)
T3(
2)
SS
686
Mod
els:
-1C
-12R
, -24
R, -
2R
GR
OU
P 1
NO
SA
LMA
ND
ER
3 P
HA
SE
X
T1(
1)
T2(
1)
T3(
1)
SS
686
Mod
els:
-12R
, -1L
-12R
, -1R
, -1R
-12L
,-2
4L
TOP
2 B
LAC
K
TOP
3 B
LAC
K
TOP
1 R
ED
TOP
2 R
ED
OV
EN
1 R
ED
TOP
3 R
ED
TOP
1 B
LAC
K
SA
LAM
AN
DE
R R
ED
OV
EN
1 B
LAC
K
SA
LAM
AN
DE
R B
LAC
KGY Z
T2(
2)
T1(
2)
S(2
)
T3(
2)
O1(
2)
S(1
)
GR
OU
P 2
WIT
H S
ALM
AN
DE
R
3 P
HA
SE
X
T3(
1)
O1(
1)
T1(
1)
T2(
1)
GY Z
3 P
HA
SE
X
TOP
2 B
LAC
K
TOP
1 B
LAC
K
TOP
3 B
LAC
K
OV
EN
1 B
LAC
K
TOP
1 R
ED
TOP
2 R
ED
TOP
3 R
ED
OV
EN
1 R
ED
SA
LAM
AN
DE
R R
ED
OV
EN
1 B
LAC
K
SA
LAM
AN
DE
R B
LAC
KGZ
3 P
HA
SE
X Y
T2(
2)
T3(
2)
S(2
)
T1(
2)
O1(
2)
TOP
2 B
LAC
K
TOP
3 B
LAC
K
TOP
1 B
LAC
K
O1(
1)
S(1
)
T1(
1)
T2(
1)
T3(
1)
OV
EN
1 R
ED
TOP
1 R
ED
TOP
2 R
ED
TOP
3 R
ED
GR
OU
P 3
WIT
H S
ALM
AN
DE
R
GZ
3 P
HA
SE
X YT
1(2)
T2(
2)
O1(
2)
T3(
2)
T3(
1)
T2(
1)
T1(
1)
O1(
1)
GR
OU
P 3
NO
SA
LMA
ND
ER
OV
EN
1 R
ED
TOP
3 B
LAC
K
TOP
1 B
LAC
K
OV
EN
1 B
LAC
K
TOP
2 B
LAC
K
TOP
1 R
ED
TOP
2 R
ED
TOP
3 R
ED
Part # P152 Rev 1 (01/13/10)Page 18
MO
DEL
Phas
e gr
oupi
ngLo
adin
g ch
art
SS68
6 ST
DN
O S
ALA
MA
ND
ERdo
mes
tic
(del
ta)
load
Tota
l kW
volta
gekW
X-Z
kW X
-YkW
Y-Z
A X
A Y
A Z
A 1
pha
seX-
ZTo
p 1,
Top
218
.65
208
9 .20
4 .60
4 .85
58 .5
159
.43
39 .3
589
.66
X-Y
Top
318
.65
240
9 .20
4 .60
4 .85
50 .7
151
.50
34 .1
077
.71
Y-Z
Ove
nW
ITH
SA
LAM
AN
DER
dom
esti
c (d
elta
)lo
adTo
tal k
Wvo
ltage
kW X
-ZkW
X-Y
kW Y
-ZA
XA
YA
ZA
1 p
hase
X-Z
Top
1, To
p 3
25 .6
520
89 .
209 .
457 .
0077
.65
67 .6
668
.74
123 .
32X-
YTo
p 2,
Ove
n25
.65
240
9 .20
9 .45
7 .00
67 .3
058
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59 .5
810
6 .88
Y-Z
Sala
man
der
SS68
6-1L
SS
686-
1C
SS68
6-12
L
NO
SA
LAM
AN
DER
dom
esti
c (d
elta
)lo
adTo
tal k
Wvo
ltage
kW X
-ZkW
X-Y
kW Y
-ZA
XA
YA
ZA
1 p
hase
X-Z
Top
1, To
p 2
17 .4
020
87 .
954 .
604 .
8552
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53 .8
139
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83 .6
5X-
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p 3
17 .4
024
07 .
954 .
604 .
8545
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46 .6
434
.10
72 .5
0Y-
ZO
ven
WIT
H S
ALA
MA
ND
ERdo
mes
tic
(del
ta)
load
Tota
l kW
volta
gekW
X-Z
kW X
-YkW
Y-Z
A X
A Y
A Z
A 1
pha
seX-
ZTo
p 1,
Top
224
.40
208
7 .95
9 .45
7 .00
72 .5
462
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411
7 .31
X-Y
Top
3, O
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24 .4
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53 .9
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101 .
67Y-
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lam
ande
r
SS68
6-1R
SS
686-
12R
NO
SA
LAM
AN
DER
dom
esti
c (d
elta
)lo
adTo
tal k
Wvo
ltage
kW X
-ZkW
X-Y
kW Y
-ZA
XA
YA
ZA
1 p
hase
X-Z
Top
1, To
p 3
17 .4
020
87 .
954 .
604 .
8552
.87
53 .8
139
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83 .6
5X-
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p 2
17 .4
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07 .
954 .
604 .
8545
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46 .6
434
.10
72 .5
0Y-
ZO
ven
WIT
H S
ALA
MA
ND
ERdo
mes
tic
(del
ta)
load
Tota
l kW
volta
gekW
X-Z
kW X
-YkW
Y-Z
A X
A Y
A Z
A 1
pha
seX-
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p 1,
Top
324
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208
7 .95
9 .45
7 .00
72 .5
462
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Top
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24 .4
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07 .
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53 .9
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.58
101 .
67Y-
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lam
ande
r
SS68
6-2L
SS
686-
1C-1
2L
SS68
6-24
L
NO
SA
LAM
AN
DER
dom
esti
c (d
elta
)lo
adTo
tal k
Wvo
ltage
kW X
-ZkW
X-Y
kW Y
-ZA
XA
YA
ZA
1 p
hase
X-Z
Top
1, To
p 2
16 .1
520
86 .
704 .
604 .
8547
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48 .2
939
.35
77 .6
4X-
YTo
p 3
16 .1
524
06 .
704 .
604 .
8541
.01
41 .8
634
.10
67 .2
9Y-
ZO
ven
WIT
H S
ALA
MA
ND
ERdo
mes
tic
(del
ta)
load
Tota
l kW
volta
gekW
X-Z
kW X
-YkW
Y-Z
A X
A Y
A Z
A 1
pha
seX-
ZTo
p 2,
Top
323
.15
208
6 .70
9 .45
7 .00
67 .5
757
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68 .7
411
1 .30
X-Y
Top
1, O
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23 .1
524
06 .
709 .
457 .
0058
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49 .4
459
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96 .4
6Y-
ZSa
lam
ande
r
SS68
6-1R
-12L
SS
686-
1L-1
2RN
O S
ALA
MA
ND
ERdo
mes
tic
(del
ta)
load
Tota
l kW
volta
gekW
X-Z
kW X
-YkW
Y-Z
A X
A Y
A Z
A 1
pha
seX-
ZTo
p 1,
Top
316
.15
208
6 .70
4 .60
4 .85
47 .3
248
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39 .3
577
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X-Y
Top
216
.15
240
6 .70
4 .60
4 .85
41 .0
141
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34 .1
067
.29
Y-Z
Ove
nW
ITH
SA
LAM
AN
DER
dom
esti
c (d
elta
)lo
adTo
tal k
Wvo
ltage
kW X
-ZkW
X-Y
kW Y
-ZA
XA
YA
ZA
1 p
hase
X-Z
Top
1, To
p 3
23 .1
520
86 .
709 .
457 .
0067
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57 .0
568
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111 .
30X-
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p 2,
Ove
n23
.15
240
6 .70
9 .45
7 .00
58 .5
649
.44
59 .5
896
.46
Y-Z
Sala
man
der
SS68
6-2R
SS
686-
1C-1
2R
SS68
6-24
R
NO
SA
LAM
AN
DER
dom
esti
c (d
elta
)lo
adTo
tal k
Wvo
ltage
kW X
-ZkW
X-Y
kW Y
-ZA
XA
YA
ZA
1 p
hase
X-Z
Top
2, To
p 3
16 .1
520
86 .
704 .
604 .
8547
.32
48 .2
939
.35
77 .6
4X-
YTo
p 1
16 .1
524
06 .
704 .
604 .
8541
.01
41 .8
634
.10
67 .2
9Y-
ZO
ven
WIT
H S
ALA
MA
ND
ERdo
mes
tic
(del
ta)
load
Tota
l kW
volta
gekW
X-Z
kW X
-YkW
Y-Z
A X
A Y
A Z
A 1
pha
seX-
ZTo
p 2,
Top
323
.15
208
6 .70
9 .45
7 .00
67 .5
757
.05
68 .7
411
1 .30
X-Y
Top
1, O
ven
23 .1
524
06 .
709 .
457 .
0058
.56
49 .4
459
.58
96 .4
6Y-
ZSa
lam
ande
r
SS68
6-2L
-12R
SS
686-
1L-2
4R
SS68
6-2R
-12L
SS
686-
1R-2
4L
SS68
6-36
SS
686-
1R-2
4L
S686
all
mod
els
NO
SA
LAM
AN
DER
dom
esti
c (d
elta
)lo
adTo
tal k
Wvo
ltage
kW X
-ZkW
X-Y
kW Y
-ZA
XA
YA
ZA
1ph
ase
X-Z
Top
1, To
p 2
14 .9
020
86 .
703 .
354 .
8542
.61
48 .2
934
.33
71 .6
3X-
YTo
p 3
14 .9
024
06 .
703 .
354 .
8536
.93
41 .8
629
.75
62 .0
8Y-
ZO
ven
WIT
H S
ALA
MA
ND
ERdo
mes
tic
(del
ta)
load
Tota
l kW
volta
gekW
X-Z
kW X
-YkW
Y-Z
A X
A Y
A Z
A 1
pha
seX-
ZTo
p 1,
Top
321
.90
208
6 .70
8 .20
7 .00
62 .1
457
.05
63 .3
510
5 .29
X-Y
Top
2, O
ven
21 .9
024
06 .
708 .
207 .
0053
.86
49 .4
454
.91
91 .2
5Y-
ZSa
lam
ande
r 2
Part # P152 Rev 1 (01/13/10) Page 19
GR
IDD
LE T
HE
RM
OS
TAT
40°-
230°
C
3.35
kW
OV
EN
TH
ER
MO
STA
T
65°-
290°
C
1675
W
1675
W
2200
W
1900
W
750W
WIR
ING
DIA
GR
AM
SU
686
S68
0 S
ER
IES
AP
R 2
6,19
99N
AV
C
21
2693
101
34
21
6 H
EAT
SW
ITC
H
P2P1
P3
43
12
5
_0A
SA
LAM
AN
DE
RTO
P 1
TOP
2TO
P 3
OV
EN
_0A
_0A
30A
40A
OV
EN
6 H
EAT
SW
ITC
H
P2P1
P3
43
12
5
34
21
ER
7kW
SA
LAM
AN
DE
R
L (R
ED
)
N (
BLA
CK
)
N (
BLA
CK
)
L (R
ED
)
SE
ALE
D E
LEM
EN
T
2.6k
W, 2
20m
m2.
0kW
, 180
mm
TOP
1
TOP
2
TOP
3
LNLNLN
12
34
56
1011
:
ALL
DIM
EN
SIO
NS
AR
E IN
INC
HE
S
TOLE
RA
NC
E ±
0.01
5" U
NLE
SS
OT
HE
RW
ISE
SP
EC
IFIE
D
CO
MM
ER
CIA
L R
AN
GE
S L
IMIT
ED
MIS
SIS
SA
UG
A, O
NTA
RIO
, CA
NA
DA
::
:
TIT
LE:
DAT
ES
CA
LED
R.
SH
T
OF
CH
K. B
Y
RE
VR
EV.
#D
ATE
DR
.D
ES
CR
IPT
ION
RE
VIS
ION
S
3350
W T
OP
S =
20A
4600
W T
OP
S =
30A
12
N (
BLA
CK
)
L1 (
RE
D)
L1H2
L2
H1 P
L1H2
L2
H1 P
3.35
kW T
OTA
L /(
8"=
2.1k
W, 6
"=1.
25kW
)H
OT
TO
P /
(OP
EN
TO
P)
SA
LAM
AN
DE
R B
LAC
KO
VE
N 1
BLA
CK
TOP
3 B
LAC
KTO
P 2
BLA
CK
TOP
1 B
LAC
K
SA
LAM
AN
DE
R R
ED
OV
EN
1 R
ED
TOP
3 R
ED
TOP
2 R
ED
TOP
1 R
ED
T1(
1)
T2(
1)
T3(
1)
O1(
1)
S(1
)
T1(
2)T
2(2)
T3(
2)O
1(2)
S(2
)
T1(
3)T
1(4)
T2(
3)
O1(
3)
O1(
4)T
3(4)
T3(
3)T
2(4)
S(3
)S
(4)
S(7
)S
(6)
S(8
) S(5
)
TB1
TB
1-1
TB
1-2
TB
1-3
TB
1-4
TB
1-5
TB
1-6
TB1-10c
TB1-12b
TB1-11a
TB1-10a
TB
1-12
a
TB
1-12
cT
B1-
10f
O2(
4)
TB1-10a
GR
IDD
LEE
4
E3
E2
21
3
4
2
1
3
4
H1
H2
H2
H1
G4
G2
G1
G3
ST
1
ST
2
ST
4
ST
3
OT
4
OT
2
OT
1
OT
3
UP
PE
R
INN
ER
OU
TE
R
OV
EN
ELE
ME
NT
S 4
.85k
W
E1b
ENL3L2
3 P
HA
SE
L1
SE
E T
ER
MIN
AL
BLO
CK
CO
NN
EC
TIO
NS
S
HE
ET
2
Part # P152 Rev 1 (01/13/10)Page 20
WIR
ING
DIA
GR
AM
SU
686
S68
0 S
ER
IES
AP
R 2
6,19
99N
AV
C
22
2693
101
:
ALL
DIM
EN
SIO
NS
AR
E IN
INC
HE
S
TOLE
RA
NC
E ±
0.01
5" U
NLE
SS
OT
HE
RW
ISE
SP
EC
IFIE
D
CO
MM
ER
CIA
L R
AN
GE
S L
IMIT
ED
MIS
SIS
SA
UG
A, O
NTA
RIO
, CA
NA
DA
::
:
TIT
LE:
DAT
ES
CA
LED
R.
SH
T
OF
CH
K. B
Y
RE
VR
EV.
#D
ATE
DR
.D
ES
CR
IPT
ION
RE
VIS
ION
S
T1(
1)
T3(
1)
O1(
2)
T1(
2)
T3(
2)
T2(
2)
O1(
1)
T2(
1)
SU
686
Mod
els:
-12R
, -1L
-12R
, -1R
,-1
R-1
2L, -
24L
GR
OU
P 2
NO
SA
LMA
ND
ER
GR
OU
P 3
NO
SA
LMA
ND
ER
GR
OU
P 1
NO
SA
LMA
ND
ER
GR
OU
P 1
WIT
H S
ALM
AN
DE
R
ENL3L2
3 P
HA
SE
L1
OV
EN
1 B
LAC
K
TOP
3 B
LAC
K
TOP
1 B
LAC
K
TOP
2 B
LAC
K
SU
686
Mod
els:
-ST
D, -
12L,
-1C
, -1C
-12L
, -
1L, 1
L-24
R, -
1R-2
4L,
-2L,
-2L
-12R
, -2R
-12L
, -36SA
LAM
AN
DE
R B
LAC
K
SA
LAM
AN
DE
R R
ED
TOP
2 R
ED
TOP
3 R
ED
TOP
1 R
ED
OV
EN
1 R
ED
T1(
2)
O1(
2)
T2(
2)
T3(
2)
S(2
)
T1(
1)
T3(
1)
T2(
1)
O1(
1)
S(1
)
ENL3L2
3 P
HA
SE
L1
ENL3L2
3 P
HA
SE
L1TO
P 2
RE
D
TOP
3 R
ED
OV
EN
1 R
ED
TOP
2 B
LAC
K
TOP
3 B
LAC
K
TOP
1 B
LAC
K
TOP
1 R
ED
SA
LAM
AN
DE
R B
LAC
K
OV
EN
1 B
LAC
K
SA
LAM
AN
DE
R R
ED
SU
686
Mod
els:
-1C
-12R
, 24R
, -2R
O1(
2)
T2(
2)
T3(
2)
T1(
2)
S(2
)
O1(
1)
T2(
1)
T3(
1)
S(1
)
T1(
1)
ENL3L2
3 P
HA
SE
L1
GR
OU
P 3
WIT
H S
ALM
AN
DE
R
GR
OU
P 2
WIT
H S
ALM
AN
DE
R
SU
686
Mod
els:
-12R
, -1L
-12R
, -1R
,-1
R-1
2L, -
24L
OV
EN
1 R
ED
TOP
2 B
LAC
K
TOP
3 B
LAC
K
TOP
1 B
LAC
K
OV
EN
1 B
LAC
K
SU
686R
C M
odel
s:-S
TD
, -12
L, -
1C, -
1C-1
2L,
-1L
, 1L-
24R
, -1R
-24L
,-2
L, -
2L-1
2R, -
2R-1
2L, -
36
O1(
2)
T2(
2)
T3(
2)
T1(
2)
T1(
1)
T2(
1)
O1(
1)
T3(
1)
TOP
1 R
ED
TOP
2 R
ED
TOP
3 R
ED
ENL3L2
3 P
HA
SE
L1
TOP
2 B
LAC
K
TOP
3 B
LAC
K
TOP
1 B
LAC
K
SA
LAM
AN
DE
R B
LAC
K
OV
EN
1 B
LAC
KO
1(2)
T2(
2)
T3(
2)
T1(
2)
S(2
)
TOP
1 R
ED
TOP
2 R
ED
OV
EN
1 R
ED
TOP
3 R
ED
SA
LAM
AN
DE
R R
ED
T1(
1)
T2(
1)
S(1
)
O1(
1)
T3(
1)
ENL3L2
3 P
HA
SE
L1
OV
EN
1 B
LAC
K
TOP
1 B
LAC
K
TOP
3 B
LAC
K
TOP
2 B
LAC
K
SU
686
Mod
els:
-1C
-12R
, 24R
, -2R
O1(
2)
T1(
2)
T3(
2)
T2(
2)
T2(
1)
T3(
1)
O1(
1)
T1(
1)
TOP
2 R
ED
OV
EN
1 R
ED
TOP
3 R
ED
TOP
1 R
ED
OV
EN
1 B
LAC
K
TOP
1 B
LAC
K
TOP
3 B
LAC
K
TOP
2 B
LAC
K
OV
EN
1 R
ED
TOP
3 R
ED
TOP
2 R
ED
TOP
1 R
ED
Part # P152 Rev 1 (01/13/10) Page 21
MO
DEL
Phas
e gr
oupi
ngLo
adin
g ch
art
SU68
6 ST
DN
O S
ALA
MA
ND
ERex
port
(wye
)lo
advo
ltage
tota
l kW
kW L
1kW
L2
kW L
3A
L1
A L
2A
L3
A 1
pha
seL1
Top
1, To
p 2
400V
3N
~18
.65
9 .20
4 .60
4 .85
40 .0
020
.00
21 .0
981
.09
L2To
p 3
415V
3N
~18
.65
9 .20
4 .60
4 .85
38 .3
319
.17
20 .2
177
.71
L3O
ven
380V
3N
~17
.06
8 .42
4 .21
4 .44
38 .2
619
.13
20 .1
777
.56
WIT
H S
ALA
MA
ND
ERex
port
(wye
)lo
advo
ltage
tota
l kW
kW L
1kW
L2
kW L
3A
L1
A L
2A
L3
A 1
pha
seL1
Top
1, To
p 3
400V
3N
~25
.65
9 .2
9 .45
7 .0
40 .0
041
.09
30 .4
311
1 .52
L2To
p 2,
Ove
n41
5V 3
N~
25 .6
59 .
29 .
457 .
038
.33
39 .3
829
.17
106 .
88L3
Sala
man
der
380V
3N
~23
.47
8 .42
8 .65
6 .40
38 .2
639
.30
29 .1
110
6 .67
SU68
6-1L
SU
686-
1C
SU68
6-12
L
NO
SA
LAM
AN
DER
expo
rt (w
ye)
load
volta
geto
tal k
WkW
L1
kW L
2kW
L3
A L
1A
L2
A L
3A
1 p
hase
L1To
p 1,
Top
240
0V 3
N~
17 .4
07 .
954 .
604 .
8534
.57
20 .0
021
.09
75 .6
5L2
Top
341
5V 3
N~
17 .4
07 .
954 .
604 .
8533
.13
19 .1
720
.21
72 .5
0L3
Ove
n38
0V 3
N~
15 .9
27 .
274 .
214 .
4433
.06
19 .1
320
.17
72 .3
6W
ITH
SA
LAM
AN
DER
expo
rt (w
ye)
load
volta
geto
tal k
WkW
L1
kW L
2kW
L3
A L
1A
L2
A L
3A
1 p
hase
L1To
p 1,
Top
340
0V 3
N~
24 .4
7 .95
9 .45
7 .00
34 .5
741
.09
30 .4
310
6 .09
L2To
p 2,
Ove
n41
5V 3
N~
24 .4
7 .95
9 .45
7 .00
33 .1
339
.38
29 .1
710
1 .67
L3Sa
lam
ande
r38
0V 3
N~
22 .3
27 .
278 .
656 .
4033
.06
39 .3
029
.11
101 .
47
SU68
6-1R
SU
686-
12R
NO
SA
LAM
AN
DER
expo
rt (w
ye)
load
volta
geto
tal k
WkW
L1
kW L
2kW
L3
A L
1A
L2
A L
3A
1 p
hase
L1To
p 1,
Top
340
0V 3
N~
17 .4
07 .
954 .
604 .
8534
.57
20 .0
021
.09
75 .6
5L2
Top
241
5V 3
N~
17 .4
07 .
954 .
604 .
8533
.13
19 .1
720
.21
72 .5
0L3
Ove
n38
0V 3
N~
15 .9
27 .
274 .
214 .
4433
.06
19 .1
320
.17
72 .3
6W
ITH
SA
LAM
AN
DER
expo
rt (w
ye)
load
volta
geto
tal k
WkW
L1
kW L
2kW
L3
A L
1A
L2
A L
3A
1 p
hase
L1To
p 1,
Top
240
0V 3
N~
24 .4
7 .95
9 .45
7 .00
34 .5
741
.09
30 .4
310
6 .09
L2To
p 3,
Ove
n41
5V 3
N~
24 .4
7 .95
9 .45
7 .00
33 .1
339
.38
29 .1
710
1 .67
L3Sa
lam
ande
r38
0V 3
N~
22 .3
27 .
278 .
656 .
4033
.06
39 .3
029
.11
101 .
47
SU68
6-2L
SU
686-
1C-1
2L
SU68
6-24
L
NO
SA
LAM
AN
DER
expo
rt (w
ye)
load
volta
geto
tal k
WkW
L1
kW L
2kW
L3
A L
1A
L2
A L
3A
1 p
hase
L1To
p 1,
Top
240
0V 3
N~
16 .1
56 .
74 .
64 .
8529
.13
20 .0
021
.09
70 .2
2L2
Top
341
5V 3
N~
16 .1
56 .
74 .
64 .
8527
.92
19 .1
720
.21
67 .2
9L3
Ove
n38
0V 3
N~
14 .7
86 .
134 .
214 .
4427
.86
19 .1
320
.17
67 .1
6W
ITH
SA
LAM
AN
DER
expo
rt (w
ye)
load
volta
geto
tal k
WkW
L1
kW L
2kW
L3
A L
1A
L2
A L
3A
1 p
hase
L1To
p 1,
Top
240
0V 3
N~
23 .1
56 .
79 .
457 .
029
.13
41 .0
930
.43
100 .
65L2
Top
3, O
ven
415V
3N
~23
.15
6 .7
9 .45
7 .0
27 .9
239
.38
29 .1
796
.46
L3Sa
lam
ande
r38
0V 3
N~
21 .1
86 .
138 .
656 .
4027
.86
39 .3
029
.11
96 .2
8
SU68
6-1R
-12L
SU
686-
1L-1
2RN
O S
ALA
MA
ND
ERex
port
(wye
)lo
advo
ltage
tota
l kW
kW L
1kW
L2
kW L
3A
L1
A L
2A
L3
A 1
pha
seL1
Top
1, To
p 3
400V
3N
~16
.15
6 .7
4 .6
4 .85
29 .1
320
.00
21 .0
970
.22
L2To
p 2
415V
3N
~16
.15
6 .7
4 .6
4 .85
27 .9
219
.17
20 .2
167
.29
L3O
ven
380V
3N
~14
.78
6 .13
4 .21
4 .44
27 .8
619
.13
20 .1
767
.16
WIT
H S
ALA
MA
ND
ERex
port
(wye
)lo
advo
ltage
tota
l kW
kW L
1kW
L2
kW L
3A
L1
A L
2A
L3
A 1
pha
seL1
Top
1, To
p 3
400V
3N
~23
.15
6 .7
9 .45
7 .0
29 .1
341
.09
30 .4
310
0 .65
L2To
p 2,
Ove
n41
5V 3
N~
23 .1
56 .
79 .
457 .
027
.92
39 .3
829
.17
96 .4
6L3
Sala
man
der
380V
3N
~21
.18
6 .13
8 .65
6 .40
27 .8
639
.30
29 .1
196
.28
SU68
6-2R
SU
686-
1C-1
2R
SU68
6-24
R
NO
SA
LAM
AN
DER
expo
rt (w
ye)
load
volta
geto
tal k
WkW
L1
kW L
2kW
L3
A L
1A
L2
A L
3A
1 p
hase
L1To
p 2,
Top
340
0V 3
N~
16 .1
56 .
74 .
64 .
8529
.13
20 .0
021
.09
70 .2
2L2
Top
141
5V 3
N~
16 .1
56 .
74 .
64 .
8527
.92
19 .1
720
.21
67 .2
9L3
Ove
n38
0V 3
N~
14 .7
86 .
134 .
214 .
4427
.86
19 .1
320
.17
67 .1
6W
ITH
SA
LAM
AN
DER
expo
rt (w
ye)
load
volta
geto
tal k
WkW
L1
kW L
2kW
L3
A L
1A
L2
A L
3A
1 p
hase
L1To
p 2,
Top
340
0V 3
N~
23 .1
56 .
79 .
457 .
029
.13
41 .0
930
.43
100 .
65L2
Top
1, O
ven
415V
3N
~23
.15
6 .7
9 .45
7 .0
27 .9
239
.38
29 .1
796
.46
L3Sa
lam
ande
r38
0V 3
N~
21 .1
86 .
138 .
656 .
4027
.86
39 .3
029
.11
96 .2
8
SU68
6-2R
-12L
SU
686-
2L-1
2R
SU68
6-1L
-24R
SU
686-
1R-2
4L
SU68
6
NO
SA
LAM
AN
DER
expo
rt (w
ye)
load
volta
geto
tal k
WkW
L1
kW L
2kW
L3
A L
1A
L2
A L
3A
1 p
hase
L1To
p 1,
Top
240
0V 3
N~
14 .9
6 .7
3 .35
4 .85
29 .1
314
.57
21 .0
964
.78
L2To
p 3
415V
3N
~14
.96 .
73 .
354 .
8527
.92
13 .9
620
.21
62 .0
8L3
Ove
n38
0V 3
N~
13 .6
36 .
133 .
074 .
4427
.86
13 .9
320
.17
61 .9
7W
ITH
SA
LAM
AN
DER
expo
rt (w
ye)
load
volta
geto
tal k
WkW
L1
kW L
2kW
L3
A L
1A
L2
A L
3A
1 p
hase
L1To
p 1,
Top
240
0V 3
N~
21 .9
6 .7
8 .2
7 .0
29 .1
335
.65
30 .4
395
.22
L2To
p 3,
Ove
n41
5V 3
N~
21 .9
6 .7
8 .2
7 .0
27 .9
234
.17
29 .1
791
.25
L3Sa
lam
ande
r38
0V 3
N~
20 .0
46 .
137 .
506 .
4027
.86
34 .1
029
.11
91 .0
8
Part # P152 Rev 1 (01/13/10)Page 22
GR
IDD
LE T
HE
RM
OS
TAT
40°-
230°
C
3.35
kW
OV
EN
TH
ER
MO
STA
T
65°-
290°
C
2.5k
W
2.5k
W
1675
W
1675
W
WIR
ING
DIA
GR
AM
S/S
S68
6RC
S68
0 S
ER
IES
AP
R 2
3,19
99N
AV
C
31
2693
200
34
21
6 H
EAT
SW
ITC
H
P2P1
P3
43
12
5
G
3 P
HA
SE
ZYX
_0A
SA
LAM
AN
DE
RTO
P 1
TOP
2TO
P 3
OV
EN
_0A
_0A
40A
40A
CO
OK
OFF
CO
OL
5kW
TO
TAL
OV
ENB
LUE
BR
OW
N
M~
GR
EE
N/Y
ELL
OW
SW
ITC
H
6 H
EAT
SW
ITC
H
P2P1
P3
43
12
5
34
21
ER
7kW
SA
LAM
AN
DE
R
L (R
ED
)
N (B
LAC
K)
N (B
LAC
K)
L (R
ED
)
SE
ALE
D E
LEM
EN
T2.
6kW
, 220
mm
2.0k
W, 1
80m
m
TOP
1TO
P 2
TOP
3
LNLNLN
12
34
56
78
910
11
SE
E T
ER
MIN
AL
BLO
CK
CO
NN
EC
TIO
NS
S
HE
ET
2
:A
LL D
IME
NS
ION
S A
RE
IN IN
CH
ES
TOLE
RA
NC
E ±
0.01
5" U
NLE
SS
OTH
ER
WIS
E S
PE
CIF
IED
CO
MM
ER
CIA
L R
AN
GE
S L
IMIT
ED
MIS
SIS
SA
UG
A, O
NTA
RIO
, CA
NA
DA
::
:
TITL
E:
DAT
ES
CA
LED
R.
SH
T
OF
CH
K. B
Y
REV
RE
V.#
DAT
ED
R.
DE
SC
RIP
TIO
N RE
VIS
ION
S
3350
W T
OP
S =
20A
4600
W T
OP
S =
30A
12
TOP
RL2
RL1
N (B
LAC
K)
L1 (R
ED
)
L1H2
L2
H1 P
L1H2
L2
H1 P
3.35
kW T
OTA
L /(8
"=2.
1kW
, 6"=
1.25
kW)
HO
T TO
P / (
OP
EN
TO
P)
40A
_0A
_0A
_0A
40A
SA
LAM
AN
DE
R B
LAC
KO
VE
N 1
BLA
CK
TOP
3 B
LAC
KTO
P 2
BLA
CK
TOP
1 B
LAC
K
SA
LAM
AN
DE
R R
ED
OV
EN
1 R
ED
TOP
3 R
ED
TOP
2 R
ED
TOP
1 R
ED
DO
OR
SW
ITC
H L
EFT
CO
M0
NC
12
NO
T1(1
)T2
(1)
T3(1
)O
1(1)
S(1
)
T1(2
)T2
(2)
T3(2
)O
1(2)
S(2
)
T1(3
)T1
(4)
T2(3
)
O1(
3)
O1(
4)T3
(4)
T3(3
)T2
(4)
S(3
)S
(4)
S(7
)S
(6)
S(8
) S(5
)
TB1
TB1-
1TB
1-2
TB1-
3TB
1-4
TB1-
5TB
1-6
TB1-8bTB1-8c
TB1-10bTB1-10c
TB1-10d
TB1-12b
TB1-11bTB1-11a
TB1-10b
TB1-10e
TB1-7a
TB1-8a
TB1-9a
TB1-10a
TB1-9c
TB1-
12a
TB1-
12c
TB1-
10g
TB1-
9c
TB1-
10f O
2(4)
TB1-10a
TB1-7b
TB1-9b
46
01
34
15TB
1-9b
TB1-10c
GR
IDD
LE
3-1a
0-6a
E5a
E1a
E4
E3
E2
21
3
4
2
1
3
4
H1
H2
H2
H1
G4
G2
G1G
3
ST1
ST2
ST4
ST3
OT4
OT2
OT1
OT3
12
3
23
1
BLKWH
T
H14
629
"
GR
N
1 P
HA
SE
G
S(2
)
T3(2
)
T1(2
)
RE
D
RE
D
RE
D
RE
D
RE
D
X ZY
S(1
)
O1(
2)
T2(2
)
O1(
1)T3
(1)
T2(1
)T1
(1)
BLA
CK
BLA
CK
BLA
CK
BLA
CK
BLA
CK
Part # P152 Rev 1 (01/13/10) Page 23
WIR
ING
DIA
GR
AM
S/S
S68
6RC
S68
0 S
ER
IES
AP
R23
,199
9N
AV
C
32
2693
200
:A
LL D
IME
NS
ION
S A
RE
IN IN
CH
ES
TOLE
RA
NC
E ±
0.01
5" U
NLE
SS
OTH
ER
WIS
E S
PE
CIF
IED
CO
MM
ER
CIA
L R
AN
GE
S L
IMIT
ED
MIS
SIS
SA
UG
A, O
NTA
RIO
, CA
NA
DA
::
:
TITL
E:
DAT
ES
CA
LED
R.
SH
T
OF
CH
K. B
Y
REV
RE
V.#
DAT
ED
R.
DE
SC
RIP
TIO
N RE
VIS
ION
S
S(1
)
T2(2
)
T1(2
)T3
(2)
S(2
)GZX Y
SA
LAM
AN
DE
R B
LAC
K
TOP
3 B
LAC
K
SA
LAM
AN
DE
R R
ED
TOP
2 B
LAC
K
TOP
1 B
LAC
K
T1(1
)T2
(1)
T3(1
)O
1(1)
GR
OU
P 1
WIT
H S
ALM
AN
DE
R
3 P
HA
SE
TOP
3 R
ED
TOP
2 R
ED
TOP
1 R
ED
OV
EN
1 R
ED
GR
OU
P 1
NO
SA
LMA
ND
ER
GX ZY
3 P
HA
SE
GZX Y
GR
OU
P 2
WIT
H S
ALM
AN
DE
R
3 P
HA
SE
GR
OU
P 2
NO
SA
LMA
ND
ER
GX ZY
3 P
HA
SE
3 P
HA
SE
GR
OU
P 3
WIT
H S
ALM
AN
DE
R
GZYX
GR
OU
P 3
NO
SA
LMA
ND
ER
3 P
HA
SE
GYX Z
S/S
S68
6RC
Mod
els:
-STD
, -12
L, -1
C, -
1C-1
2L,
-1L,
-1L-
24R
, -1R
-24L
,-2
L, -2
L-12
R, -
2R-1
2L, -
36
SS
686R
C M
odel
s:-1
2R, -
1L-1
2R, -
1R, -
1R-1
2L,
-24L
SS
686R
C M
odel
s:-1
2R, -
1L-1
2R, -
1R, -
1R-1
2L,
-24L
SS
686R
C M
odel
s:-1
C-1
2R, -
24R
, -2R
SS
686R
C M
odel
s:-1
C-1
2R, -
24R
, -2R
O1(
2)O
VE
N 1
BLA
CK
OV
EN
1 B
LAC
K
T2(2
)T1
(2)
T3(2
)
O1(
2)TO
P 2
BLA
CK
TOP
1 B
LAC
K
TOP
3 B
LAC
K
T3(1
)
O1(
1)
T2(1
)T1
(1)
TOP
3 R
ED
OV
EN
1 R
ED
TOP
2 R
ED
TOP
1 R
ED
S/S
S68
6RC
Mod
els:
-STD
, -12
L, -1
C, -
1C-1
2L,
-1L,
-1L-
24R
, -1R
-24L
,-2
L, -2
L-12
R, -
2R-1
2L, -
36
SA
LAM
AN
DE
R B
LAC
K
OV
EN
1 B
LAC
K
SA
LAM
AN
DE
R R
ED
S(1
)
S(2
)T2
(2)
T1(2
)
T3(2
)O
1(2)
TOP
2 B
LAC
K
TOP
1 B
LAC
K
TOP
3 B
LAC
K
T3(1
)O
1(1)
T2(1
)T1
(1)
TOP
3 R
ED
OV
EN
1 R
ED
TOP
2 R
ED
TOP
1 R
ED
OV
EN
1 R
ED
TOP
2 B
LAC
K
TOP
3 R
ED
TOP
2 R
ED
TOP
1 R
ED
OV
EN
1 B
LAC
K
TOP
1 B
LAC
K
TOP
3 B
LAC
K
O1(
1)
T1(2
)T3
(2)
O1(
2)
T2(2
)
T1(1
)T2
(1)
T3(1
)
SA
LAM
AN
DE
R B
LAC
K
OV
EN
1 B
LAC
K
SA
LAM
AN
DE
R R
ED
S(1
)
S(2
)T3
(2)
T2(2
)
T1(2
)O
1(2)
TOP
3 B
LAC
K
TOP
2 B
LAC
K
TOP
1 B
LAC
K
T3(1
)O
1(1)
T2(1
)T1
(1)
TOP
3 R
ED
OV
EN
1 R
ED
TOP
2 R
ED
TOP
1 R
ED
OV
EN
1 R
ED
TOP
1 B
LAC
K
TOP
3 R
ED
TOP
2 R
ED
TOP
1 R
ED
OV
EN
1 B
LAC
K
TOP
2 B
LAC
K
TOP
3 B
LAC
K
O1(
1)
T2(2
)T3
(2)
O1(
2)
T1(2
)
T1(1
)T2
(1)
T3(1
)
Part # P152 Rev 1 (01/13/10)Page 24
WIR
ING
DIA
GR
AM
S/S
S68
6RC
S68
0 S
ER
IES
AP
R 2
3,19
99N
AV
C
40A
L
FAN
SW
ITC
HD
OO
RS
WIT
CH
M ~
N (C
OM
)
OV
EN
TH
ER
MO
STA
T RL1
RL2
RL2
RL1
5kW
FAN
INTE
RLO
CK
CIR
CU
IT O
PER
ATIO
N
HE
AT P
OS
ITIO
N:
THE
FA
N S
WIT
CH
MU
ST
BE
IN T
HE
HE
AT P
OS
TIO
N,
THE
DO
OR
MU
ST
BE
CLO
SE
D (T
HE
RM
OS
TAT
CLO
SE
D) B
EFO
RE
TH
E O
VE
N H
EAT
ING
ELE
ME
NTS
AR
E E
NE
RG
IZE
D.
CO
OL
PO
SIT
ION
:TH
E F
AN
SW
ITC
H M
US
T B
E IN
TH
E C
OO
L P
OS
ITIO
N, T
HE
DO
OR
M
US
T B
E O
PE
N.
THE
FA
N W
ILL
OP
ER
ATE
BU
T TH
E H
EAT
ING
E
LEM
EN
TS W
ILL
NO
T E
NE
RG
IZE
.
33
2693
200
:A
LL D
IME
NS
ION
S A
RE
IN IN
CH
ES
TOLE
RA
NC
E ±
0.01
5" U
NLE
SS
OTH
ER
WIS
E S
PE
CIF
IED
CO
MM
ER
CIA
L R
AN
GE
S L
IMIT
ED
MIS
SIS
SA
UG
A, O
NTA
RIO
, CA
NA
DA
::
:
TITL
E:
DAT
ES
CA
LED
R.
SH
T
OF
CH
K. B
Y
REV
RE
V.#
DAT
ED
R.
DE
SC
RIP
TIO
N RE
VIS
ION
S
Part # P152 Rev 1 (01/13/10) Page 25
MO
DEL
Phas
e gr
oupi
ngLo
adin
g ch
art
SS68
6RC
STD
NO
SA
LAM
AN
DER
dom
esti
c (d
elta
)lo
adTo
tal k
Wvo
ltage
kW X
-ZkW
X-Y
kW Y
-ZA
XA
YA
ZA
1 p
hase
X-Z
Top
1, To
p 2
19 .3
020
89 .
204 .
605 .
5058
.51
61 .8
542
.11
92 .7
9X-
YTo
p 3
19 .3
024
09 .
204 .
605 .
5050
.71
53 .6
036
.49
80 .4
2Y-
ZO
ven
WIT
H S
ALA
MA
ND
ERdo
mes
tic
(del
ta)
load
Tota
l kW
volta
gekW
X-Z
kW X
-YkW
Y-Z
A X
A Y
A Z
A 1
pha
seX-
ZTo
p 1,
Top
226
.30
208
9 .20
10 .1
07 .
0080
.39
67 .6
671
.59
126 .
44X-
YTo
p 3,
Ove
n26
.30
240
9 .20
10 .1
07 .
0069
.67
58 .6
462
.04
109 .
58Y-
ZSa
lam
ande
r
SS68
6RC-
1L S
S686
RC-
1C S
S686
RC-1
2LN
O S
ALA
MA
ND
ERdo
mes
tic
(del
ta)
load
Tota
l kW
volta
gekW
X-Z
kW X
-YkW
Y-Z
A X
A Y
A Z
A 1
pha
seX-
ZTo
p 1,
Top
218
.05
208
7 .95
4 .60
5 .50
52 .8
756
.31
42 .1
186
.78
X-Y
Top
318
.05
240
7 .95
4 .60
5 .50
45 .8
248
.80
36 .4
975
.21
Y-Z
Ove
nW
ITH
SA
LAM
AN
DER
dom
esti
c (d
elta
)lo
adTo
tal k
Wvo
ltage
kW X
-ZkW
X-Y
kW Y
-ZA
XA
YA
ZA
1 p
hase
X-Z
Top
1, To
p 2
25 .0
520
87 .
9510
.10
7 .00
75 .3
362
.29
71 .5
912
0 .43
X-Y
Top
3, O
ven
25 .0
524
07 .
9510
.10
7 .00
65 .2
953
.98
62 .0
410
4 .38
Y-Z
Sala
man
der
SS68
6RC-
1R
SS68
6-12
RN
O S
ALA
MA
ND
ERdo
mes
tic
(del
ta)
load
Tota
l kW
volta
gekW
X-Z
kW X
-YkW
Y-Z
A X
A Y
A Z
A 1
pha
seX-
ZTo
p 1,
Top
318
.05
208
7 .95
4 .60
5 .50
52 .8
756
.31
42 .1
186
.78
X-Y
Top
218
.05
240
7 .95
4 .60
5 .50
45 .8
248
.80
36 .4
975
.21
Y-Z
Ove
nW
ITH
SA
LAM
AN
DER
dom
esti
c (d
elta
)lo
adTo
tal k
Wvo
ltage
kW X
-ZkW
X-Y
kW Y
-ZA
XA
YA
ZA
1 p
hase
X-Z
Top
1, To
p 3
25 .0
520
87 .
9510
.10
7 .00
75 .3
362
.29
71 .5
912
0 .43
X-Y
Top
2, O
ven
25 .0
524
07 .
9510
.10
7 .00
65 .2
953
.98
62 .0
410
4 .38
Y-Z
Sala
man
der
SS68
6RC-
2L S
S686
RC-
1C-1
2L S
S686
RC-2
4N
O S
ALA
MA
ND
ERdo
mes
tic
(del
ta)
load
Tota
l kW
volta
gekW
X-Z
kW X
-YkW
Y-Z
A X
A Y
A Z
A 1
pha
seX-
ZTo
p 1,
Top
216
.80
208
6 .70
4 .60
5 .50
47 .3
250
.88
42 .1
180
.77
X-Y
Top
316
.80
240
6 .70
4 .60
5 .50
41 .0
144
.09
36 .4
970
.00
Y-Z
Ove
nW
ITH
SA
LAM
AN
DER
dom
esti
c (d
elta
)lo
adTo
tal k
Wvo
ltage
kW X
-ZkW
X-Y
kW Y
-ZA
XA
YA
ZA
1 p
hase
X-Z
Top
1, To
p 2
23 .8
020
86 .
7010
.10
7 .00
70 .4
257
.05
71 .5
911
4 .42
X-Y
Top
3, O
ven
23 .8
024
06 .
7010
.10
7 .00
61 .0
349
.44
62 .0
499
.17
Y-Z
Sala
man
der
SS68
6RC-
1R-1
2L
SS68
6RC-
1L-1
2RN
O S
ALA
MA
ND
ERdo
mes
tic
(del
ta)
load
Tota
l kW
volta
gekW
X-Z
kW X
-YkW
Y-Z
A X
A Y
A Z
A 1
pha
seX-
ZTo
p 1,
Top
316
.80
208
6 .70
4 .60
5 .50
47 .3
250
.88
42 .1
180
.77
X-Y
Top
216
.80
240
6 .70
4 .60
5 .50
41 .0
144
.09
36 .4
970
.00
Y-Z
Ove
nW
ITH
SA
LAM
AN
DER
dom
esti
c (d
elta
)lo
adTo
tal k
Wvo
ltage
kW X
-ZkW
X-Y
kW Y
-ZA
XA
YA
ZA
1 p
hase
X-Z
Top
1, To
p 3
23 .8
020
86 .
7010
.10
7 .00
70 .4
257
.05
71 .5
911
4 .42
X-Y
Top
2, O
ven
23 .8
024
06 .
7010
.10
7 .00
61 .0
349
.44
62 .0
499
.17
Y-Z
Sala
man
der
SS68
6RC-
2R S
S686
RC-
1C-1
2R S
S686
RC-2
4RN
O S
ALA
MA
ND
ERdo
mes
tic
(del
ta)
load
Tota
l kW
volta
gekW
X-Z
kW X
-YkW
Y-Z
A X
A Y
A Z
A 1
pha
seX-
ZTo
p 2,
Top
316
.80
208
6 .70
4 .60
5 .50
47 .3
250
.88
42 .1
180
.77
X-Y
Top
116
.80
240
6 .70
4 .60
5 .50
41 .0
144
.09
36 .4
970
.00
Y-Z
Ove
nW
ITH
SA
LAM
AN
DER
dom
esti
c (d
elta
)lo
adTo
tal k
Wvo
ltage
kW X
-ZkW
X-Y
kW Y
-ZA
XA
YA
ZA
1 p
hase
X-Z
Top
2, To
p 3
23 .8
020
86 .
7010
.10
7 .00
70 .4
257
.05
71 .5
911
4 .42
X-Y
Top
1, O
ven
23 .8
024
06 .
7010
.10
7 .00
61 .0
349
.44
62 .0
499
.17
Y-Z
Sala
man
der
SS68
6RC-
2R-1
2L
SS68
6RC-
2L-1
2R S
S-68
6RC-
1L-2
4R S
S686
-1R
-24L
SS6
86RC
-36
S6
86RC
all
mod
els
NO
SA
LAM
AN
DER
dom
esti
c (d
elta
)lo
adTo
tal k
Wvo
ltage
kW X
-ZkW
X-Y
kW Y
-ZA
XA
YA
ZA
1 p
hase
X-Z
Top
1, To
p 2
15 .5
520
86 .
703 .
355 .
5042
.61
50 .8
837
.21
74 .7
6X-
YTo
p 3
15 .5
524
06 .
703 .
355 .
5036
.93
44 .0
932
.25
64 .7
9Y-
ZO
ven
WIT
H S
ALA
MA
ND
ERdo
mes
tic
(del
ta)
load
Tota
l kW
volta
gekW
X-Z
kW X
-YkW
Y-Z
A X
A Y
A Z
A 1
pha
seX-
ZTo
p 1,
Top
222
.55
208
6 .70
8 .85
7 .00
64 .9
557
.05
66 .1
410
8 .41
X-Y
Top
3, O
ven
22 .5
524
06 .
708 .
857 .
0056
.29
49 .4
457
.32
93 .9
6Y-
ZSa
lam
ande
r
Part # P152 Rev 1 (01/13/10)Page 26
GR
IDD
LE T
HE
RM
OS
TAT
40°-
230°
C
3.35
kW
OV
EN
TH
ER
MO
STA
T
65°-
290°
C
2.5k
W
2.5k
W
1675
W
1675
W
WIR
ING
DIA
GR
AM
SU
686R
CS
680
SE
RIE
S
AP
R 2
6,19
99N
AV
C
31
2693
201
34
21
6 H
EAT
SW
ITC
H
P2P1
P3
43
12
5
_0A
SA
LAM
AN
DE
RTO
P 1
TOP
2TO
P 3
OV
EN
_0A
_0A
40A
40A
CO
OK
OF
F C
OO
L
5kW
TO
TAL
OV
ENB
LUE
BR
OW
N
M~
GR
EE
N/Y
ELL
OW
SW
ITC
H
6 H
EAT
SW
ITC
H
P2P1
P3
43
12
5
34
21
ER
7kW
SA
LAM
AN
DE
R
L (R
ED
)
N (
BLA
CK
)
N (
BLA
CK
)
L (R
ED
)
SE
ALE
D E
LEM
EN
T
2.6k
W, 2
20m
m2.
0kW
, 180
mm
TOP
1
TOP
2
TOP
3
LNLNLN
12
34
56
78
910
11
SE
E T
ER
MIN
AL
BLO
CK
CO
NN
EC
TIO
NS
S
HE
ET
2
:
ALL
DIM
EN
SIO
NS
AR
E IN
INC
HE
S
TOLE
RA
NC
E ±
0.01
5" U
NLE
SS
OT
HE
RW
ISE
SP
EC
IFIE
D
CO
MM
ER
CIA
L R
AN
GE
S L
IMIT
ED
MIS
SIS
SA
UG
A, O
NTA
RIO
, CA
NA
DA
::
:
TIT
LE:
DAT
ES
CA
LED
R.
SH
T
OF
CH
K. B
Y
RE
VR
EV.
#D
ATE
DR
.D
ES
CR
IPT
ION
RE
VIS
ION
S
3350
W T
OP
S =
20A
4600
W T
OP
S =
30A
12
TOP
RL2
RL1
N (
BLA
CK
)
L1 (
RE
D)
L1H2
L2
H1 P
L1H2
L2
H1 P
3.35
kW T
OTA
L /(
8"=
2.1k
W, 6
"=1.
25kW
)H
OT
TO
P /
(OP
EN
TO
P)
SA
LAM
AN
DE
R B
LAC
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VE
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CK
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LAC
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CK
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1 B
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SA
LAM
AN
DE
R R
ED
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EN
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ED
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ED
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ED
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ED
DO
OR
SW
ITC
H L
EF
T
CO
M0
NC
12
NO
T1(
1)
T2(
1)
T3(
1)
O1(
1)
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2)T
2(2)
T3(
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)
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3)T
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3)
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3)
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4)T
3(4)
T3(
3)T
2(4)
S(3
)S
(4)
S(7
)S
(6)
S(8
) S(5
)
TB1
TB
1-1
TB
1-2
TB
1-3
TB
1-4
TB
1-5
TB
1-6
TB1-8b
TB1-8c
TB1-10bTB1-10c
TB1-10d
TB1-12b
TB1-11b
TB1-11a
TB1-10b
TB1-10e
TB1-7a
TB1-8a
TB1-9a
TB1-10a
TB1-9c
TB
1-12
a
TB
1-12
c
TB
1-10
g
TB
1-9c
TB
1-10
f O2(
4)
TB1-10a
TB1-7b
TB1-9b
46
01
34
15T
B1-
9b
TB1-10c
GR
IDD
LE
3-1a
0-6a
E5a
E1a
E4
E3
E2
21
3
4
2
1
3
4
H1
H2
H2
H1
G4
G2
G1
G3
ST
1
ST
2
ST
4
ST
3
OT
4
OT
2
OT
1
OT
3
12
3
23
1
BLK
WH
T
H14
629
"
GR
N
ENL3L2
3 P
HA
SE
L1
Part # P152 Rev 1 (01/13/10) Page 27
WIR
ING
DIA
GR
AM
SU
686R
CS
680
SE
RIE
S
AP
R 2
6,19
99N
AV
C
32
2693
201
:
ALL
DIM
EN
SIO
NS
AR
E IN
INC
HE
S
TOLE
RA
NC
E ±
0.01
5" U
NLE
SS
OT
HE
RW
ISE
SP
EC
IFIE
D
CO
MM
ER
CIA
L R
AN
GE
S L
IMIT
ED
MIS
SIS
SA
UG
A, O
NTA
RIO
, CA
NA
DA
::
:
TIT
LE:
DAT
ES
CA
LED
R.
SH
T
OF
CH
K. B
Y
RE
VR
EV.
#D
ATE
DR
.D
ES
CR
IPT
ION
RE
VIS
ION
S
ENL3L2
3 P
HA
SE
L1
ENL3L2
3 P
HA
SE
L1
SU
686R
C M
odel
s:-1
C-1
2R, 2
4R, -
2R
GR
OU
P 1
WIT
H S
ALM
AN
DE
R
O1(
1)
T2(
1)
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1)
T1(
1)
OV
EN
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ED
TOP
1 R
ED
TOP
3 R
ED
TOP
2 R
ED
GR
OU
P 1
NO
SA
LMA
ND
ER
GR
OU
P 2
WIT
H S
ALM
AN
DE
RG
RO
UP
2N
O S
ALM
AN
DE
R
GR
OU
P 3
WIT
H S
ALM
AN
DE
RG
RO
UP
3N
O S
ALM
AN
DE
R
ENL3L2
3 P
HA
SE
L1
SA
LAM
AN
DE
R R
ED
SA
LAM
AN
DE
R B
LAC
K
SU
686R
C M
odel
s:-S
TD
, -12
L, -
1C-1
2L,
-1L
, 1L-
24R
, -1R
-24L
,-2
L, -
2L-1
2R, -
2R-1
2L, -
36
S(2
)
T3(
2)
T2(
2)
O1(
2)
T1(
2)
S(1
)
TOP
2 B
LAC
K
TOP
1 B
LAC
K
TOP
3 B
LAC
K
OV
EN
1 B
LAC
KENL3L2
3 P
HA
SE
L1
ENL3L2
3 P
HA
SE
L1
SU
686R
C M
odel
s:-1
2R, -
1L-1
2R, -
1R,
-1R
-12L
, -24
L
ENL3L2
3 P
HA
SE
L1
OV
EN
1 B
LAC
K
T3(
1)TO
P 3
RE
D
T1(
2)
T3(
2)
T2(
2)
O1(
2)
O1(
1)
TOP
1 B
LAC
K
TOP
3 B
LAC
K
TOP
2 B
LAC
K
OV
EN
1 R
ED
T2(
1)
T1(
1)
TOP
2 R
ED
TOP
1 R
ED
TOP
2 R
ED
TOP
3 R
ED
OV
EN
1 R
ED
TOP
1 R
ED
TOP
2 B
LAC
K
TOP
3 B
LAC
K
TOP
1 B
LAC
K
OV
EN
1 B
LAC
K
T2(
1)
O1(
1)
T2(
2)
T3(
2)
T1(
2)
O1(
2)
T3(
1)
T1(
1)
SA
LAM
AN
DE
R R
ED
OV
EN
1 B
LAC
K
SA
LAM
AN
DE
R B
LAC
K
T3(
1)TO
P 3
RE
D
S(2
)
T1(
2)
T3(
2)
T2(
2)
O1(
2)
O1(
1)
S(1
)
TOP
1 B
LAC
K
TOP
3 B
LAC
K
TOP
2 B
LAC
K
OV
EN
1 R
ED
T2(
1)
T1(
1)
TOP
2 R
ED
TOP
1 R
ED
SA
LAM
AN
DE
R R
ED
OV
EN
1 B
LAC
K
SA
LAM
AN
DE
R B
LAC
K
T1(
1)TO
P 1
RE
D
S(2
)
T1(
2)
T3(
2)
T2(
2)
O1(
2)
O1(
1)
S(1
)
TOP
1 B
LAC
K
TOP
3 B
LAC
K
TOP
2 B
LAC
K
OV
EN
1 R
ED
T3(
1)
T2(
1)
TOP
3 R
ED
TOP
2 R
ED
TOP
1 R
ED
TOP
3 R
ED
OV
EN
1 R
ED
TOP
2 R
ED
TOP
2 B
LAC
K
TOP
3 B
LAC
K
TOP
1 B
LAC
K
OV
EN
1 B
LAC
K
T1(
1)
O1(
1)
T2(
2)
T3(
2)
T1(
2)
O1(
2)
T3(
1)
T2(
1)
SU
686R
C M
odel
s:-S
TD
, -12
L, -
1C-1
2L,
-1L
, 1L-
24R
, -1R
-24L
,-2
L, -
2L-1
2R, -
2R-1
2L, -
36
SU
686R
C M
odel
s:-1
2R, -
1L-1
2R, -
1R,
-1R
-12L
, -24
L
SU
686R
C M
odel
s:-1
C-1
2R, 2
4R, -
2R
Part # P152 Rev 1 (01/13/10)Page 28
RC
OV
EN
SC
HE
MAT
IC S
U68
6RC S
680
SE
RIE
S
AP
R 2
6,19
99N
AV
C
LN
(C
OM
)
40A
OV
EN
TH
ER
MO
STA
T
FAN
SW
ITC
HD
OO
RS
WIT
CH
RL2
M ~
RL2
RL1
5kW
RL1
FAN
INT
ER
LO
CK
CIR
CU
IT O
PE
RA
TIO
N
HE
AT P
OS
ITIO
N:
TH
E F
AN
SW
ITC
H M
US
T B
E IN
TH
E H
EAT
PO
ST
ION
,T
HE
DO
OR
MU
ST
BE
CLO
SE
D (
TH
ER
MO
STA
T C
LOS
ED
) B
EF
OR
E
TH
E O
VE
N H
EAT
ING
ELE
ME
NT
S A
RE
EN
ER
GIZ
ED
.
CO
OL
PO
SIT
ION
:T
HE
FA
N S
WIT
CH
MU
ST
BE
IN T
HE
CO
OL
PO
SIT
ION
, TH
E D
OO
R
MU
ST
BE
OP
EN
. T
HE
FA
N W
ILL
OP
ER
ATE
BU
T T
HE
HE
ATIN
G
ELE
ME
NT
S W
ILL
NO
T E
NE
RG
IZE
.
33
2693
201
:
ALL
DIM
EN
SIO
NS
AR
E IN
INC
HE
S
TOLE
RA
NC
E ±
0.01
5" U
NLE
SS
OT
HE
RW
ISE
SP
EC
IFIE
D
CO
MM
ER
CIA
L R
AN
GE
S L
IMIT
ED
MIS
SIS
SA
UG
A, O
NTA
RIO
, CA
NA
DA
::
:
TIT
LE:
DAT
ES
CA
LED
R.
SH
T
OF
CH
K. B
Y
RE
VR
EV.
#D
ATE
DR
.D
ES
CR
IPT
ION
RE
VIS
ION
S
Part # P152 Rev 1 (01/13/10) Page 29
MO
DEL
Phas
e gr
oupi
ngLo
adin
g Ch
art
SU68
6RC
STD
NO
SA
LAM
AN
DER
expo
rt (w
ye)
load
volta
geto
tal k
WkW
L1
kW L
2kW
L3
A L
1A
L2
A L
3A
1 p
hase
L1To
p 1,
Top
240
0V 3
N~
19 .3
9 .2
4 .6
5 .5
40 .0
020
.00
23 .9
183
.91
L2To
p 3
415V
3N
~19
.39 .
24 .
65 .
538
.33
19 .1
722
.92
80 .4
2L3
Ove
n38
0V 3
N~
17 .6
68 .
424 .
215 .
0338
.26
19 .1
322
.87
80 .2
6W
ITH
SA
LAM
AN
DER
expo
rt (w
ye)
load
volta
geto
tal k
WkW
L1
kW L
2kW
L3
A L
1A
L2
A L
3A
1 p
hase
L1To
p 1,
Top2
400V
3N
~26
.39 .
210
.17 .
040
.00
43 .9
130
.43
114 .
35L2
Top
3, O
ven
415V
3N
~26
.39 .
210
.17 .
038
.33
42 .0
829
.17
109 .
58L3
Sala
man
der
380V
3N
~24
.06
8 .42
9 .24
6 .40
38 .2
642
.00
29 .1
110
9 .38
SU68
6RC-
1L S
U68
6RC-
1C S
U68
6RC-
12L
NO
SA
LAM
AN
DER
expo
rt (w
ye)
load
volta
geto
tal k
WkW
L1
kW L
2kW
L3
A L
1A
L2
A L
3A
1 p
hase
L1To
p 1,
Top
240
0V 3
N~
18 .0
57 .
954 .
65 .
534
.57
20 .0
023
.91
78 .4
8L2
Top
341
5V 3
N~
18 .0
57 .
954 .
65 .
533
.13
19 .1
722
.92
75 .2
1L3
Ove
n38
0V 3
N~
16 .5
17 .
274 .
215 .
0333
.06
19 .1
322
.87
75 .0
7W
ITH
SA
LAM
AN
DER
expo
rt (w
ye)
load
volta
geto
tal k
WkW
L1
kW L
2kW
L3
A L
1A
L2
A L
3A
1 p
hase
L1To
p 1,
Top
240
0V 3
N~
25 .0
57 .
9510
.17 .
034
.57
43 .9
130
.43
108 .
91L2
Top
3, O
ven
415V
3N
~25
.05
7 .95
10 .1
7 .0
33 .1
342
.08
29 .1
710
4 .38
L3Sa
lam
ande
r38
0V 3
N~
22 .9
27 .
279 .
246 .
4033
.06
42 .0
029
.11
104 .
18
SU68
6RC-
1R S
U68
6RC-
12R
NO
SA
LAM
AN
DER
expo
rt (w
ye)
load
volta
geto
tal k
WkW
L1
kW L
2kW
L3
A L
1A
L2
A L
3A
1 p
hase
L1To
p 1,
Top
340
0V 3
N~
18 .0
57 .
954 .
65 .
534
.57
20 .0
023
.91
78 .4
8L2
Top
241
5V 3
N~
18 .0
57 .
954 .
65 .
533
.13
19 .1
722
.92
75 .2
1L3
Ove
n38
0V 3
N~
16 .5
17 .
274 .
215 .
0333
.06
19 .1
322
.87
75 .0
7W
ITH
SA
LAM
AN
DER
expo
rt (w
ye)
load
volta
geto
tal k
WkW
L1
kW L
2kW
L3
A L
1A
L2
A L
3A
1 p
hase
L1To
p 1,
Top
340
0V 3
N~
25 .0
57 .
9510
.17 .
034
.57
43 .9
130
.43
108 .
91L2
Top
2, O
ven
415V
3N
~25
.05
7 .95
10 .1
7 .0
33 .1
342
.08
29 .1
710
4 .38
L3Sa
lam
ande
r38
0V 3
N~
22 .9
27 .
279 .
246 .
4033
.06
42 .0
029
.11
104 .
18
SU68
6RC-
2L S
U68
6RC-
1C-1
2L S
U68
6RC-
24L
NO
SA
LAM
AN
DER
expo
rt (w
ye)
load
volta
geto
tal k
WkW
L1
kW L
2kW
L3
A L
1A
L2
A L
3A
1 p
hase
L1To
p 1,
Top
240
0V 3
N~
16 .8
6 .7
4 .6
5 .50
29 .1
320
.00
23 .9
173
.04
L2To
p 3
415V
3N
~16
.86 .
74 .
65 .
5027
.92
19 .1
722
.92
70 .0
0L3
Ove
n38
0V 3
N~
15 .3
76 .
134 .
215 .
0327
.86
19 .1
322
.87
69 .8
7W
ITH
SA
LAM
AN
DER
expo
rt (w
ye)
load
volta
geto
tal k
WkW
L1
kW L
2kW
L3
A L
1A
L2
A L
3A
1 p
hase
L1To
p 1,
Top
240
0V 3
N~
23 .8
6 .7
10 .1
7 .0
29 .1
343
.91
30 .4
310
3 .48
L2To
p 3,
Ove
n41
5V 3
N~
23 .8
6 .7
10 .1
7 .0
27 .9
242
.08
29 .1
799
.17
L3Sa
lam
ande
r38
0V 3
N~
21 .7
86 .
139 .
246 .
4027
.86
42 .0
029
.11
98 .9
8
SU68
6RC-
1R-1
2L
SU68
6RC-
1L-1
2RN
O S
ALA
MA
ND
ERex
port
(wye
)lo
advo
ltage
tota
l kW
kW L
1kW
L2
kW L
3A
L1
A L
2A
L3
A 1
pha
seL1
Top
1, To
p 3
400V
3N
~16
.86 .
74 .
65 .
5029
.13
20 .0
023
.91
73 .0
4L2
Top
241
5V 3
N~
16 .8
6 .7
4 .6
5 .50
27 .9
219
.17
22 .9
270
.00
L3O
ven
380V
3N
~15
.37
6 .13
4 .21
5 .03
27 .8
619
.13
22 .8
769
.87
WIT
H S
ALA
MA
ND
ERex
port
(wye
)lo
advo
ltage
tota
l kW
kW L
1kW
L2
kW L
3A
L1
A L
2A
L3
A 1
pha
seL1
Top
1, To
p 3
400V
3N
~23
.86 .
710
.17 .
029
.13
43 .9
130
.43
103 .
48L2
Top
2, O
ven
415V
3N
~23
.86 .
710
.17 .
027
.92
42 .0
829
.17
99 .1
7L3
Sala
man
der
380V
3N
~21
.78
6 .13
9 .24
6 .40
27 .8
642
.00
29 .1
198
.98
SU68
6RC-
2R S
U68
6RC-
1C-1
2R S
U68
6RC-
24R
NO
SA
LAM
AN
DER
expo
rt (w
ye)
load
volta
geto
tal k
WkW
L1
kW L
2kW
L3
A L
1A
L2
A L
3A
1 p
hase
L1To
p 2,
Top
340
0V 3
N~
16 .8
6 .7
4 .6
5 .50
29 .1
320
.00
23 .9
173
.04
L2To
p 1
415V
3N
~16
.86 .
74 .
65 .
5027
.92
19 .1
722
.92
70 .0
0L3
Ove
n38
0V 3
N~
15 .3
76 .
134 .
215 .
0327
.86
19 .1
322
.87
69 .8
7W
ITH
SA
LAM
AN
DER
expo
rt (w
ye)
load
volta
geto
tal k
WkW
L1
kW L
2kW
L3
A L
1A
L2
A L
3A
1 p
hase
L1To
p 2,
Top
340
0V 3
N~
23 .8
6 .7
10 .1
7 .0
29 .1
343
.91
30 .4
310
3 .48
L2To
p 1,
Ove
n41
5V 3
N~
23 .8
6 .7
10 .1
7 .0
27 .9
238
.50
29 .1
799
.17
L3Sa
lam
ande
r38
0V 3
N~
21 .7
86 .
139 .
246 .
4027
.86
42 .0
029
.11
98 .9
8
SU68
6RC~
2L~1
2R
SU68
6RC~
1L~1
24R
SU68
6RC~
2R~1
2L
SU68
6RC~
1R~2
4L
SU68
6RC~
36
NO
SA
LAM
AN
DER
expo
rt (w
ye)
load
volta
geto
tal k
WkW
L1
kW L
2kW
L3
A L
1A
L2
A L
3A
1 p
hase
L1To
p 1,
Top
240
0V 3
N~
15 .5
56 .
73 .
355 .
5029
.13
14 .5
723
.91
67 .6
1L2
Top
341
5V 3
N~
15 .5
56 .
73 .
355 .
5027
.92
13 .9
622
.92
64 .7
9L3
Ove
n38
0V 3
N~
14 .2
36 .
133 .
075 .
0327
.86
13 .9
322
.87
64 .6
7W
ITH
SA
LAM
AN
DER
expo
rt (w
ye)
load
volta
geto
tal k
WkW
L1
kW L
2kW
L3
A L
1A
L2
A L
3A
1 p
hase
L1To
p 1,
Top
340
0V 3
N~
22 .5
56 .
78 .
857 .
029
.13
38 .4
830
.43
98 .0
4L2
Top
2, O
ven
415V
3N
~22
.55
6 .7
8 .85
7 .0
27 .9
233
.74
29 .1
793
.96
L3Sa
lam
ande
r38
0V 3
N~
20 .6
36 .
138 .
106 .
4027
.86
36 .8
129
.11
93 .7
8
Part # P152 Rev 1 (01/13/10)Page 30
GR
IDD
LE T
HE
RM
OS
TAT
40°-
230°
C
3.35
kW
OV
EN
TH
ER
MO
STA
T
65°-
290°
C
1675
W
1675
W
OV
EN
TH
ER
MO
STA
T
65°-
290°
C
2200
W
1900
W
750W
2200
W
1900
W
750W
WIR
ING
DIA
GR
AM
S/S
S68
4S
680
SE
RIE
S
AP
R 2
3,19
99N
AV
C
31
2693
300
34
21
6 H
EAT
SW
ITC
H
P2P1
P3
43
12
5
G
3 P
HA
SE
ZYX
_0A
SA
LAM
AN
DE
RTO
P 1
TOP
2TO
P 3
TOP
4TO
P 5
OV
EN
_0A
_0A
30A
_0A
_0A
40A
30A
OV
EN
OV
EN
6 H
EAT
SW
ITC
H
P2P1
P3
43
12
5
34
21
ER
7kW
SA
LAM
AN
DE
R
L (R
ED
)
N (B
LAC
K)
N (B
LAC
K)
L (R
ED
)
SE
ALE
D E
LEM
EN
T2.
6kW
, 220
mm
2.0k
W, 1
80m
m
TOP
1TO
P 2
TOP
3
LNLNLN
12
34
56
1011
12
34
1011
12
NTO
P 4
L
TOP
5LN
:A
LL D
IME
NS
ION
S A
RE
IN IN
CH
ES
TOLE
RA
NC
E ±
0.01
5" U
NLE
SS
OTH
ER
WIS
E S
PE
CIF
IED
CO
MM
ER
CIA
L R
AN
GE
S L
IMIT
ED
MIS
SIS
SA
UG
A, O
NTA
RIO
, CA
NA
DA
::
:
TITL
E:
DAT
ES
CA
LED
R.
SH
T
OF
CH
K. B
Y
REV
RE
V.#
DAT
ED
R.
DE
SC
RIP
TIO
N RE
VIS
ION
S
3350
W T
OP
S =
20A
4600
W T
OP
S =
30A
12
N (B
LAC
K)
L1 (R
ED
)
L1H2
L2
H1 P
L1H2
L2
H1 P
3.35
kW T
OTA
L /(8
"=2.
1kW
, 6"=
1.25
kW)
HO
T TO
P / (
OP
EN
TO
P)
30A
_0A
_0A
30A
_0A
_0A
_0A
40A
TOP
5 B
LAC
KTO
P 4
BLA
CK
OV
EN
2 B
LAC
KS
ALA
MA
ND
ER
BLA
CK
OV
EN
1 B
LAC
KTO
P 3
BLA
CK
TOP
2 B
LAC
KTO
P 1
BLA
CK
TOP
5 R
ED
TOP
4 R
ED
OV
EN
2 R
ED
SA
LAM
AN
DE
R R
ED
OV
EN
1 R
ED
TOP
3 R
ED
TOP
2 R
ED
TOP
1 R
ED
T1(1
)T2
(1)
T3(1
)O
1(1)
S(1
)O
2(1)
T4(1
)T5
(1)
T1(2
)T2
(2)
T3(2
)O
1(2)
S(2
)O
2(2)
T4(2
)T5
(2)
T1(3
)T1
(4)
T2(3
)
O1(
3)
O1(
4)T3
(4)
T3(3
)T2
(4)
S(3
)S
(4)
O2(
3)O
2(4)
T4(3
)
T4(4
)T5
(3)
T5(4
)
S(7
)S
(6)
S(8
) S(5
)
TB1
TB2
TB1-
1TB
1-2
TB1-
3TB
1-4
TB1-
5TB
1-6
TB1-10c
TB1-12b
TB1-11a
TB2-
1TB
2-2
TB2-
3TB
2-4
TB2-10d
TB2-11a
TB2-12b
O2(
4)
TB2-10a
TB2-10a
TB2-
12a
TB1-10a
TB1-
12a
TB1-
12c
TB1-
10f
O2(
4)
TB1-10a
GR
IDD
LE
E1b
E4
E3
E2
21
3
4
2
1
3
4
H1
H2
H2
H1
G4
G2
G1G
3
ST1
ST2
ST4
ST3
OT4
OT2
OT1
OT3
UP
PE
R
INN
ER
OU
TER
OV
EN
ELE
ME
NTS
4.8
5kW
OU
TER
UP
PE
R
TB1-
12c
INN
ER
TB1-
10f
OV
EN
E1b
SE
E T
ER
MIN
AL
BLO
CK
CO
NN
EC
TIO
NS
S
HE
ETS
2 A
ND
3
BLA
CK
T4(2
)T5
(2)
GB
LAC
K
T1(1
)T2
(1)
T3(1
)O
1(1)
O2(
1)T4
(1)
T5(1
)
T2(2
)
O1(
2)
O2(
2)
S(1
)
Y Z
1 P
HA
SE
XR
ED
T1(2
)B
LAC
K
T3(2
)
S(2
)B
LAC
KB
LAC
KB
LAC
KB
LAC
KB
LAC
K
RE
D
RE
D
RE
D
RE
D
RE
D
RE
D
RE
D
Part # P152 Rev 1 (01/13/10) Page 31
WIR
ING
DIA
GR
AM
S/S
S68
4S
680
SE
RIE
S
AP
R 2
3,19
99N
AV
C
32
2693
300
:A
LL D
IME
NS
ION
S A
RE
IN IN
CH
ES
TOLE
RA
NC
E ±
0.01
5" U
NLE
SS
OTH
ER
WIS
E S
PE
CIF
IED
CO
MM
ER
CIA
L R
AN
GE
S L
IMIT
ED
MIS
SIS
SA
UG
A, O
NTA
RIO
, CA
NA
DA
::
:
TITL
E:
DAT
ES
CA
LED
R.
SH
T
OF
CH
K. B
Y
REV
RE
V.#
DAT
ED
R.
DE
SC
RIP
TIO
N REV
ISIO
NS
SS
684
Mod
els:
-1L-
24R
, -24
R, -
2L-2
4R, 2
R,
-2R
-12L
SS
684
Mod
els:
-12R
, -1L
-12R
, -1R
, -1R
-12L
,-1
R-2
4L, -
2L-1
2RT1(1
)
T4(1
)T5
(1)
O1(
1)
T2(1
)
GR
OU
P 4
NO
SA
LMA
ND
ER T3(1
)O
2(1)
T1(2
)
O1(
2)T2
(2)
T4(2
)O
2(2)
T5(2
)
T3(2
)
T1(1
)
T3(1
)T5
(1)
O1(
1)
T2(1
)
T4(1
)O
2(1)
O1(
2)
T1(2
)
T3(2
)
T5(2
)O
2(2)
T4(2
)T2
(2)
GR
OU
P 2
NO
SA
LMA
ND
ER
T5(2
)TO
P 5
BLA
CK
TOP
4 B
LAC
KT4
(2)
TOP
5 B
LAC
KT5
(2)
S/S
S68
4 M
odel
s:-S
TD, -
12L,
-1C
, -1C
-12L
, -1C
-24L
,-1
C-3
6L, -
1L, -
24L,
-2C
-12L
, -2C
-24L
,-2
L, -2
L-36
R, -
2L-3
6L, -
36L,
-3C
-12L
,-3
L, -3
L-24
R, -
3R-2
4L
TOP
1 R
ED
TOP
4 R
ED
TOP
2 R
ED
TOP
3 R
ED
TOP
5 R
ED
TOP
3 B
LAC
K
OV
EN
2 B
LAC
K
TOP
4 B
LAC
K
OV
EN
1 R
ED
OV
EN
2 R
ED
TOP
5 B
LAC
K
OV
EN
1 B
LAC
K
TOP
2 B
LAC
K
TOP
1 B
LAC
K
OV
EN
2 B
LAC
K
SA
LAM
AN
DE
R R
ED
OV
EN
1 B
LAC
K
SA
LAM
AN
DE
R B
LAC
K
S(1
)
S/S
S68
4 M
odel
s:-S
TD, -
12L,
-1C
-24L
, -1C
-36L
, -1
L, -2
4L, -
2C-1
2L, -
2C-2
4L,
-2L,
-2L-
24R
, -2L
-36R
, -2R
-36L
,-3
6L, -
3L, -
3L-2
4R, -
3R-2
4L
GY Z
S(2
)T5
(2)
TOP
5 B
LAC
K
T2(2
)T1
(2)
O1(
2)
T4(2
)O
2(2)
T3(2
)
TOP
1 B
LAC
K
TOP
2 B
LAC
K
TOP
3 B
LAC
K
TOP
4 B
LAC
K
SS
684
Mod
els:
-1C
, -1C
-12L
GR
OU
P 1
WIT
H S
ALM
AN
DE
R
3 P
HA
SE
X
T4(1
)O
1(1)
T5(1
)
O2(
1)
T3(1
)T2
(1)
T1(1
)
TOP
4 R
ED
OV
EN
1 R
ED
TOP
5 R
ED
OV
EN
2 R
ED
TOP
1 R
ED
TOP
2 R
ED
TOP
3 R
ED
O2(
1)
GZY
O2(
2)T5
(2)
T1(2
)
T3(2
)T2
(2)
O1(
2)T4
(2)
SS
684
Mod
els:
-1L-
36R
GR
OU
P 1
NO
SA
LMA
ND
ER
3 P
HA
SE
X
T1(1
)
T3(1
)T4
(1)
O1(
1)
T2(1
)
T5(1
)
SS
684
Mod
els:
-1L-
24R
, -24
R, -
2R, -
2R-1
2L,
-2R
-24L
SS
684
Mod
els:
-12R
, -1L
-12R
, -1R
, -1R
-12L
OV
EN
1 R
ED
TOP
5 R
ED
TOP
1 R
ED
TOP
2 R
ED
TOP
3 R
ED
TOP
4 R
ED
TOP
1 B
LAC
K
TOP
2 B
LAC
K
OV
EN
2 B
LAC
K
TOP
3 B
LAC
K
SA
LAM
AN
DE
R R
ED
TOP
4 B
LAC
K
OV
EN
1 B
LAC
K
SA
LAM
AN
DE
R B
LAC
K
TOP
5 B
LAC
K
OV
EN
2 R
ED
GY Z
S(2
)T5
(2)
T4(2
)T1
(2)
O1(
2)
T3(2
)O
2(2)
T2(2
)
S(1
)
GR
OU
P 2
WIT
H S
ALM
AN
DE
R
3 P
HA
SE
X
T5(1
)O
1(1)
T4(1
)
O2(
1)
T3(1
)T2
(1)
T1(1
)
GY Z
3 P
HA
SE
X
TOP
1 R
ED
TOP
4 R
ED
TOP
3 R
ED
TOP
5 R
ED
OV
EN
1 R
ED
TOP
2 R
ED
TOP
1 B
LAC
K
OV
EN
1 B
LAC
K
OV
EN
2 R
ED
TOP
5 B
LAC
K
TOP
2 B
LAC
K
OV
EN
2 B
LAC
K
TOP
3 B
LAC
K
OV
EN
2 B
LAC
K
OV
EN
1 B
LAC
K
SA
LAM
AN
DE
R B
LAC
K
SA
LAM
AN
DE
R R
ED
TOP
1 R
ED
T1(1
)
GZ
3 P
HA
SE
X Y
T1(2
)
O1(
2)T3
(2)
S(2
)
T2(2
)
O2(
2)T4
(2)
TOP
1 B
LAC
K
TOP
3 B
LAC
K
TOP
4 B
LAC
K
TOP
2 B
LAC
K
O1(
1)
S(1
)T5
(1)
O2(
1)
T2(1
)T3
(1)
T4(1
)
OV
EN
1 R
ED
TOP
5 R
ED
OV
EN
2 R
ED
TOP
3 R
ED
TOP
2 R
ED
TOP
4 R
ED
GR
OU
P 3
WIT
H S
ALM
AN
DE
R
T1(1
)
GZ
3 P
HA
SE
X Y
T1(2
)
O1(
2)T5
(2)
T3(2
)O
2(2)
T2(2
)
O1(
1)T5
(1)
T4(1
)T3
(1)
O2(
1)T2
(1)
GR
OU
P 3
NO
SA
LMA
ND
ER
TOP
4 R
ED
TOP
2 R
ED
TOP
1 R
ED
OV
EN
1 R
ED
TOP
5 R
ED
SA
LAM
AN
DE
R B
LAC
K
OV
EN
1 B
LAC
K
SA
LAM
AN
DE
R R
ED
OV
EN
2 B
LAC
K
TOP
1 B
LAC
K
TOP
3 B
LAC
K
TOP
3 R
ED
TOP
2 B
LAC
K
TOP
4 B
LAC
K
OV
EN
2 R
ED
T1(1
)
GZ
3 P
HA
SE
X Y
T3(2
)
O1(
2)T4
(2)
S(2
)
T2(2
)T1
(2)
O2(
2)
O1(
1)
T3(1
)
O2(
1)
S(1
)
T4(1
)T5
(1)
T2(1
)
GR
OU
P 4
WIT
H S
ALM
AN
DE
R
3 P
HA
SE
GZX Y
TOP
5 B
LAC
K
OV
EN
2 B
LAC
K
TOP
5 B
LAC
K
TOP
4 B
LAC
K
TOP
3 B
LAC
K
OV
EN
2 R
ED
OV
EN
1 B
LAC
K
TOP
2 B
LAC
K
TOP
1 B
LAC
K
TOP
1 R
ED
TOP
5 R
ED
TOP
2 R
ED
TOP
3 R
ED
TOP
4 R
ED
OV
EN
1 R
ED
TOP
1 R
ED
TOP
1 B
LAC
K
OV
EN
1 B
LAC
K
TOP
2 B
LAC
K
TOP
4 B
LAC
K
TOP
3 B
LAC
K
OV
EN
2 B
LAC
K
OV
EN
1 R
ED
TOP
4 R
ED
TOP
2 R
ED
TOP
5 R
ED
OV
EN
2 R
ED
TOP
3 R
ED
Part # P152 Rev 1 (01/13/10)Page 32
WIR
ING
DIA
GR
AM
S/S
S68
4S
680
SE
RIE
S
AP
R 2
3,19
99N
AV
C
2693
300
:A
LL D
IME
NS
ION
S A
RE
IN IN
CH
ES
TOLE
RA
NC
E ±
0.01
5" U
NLE
SS
OTH
ER
WIS
E S
PE
CIF
IED
CO
MM
ER
CIA
L R
AN
GE
S L
IMIT
ED
MIS
SIS
SA
UG
A, O
NTA
RIO
, CA
NA
DA
::
:
TITL
E:
DAT
ES
CA
LED
R.
SH
T
OF
CH
K. B
Y
REV
RE
V.#
DAT
ED
R.
DE
SC
RIP
TIO
N RE
VIS
ION
S
SS
684
Mod
els:
-1C
-36R
, -2C
-24R
, -3C
-12R
TOP
1 R
ED
TOP
3 R
ED
TOP
2 R
ED
TOP
5 R
ED
OV
EN
1 R
ED
TOP
4 R
ED
TOP
1 B
LAC
K
OV
EN
1 B
LAC
K
OV
EN
2 R
ED
TOP
2 B
LAC
K
TOP
5 B
LAC
K
OV
EN
2 B
LAC
K
TOP
3 B
LAC
K
TOP
4 B
LAC
K
SA
LAM
AN
DE
R B
LAC
K
T5(2
)Z
SS
684
Mod
els:
-1C
-24R
, -1L
-36R
, -36
R-3
R, -
3R-1
2L
G
TOP
5 B
LAC
K
OV
EN
2 B
LAC
K
TOP
3 B
LAC
K
TOP
2 B
LAC
K
OV
EN
1 B
LAC
K
TOP
4 B
LAC
KT4
(2)
T2(2
)
O1(
2)S
(2)
O2(
2)
T3(2
)
GR
OU
P 5
WIT
H S
ALM
AN
DE
R
X Y
3 P
HA
SE
TOP
3 R
ED
T3(1
)
TOP
4 R
ED
TOP
5 R
ED
OV
EN
1 R
ED
TOP
2 R
ED
TOP
1 B
LAC
K
OV
EN
2 R
ED
SA
LAM
AN
DE
R R
ED
T2(1
)
T1(2
)
S(1
)
T4(1
)T5
(1)
O1(
1)O
2(1)
TOP
1 R
ED
T1(1
)
O1(
2)Z
SS
684
Mod
els:
-1C
-12R
G
T1(2
)
O2(
2)T5
(2)
T4(2
)T3
(2)
GR
OU
P 5
NO
SA
LMA
ND
ER
3 P
HA
SE
X Y
T2(1
)
O1(
1)T5
(1)
T3(1
)
O2(
1)T4
(1)
T2(2
)
T1(1
)
TOP
3 R
ED
TOP
2 R
ED
TOP
1 R
ED
OV
EN
1 R
ED
TOP
4 R
ED
TOP
5 B
LAC
K
SA
LAM
AN
DE
R B
LAC
K
OV
EN
1 B
LAC
K
SA
LAM
AN
DE
R R
ED
OV
EN
2 B
LAC
K
TOP
1 B
LAC
K
TOP
2 B
LAC
K
TOP
5 R
ED
TOP
4 B
LAC
K
TOP
3 B
LAC
K
OV
EN
2 R
ED
T4(2
)Z G
SS
684
Mod
els:
-3C
-12L
T2(2
)
S(2
)
T3(2
)
T5(2
)
O1(
2)
O2(
2)
GR
OU
P 6
WIT
H S
ALM
AN
DE
R
X Y
3 P
HA
SE
T2(1
)T3
(1)
T4(1
)O
1(1)
S(1
)T5
(1)
O2(
1)
T1(2
)
T1(1
)
O1(
2)Z G
T2(2
)T3
(2)
O2(
2)T4
(2)
T1(2
)
X
3 P
HA
SE
Y
T3(1
)
T1(1
)O
2(1)
T5(2
)
T4(1
)T5
(1)
O1(
1)
GR
OU
P 6
NO
SA
LMA
ND
ER T2(1
)
TOP
2 R
ED
TOP
3 R
ED
TOP
5 R
ED
TOP
4 R
ED
OV
EN
2 R
ED
OV
EN
1 R
ED
OV
EN
2 B
LAC
K
OV
EN
1 B
LAC
K
TOP
2 B
LAC
K
TOP
3 B
LAC
K
TOP
4 B
LAC
K
TOP
1 B
LAC
K
TOP
1 R
ED
TOP
5 B
LAC
K
SA
LAM
AN
DE
R B
LAC
K
O2(
1)
SS
684
Mod
els:
-1C
-12R
, -2C
-12R
, -3L
-12R
GZYX
TOP
3 B
LAC
KT3
(2)
TOP
4 B
LAC
K
OV
EN
1 B
LAC
K
TOP
5 B
LAC
K
T4(2
)O
1(2)
T5(2
)S
(2)
OV
EN
2 R
ED
TOP
4 R
ED
TOP
1 B
LAC
K
OV
EN
2 B
LAC
K
TOP
2 B
LAC
K
SA
LAM
AN
DE
R R
ED
T1(2
)T2
(2)
O2(
2)
T4(1
)S
(1)
GR
OU
P 7
WIT
H S
ALM
AN
DE
R
3 P
HA
SE
OV
EN
1 R
ED
TOP
5 R
ED
TOP
2 R
ED
TOP
3 R
ED
TOP
1 R
ED
T1(1
)
O1(
1)T5
(1)
T3(1
)T2
(1)
SS
684
Mod
els:
-1R
-36L
, -2C
-12R
, -3L
-12R
GZYX
T2(2
)
O2(
2)
T3(2
)T4
(2)
T5(2
)
O2(
1)T4
(1)
O1(
2)T1
(2)
GR
OU
P 7
NO
SA
LMA
ND
ER
3 P
HA
SE
T2(1
)T3
(1)
T5(1
)O
1(1)
T1(1
)
SS
684
Mod
els:
-1R
-24L
, 1R
-36L
, 2L-
12R
OV
EN
2 R
ED
TOP
2 B
LAC
K
OV
EN
2 B
LAC
K
SA
LAM
AN
DE
R R
ED
OV
EN
1 B
LAC
K
SA
LAM
AN
DE
R B
LAC
K
TOP
5 R
ED
OV
EN
1 R
ED
TOP
2 R
ED
TOP
3 R
ED
TOP
4 R
ED
TOP
3 B
LAC
K
TOP
5 B
LAC
K
TOP
1 B
LAC
K
TOP
1 R
ED
TOP
4 B
LAC
K
O2(
1)
GZYX
T1(2
)T2
(2)
S(2
)O
1(2)
T4(2
)
S(1
)T4
(1)
T5(2
)T3
(2)
O2(
2)
GR
OU
P 8
WIT
H S
ALM
AN
DE
R
3 P
HA
SE
T2(1
)
T5(1
)T3
(1)
O1(
1)
T1(1
)
X Z GY
T2(2
)
SS
684
Mod
els:
-2R
-24L
T4(2
)T3
(2)
O2(
2)T5
(2)
T1(2
)O
1(2)
T3(1
)O
2(1)
3 P
HA
SE
GR
OU
P 8
NO
SA
LMA
ND
ER T1(1
)T2
(1)
T5(1
)T4
(1)
O1(
1)
O2(
1)
SS
684
Mod
els:
-1C
-24R
, -36
R, -
3R, -
3R-1
2L
OV
EN
1 B
LAC
K
TOP
1 B
LAC
K
OV
EN
2 R
ED
TOP
5 B
LAC
K
TOP
3 B
LAC
K
TOP
4 B
LAC
K
TOP
2 B
LAC
K
OV
EN
2 B
LAC
K
OV
EN
1 B
LAC
K
OV
EN
2 B
LAC
K
TOP
2 B
LAC
K
TOP
4 B
LAC
K
TOP
3 B
LAC
K
TOP
1 B
LAC
K
TOP
3 R
ED
OV
EN
2 R
ED
TOP
1 R
ED
TOP
5 B
LAC
K
OV
EN
1 R
ED
TOP
4 R
ED
TOP
5 R
ED
TOP
2 R
ED
GY Z
O2(
2)T5
(2)
T3(2
)T4
(2)
T2(2
)
O1(
2)T1
(2)
SS
684
Mod
els:
-1C
-36R
, 2C
-24R
, -3C
-12R TO
P 1
RE
D
TOP
4 R
ED
OV
EN
1 R
ED
TOP
3 R
ED
TOP
5 R
ED
TOP
2 R
ED
TOP
2 R
ED
TOP
4 R
ED
TOP
3 R
ED
OV
EN
1 R
ED
TOP
5 R
ED
TOP
3 B
LAC
K
TOP
1 B
LAC
K
TOP
5 B
LAC
K
TOP
4 B
LAC
K
TOP
1 R
ED
SA
LAM
AN
DE
R B
LAC
K
OV
EN
1 B
LAC
K
SA
LAM
AN
DE
R R
ED
OV
EN
2 B
LAC
K
TOP
2 B
LAC
K
OV
EN
2 R
ED
S(2
)
3 P
HA
SE
TOP
2 B
LAC
K
OV
EN
2 B
LAC
K
TOP
4 B
LAC
K
TOP
3 B
LAC
K
TOP
5 B
LAC
K
X
OV
EN
1 B
LAC
K
TOP
1 B
LAC
K
OV
EN
2 R
ED
TOP
3 R
ED
T5(1
)O
1(1)
T2(1
)
T4(1
)T3
(1)
T1(1
)
GR
OU
P 9
NO
SA
LMA
ND
ER
T3(2
)
TOP
1 R
ED
TOP
5 R
ED
TOP
2 R
ED
OV
EN
1 R
ED
TOP
4 R
ED
GY Z
3 P
HA
SE
X
T2(2
)
O1(
2)
T1(2
)
T5(2
)T4
(2)
O2(
2)
S(1
)
T5(1
)O
1(1)
T1(1
)
O2(
1)
T4(1
)T3
(1)
T2(1
)
GR
OU
P 9
WIT
H S
ALM
AN
DE
R
Part # P152 Rev 1 (01/13/10) Page 33
Part # P152 Rev 1 (01/13/10)Page 34
MODELPhase grouping Loading chart
SS684STD NO SALAMANDER domestic (delta) load Total kW voltage KW X-Z kW X-Y kW Y-Z A X A Y A Z A 1 phaseX-Z Top 1, Top 2 Top 3 32 .70 208 13 .80 9 .45 9 .45 97 .37 97 .37 78 .69 157 .21X-Y Top 4, Oven 1 32 .70 240 13 .80 9 .45 9 .45 84 .38 84 .38 69 .20 136 .25Y-Z Oven 2, Top 5
WITH SALAMANDER domestic (delta) load Total kW voltage kW X-Z kW X-Y kW Y-Z A X A Y A Z A 1 phaseX-Z Top 1 Top 2, Oven 1 39 .70 208 14 .05 14 .05 11 .60 117 .00 106 .96 106 .96 190 .87X-Y Top 3, Top 4, Oven 2 39 .70 240 14 .05 14 .05 11 .60 101 .40 92 .70 92 .70 165 .42Y-Z Top 5, Salamander
SS684-1L SS694-12L
No SALAMANDER domestic (delta) load Total kW voltage kW X-Z kW X-Y kW Y-Z A X A Y A Z A 1 phaseX-Z Top 1, Top 2 Top 3 31 .45 208 12 .55 9 .45 9 .45 91 .90 91 .90 78 .69 151 .20X-Y Top 4, Oven 1 31 .45 240 12 .55 9 .45 9 .45 79 .65 79 .65 68 .20 131 .04Y-Z Oven 2, Top 5
WITH SALAMANDER domestic (delta) load Total kW voltage kW X-Z kW X-Y kW Y-Z A X A Y A Z A 1 phaseX-Z Top 1, Top 2, Oven 1 38 .45 208 12 .80 14 .05 11 .60 111 .83 101 .63 106 .96 184 .86X-Y Top 3, Top 4, Oven 2 38 .45 240 12 .80 14 .05 11 .60 96 .92 88 .08 92 .70 160 .21Y-Z Top 5, Salamander
SS684-1C NO SALAMANDER domestic (delta) load Total kW voltage kW X-Z kW X-Y kW Y-Z A X A Y A Z A 1 phaseX-Z Top 1, Top 2, Top 3 31 .45 208 12 .55 9 .45 9 .45 91 .90 91 .90 78 .69 131 .20X-Y Top 4, Oven 1 31 .45 240 12 .55 9 .45 9 .45 79 .65 79 .65 68 .20 131 .04Y-Z Oven 2, Top 5
WITH SALAMANDER domestic (delta) load Total kW voltage kW X-Z kW X-Y kW Y-Z A X A Y A Z A 1 phaseX-Z Top 1, Top 3, Oven 1 38 .45 208 12 .80 14 .05 11 .60 111 .83 101 .63 106 .96 184 .86X-Y Top 2, Top 4 Oven 2 38 .45 240 12 .80 14 .05 11 .60 96 .20 88 .08 92 .70 160 .21Y-Z Top 5, Salamander
SS684-1R SS684-12R
NO SALAMANDER domestic (delta) load Total kW voltage kW X-Z kW X-Y kW Y-Z A X A Y A Z A 1 phaseX-Z Top 1, Top 2, Top5 31 .45 208 12 .55 9 .45 9 .45 91 .90 91 .90 78 .69 151 .20X-Y Top 3, Oven 1 31 .45 240 12 .55 9 .45 9 .45 70 .65 79 .65 68 .20 131 .04Y-Z Oven 2 Top 4
WITH SALAMANDER domestic (delta) load Total kW voltage kW X-Z kW X-Y kW Y-Z A X A Y A Z A 1 phaseX-Z Top 1, Top 5, Oven 1 38 .45 208 12 .80 14 .05 11 .60 111 .83 101 .63 106 .96 184 .86X-Y Top 2, Top 3, Oven 2 38 .45 240 12 .80 14 .05 11 .60 96 .92 88 .08 92 .70 160 .21Y-Z Top 4, Salamander
SS684-24LSS684-2L
NO SALAMANDER domestic (delta) load Total kW voltage kW X-Z kW X-Y kW Y-Z A X A Y A Z A 1 phaseX-Z Top 1, Top 2, Top 3 30 .20 208 11 .3 9 .45 9 .45 86 .51 86 .51 78 .69 145 .19X-Y Top 4, Oven 1 30 .20 240 11 .3 9 .45 9 .45 74 .97 74 .97 68 .20 125 .83Y-Z Oven 2, Top 5
WITH SALAMANDER domestic (delta) load Total kW voltage kW X-Z kW X-Y kW Y-Z A X A Y A Z A 1 phaseX-Z Top 1, Top 2, Oven 1 37 .20 208 11 .55 14 .05 11 .5 106 .76 96 .39 106 .96 178 .85X-Y Top 3, Top 4, Oven 2 37 .20 240 11 .55 14 .05 11 .6 92 .52 83 .54 92 .70 155 .00Y-Z Top 5, Salamander
SS684-1C-12L NO SALAMANDER domestic (delta) load Total kW voltage kW X-Z kW X-Y kW Y-Z A X A Y A Z A 1 phaseX-Z Top 1, Top 2, Top 3 30 .20 208 11 .3 9 .45 9 .45 86 .52 86 .51 78 .69 145 .19X-Y Top 4, Oven 1 30 .20 240 11 .3 9 .45 9 .45 74,77 74 .97 68 .20 125 .83Y-Z Oven 2, Top 5
WITH SALAMANDER domestic (delta) load Total kW voltage kW X-Z kW X-Y kW Y-Z A X A Y A Z A 1 phaseX-Z Top 1, Top 3, Oven 1 37 .20 208 11 .55 14 .05 11 .6 106 .76 96 .39 106 .96 178 .85X-Y Top 2, Top 4, Oven 2 37 .20 240 11 .55 14 .05 11 .6 92 .52 83 .54 92 .70 155 .00Y-Z Top 5, Salamander
SS684-1L-12R SS684-1-R-12L
NO SALAMANDER domestic (delta) load Total kW voltage kW X-Z kw X-Y kW Y-Z A X A Y A Z A 1 phaseX-Z Top1, Top2, Top 5 30 .20 208 11 .3 9 .45 9 .45 86 .51 86 .51 78 .69 145 .19X-Y Top 3, Oven 1 30 .20 240 11 .3 9 .45 9 .45 74 .97 74 .97 68 .20 125 .83Y-Z Oven 2, Top 4
WITH SALAMANDER domestic (delta) load Total kW voltage kw X-Z kW X-Y kw Y-Z A X A Y A Z A 1 phaseX-Z Top 1, Top 5, Oven 1 37 .20 208 11 .55 14 .05 11 .6 106 .76 96 .39 106 .96 178 .85X-Y Top 2, Top 3, Oven 2 37 .20 240 11 .55 14 .05 11 .6 92 .52 83 .54 92 .70 155 .00Y-Z Top 4, Salamander
SS684-1C-12R NO SALAMANDER domestic (delta) load Total kW voltage kw X-Z kW X-Y kW Y-Z A X A Y A Z A 1 phaseX-Z Top 1, Top 3, Top 5 30 .20 208 11 .3 9 .45 9 .45 86 .51 86 .51 78 .69 145 .19X-Y Top 2, Oven 1 30 .20 240 11 .3 9 .45 9 .45 74 .97 74 .97 68 .20 125 .83Y-Z Oven 2, Top 4
WITH SALAMANDER domestic (delta) load Total kW voltage kW X-Z kW X-Y kW Y-Z A X A Y A Z A 1 phaseX-Z Top 3, Top 5, Oven 1 37 .20 208 11 .55 14 .05 11 .6 106 .76 96 .39 106 .96 178 .85X-Y Top 1, Top 2, Oven 2 37 .20 240 11 .55 14 .05 11 .6 92 .52 83 .54 92 .70 155 .00Y-Z Top 4, Salamander
SS684-2R SS684-24R
NO SALAMANDER domestic (delta) load Total kW voltage kW X-Z kW X-Y kW Y-Z A X A Y A Z A 1 phaseX-Z Top 1, Top 4, Top 5 30 .20 208 11 .3 9 .45 9 .45 86 .51 86 .51 78 .69 145 .19X-Y Top 2, Oven 1 30 .20 240 11 .3 9 .45 9 .45 74 .97 74 .97 68 .20 125 .83Y-Z Oven 2, Top 3
WITH SALAMANDER domestic (delta) load Total kW voltage kW X-Z kW X-Y kW Y-Z A X A Y A Z A 1 phaseX-Z Top 4, Top 5, Oven 1 37 .20 208 11 .55 14 .05 11 .6 106 .76 96 .39 106 .96 178 .85X-Y Top 1, Top 2, Oven 2 37 .20 240 11 .55 14 .05 11 .6 92 .52 83 .54 92 .70 155 .00Y-Z Top 3, Salamander
SS684-3L SS684-36LSS684-1C-24L SS684-2C-12L
NO SALAMANDER domestic (delta) load Total kW voltage kW X-Z kW X-Y kW Y-Z A X A Y A Z A 1 phaseX-Z Top 1, Top 2, Top 3 28 .95 208 10 .05 9 .45 9 .45 81 .20 81 .20 78 .69 139 .18X-Y Top 4, Oven 1 28 .95 240 10 .05 9 .45 9 .45 70 .38 70 .38 68 .20 120 .63Y-Z Oven 2, Top 5
WITH SALAMANDER domestic (delta) load Total kw voltage kW X-Z kW X-Y kW Y-Z A X A Y A Z A 1 phaseX-Z Top 1, Top 2, Oven 1 35 .95 208 11 .55 12 .8 11 .6 101 .43 96 .39 101 .63 172 .84X-Y Top 3, Top 4, Oven 2 35 .95 240 11 .55 12 .8 11 .6 87 .90 83 .54 88 .08 149 .79Y-Z Top 5, Salamander
SS684-2L-12R SS684-1R-24L
NO SALAMANDER domestic (delta) load Total kW voltage kW X-Z kW X-Y kW Y-Z A X A Y A Z A 1 phaseX-Z Top 1, Top 2, Top 5 28 .95 208 10 .05 9 .45 9 .45 81 .20 82 .20 78 .69 139 .18X-Y Top 3, Oven 1 28 .95 240 10 .05 9 .45 9 .45 70 .38 70 .38 68 .20 120 .63Y-Z Oven 2, Top 4
WITH SALAMANDER domestic (delta) load Total kW voltage Kw X-Z kW X-Y kW Y-Z A X A Y A Z A 1 phaseX-Z Top 1, Top 2, Oven 1 35 .95 208 11 .55 12 .8 11 .6 101 .43 96 .39 101 .63 172 .84X-Y Top 3, Top 5, Oven 5 35 .95 240 11 .55 12 .8 11 .6 87 .90 83 .54 88 .08 149 .79Y-Z Top 4, Salamander
Part # P152 Rev 1 (01/13/10) Page 35
MODELPhase grouping Loading chart
SS684-2R-12L SS684-1L-24R
NO SALAMANDER domestic (delta) load Total kW voltage kW X-Z kW X-Y Kw Y-Z A X A Y A Z A 1 phaseX-Z Top 1, Top 4, Top 5 28 .95 208 10 .05 9 .45 9 .45 81 .20 81 .20 78 .69 139 .18X-Y Top 2, Oven 1 28 .95 240 10 .05 9 .45 9 .45 70 .38 70 .38 68 .20 120 .63Y-Z Oven 2, Top 3
WITH SALAMANDER domestic (delta) load Total kW voltage kW X-Z kW X-Y kW Y-Z A X A Y A Z A 1 phaseX-Z Top 4, Top 5, Oven 1 35 .95 208 11 .55 12 .8 11 .6 101 .43 96 .39 101 .63 172 .84X-Y Top 1, Top 2, Oven 2 35 .95 240 11 .55 12 .8 11 .6 87 .90 83 .54 88 .08 149 .79Y-Z Top 3, Salamander
SS684-2C-12R NO SALAMANDER domestic (delta) load Total kW voltage kW X-Z kW X-Y kW Y-Z A X A Y A Z A 1 phaseX-Z Top 2, Top 3 Top 5 28 .95 208 10 .05 9 .45 9 .45 81 .20 81 .20 78 .69 139 .18X-Y Top 1, Oven 1 28 .95 240 10 .05 9 .45 9 .45 70 .38 70 .38 68 .20 120 .63Y-Z Oven 2, Top 4
WITH SALAMANDER domestic (delta) load Total kW voltage kW X-Z kW X-Y kW Y-Z A X A Y A Z A 1 phaseX-Z Top 3, Top 5, Oven 1 35 .95 208 11 .55 12 .8 11 .6 101 .43 96 .39 101 .63 172 .84X-Y Top 1, Top 2, Oven 2 35 .95 240 11 .55 12 .8 11 .6 87 .90 83 .54 88 .08 149 .79Y-Z Top 4 Salamander
SS684-3R SS684-1C-24R SS684-36r
NO SALAMANDER domestic (delta) load Total k W voltage kW X-Z kW X-Y kW Y-Z A X A Y A Z A 1 phaseX-Z Top 3, Top 4, Top 5 28 .95 208 10 .05 9 .45 9 .45 81 .20 81 .20 78 .69 139 .18X-Y Top 1, Oven 1 28 .95 240 10 .05 9 .45 9 .45 70 .38 70 .38 68 .20 120 .63Y-Z Oven 2, Top 2
WITH SALAMANDER domestic (delta) load Total kW voltage kW X-Z kW X-Y kW Y-Z A X A Y A Z A 1 phaseX-Z Top 3, Top 4, Oven 1 35 .95 208 11 .55 12 .8 11 .6 101 .43 96 .39 101 .63 172 .84X-Y Top 1, Top 5, Oven 2 35 .95 240 11 .55 12 .8 11 .6 87 .90 88 .54 88 .08 149 .79Y-Z Top 2, Salamander
SS684-1C-36L SS684-2C-24LSS684-3C-12L
NO SALAMANDER domestic (delta) load Total kW voltage kW X-Z kW X-Y kW Y-Z A X A Y A Z A 1 phaseX-Z Top 1, Top 2, Top 3 27 .70 208 10 .05 8 .20 9 .45 76 .12 81 .20 73 .55 133 .17X-Y Top 4, Oven 1 27 .70 240 10 .05 8 .20 9 .45 66 .97 70 .38 63 .74 115 .42Y-Z Oven 2, Top 5
WITH SALAMANDER domestic (delta) load Toal kW voltage kW X-Z kW X-Y kW Y-Z A X A Y A Z A 1 phaseX-Z Top 1, Top 2, Oven 1 34 .70 208 11 .55 11 .55 11 .60 96 .18 96 .39 96 .39 166 .83X-Y Top 3, Top 4, Oven 2 34 .70 240 11 .55 11 .55 11 .50 83 .35 83 .54 83 .54 144 .58Y-Z Top 5 Salamander
SS684-3R-12L SS684-1L-36R
NO SALAMANDER domestic (delta) load Total kW voltage kW X-Z kW X-Y kW Y-Z A X A Y A Z A 1 phaseX-Z Top 3, Top 4 Top 5 27 .70 208 10 .05 8 .20 9 .45 76 .12 61 .20 73 .55 133 .17X-Y` Top 1 Oven 1 27 .70 240 10 .05 8 .20 9 .45 66 .97 70 .38 63 .74 115 .42Y-Z Oven 2, Top 2
WITH SALAMANDER domestic (delta) load Total kW voltage kW X-Z kW X-Y kW Y-Z A X A Y A Z A 1 phaseX-Z Top 3, Top 4, Oven 1 34 .70 208 11 .55 11 .55 11 .60 96 .18 96 .39 96 .39 166 .83X-Y Top 1, Top 5, Oven 2 34 .70 240 11 .55 11 .55 11 .60 83 .35 83 .54 83 .54 144 .58Y-Z Top 2, Salamander
SS684-1C-36R SS684-2C-24R SS684-3C-12R
NO SALAMANDER domestic (delta) load Total kW voltage Kw X-Z kW X-Y kW Y-Z A X A Y A Z A 1 phaseX-Z Top 2, Top 3, Top 4 27 .70 208 10 .05 8 .20 9 .45 76 .12 81 .20 73 .55 133 .17X-Y Top 1, Oven 1 27 .70 240 10 .05 8 .20 9 .45 65 .97 70 .38 63 .74 115 .42Y-Z Oven 2, Top 5
WITH SALAMANDER domestic (delta) load total kW voltage kW X-Z kW X-Y kW Y-Z A X A Y A Z A 1 phaseX-Z Top 2, Top 3, Oven 1 34 .70 208 11 .55 11 .55 11 .60 96 .18 96 .39 96 .39 166 .83X-Y Top 4, Top 5, Oven 2 34 .70 240 11 .55 11 .55 11 .60 83 .35 83 .54 83 .54 144 .58Y-Z Top 1, Salamander
SS684-3L-12R NO SALAMANDER domestic (delta) load Total kW voltage kW X-Z kW X-Y kW Y-Z A X A Y A Z A 1 phaseX-Z Top 2, Top 3, Top 5 27 .70 208 10 .05 8 .20 9 .45 76 .12 81 .20 73 .55 133 .17X-Y Top 1, Oven 1 27 .70 240 10 .05 8 .20 9 .45 65 .97 70 .38 63 .74 115 .42Y-Z Oven 2, Top 4
WITH SALAMANDER domestic (delta) load Total kW voltage kW X-Z kW X-Y kW Y-Z A X A Y A Z A 1 phaseX-Z Top 3, Top 5, Oven 1 34 .70 208 11 .55 11 .55 11 .60 96 .18 96 .39 96 .39 166 .83X-Y Top 1, Top 2, Oven 2 34 .70 240 11 .55 11 .55 11 .60 83 .35 83 .54 83 .54 144 .58Y-Z Top 4, Salamander
SS684-2R-24L SS684-2L-24R
NO SALAMANDER domestic (delta) load Total kW voltage kW X-Z kW X-Y Kw Y-Z A X A Y A Z A 1 phaseX-Z Top 2, Top 4, Top 5 27 .70 208 10 .05 8 .20 9 .45 76 .12 81 .20 73 .55 133 .17X-Y Top 1, Oven 1 27 .70 240 10 .05 8 .20 9 .45 65 .97 70 .38 63 .74 115 .42Y-Z Oven 2 Top 35
WITH SALAMANDER domestic (delta) load Total kW voltage kW X-Z kW X-Y kW Y-Z A X A Y A Z A 1 phaseX-Z Top 4, Top 5, Oven 1 34 .70 208 11 .55 11 .55 11 .60 96 .18 96 .39 96 .39 166 .83X-Y Top 1, Top 2, Oven 2` 34 .70 240 11 .55 11 .55 11 .60 83 .35 83 .35 83 .35 144 .58Y-Z Top 3, Salamander
SS685-3R-24L SS684-3L-24RSS684-2R-36LSS684-2L-36RS684 all models
NO SALAMANDER domestic (delta) load Total kW voltage kW X-Z kW X-Y kW Y-Z A X A Y A Z A 1 phaseX-Z Top 1, Top2, Top 3 26 .45 208 10 .05 8 .20 8 .20 76 .12 76 .12 68 .28 127 .16X-Y Top 4, Oven 1 26 .45 240 10 .05 8 .20 8 .20 65 .97 65 .97 59 .18 110 . .21Y-Z Oven 2, Top 5
WITH SALAMANDER domestic (delta) load Total kW voltage kW X-Z kW X-Y kW Y-Z A X A Y A Z A 1 phaseX-Z Top 1, Top 2, Oven 1 33 .45 208 11 .55 11 .55 10 .35 96 .18 91 .23 91 .23 160 .82X-Y Top 3, Top 4, Oven 2 33 .45 240 11 .55 11 .55 10 .35 83 .75 79 .06 79 .06 139 .38Y-Z Top 5, Salamander
Part # P152 Rev 1 (01/13/10)Page 36
GR
IDD
LE T
HE
RM
OS
TAT
40°-
230°
C
3.35
kW
OV
EN
TH
ER
MO
STA
T
65°-
290°
C
1675
W
1675
W
OV
EN
TH
ER
MO
STA
T
65°-
290°
C
2200
W
1900
W
750W
2200
W
1900
W
750W
WIR
ING
DIA
GR
AM
SU
684
S68
0 S
ER
IES
AP
R 2
6,19
99N
AV
C
31
2693
301
34
21
6 H
EAT
SW
ITC
H
P2P1
P3
43
12
5
_0A
SA
LAM
AN
DE
RTO
P 1
TOP
2TO
P 3
TOP
4TO
P 5
OV
EN
_0A
_0A
30A
_0A
_0A
40A
30A
OV
EN
OV
EN
6 H
EAT
SW
ITC
H
P2P1
P3
43
12
5
34
21
ER
7kW
SA
LAM
AN
DE
R
L (R
ED
)
N (B
LAC
K)
N (B
LAC
K)
L (R
ED
)
SE
ALE
D E
LEM
EN
T2.
6kW
, 220
mm
2.0k
W, 1
80m
m
TOP
1TO
P 2
TOP
3
LNLNLN
12
34
56
1011
12
34
1011
12
NTO
P 4
L
TOP
5LN
:A
LL D
IME
NS
ION
S A
RE
IN IN
CH
ES
TOLE
RA
NC
E ±
0.01
5" U
NLE
SS
OTH
ER
WIS
E S
PE
CIF
IED
CO
MM
ER
CIA
L R
AN
GE
S L
IMIT
ED
MIS
SIS
SA
UG
A, O
NTA
RIO
, CA
NA
DA
::
:
TITL
E:
DAT
ES
CA
LED
R.
SH
T
OF
CH
K. B
Y
REV
RE
V.#
DAT
ED
R.
DE
SC
RIP
TIO
N RE
VIS
ION
S
3350
W T
OP
S =
20A
4600
W T
OP
S =
30A
12
N (B
LAC
K)
L1 (R
ED
)
L1H2
L2
H1 P
L1H2
L2
H1 P
3.35
kW T
OTA
L /(8
"=2.
1kW
, 6"=
1.25
kW)
HO
T TO
P / (
OP
EN
TO
P)
TOP
5 B
LAC
KTO
P 4
BLA
CK
OV
EN
2 B
LAC
KS
ALA
MA
ND
ER
BLA
CK
OV
EN
1 B
LAC
KTO
P 3
BLA
CK
TOP
2 B
LAC
KTO
P 1
BLA
CK
TOP
5 R
ED
TOP
4 R
ED
OV
EN
2 R
ED
SA
LAM
AN
DE
R R
ED
OV
EN
1 R
ED
TOP
3 R
ED
TOP
2 R
ED
TOP
1 R
ED
T1(1
)T2
(1)
T3(1
)O
1(1)
S(1
)O
2(1)
T4(1
)T5
(1)
T1(2
)T2
(2)
T3(2
)O
1(2)
S(2
)O
2(2)
T4(2
)T5
(2)
T1(3
)T1
(4)
T2(3
)
O1(
3)
O1(
4)T3
(4)
T3(3
)T2
(4)
S(3
)S
(4)
O2(
3)O
2(4)
T4(3
)
T4(4
)T5
(3)
T5(4
)
S(7
)S
(6)
S(8
) S(5
)
TB1
TB2
TB1-
1TB
1-2
TB1-
3TB
1-4
TB1-
5TB
1-6
TB1-10c
TB1-12b
TB1-11a
TB2-
1TB
2-2
TB2-
3TB
2-4
TB2-10d
TB2-11a
TB2-12b
O2(
4)
TB2-10a
TB2-10a
TB2-
12a
TB1-10a
TB1-
12a
TB1-
12c
TB1-
10f
O2(
4)
TB1-10a
GR
IDD
LE
E1b
E4
E3
E2
21
3
4
2
1
3
4
H1
H2
H2
H1
G4
G2
G1G
3
ST1
ST2
ST4
ST3
OT4
OT2
OT1
OT3
UP
PE
R
INN
ER
OU
TER
OV
EN
ELE
ME
NTS
4.8
5kW
OU
TER
UP
PE
R
TB1-
12c
INN
ER
TB1-
10f
OV
EN
E1b
ENL3L2
3 P
HA
SE
L1
SE
E T
ER
MIN
AL
BLO
CK
CO
NN
EC
TIO
NS
S
HE
ETS
2 A
ND
3
Part # P152 Rev 1 (01/13/10) Page 37
WIR
ING
DIA
GR
AM
SU
684
S68
0 S
ER
IES
AP
R 2
6,19
99N
AV
C
32
2693
301
:A
LL D
IME
NS
ION
S A
RE
IN IN
CH
ES
TOLE
RA
NC
E ±
0.01
5" U
NLE
SS
OTH
ER
WIS
E S
PE
CIF
IED
CO
MM
ER
CIA
L R
AN
GE
S L
IMIT
ED
MIS
SIS
SA
UG
A, O
NTA
RIO
, CA
NA
DA
::
:
TITL
E:
DAT
ES
CA
LED
R.
SH
T
OF
CH
K. B
Y
REV
RE
V.#
DAT
ED
R.
DE
SC
RIP
TIO
N RE
VIS
ION
S
ENL3L2
3 P
HA
SE
L1
ENL3L2
3 P
HA
SE
L1
ENL3L2
3 P
HA
SE
L1
ENL3L2
3 P
HA
SE
L1
T5(2
)TO
P 5
BLA
CK
T5(2
)TO
P 5
BLA
CK
TOP
4 B
LAC
KT4
(2)
TOP
5 B
LAC
KT5
(2)
SU
684
Mod
els:
-1C
, -1C
-12L
GR
OU
P 1
WIT
H S
ALM
AN
DE
R
O1(
1)
T4(1
)T3
(1)
T2(1
)T1
(1)
OV
EN
1 R
ED
TOP
4 R
ED
TOP
1 R
ED
TOP
2 R
ED
TOP
3 R
ED
GR
OU
P 1
NO
SA
LMA
ND
ER T1
(1)
T3(1
)T2
(1)
SU
684
Mod
els:
-1L-
36R
SU
684
Mod
els:
-1L-
24R
, -24
R, -
2R, -
2R-1
2L,
-2R
-24L
GR
OU
P 2
WIT
H S
ALM
AN
DE
R
TOP
1 R
ED
TOP
2 R
ED
TOP
3 R
ED
OV
EN
1 R
ED
TOP
5 R
ED
TOP
1 R
ED
TOP
2 R
ED
TOP
3 R
ED
O1(
1)
T3(1
)T2
(1)
T5(1
)T1
(1)
SU
684
Mod
els:
-1L-
24R
, -24
R, -
2L-2
4R, 2
R,
-2R
-12L
GR
OU
P 2
NO
SA
LMA
ND
ER
TOP
1 R
ED
TOP
5 R
ED
TOP
2 R
ED
T1(1
)T2
(1)
SA
LAM
AN
DE
R B
LAC
K
SA
LAM
AN
DE
R R
ED
T1(1
)
T2(1
)
T3(1
)
T4(1
)
O1(
1)
S(1
)
T2(2
)
O2(
2)
O1(
2)
T1(2
)T3
(2)
S(2
)
T4(2
)
T5(1
)
O2(
1)
TOP
4 B
LAC
K
OV
EN
2 B
LAC
K
TOP
2 B
LAC
K
TOP
1 B
LAC
K
OV
EN
1 B
LAC
K
TOP
3 B
LAC
K
TOP
3 R
ED
TOP
2 R
ED
TOP
1 R
ED
TOP
4 R
ED
OV
EN
1 R
ED
TOP
5 R
ED
OV
EN
2 R
ED
GR
OU
P 3
WIT
H S
ALM
AN
DE
R
T2(1
)
T1(2
)
T3(2
)O
2(2)
T2(2
)
O2(
1)
O1(
2)T5
(2)
T3(1
)
O1(
1)T5
(1)
T4(1
)
T1(1
)
GR
OU
P 3
NO
SA
LMA
ND
ER
GR
OU
P 4
WIT
H S
ALM
AN
DE
R
TOP
1 B
LAC
K
OV
EN
1 B
LAC
K
OV
EN
2 R
ED
TOP
5 B
LAC
K
TOP
2 B
LAC
K
OV
EN
2 B
LAC
K
TOP
3 B
LAC
K
TOP
2 R
ED
OV
EN
1 R
ED
TOP
4 R
ED
TOP
3 R
ED
TOP
5 R
ED
TOP
1 R
ED
TOP
4 R
ED
TOP
2 R
ED
TOP
1 R
ED
OV
EN
1 R
ED
TOP
5 R
ED
SA
LAM
AN
DE
R B
LAC
K
OV
EN
1 B
LAC
K
SA
LAM
AN
DE
R R
ED
OV
EN
2 B
LAC
K
TOP
1 B
LAC
K
TOP
3 B
LAC
K
TOP
3 R
ED
TOP
2 B
LAC
K
TOP
4 B
LAC
K
OV
EN
2 R
ED
S(1
)
T1(2
)
O2(
2)
O1(
2)
T3(2
)
S(2
)
T4(2
)
T2(2
)
O1(
1)
O2(
1)
T1(1
)T2
(1)
T3(1
)
T4(1
)T5
(1)
OV
EN
1 B
LAC
K
OV
EN
2 B
LAC
K
T3(1
)
TOP
1 B
LAC
K
OV
EN
2 R
ED
TOP
3 R
ED
TOP
2 B
LAC
K
TOP
4 B
LAC
K
TOP
3 B
LAC
K
T1(2
)
O2(
2)T4
(2)
T3(2
)
O2(
1)
O1(
2)T2
(2)
OV
EN
1 R
ED
TOP
4 R
ED
TOP
2 R
ED
TOP
1 R
ED
TOP
5 R
ED
T4(1
)
O1(
1)
T5(1
)
T2(1
)
T1(1
)
GR
OU
P 4
NO
SA
LMA
ND
ER
SU
684
Mod
els:
-STD
, -12
L, -1
C, -
1C-1
2L, -
1C-2
4L,
-1C
-36L
, -1L
, -24
L, -2
C-1
2L, -
2C-2
4L,
-2L,
-2L-
36R
, -2L
-36L
, -36
L, -3
C-1
2L,
-3L,
-3L-
24R
, -3R
-24L
ENL3L2
3 P
HA
SE
L1
SA
LAM
AN
DE
R R
ED
SA
LAM
AN
DE
R B
LAC
K
T5(1
)
SU
684
Mod
els:
-STD
, -12
L, -1
C-2
4L, -
1C-3
6L,
-1L,
-24L
, -2C
-12L
, -2C
-24L
,-2
L, -2
L-24
R, -
2L-3
6R, -
2R-3
6L,
-36L
, -3L
, -3L
-24R
, -3R
-24L
T4(2
)
S(2
)
T2(2
)T1
(2)
O1(
2)
T5(2
)
O2(
2)
T3(2
)
S(1
)
TOP
5 B
LAC
K
TOP
5 R
ED
TOP
1 B
LAC
K
TOP
3 B
LAC
K
OV
EN
2 B
LAC
K
TOP
4 B
LAC
K
TOP
2 B
LAC
K
OV
EN
1 B
LAC
K
O2(
1)O
VE
N 2
RE
D
ENL3L2
3 P
HA
SE
L1
O1(
1)
O2(
2)T5
(2)
O1(
2)T1
(2)
T3(2
)T2
(2)
T5(1
)O
2(1)
T4(2
)
T4(1
)
ENL3L2
3 P
HA
SE
L1
SU
684
Mod
els:
-12R
, -1L
-12R
, -1R
, -1R
-12L
ENL3L2
3 P
HA
SE
L1
OV
EN
2 B
LAC
K
TOP
5 B
LAC
K
TOP
5 R
ED
TOP
3 B
LAC
K
TOP
4 B
LAC
K
OV
EN
1 R
ED
OV
EN
2 R
ED
OV
EN
1 B
LAC
K
TOP
2 B
LAC
K
TOP
1 B
LAC
K
TOP
4 R
ED
T4(1
)TO
P 4
RE
D
TOP
1 B
LAC
K
TOP
2 B
LAC
K
OV
EN
2 B
LAC
K
TOP
3 B
LAC
K
SA
LAM
AN
DE
R R
ED
TOP
4 B
LAC
K
OV
EN
1 B
LAC
K
SA
LAM
AN
DE
R B
LAC
K
TOP
5 B
LAC
K
S(2
)T5
(2)
O1(
2)
O2(
2)
T2(2
)
T4(2
)T1
(2)
T3(2
)
S(1
)
OV
EN
2 R
ED
O2(
1)
OV
EN
2 B
LAC
K
OV
EN
1 B
LAC
K
O1(
1)
SU
684
Mod
els:
-12R
, -1L
-12R
, -1R
, -1R
-12L
,-1
R-2
4L, -
2L-1
2RO2(
2)
TOP
5 B
LAC
KT5
(2)
TOP
4 R
ED
TOP
4 B
LAC
K
TOP
3 B
LAC
K
OV
EN
1 R
ED
OV
EN
2 R
ED
TOP
2 B
LAC
K
TOP
1 B
LAC
K
O1(
2)T1
(2)
T4(2
)T2
(2)
O2(
1)
T3(2
)
T4(1
)
TOP
3 R
ED
T3(1
)
T5(1
)
Part # P152 Rev 1 (01/13/10)Page 38
WIR
ING
DIA
GR
AM
SU
684
S68
0 S
ER
IES
AP
R 2
6,19
99N
AV
C
33
2693
301
:A
LL D
IME
NS
ION
S A
RE
IN IN
CH
ES
TOLE
RA
NC
E ±
0.01
5" U
NLE
SS
OTH
ER
WIS
E S
PE
CIF
IED
CO
MM
ER
CIA
L R
AN
GE
S L
IMIT
ED
MIS
SIS
SA
UG
A, O
NTA
RIO
, CA
NA
DA
::
:
TITL
E:
DAT
ES
CA
LED
R.
SH
T
OF
CH
K. B
Y
REV
RE
V.#
DAT
ED
R.
DE
SC
RIP
TIO
N RE
VIS
ION
S
TOP
1 R
ED
TOP
4 R
ED
OV
EN
1 R
ED
TOP
3 R
ED
TOP
5 R
ED
OV
EN
1 B
LAC
K
TOP
1 B
LAC
K
TOP
2 R
ED
OV
EN
2 R
ED
TOP
5 B
LAC
K
TOP
3 B
LAC
K
TOP
4 B
LAC
K
TOP
2 B
LAC
K
OV
EN
2 B
LAC
K
OV
EN
1 R
ED
TOP
3 B
LAC
K
TOP
1 B
LAC
K
TOP
5 B
LAC
K
TOP
4 B
LAC
K
SA
LAM
AN
DE
R B
LAC
K
OV
EN
1 B
LAC
K
SA
LAM
AN
DE
R R
ED
OV
EN
2 B
LAC
K
TOP
2 B
LAC
K
OV
EN
2 R
ED
ENL3L2
3 P
HA
SE
L1
O1(
1)
SU
684
Mod
els:
-1C
-24R
, -36
R, -
3R, -
3R-1
2L
O2(
2)T5
(2)
O1(
2)
T3(2
)T4
(2)
T2(2
)
T2(1
)O
2(1)
T1(2
)
ENL3L2
3 P
HA
SE
L1
S(2
)
SU
684
Mod
els:
-1C
-36R
, 2C
-24R
, -3C
-12R
GR
OU
P 9
NO
SA
LMA
ND
ER T3(1
)T4
(1)
T5(1
)
T1(1
)
T3(2
)
T1(1
)
O2(
2)
T2(2
)O
1(2)
T1(2
)
S(1
)
T5(2
)T4
(2)
TOP
1 R
ED
O1(
1)
T4(1
)T5
(1)
O2(
1)
T3(1
)T2
(1)
TOP
4 R
ED
TOP
5 R
ED
TOP
2 R
ED
TOP
3 R
ED
GR
OU
P 9
WIT
H S
ALM
AN
DE
R
SU
684
Mod
els:
-1R
-36L
, -2C
-12R
, -3L
-12R
TOP
2 R
ED
TOP
3 R
ED
TOP
5 R
ED
TOP
4 R
ED
OV
EN
2 R
ED
OV
EN
1 R
ED
OV
EN
2 B
LAC
K
OV
EN
1 B
LAC
K
TOP
2 B
LAC
K
TOP
3 B
LAC
K
TOP
4 B
LAC
K
TOP
1 B
LAC
K
TOP
1 R
ED
TOP
1 R
ED
TOP
3 R
ED
TOP
2 R
ED
TOP
5 R
ED
OV
EN
1 R
ED
TOP
4 R
ED
TOP
1 B
LAC
K
OV
EN
1 B
LAC
K
OV
EN
2 R
ED
TOP
2 B
LAC
K
TOP
5 B
LAC
K
OV
EN
2 B
LAC
K
TOP
3 B
LAC
K
TOP
4 B
LAC
K
TOP
5 B
LAC
K
ENL3L2
3 P
HA
SE
L1
GR
OU
P 5
WIT
H S
ALM
AN
DE
R
T1(2
)
SU
684
Mod
els:
-1C
-24R
, -1L
-36R
, -36
R-3
R, -
3R-1
2L
O2(
2)
O1(
2)T4
(2)
T2(2
)S
(2)
T3(2
)
T5(2
)TO
P 5
BLA
CK
OV
EN
2 B
LAC
K
TOP
3 B
LAC
K
TOP
1 B
LAC
K
TOP
2 B
LAC
K
OV
EN
1 B
LAC
K
TOP
4 B
LAC
K
SA
LAM
AN
DE
R B
LAC
K
T5(1
)
S(1
)T2
(1)
O2(
1)
T1(1
)
T4(1
)O
1(1)
T3(1
)
TOP
4 R
ED
TOP
1 R
ED
TOP
5 R
ED
OV
EN
1 R
ED
TOP
2 R
ED
OV
EN
2 R
ED
SA
LAM
AN
DE
R R
ED
TOP
3 R
ED
ENL3L2
3 P
HA
SE
L1
O2(
1)
SU
684
Mod
els:
-1C
-12R
T3(2
)
O2(
2)T5
(2)
T4(2
)
O1(
2)T1
(2)
T2(2
)
GR
OU
P 5
NO
SA
LMA
ND
ER T5(1
)
O1(
1)T2
(1)
T4(1
)
T1(1
)T3
(1)
ENL3L2
3 P
HA
SE
L1
GR
OU
P 7
WIT
H S
ALM
AN
DE
R
SU
684
Mod
els:
-1C
-12R
, -2C
-12R
, -3L
-12R
O1(
2)
O2(
2)T3
(2)
S(2
)
T4(2
)
T5(2
)
S(1
)
T2(2
)T1
(2)
O2(
1)
T4(1
)
T2(1
)
TOP
3 B
LAC
K
TOP
4 B
LAC
K
OV
EN
1 B
LAC
K
SA
LAM
AN
DE
R B
LAC
K
TOP
5 B
LAC
K
OV
EN
2 R
ED
TOP
4 R
ED
TOP
2 R
ED
TOP
1 B
LAC
K
OV
EN
2 B
LAC
K
TOP
2 B
LAC
K
SA
LAM
AN
DE
R R
ED
O1(
1)T5
(1)
T3(1
)
T1(1
)
OV
EN
1 R
ED
TOP
5 R
ED
TOP
3 R
ED
TOP
1 R
ED
ENL3L2
3 P
HA
SE
L1
T3(1
)
T2(2
)
O2(
2)
T3(2
)T4
(2)
T5(2
)
T4(1
)
O1(
2)
O2(
1)
T1(2
)
T5(1
)
O1(
1)T1
(1)
GR
OU
P 7
NO
SA
LMA
ND
ER T2(1
)
ENL3L2
3 P
HA
SE
L1
SU
684
Mod
els:
-3C
-12L
GR
OU
P 6
WIT
H S
ALM
AN
DE
R
ENL3L2
3 P
HA
SE
L1
T1(2
)
TOP
5 B
LAC
K
SA
LAM
AN
DE
R B
LAC
K
OV
EN
1 B
LAC
K
OV
EN
2 B
LAC
K
TOP
1 B
LAC
K
TOP
2 B
LAC
K
TOP
4 B
LAC
K
TOP
3 B
LAC
KT3
(2)
S(2
)T5
(2)
O1(
2)
T2(2
)
T4(2
)O
2(2)
SA
LAM
AN
DE
R R
ED
OV
EN
2 R
ED
T4(1
)
S(1
)T5
(1)
O2(
1)
T1(1
)
T3(1
)O
1(1)
TOP
4 R
ED
TOP
5 R
ED
TOP
3 R
ED
TOP
1 R
ED
OV
EN
1 R
ED
T2(1
)TO
P 2
RE
D
O2(
1)O
VE
N 2
RE
D
SU
684
Mod
els:
-1C
-36R
, -2C
-24R
, -3C
-12R
T1(2
)O
1(2)
T5(2
)
T3(2
)O
2(2)
T4(2
)
T2(2
)TO
P 1
BLA
CK
OV
EN
1 B
LAC
K
TOP
5 B
LAC
K
TOP
4 B
LAC
K
TOP
3 B
LAC
K
TOP
2 B
LAC
K
OV
EN
2 B
LAC
K
T2(1
)
T4(1
)
T5(1
)O
1(1)
T3(1
)
GR
OU
P 6
NO
SA
LMA
ND
ER T1(1
)O
VE
N 1
RE
D
TOP
4 R
ED
TOP
3 R
ED
TOP
2 R
ED
TOP
5 R
ED
TOP
1 R
ED
ENL3L2
3 P
HA
SE
L1
SU
684
Mod
els:
-1R
-24L
, 1R
-36L
, 2L-
12R
GR
OU
P 8
WIT
H S
ALM
AN
DE
R
ENL3L2
3 P
HA
SE
L1O
VE
N 2
RE
D
TOP
2 B
LAC
K
OV
EN
2 B
LAC
K
SA
LAM
AN
DE
R R
ED
OV
EN
1 B
LAC
K
SA
LAM
AN
DE
R B
LAC
K
TOP
3 B
LAC
K
TOP
5 B
LAC
K
TOP
1 B
LAC
K
TOP
4 B
LAC
K
T1(2
)T2
(2)
S(2
)O
1(2)
T4(2
)
S(1
)
T5(2
)O
2(2)
T3(2
)
T5(1
)
T4(1
)
O2(
1)TO
P 5
RE
D
TOP
4 R
ED
T2(1
)
T3(1
)
O1(
1)
T1(1
)
OV
EN
1 R
ED
TOP
2 R
ED
TOP
3 R
ED
TOP
1 R
ED
T4(1
)TO
P 4
RE
D
SU
684
Mod
els:
-2R
-24L
T5(1
)
T3(1
)O
2(1)
O1(
1)
T1(2
)O
1(2)
T4(2
)T3
(2)
O2(
2)
T2(2
)
T1(1
)
T5(2
)
TOP
2 B
LAC
K
TOP
4 B
LAC
K
TOP
3 B
LAC
K
OV
EN
2 B
LAC
K
TOP
5 B
LAC
K
OV
EN
2 R
ED
TOP
5 R
ED
OV
EN
1 R
ED
TOP
3 R
ED
TOP
1 B
LAC
K
OV
EN
1 B
LAC
K
TOP
1 R
ED
GR
OU
P 8
NO
SA
LMA
ND
ER T2(1
)TO
P 2
RE
D
Part # P152 Rev 1 (01/13/10) Page 39
Part # P152 Rev 1 (01/13/10)Page 40
MODEL NO SALAMANDERPhase Grouping Loading Chart
SU684 STD NO SALAMANDER export (wye) load voltage total kW kW L1 kW L2 kW L3 A L1 A L2 A L3 A 1 phaseL1 Top 1 , Top 2, Top 3 400V 3N~ 32 .7 13 .8 9 .45 9 .45 60 .00 41 .09 41 .09 142 .17L2 Top 4, Oven 1 415V 3N~ 32 .7 13 .8 9 .45 9 .45 57 .50 39 .38 39 .38 136 .25L3 Oven 2, Top 5 330V 3N~- 29 .92 12 .63 8 .65 8 .65 57 .39 39 .30 39 .30 136 .99
WITH SALAMANDER export (wye) load voltage total kW kW L1 kW L2 kW L3 A L1 A L2 A L3 A 1 phaseL1 Top 1, Top 2, Oven 1 400V 3N~ 39 .7 14 .05 14 .05 11 .6 61 .09 61 .09 50 .43 172 .61L2 Top 3, Top 4, Oven 2 415V 3N~ 39 .7 14 .05 14 .05 11 .6 58 .54 58 .54 48 .33 165 .42L3 Top 5, Salamander 380V 3N~ 36 .32 12 .85 12 .85 10 .61 58 .43 58 .43 48 .24 165 .10
SU6841L SU684-12L
NO SALAMANDER export (wye) load voltage total kW kW L1 kW L2 kW L3 A L1 A L2 A L3 A 1 phaseL1 Top 1, Top 2, Top 3 400V 3N~ 31 .45 12 .55 9 .45 9 .45 54 .57 41 .09 41 .09 136 .74L2 Top 4, Oven 1 415V3N~ 31 .45 12 .55 9 .45 9 .45 52 .29 39 .38 39 .38 131 .04L3 Oven 2, Top 5 380V 3N~ 28 .77 11 .48 8 .65 8 .65 52 .19 39 .30 39 .30 130 .79
WITH SALAMANDER export (wye) load voltage total kW kW L1 kW L2 kW L3 A L1 A L2 A L3 A 1phaseL1 Top 1, Top 2, Oven 1 400V 3N~ 38 .45 12 .8 14 .05 11 .6 55 .65 61 .09 50 .43 167 .17L2 Top 3, Top 4, Oven 2 415V 3N~ 38 .45 12 .8 14 .05 11 .6 53 .33 58 .54 48 .33 160 .21L3 Top 5, Salamander 380V 3N~ 35 .18 11 .71 12 .85 10 .61 53 .23 58 .43 48 .24 159 .91
SU684-1C NO SALAMANDER export (wye) load voltage total kW kW L1 kW L2 kW L3 A L1 A L2 A L3 A 1 phaseL1 Top 1, Top 2, Top 3 400V 3N~ 31 .45 12 .55 9 .45 9 .45 54 .57 41 .09 41 .09 136 .74L2 Top 4, Oven 1 415V3N~ 31 .45 12 .55 9 .45 9 .45 52 .29 39 .38 39 .38 131 .04L3 Oven 2, Top 5 380V 3N~ 28 .77 11 .48 8 .65 8 .65 52 .19 39 .30 39 .30 130 .79
WITH SALAMANDER export (wye) load voltage total kW kW L1 kW L2 kW L3 A L1 A L2 A L3 A 1 phaseL1 Top 1, Top 2, Oven 1 400V 3N~ 38 .45 12 .8 14 .05 11 .6 55 .65 61 .09 50 .43 167 .17L2 Top 3, Top 4, Oven 2 415V 3N~ 38 .45 12 .8 14 .05 11 .6 53 .33 58 .54 48 .33 160 .21L3 Top 5, Salamander 380V 3N~ 35 .18 11 .71 12 .85 10 .61 53 .23 58 .43 48 .24 159 .91
SU684-1R SU684-12R
NO SALAMANDER export (wye) load voltage total kW kW L1 kW L2 kW L3 A L1 A L2 A L3 A 1 phaseL1 Top 1 , Top 2, Top 5 400V 3N~ 31 .45 12 .55 9 .45 9 .45 54 .57 41 .09 41 .09 136 .74L2 Top 3, Oven 1 415V 3N~ 31 .45 12 .55 9 .45 9 .45 52 .29 39 .38 39 .38 131 .04L3 Oven 2, Top 4 380V 3N~ 28 .77 11 .48 8 .65 8 .65 52 .19 39 .30 39 .30 130 .79
WITH SALAMANDER export (wye) load voltage total kW kW L1 kW L2 kW L3 A L1 A L2 A L3 A 1 phaseL1 Top 1, Top 5, Oven 1 400V 3N~ 38 .45 12 .8 14 .05 11 .6 55 .65 61 .09 50 .43 167 .17L2 Top 2, Top 3, Oven 2 415V 3N~ 38 .45 12 .8 14 .05 11 .6 53 .33 58 .54 48 .33 160 .21L3 Top 4, Salamander 380V 3N~ 35 .18 11 .71 12 .85 10 .61 53 .23 58 .43 48 .24 159 .91
SU684-24L SU684-2L
NO SALAMANDER export (wye) load voltage total kW kW L1 kW L2 kW L3 A L1 A L2 A L3 A 1 phaseL1 Top 1, Top 2, Top 3 400V 3N~ 30 .2 11 .3 9 .45 9 .45 49 .13 41 .09 41 .09 131 .30L2 Top 4, Oven1 415V 3N~ 30 .2 11 .3 9 .45 9 .45 47 .08 39 .38 39 .38 125 .83L3 Oven 2, Top 5 380V 3N~ 27 .63 10 .34 8 .65 8 .65 46 .99 39 .30 39 .30 125 .60
WITH SALAMANDER export (wye) load voltage total kW kW L1 kW L2 kW L3 A L1 A L2 A L3 A 1 phaseL1 Top 1, Top 2, Oven 1 400V 3N~ 37 .2 11 .55 14 .05 11 .6 50 .22 61 .09 50 .43 161 .74L2 Top 3, Top 4, Oven 2 415V 3N~ 37 .2 11 .55 14 .05 11 .6 48 .13 58 .54 48 .33 155 .00L3 Top 5, Salamander 380V 3N~ 34 .04 10 .57 12 .85 10 .61 48 .03 58 .43 48 .24 154 .71
SU684-1C-12L NO SALAMANDER export (wye) load voltage total kW kW L1 kW L2 kW L3 A L1 A L2 A L3 A 1 phaseL1 Top 1 , Top 2, Top 3 400V 3N~ 30 .2 11 .3 9 .45 9 .45 49 .13 41 .09 41 .09 131 .30L2 Top 4, Oven 1 415V 3N~ 30 .2 11 .3 9 .45 9 .45 47 .08 39 .38 39 .38 125 .83L3 Oven 2, Top 5 380V 3N~ 27 .63 10 .34 8 .65 8 .65 46 .99 39 .30 39 .30 125 .50
WITH SALAMANDER export (wye) load voltage total kW kW L1 kW L2 kW L3 A L1 A L2 A L3 A 1 phaseL1 Top 1, Top 3, Oven 1 400V 3N~ 37 .2 11 .55 14 .05 11 .6 50 .22 61 .09 50 .43 161 .74L2 Top 2, Top 4, Oven 2 415V 3N~ 37 .2 11 .55 14 .05 11 .6 48 .13 58 .54 48 .33 155 .00L3 Top 5, Salamander 300V 3N~ 34 .04 10 .57 12 .85 10 .61 48 .03 58 .43 48 .24 154 .71
SU684-1R-12L SU684-1L-12R
NO SALAMANDER export (wye) load voltage total kW kW L1 kW L2 kW L3 A L1 A L2 A L3 A 1 phaseL1 Top 1, Top 2, Top 5 400V 3N~- 30 .2 11 .3 9 .45 9 .45 49 .13 41 .09 41 .09 131 .30L2 Top 3, Oven 1 415V 3N~ 30 .2 11 .3 9 .45 9 .45 47 .08 39 .38 39 .38 125 .83L3 Oven 2, Top 4 380V 3N~ 27 .63 10 .34 8 .65 8 .65 46 .99 39 .30 39 .30 125 .60
WITH SALAMANDER export (wye) load voltage total kW kW L1 kW L2 kW L3 A L1 A L2 A L3 A 1phaseL1 Top 1, Top 5, Oven 1 400V 3N~ 37 .2 11 .55 14 .05 11 .6 50 .22 61 .09 50 .43 161 .74L2 Top 2, Top 3, Oven 2 415V 3N~ 37 .2 11 .55 14 .05 11 .6 48 .13 58 .54 48 .33 155 .00L3 Top 4, Salamander 380V 3N~ 34 .04 10 .57 12 .85 10 .61 48 .03 58 .43 48 .24 154 .71
SU684-1C-12R NO SALAMANDER export (wye) load voltage total kW kW L1 kW L2 kW L3 A L1 A L2 A L3 A 1 phaseL1 Top 1, Top 3, Top 5 400V 3N~ 30 .2 11 .3 9 .45 9 .45 49 .13 41 .09 41 .09 131 .30L2 Top 2, Oven 1 415V 3N~ 30 .2 11 .3 9 .45 9 .45 47 .08 39 .38 39 .38 125 .83L3 Oven 2, Top 4 380V 3N~ 27 .63 10 .34 8 .65 8 .65 46 .99 39 .30 39 .30 125 .60
WITH SALAMANDER export (wye) load voltage total kW kW L1 kW L2 kW L3 A L1 A L2 A L3 A 1 phaseL1 Top 3, Top 5, Oven 1 400V 3N~ 37 .2 11 .55 14 .05 11 .6 50 .22 61 .09 50 .43 161 .74L2 Top 1, Top 2, Oven 2 415V 3N~ 37 .2 11 .55 14 .05 11 .6 48 .13 58 .54 48 .33 155 .00L3 Top 4, Salamander 380V 3N~ 34 .04 10 .57 12 .85 10 .61 48 .03 58 .43 48 .24 154 .71
SU684-3R SU684-24R
NO SALAMANDER export (wye) load voltage total kW kW L1 kW L2 kW L3 A L1 A L2 A L3 A 1 phaseL1 Top 1 , Top 4, Top 5 400V 3N~ 30 .2 11 .3 9 .45 9 .45 49 .13 41 .09 41 .09 131 .30L2 Top 2, Oven 1 415V 3N~ 30 .2 11 .3 9 .45 9 .45 47 .08 39 .38 39 .38 125 .83L3 Oven 2, Top 3 380V 3N~ 27 .63 10 .34 8 .65 8 .65 46 .99 39 .30 39 .30 125 .60
WITH SALAMANDER export (wye) load voltage total kW kW L1 kW L2 kW L3 A L1 A L2 A L3 A 1phaseL1 Top 4, Top 5, Oven 1 400V 3N~ 37 .2 11 .55 14 .05 11 .6 50 .22 61 .09 50 .43 161 .74L2 Top 1, Top 2, Oven 2 415V 3N~- 37 .2 11 .55 14 .05 11 .6 48 .13 58 .54 48 .33 155 .00L3 Top 3, Salamander 380V 3N~ 34 .04 10 .57 12 .85 10 .61 48 .03 58 .43 48 .24 154 .71
SU684-36L SU684-3L SU684-1C-24L SU684-2C-12L
NO SALAMANDER export (wye) load voltage total kW kW L1 kW L2 kW L3 A L1 A L2 A L3 A 1 phaseL1 Top 1, Top 2, Top 3 400V 3N~ 28 .95 10 .05 9 .45 9 .45 43 .70 41 .09 41 .09 125 .87L2 Top 4, Oven 1 415V 3N~ 28 .95 10 .05 9 .45 9 .45 41 .88 39 .38 39 .38 120 .63L3 Oven 2, Top 5 380V 3N~ 26 .49 9 .20 8 .65 8 .65 41 .80 39 .30 39 .30 120 .40
WITH SALAMANDER export (wye) load voltage total kW kW L1 kW L2 kW L3 A L1 A L2 A L3 A 1phaseL1 Top 1, Top 2, Oven 1 400V 3N~ 35 .95 11 .55 12 .8 11 .6 50 .22 55 .65 50 .43 156 .30L2 Top 3, Top 4, Oven 2 415V 3N~ 35 .95 11 .55 12 .8 11 .6 48 .13 53 .33 48 .33 149 .79L3 Top 5, Salamander 380V 3N~ 32 .89 10 .57 11 .71 10 .61 48 .03 53 .23 48 .24 149 .51
Part # P152 Rev 1 (01/13/10) Page 41
MODEL NO SALAMANDERPhase Grouping Loading Chart
SU684-2L-12R SU684-1R-12L
NO SALAMANDER export (wye) load voltage total kW kW L1 kW L2 kW L3 A L1 A L2 A L3 A 1 phaseL1 Top 1, Top 2, Top 5 400V 3N~ 28 .95 10 .05 9 .46 9 .45 43 .70 41 .09 41 .09 126 .87L2 Top 3, Oven 1 415V 3N~ 28 .95 10 .05 9 .45 9 .45 41 .88 39 .38 39 .38 120 .63L3 Oven 2, Top 4 380V 3N~ 26 .49 9 .20 8 .65 8 .65 41 .80 39 .30 39 .30 120 .40
WITH SALAMANDER export (wye) load voltage total kW kW L1 kW L2 kW L3 A L1 A L2 A L3 A 1 phaseL1 Top 1, Top 2, Oven 1 400V 3N~ 35 .95 11 .55 12 .8 11 .6 50 .22 55 .86 50 .43 156 .3012 Top 3, Top 5, Oven 2 415V 3N~ 35 .95 11 .55 12 .8 11 .6 48 .13 53 .33 48 .33 149 .79L3 Top 4, Salamander 380V 3N~ 32 .89 10 .57 11 .71 10 .61 48 .03 53 .23 48 .24 149 .51
SU684-2R-12L SU684-1L-24R
NO SALAMANDER export (wye) load voltage total kW kW L1 kW L2 kW L3 A L1 A L2 A L3 A 1phaseL1 Top 1, Top 4, Top 5 400V 3N~ 28 .95 10 .05 9 .45 9 .45 43 .70 41 .09 41 .09 125 .87L2 Top 2, Oven 1 415V 3N~ 28 .95 10 .05 9 .45 9 .45 41 .88 39 .38 39 .38 120 .63LB Oven 2, Top 3 380V 3N~ 26 .49 9 .20 8 .65 8 .65 41 .80 39 .30 39 .30 120 .40
WITH SALAMANDER export (wye) load voltage total kW kW L1 kW L2 kW L3 A L1 A L2 A L3 A 1 phaseL1 Top 4, Top 5, Oven 1 400V 3N~ 35 .95 11 .55 12 .8 11 .6 50 .22 55 .65 50 .43 156 .30L2 Top 1, Top 2, Oven 2 415V 3N~ 35 .95 11 .55 12 .0 11 .6 40 .13 53 .33 48 .33 149 .79L3 Top 3, Salamander 380V 3N~ 32 .89 10 .57 11 .71 10 .61 48 .03 53 .23 48 .24 149 .51
SU684-2C-12R NO SALAMANDER export (wye) load voltage total kW kW L1 kW L2 kW L3 A L1 A L2 A L3 A 1 phaseL1 Top 2, Top3, Top 5 400V 3N~ 28 .95 10 .05 9 .45 9 .45 43 .70 41 .09 41 .09 125 .87L2 Top 1 , Oven 1 415V 3N~ 28 .95 10 .05 9 .45 9 .45 41 .88 39 .38 39 .38 120 .63LB Oven 2, Top 4 380v 3N~ 26 .49 9 .20 8 .65 8 .65 41 .80 39 .30 39 .30 120 .40
WITH SALAMANDER export (wye) load voltage total kW kW L1 kW L2 kW L3 A L1 A L2 A L3 A 1 phaseL1 Top 3, Top 5, Oven 1 400V 3N~ 35 .95 11 .55 12 .8 11 .6 50 .22 55 .65 50 .43 156 .30L2 Top 1 , Top 2, Oven 2 415V 3N~ 35 .95 11 .55 12 .8 11 .6 48 .13 53 .33 48 .33 149 .79L3 Top 4, Salamander 380V 3N~ 32 .89 10 .57 11 .71 10 .61 48 .03 53 .23 48 .24 149 .51
SU684-3R SU684-1C-24R SU684-364
NO SALAMANDER export (wye) load voltage total kW kW L1 kW L2 kW L3 A L1 A L2 A L3 A 1 phaseL1 Top 3, Top 4, Top 5 400V 3N~ 28 .95 10 .05 9 .45 9 .45 43 .70 41 .09 41 .09 125 .87L2 Top 1 , Oven 1 415V 3N~ 28 .95 10 .05 9 .45 9 .45 41 .88 39 .38 39 .38 120 .63L3 Oven 2, Top 2 380V 3N~ 26 .49 9 .20 8 .65 8 .65 41 .80 39 .30 39 .30 120 .40
WITH SALAMANDER export (wye) load voltage total kW kW L1 kW L2 kW L3 A L1 A L2 A L3 A 1 phaseL1 Top 3, Top 4, Oven 1 400V 3N~ 35 .95 11 .55 12 .8 11 .6 50 .22 55 .66 50 .43 156 .30L2 Top 1 , Top 5, Oven 2 415V 3N~ 35 .95 11 .55 12 .8 11 .6 48 .13 53 .33 48 .33 149 .79L3 Top 2, Salamander 380V 3N~ 32 .89 10 .57 11 .71 10 .61 48 .03 53 .23 48 .24 149 .51
SU684-3C-12L SU684-2C-24L SU684-1C-36L
NO SALAMANDER export (wye) load voltage total kW kW L1 kW L2 kW L3 A L1 A L2 A L3 A 1 phaseL1 Top 1, Top 2, Top 3 400V 3N~ 27 .7 10 .05 8 .2 9 .45 43 .70 35 .65 41 .09 120 .43L2 Top 4, Oven 1 415V 3N~ 27 .7 10 .05 8 .2 9 .45 41 .88 34 .17 39 .38 115 .42L3 Oven 2, Top 5 380V 3N~ 25 .34 9 .20 7 .50 8 .65 41 .88 34 .17 39 .38 115 .42
WITH SALAMANDER export (wye) load voltage total kW kW L1 kW L2 kW L3 A L1 A L2 A L3 A 1 phaseL1 Top 1, Top 2, Oven 1 400V 3N~ 34 .7 11 .55 11 .56 11 .6 50 .22 50 .22 50 .43 150 .8Z7L2 Top 3, Top 4, Oven 2 415V 3N~ 34 .7 11 .55 11 .55 11 .6 48 .13 48 .13 48 .33 144 .58L3 Top 5, Salamander 380V 3N~ 31 .75 10 .57 10 .57 10 .61 48 .03 48 .03 48 .24 144 .31
SU684-1L-36R SU684-3R-12L
NO SALAMANDER export (wye) load voltage total kW kW L1 kW L2 kW L3 A L1 A L2 A L3 A 1 phaseL1 Top 1, Top 3, Top 4 400V 3N~ 27 .7 10 .05 8 .2 9 .45 43 .70 35 .65 41 .09 120 .43L2 Top 5, Oven 1 415V 3N~ 27 .7 10 .05 8 .2 9 .45 41 .88 34 .17 39 .33 116 .42L3 Oven 2, Top 2 380V 3N~ 25 .34 9 .20 7 .50 8 .65 41 .80 34 .10 39 .30 115 .20
WITH SALAMANDER export (wye) load voltage total kW kW L1 kW L2 kW L3 A L1 A L2 A L3 A 1 phaseL1 Top 3, Top 4, Oven 1 400V 3N~ 34 .7 11 .55 11 .55 11 .6 50 .22 50 .22 50 .43 150 .87L2 Top 1, Top 5, Oven 2 415V 3N~ 34 .7 11 .55 11 .55 11 .6 48 .13 48 .13 48 .33 144 .58L3 Top 2, Salamander 380V 3N~ 31 .75 10 .57 10 .57 10 .61 48 .03 48 .03 48 .24 144 .31
SU684-3C-12R SU684-2C-24R SU684-1C-36R
NO SALAMANDER export (wye) load voltage total kW kW L1 kW L2 kW L3 A L1 A L2 A L3 A 1 phaseL1 Top 2, Top 3, Top 4 400V 3N~ 27 .7 10 .05 8 .2 9 .45 43 .70 35 .66 41 .09 120 .43L2 Top 5, Oven 1 415V 3N~ 27 .7 10 .05 8 .2 9 .45 41 .88 34 .17 39 .38 115 .42L3 Oven 2, Top 1 380V 3N~ 25 .34 9 .20 7 .50 8 .65 41 .80 34 .10 39 .30 115 .20
WITH SALAMANDER export (wye) load voltage total kW kW L1 kW L2 kW L3 A L1 A L2 A L3 A 1 phaseL1 Top 2, Top 3, Oven 1 400V 3N~ 34 .7 11 .55 11 .55 11 .6 50 .22 50 .22 50 .43 150 .87L2 Top 4, Top 5, Oven 2 415V 3N~ 34 .7 11 .55 1155 11 .6 48 .13 48 .13 48 .33 144 .58LB Top 1, Salamander 380V 3N~ 31 .75 10 .57 10 .67 10 .61 48 .03 48 .03 48 .24 144 .31
SU684-3L-12R SU684-1R-36L
NO SALAMANDER export (wye) load voltage total kW kW L1 kW L2 kW L3 A L1 A L2 A L3 A 1 phaseL1 Top 2, Top 3, Top 6 400V 3N~ 27 .7 10 .05 8 .2 9 .45 43 .70 35 .66 41 .09 120 .43L2 Top 1 , Oven 1 415V 3N~ 27 .7 10 .05 8 .2 9 .45 41 .88 34 .17 39 .38 115 .42L3 Oven 2, Top 4 380V 3N~ 25 .34 9 .20 7 .50 8 .65 41 .80 34 .10 39 .30 115 .20
WITH SALAMANDER export (wye) load voltage total kW kW L1 kW L2 kW L3 A L1 A L2 A L3 A 1 phaseL1 Top 3, Top 5, Oven 1 400V 3N~ 34 .7 11 .55 11 .55 11 .6 50 .22 50 .22 50 .43 150 .87L2 Top 1 , Top 2, Oven 2 415V 3N~ 34 .7 11 .55 1155 11 .6 48 .13 48 .13 48 .33 144 .58L3 Top 4, Salamander 380V 3N~ 31 .75 10 .57 10 .57 10 .61 48 .03 48 .03 48 .24 144 .31
SU684-2R-24L SU684-2L-24R
NO SALAMANDER export (wye) load voltage total kW kW L1 kW L2 kW L3 A L1 A L2 A L3 A 1 phaseL1 Top 2, Top 4, Top 5 400V 3N~ 27 .7 10 .05 8 .2 9 .45 43 .70 35 .85 41 .09 120 .43L2 Top 1 , Oven 1 415V 3N~ 27 .7 10 .05 8 .2 9 .45 41 .88 34 .17 39 .38 115 .42L3 Oven 2, Top 3 380V 3N~ 25 .34 9 .20 7 .50 8 .65 41 .00 34 .10 39 .30 115 .20
WITH SALAMANDER export (wye) load voltage total kW kW L1 kW L2 kW L3 A L1 A L2 A L3 A 1 phaseL1 Top 4, Top 5, Oven 1 400V 3N~ 34 .7 11 .55 11 .55 11 .6 50 .22 50 .22 50 .43 150 .87L2 Top 1 , Top 2, Oven 2 415V 3N~ 34 .7 11 .55 11 .55 11 .6 48 .13 40 .13 48 .33 144 .68L3 Top 3, Salamander 380V 3N~ 31 .75 10 .57 10 .57 10 .61 48 .03 48 .03 48 .24 144 .31
SU684-3R-24L SU684-3L-24R SU684-2R-36L SU684-2L-36R
NO SALAMANDER export (wye) load voltage total kW kW L1 kW L2 kW L3 A L1 A L2 A L3 A 1 phaseL1 Top 1, Top 2, Top 3 4000 3N~ 26 .45 10 .05 8 .20 8 .20 43 .70 35 .85 35 .65 115 .00L2 Top 4, Oven 1 415V 3N~ 26 .45 10 .05 8 .20 8 .20 41 .88 34 .17 34 .17 110 .21L3 Oven 2, Top 5 380V 3N~ 24 .20 9 .20 7 .50 7 .50 41 .80 34 .10 34 .10 110 .00
WITH SALAMANDER export (wye) load voltage total kW kW L1 kW L2 kW L3 A L1 A L2 A L3 A 1 phaseL1 Top 1, Top 2, Oven 1 400V 3N~ 33 .45 11 .55 11 .55 10 .35 50 .22 50 .22 45 .00 145 .43L2 Top 3, Top 4, Oven 2 415V 3N~ 33 .45 11 .55 11 .55 10 .35 48 .13 48 .13 43 .13 139 .38L3 Top 5, Salamander 380V 3N~ 30 .60 10 .57 10 .57 9 .47 48 .03 48 .03 43 .04 139 .11
Part # P152 Rev 1 (01/13/10)Page 42
GR
IDD
LE T
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RM
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TAT
40°-
230°
C
3.35
kW
OV
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65°-
290°
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2.5k
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TB1-
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TB1-10bTB1-10c
TB1-10d
TB1-12b
TB1-11bTB1-11a
TB1-10b
TB1-10e
TB2-
1TB
2-2
TB2-
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TB1-7a
TB1-8a
TB1-9a
TB1-10a
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TB1-
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TB1-
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TB1-
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TB1-
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Part # P152 Rev 1 (01/13/10) Page 43
WIR
ING
DIA
GR
AM
S/S
S68
4RC
S68
0 S
ER
IES
AP
R 2
3,19
99N
AV
C
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400
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4 B
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K
SA
LAM
AN
DE
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ED
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3 B
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K
OV
EN
2 B
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K
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2 B
LAC
K
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1 B
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K
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ED
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(1)
T3(1
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(1)
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1)
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WIT
H S
ALM
AN
DE
R
3 P
HA
SE
TOP
3 R
ED
TOP
2 R
ED
TOP
1 R
ED
TOP
5 R
ED
OV
EN
1 R
ED
TOP
1 B
LAC
K
TOP
2 B
LAC
K
OV
EN
1 B
LAC
K
TOP
5 B
LAC
K
OV
EN
2 R
ED
OV
EN
1 R
ED
TOP
3 B
LAC
K
OV
EN
2 B
LAC
K
TOP
4 B
LAC
K
GR
OU
P 2
NO
SA
LMA
ND
ER
GX ZY
T2(2
)T4
(2)
O2(
2)T5
(2)
T3(2
)
T1(2
)
O1(
2)
O2(
1)T4
(1)
TOP
4 R
ED
3 P
HA
SE
T2(1
)
O1(
1)T5
(1)
T3(1
)
T1(1
)
TOP
3 R
ED
TOP
2 R
ED
TOP
5 R
ED
TOP
1 R
ED
3 P
HA
SE
SA
LAM
AN
DE
R R
ED
SA
LAM
AN
DE
R B
LAC
K
OV
EN
2 R
ED
O2(
1)
T5(1
)
T4(2
)
S(2
)
T3(2
)T1
(2)
O1(
2)
T5(2
)
O2(
2)
T2(2
)
S(1
)
TOP
3 B
LAC
K
OV
EN
1 B
LAC
K
TOP
5 B
LAC
K
TOP
5 R
ED
TOP
1 B
LAC
K
TOP
2 B
LAC
K
OV
EN
2 B
LAC
K
TOP
4 B
LAC
K
GR
OU
P 3
WIT
H S
ALM
AN
DE
R
O1(
1)T4
(1)
T3(1
)T2
(1)
T1(1
)
OV
EN
1 R
ED
TOP
4 R
ED
TOP
1 R
ED
TOP
2 R
ED
TOP
3 R
ED
GZYX
T2(2
)
T4(2
)O
2(2)
T3(2
)
T5(2
)O
1(2)
T1(2
)
T2(1
)O
2(1)
GR
OU
P 3
NO
SA
LMA
ND
ER
3 P
HA
SE
T3(1
)T4
(1)
T5(1
)O
1(1)
T1(1
)
3 P
HA
SE
GR
OU
P 4
WIT
H S
ALM
AN
DE
R
TOP
3 B
LAC
K
OV
EN
2 B
LAC
K
TOP
4 B
LAC
K
TOP
2 B
LAC
K
TOP
5 B
LAC
K
OV
EN
2 R
ED
OV
EN
1 B
LAC
K
TOP
1 B
LAC
K
TOP
2 R
ED
GZYX
OV
EN
1 R
ED
TOP
5 R
ED
TOP
3 R
ED
TOP
4 R
ED
TOP
1 R
ED
3 P
HA
SE
OV
EN
2 R
ED
O2(
1)
TOP
4 B
LAC
K
TOP
2 B
LAC
K
TOP
3 R
ED
TOP
3 B
LAC
K
TOP
1 B
LAC
K
OV
EN
2 B
LAC
K
SA
LAM
AN
DE
R R
ED
OV
EN
1 B
LAC
K
SA
LAM
AN
DE
R B
LAC
K
TOP
5 B
LAC
K
T4(2
)O
1(2)
T5(2
)S
(2)
O2(
2)
T1(2
)T2
(2)
T3(2
)
T3(1
)S
(1)
TOP
5 R
ED
OV
EN
1 R
ED
TOP
1 R
ED
TOP
2 R
ED
TOP
4 R
ED
O1(
1)
T2(1
)
T5(1
)T4
(1)
T1(1
)
OV
EN
2 B
LAC
KGZYX
T3(2
)TO
P 3
BLA
CK
TOP
4 B
LAC
K
TOP
5 B
LAC
KT5
(2)
O2(
2)T4
(2)
TOP
2 B
LAC
K
TOP
3 R
ED
OV
EN
2 R
ED
OV
EN
1 B
LAC
K
TOP
1 B
LAC
K
T2(2
)O
1(2)
T1(2
)
O2(
1)T3
(1)
GR
OU
P 4
NO
SA
LMA
ND
ER
TOP
5 R
ED
TOP
1 R
ED
TOP
2 R
ED
TOP
4 R
ED
OV
EN
1 R
ED
T2(1
)
O1(
1)T5
(1)
T4(1
)
T1(1
)
GYX Z
S/S
S68
4RC
Mod
els:
-STD
, -12
L, -1
C, -
1C-1
2L, -
1C-2
4L,
-1C
-36L
, -1L
, -24
L, -2
C-1
2L, -
2C-2
4L,
-2L,
-2L-
36R
, -2L
-36L
, -36
L, -3
C-1
2L,
-3L,
-3L-
24R
, -3R
-24L
S/S
S68
4RC
Mod
els:
-STD
, -12
L, -1
C-2
4L, -
1C-3
6L,
-1L,
-24L
, -2C
-12L
, -2C
-24L
,-2
L, -2
L-24
R, -
2L-3
6R, -
2R-3
6L,
-36L
, -3L
, -3L
-24R
, -3R
-24L
SS
684R
C M
odel
s:-1
2R, -
1L-1
2R, -
1R, -
1R-1
2LS
S68
4RC
Mod
els:
-12R
, -1L
-12R
, -1R
, -1R
-12L
,-1
R-2
4L, -
2L-1
2R
SS
684R
C M
odel
s:-1
L-24
R, -
24R
, -2R
, -2R
-12L
,-2
R-2
4L
SS
684R
C M
odel
s:-1
L-24
R, -
24R
, -2L
-24R
, 2R
,-2
R-1
2L
SS
684R
C M
odel
s:-1
C, -
1C-1
2LS
S68
4RC
Mod
els:
-1L-
36R
Part # P152 Rev 1 (01/13/10)Page 44
WIR
ING
DIA
GR
AM
S/S
S68
4RC
S68
0 S
ER
IES
AP
R 2
3,19
99N
AV
C
43
2693
400
:A
LL D
IME
NS
ION
S A
RE
IN IN
CH
ES
TOLE
RA
NC
E ±
0.01
5" U
NLE
SS
OTH
ER
WIS
E S
PE
CIF
IED
CO
MM
ER
CIA
L R
AN
GE
S L
IMIT
ED
MIS
SIS
SA
UG
A, O
NTA
RIO
, CA
NA
DA
::
:
TITL
E:
DAT
ES
CA
LED
R.
SH
T
OF
CH
K. B
Y
REV
RE
V.#
DAT
ED
R.
DE
SC
RIP
TIO
N RE
VIS
ION
S
TOP
5 B
LAC
KT5
(2)
T5(2
)TO
P 5
BLA
CK
T4(2
)TO
P 4
BLA
CK
TOP
5 B
LAC
KT5
(2)
3 P
HA
SE
YX Z G
SA
LAM
AN
DE
R R
ED
SA
LAM
AN
DE
R B
LAC
K
OV
EN
2 R
ED
O2(
1)
T4(2
)
T1(2
)
T2(1
)
T5(2
)
S(2
)
T3(2
)
O1(
2)
T2(2
)
O2(
2)
S(1
)
TOP
4 B
LAC
K
OV
EN
1 B
LAC
K
TOP
2 B
LAC
K
TOP
1 B
LAC
K
TOP
2 R
ED
TOP
3 B
LAC
K
OV
EN
2 B
LAC
K
TOP
5 B
LAC
K
GR
OU
P 5
WIT
H S
ALM
AN
DE
R
O1(
1)T5
(1)
T4(1
)T3
(1)
T1(1
)
OV
EN
1 R
ED
TOP
5 R
ED
TOP
1 R
ED
TOP
3 R
ED
TOP
4 R
ED
GZYX
T3(2
)T4
(2)
T5(2
)O
2(2)
T2(2
)O
1(2)
T1(2
)
T4(1
)O
2(1)
GR
OU
P 5
NO
SA
LMA
ND
ER
3 P
HA
SE
T2(1
)T3
(1)
T5(1
)O
1(1)
T1(1
)
3 P
HA
SE
GR
OU
P 6
WIT
H S
ALM
AN
DE
R
TOP
4 B
LAC
K
TOP
3 B
LAC
K
OV
EN
2 B
LAC
K
TOP
5 B
LAC
K
TOP
2 B
LAC
K
OV
EN
2 R
ED
OV
EN
1 B
LAC
K
TOP
1 B
LAC
K
TOP
4 R
ED
GZYX
OV
EN
1 R
ED
TOP
5 R
ED
TOP
2 R
ED
TOP
3 R
ED
TOP
1 R
ED
3 P
HA
SE
OV
EN
2 R
ED
O2(
1)
TOP
3 B
LAC
K
TOP
4 B
LAC
K
TOP
5 R
ED
TOP
2 B
LAC
K
TOP
1 B
LAC
K
OV
EN
2 B
LAC
K
SA
LAM
AN
DE
R R
ED
OV
EN
1 B
LAC
K
SA
LAM
AN
DE
R B
LAC
K
TOP
5 B
LAC
K
T3(2
)O
1(2)
T5(2
)S
(2)
O2(
2)
T1(2
)T4
(2)
T2(2
)
T5(1
)S
(1)
TOP
4 R
ED
OV
EN
1 R
ED
TOP
1 R
ED
TOP
2 R
ED
TOP
3 R
ED
O1(
1)
T2(1
)
T4(1
)T3
(1)
T1(1
)
OV
EN
2 B
LAC
KGZYX
T2(2
)TO
P 2
BLA
CK
TOP
3 B
LAC
K
TOP
4 B
LAC
KT4
(2)
O2(
2)T3
(2)
TOP
5 B
LAC
K
TOP
1 R
ED
OV
EN
2 R
ED
OV
EN
1 B
LAC
K
TOP
1 B
LAC
K
T5(2
)O
1(2)
T1(2
)
O2(
1)T1
(1)
GR
OU
P 6
NO
SA
LMA
ND
ER
TOP
5 R
ED
TOP
2 R
ED
TOP
3 R
ED
TOP
4 R
ED
OV
EN
1 R
ED
T3(1
)
O1(
1)T5
(1)
T4(1
)
T2(1
)
ZX Y G
3 P
HA
SE
SA
LAM
AN
DE
R B
LAC
K
SA
LAM
AN
DE
R R
ED
TOP
1 R
ED
T1(1
)T2
(1)
T3(1
)T5
(1)
O1(
1)
S(1
)
T1(2
)
O2(
2)
O1(
2)
T3(2
)T4
(2)
S(2
)
T2(2
)
T4(1
)
O2(
1)
TOP
2 B
LAC
K
OV
EN
2 B
LAC
K
TOP
1 B
LAC
K
TOP
3 B
LAC
K
OV
EN
1 B
LAC
K
TOP
4 B
LAC
K
TOP
3 R
ED
TOP
2 R
ED
TOP
5 R
ED
OV
EN
1 R
ED
TOP
4 R
ED
OV
EN
2 R
ED
GR
OU
P 7
WIT
H S
ALM
AN
DE
R
T1(1
)
GZ
3 P
HA
SE
X Y
T2(2
)
T4(2
)T3
(2)
O2(
2)
T1(2
)O
1(2)
O1(
1)
T4(1
)O
2(1)
T5(1
)T3
(1)
T2(1
)
GR
OU
P 7
NO
SA
LMA
ND
ER
3 P
HA
SE
GR
OU
P 8
WIT
H S
ALM
AN
DE
R
TOP
1 R
ED
TOP
1 B
LAC
K
TOP
4 B
LAC
K
TOP
3 B
LAC
K
TOP
2 B
LAC
K
OV
EN
1 B
LAC
K
OV
EN
2 B
LAC
K
OV
EN
1 R
ED
OV
EN
2 R
ED
TOP
4 R
ED
TOP
5 R
ED
TOP
3 R
ED
TOP
2 R
ED
GZ
3 P
HA
SE
X Y
T1(1
)TO
P 1
RE
D
TOP
1 B
LAC
K
TOP
5 B
LAC
K
TOP
3 B
LAC
K
TOP
4 R
ED
TOP
3 R
ED
TOP
2 R
ED
OV
EN
1 R
ED
TOP
5 R
ED
SA
LAM
AN
DE
R B
LAC
K
OV
EN
1 B
LAC
K
SA
LAM
AN
DE
R R
ED
OV
EN
2 B
LAC
K
TOP
2 B
LAC
K
OV
EN
2 R
ED
T3(2
)
O2(
2)
O1(
2)
T1(2
)
S(2
)
T2(2
)
T5(2
)
O1(
1)O
2(1)
T4(1
)S
(1)
T3(1
)T5
(1)
T2(1
)
OV
EN
2 B
LAC
K
T1(1
)TO
P 1
RE
D
GZX Y
TOP
3 B
LAC
K
TOP
2 B
LAC
K
OV
EN
1 B
LAC
K
TOP
1 B
LAC
K
TOP
4 B
LAC
K
T2(2
)
O2(
2)
T3(2
)T4
(2)
O1(
2)T1
(2)
TOP
3 R
ED
TOP
4 R
ED
OV
EN
1 R
ED
TOP
2 R
ED
TOP
5 R
ED
OV
EN
2 R
ED
O1(
1)
O2(
1)T3
(1)
T4(1
)T5
(1)
T2(1
)
GR
OU
P 8
NO
SA
LMA
ND
ER
GR
OU
P 9
WIT
H S
ALM
AN
DE
R
GZYX
3 P
HA
SE
O2(
1)O
VE
N 2
RE
D
TOP
2 B
LAC
K
OV
EN
2 B
LAC
K
SA
LAM
AN
DE
R R
ED
OV
EN
1 B
LAC
K
SA
LAM
AN
DE
R B
LAC
K
TOP
1 R
ED
TOP
4 B
LAC
K
TOP
5 B
LAC
K
TOP
1 B
LAC
K
TOP
3 B
LAC
K
T1(2
)
O1(
2)
T3(2
)
T2(2
)
S(2
)
O2(
2)
T4(2
)T5
(2)
S(1
)T1
(1)
TOP
5 R
ED
OV
EN
1 R
ED
TOP
3 R
ED
TOP
4 R
ED
TOP
2 R
ED
O1(
1)
T2(1
)T3
(1)
T5(1
)T4
(1)
3 P
HA
SE
OV
EN
2 B
LAC
KGZYX
T2(2
)TO
P 2
BLA
CK
TOP
4 B
LAC
K
TOP
3 B
LAC
K
TOP
5 B
LAC
K
O2(
2)T5
(2)
T4(2
)T3
(2)
OV
EN
2 R
ED
TOP
2 R
ED
TOP
1 B
LAC
K
OV
EN
1 B
LAC
K
T1(2
)O
1(2)
O2(
1)T2
(1)
GR
OU
P 9
NO
SA
LMA
ND
ER
TOP
5 R
ED
TOP
3 R
ED
OV
EN
1 R
ED
TOP
4 R
ED
TOP
1 R
ED
T1(1
)
O1(
1)
T3(1
)
T5(1
)T4
(1)
SS
684R
C M
odel
s:-1
C-2
4R, -
1L-3
6R, -
36R
-3R
, -3R
-12L
SS
684R
C M
odel
s:-1
C-1
2RS
S68
4RC
Mod
els:
-3C
-12L
SS
684R
C M
odel
s:-1
C-3
6R, -
2C-2
4R, -
3C-1
2R
SS
684R
C M
odel
s:-1
C-1
2R, -
2C-1
2R, -
3L-1
2RS
S68
4RC
Mod
els:
-1R
-36L
, -2C
-12R
, -3L
-12R
SS
684R
C M
odel
s:-1
R-2
4L, 1
R-3
6L, 2
L-12
RS
S68
4RC
Mod
els:
-2R
-24L
SS
684R
C M
odel
s:-1
C-3
6R, 2
C-2
4R, -
3C-1
2R
SS
684R
C M
odel
s:-1
C-2
4R, -
36R
, -3R
, -3R
-12L
Part # P152 Rev 1 (01/13/10) Page 45
RC
SC
HE
MAT
IC S
/SS
684R
CS
680
SE
RIE
S
AP
R 2
8,19
99N
AV
C
44
2693
400
:A
LL D
IME
NS
ION
S A
RE
IN IN
CH
ES
TOLE
RA
NC
E ±
0.01
5" U
NLE
SS
OTH
ER
WIS
E S
PE
CIF
IED
CO
MM
ER
CIA
L R
AN
GE
S L
IMIT
ED
MIS
SIS
SA
UG
A, O
NTA
RIO
, CA
NA
DA
::
:
TITL
E:
DAT
ES
CA
LED
R.
SH
T
OF
CH
K. B
Y
REV
RE
V.#
DAT
ED
R.
DE
SC
RIP
TIO
N RE
VIS
ION
S
RL2
OV
EN
TH
ER
MO
STA
T
DO
OR
SW
ITC
H
L
40A
FAN
SW
ITC
H
M ~
N (C
OM
)
FAN
INTE
RLO
CK
CIR
CU
IT O
PER
ATIO
N
HE
AT P
OS
ITIO
N:
THE
FA
N S
WIT
CH
MU
ST
BE
IN T
HE
HE
AT P
OS
TIO
N,
THE
DO
OR
MU
ST
BE
CLO
SE
D (T
HE
RM
OS
TAT
CLO
SE
D) B
EFO
RE
TH
E O
VE
N H
EAT
ING
ELE
ME
NTS
AR
E E
NE
RG
IZE
D.
CO
OL
PO
SIT
ION
:TH
E F
AN
SW
ITC
H M
US
T B
E IN
TH
E C
OO
L P
OS
ITIO
N, T
HE
DO
OR
M
US
T B
E O
PE
N.
THE
FA
N W
ILL
OP
ER
ATE
BU
T TH
E H
EAT
ING
E
LEM
EN
TS W
ILL
NO
T E
NE
RG
IZE
.
5kW
RL1
RL2
RL1
Part # P152 Rev 1 (01/13/10)Page 46
MODELPhase grouping Loading chart
SS684RC STD NO SALAMANDER domestic (delta) load Total kW voltage kW X-Z kW X-Y kW Y-Z A X A Y A Z A 1 phaseX-Z Top 1, Top 2, Top 3 33 .35 208 13 .80 10 .10 9 .45 99 .91 97 .37 81 .41 160 .34X-Y Top 4, Oven 1 33 .35 240 13 .80 10 .10 9 .45 86 .59 84 .38 70 .56 138 .96Y-Z Oven 2, Top 5
WITH SALAMANDER domestic (delta) load Total kW voltage kW X-Z kW X-Y kW Y-Z A X A Y A Z A 1 phaseX-Z Top 1, Top 2, Oven 1 40 .35 208 14 .70 14 .05 11 .60 119 .71 109 .76 106 .96 193 .99X-Y Top 3, Top 4, Oven2 40 .35 240 14 .70 14 .05 11 .60 103 .75 95 .12 92 .70 168 .13Y-Z Top 5, Salamander
SS684RC-1L SS684RC-12L
NO SALAMANDER domestic (delta) load Total kW voltage kW X-Z kW X-Y kW Y-Z A X A Y A Z A 1 phaseX-Z Top 1, Top 2, Top 3 32 .10 208 12 .55 10 .10 9 .45 94 .49 91 .90 81 .41 154 .33X-Y Top 4, Oven 1 32 .10 240 12 .55 10 .10 9 .45 81 .89 79 .65 70 .56 133 .75Y-Z Oven 2, Top 5
WITH SALAMANDER domestic (delta) load Total kW voltage kW X-Z kW X-Y kW Y-Z A X A Y A Z A 1 phaseX-Z Top 1, Top 2, Oven 1 39 .10 208 13 .45 14 .05 11 .60 114 .51 104 .39 106 .96 187 .98X-Y Top 3, Top 4, Oven 2 39 .10 240 13 .45 14 .05 11 .60 99 .24 90 .47 92 .70 162 .92Y-Z Top 5, Salamander
SS684RC-1C NO SALAMANDER domestic (delta) load Total kW voltage kW X-Z kW X-Y kW Y-Z A X A Y A Z A 1phaseX-Z Top 1, Top 2, Top 3 32 .10 208 12 .55 10 .10 9 .45 94 .49 91 .90 81 .41 154 .33X-Y Top 4, Oven 1 32 .10 240 12 .55 10 .10 9 .45 81 .89 79 .65 70 .56 133 .75Y-Z Oven 2, Top 5
WITH SALAMANDER domestic (delta) load Total kW voltage kW X-Z kW X-Y kW Y-Z A X A Y A Z A 1 phaseX-Z Top 1, Top 3, Oven 1 39 .10 208 13 .45 14 .05 11 .60 114 .51 104 .39 106 .96 187 .98X-Y Top 2, Top 4, Oven 2 39 .10 240 13 .45 14 .05 11 .60 99 .24 90 .47 92 .70 162 .92Y-Z Top 5, Salamander
SS684RC-1R SS684RC-12R
NO SALAMANDER domestic (delta) load Total kW voltage kW X-Z kW X-Y kW Y-Z A X A Y A Z A 1 phaseX-Z Top 1, Top 2, Top 5 32 .10 208 12 .55 10 .10 9 .45 94 .49 91 .90 81 .41 154 .33X-Y Top 3, Oven 1 32 .10 240 12 .55 10 .10 9 .45 81 .89 79 .65 70 .56 133 .75Y-Z Oven 2, Top 4
WITH SALAMANDER domestic (delta) load Total kW voltage kW X-Z kW X-Y kW Y-Z A X A Y A Z A 1 phaseX-Z Top 1, Top 5, Oven 1 39 .10 208 13 .45 14 .05 11 .60 114 .51 104 .39 106 .96 187 .98X-Y Top 2, Top 3, Oven 2 39 .10 240 13 .45 14 .05 11 .60 99 .24 90 .47 92 .70 162 .92Y-Z Top 4, Salamander
SS864RC-1C-12L NO SALAMANDER domestic (delta) load Total kW voltage kW X-Z kW X-Y kW Y-Z A X A Y A Z A 1 phaseX-Z Top 1, Top 2, Top 3 30 .85 208 11 .3 10 .1 9 .45 89 .15 86 .51 81 .41 148 .32X-Y Top 4, Oven 1 30 .85 240 11 .3 10 .1 9 .45 77 .26 74 .97 70 .56 128 .54Y-Z Oven 2, Top 5
WITH SALAMANDER domestic (delta) load Total kW voltage kW X-Z kW X-Y kW Y-Z A X A Y A Z A 1 phaseX-2 Top 1, Top 3, Oven 1 37 .85 208 12 .2 14 .05 11 .6 109 .38 99 .10 106 .96 181 .97X-Y Top 2, Top 4, Oven 2 37 .85 240 12 .2 14 .05 11 .6 94 .80 85 .89 92 .70 157 .71Y-Z Top 5, Salamander
SS684RC-2L SS684RC-24L
NO SALAMANDER domestic (delta) load Total kW voltage kW X-Z kW X-Y kW Y-Z A X A Y A Z A 1 phaseX-Z Top 1, Top 2, Top 3 30 .85 208 11 .3 10 .1 9 .45 89 .15 86 .51 81 .41 148 .32X-Y Top 4, Oven 1 30 .85 240 11 .3 10 .1 9 .45 77 .26 74 .97 70 .56 128 .54Y-Z Oven 2, Top 5
WITH SALAMANDER domestic (delta) load Total kW voltage kW X-Z kW X-Y kW Y-Z A X A Y A Z A 1 phaseX-Z Top 1, Top 2, Oven 1 37 .85 208 12 .2 14 .05 11 .6 109 .38 99 .10 106 .96 181 .97X-Y Top 3, Top 4, Oven 2 37 .85 240 12 .2 14 .05 11 .6 94 .80 85 .89 92 .70 157 .71Y-Z Top 5, Salamander
SS684RC-1L-12R SS684RC-1R-12L
NO SALAMANDER domestic (delta) load Total kW voltage kW X-Z kW X-Y kW Y-Z A X A Y A Z A 1 phaseX-Z Top 1, Top 2, Top 5 30 .85 208 11 .3 10 .1 9 .45 89 .15 86 .51 81 .41 148 .32X-Y Top 3, Oven 1 30 .85 240 11 .3 10 .1 9 .45 77 .26 74 .97 70 .56 128 .54Y-Z Oven 2, Top 4
WITH SALAMANDER domestic (delta) load Total kW voltage kW X-Z kW X-Y kW Y-Z A X A Y A Z A 1 phaseX-Z Top 1, Top 5, Oven 1 37 .85 208 12 .2 14 .05 11 .6 109 .38 99 .10 106 .96 181 .97X-Y Top 2, Top 3, Oven 2 37 .85 240 12 .2 14 .05 11 .6 94 .80 85 .89 92 .70 157 .71Y-Z Top 4, Salamander
SS684RC-1C-12R NO SALAMANDER domestic (delta) load Total kW voltage kW X-Z kW X-Y kW Y-Z A X A Y A Z A 1 phaseX-Z Top 1, Top 3, Top 5 30 .85 208 11 .3 10 .1 9 .45 89 .15 86 .51 81 .41 148 .32X-Y Top 2, Oven 1 30 .85 240 11 .3 10 .1 9 .45 77 .26 74 .97 70 .56 128 .54Y-Z Oven 2, Top 4
domestic (delta) load Total kW voltage kW X-Z kW X-Y kW Y-Z AX A Y AZ A 1 phaseX-Z Top 3, Top 5, Oven 1 37 .85 208 12 .2 14 .05 11 .6 109 .38 99 .10 106 .96 181 .97X-Y Top 1, Top 2, Oven 2 37 .85 240 12 .2 14 .05 11 .6 94 .80 85 .89 92 .70 157 .71Y-Z Top 4, Salamander
SS684RC-2R SS684RC-24R
NO SALAMANDER domestic (delta) load Total kW voltage kW X-Z kW X-Y kW Y-Z A X A Y A Z A 1 phaseX-Z Top 1, Top 4, Top 5 30 .85 208 11 .3 10 .1 9 .45 89 .15 86 .51 81 .41 148 .32X-Y Top 2, Oven 1 30 .85 240 11 .3 10 .1 9 .45 77 .26 74 .97 70 .56 128 .54Y-Z Oven 2, Top 3
WITH SALAMANDER domestic (delta) load Total kW voltage kW X-Z kW X-Y kW Y-Z A X A Y A Z A 1 phaseX-Z Top 4, Top 5, Oven 1 37 .85 208 12 .2 14 .05 11 .6 109 .38 99 .10 106 .96 181 .97X-Y Top 1, Top 2, Oven 2 37 .85 240 12 .2 14 .05 11 .6 94 .80 85 .89 92 .70 157 .71Y-Z Top 3, Salamander
SS684RC-3L SS684RC-36L SS684RC-1C-24L SS684RC-2C-12L
NO SALAMANDER domestic (delta) load Total kW voltage kW X-Z kW X-Y kW Y-Z A X A Y A Z A 1 phaseX-Z Top 1, Top 2, Top 3 29 .60 208 10 .05 10 .10 9 .45 83 .90 81 .20 81 .41 142 .31X-Y Top 4, Oven 1 29 .60 240 10 .05 10 .10 9 .45 72 .71 70 .38 70 .56 123 .33Y-Z Oven 2, Top 5
WITH SALAMANDER domestic (delta) load Total kW voltage kW X-Z kW X-Y kW Y-Z A X A Y A Z A 1 phaseX-Z Top 1, Top 2, Oven 1 36 .60 208 12 .2 12 .8 11 .6 104 .10 99 .10 101 .63 175 .96X-Y Top 3, Top 4, Oven 2 36 .60 240 12 .2 12 .8 11 .6 90 .22 85 .89 88 .08 152 .50Y-Z Top 5, Salamander
Part # P152 Rev 1 (01/13/10) Page 47
MODELPhase grouping Loading chart
SS684RC-2L-12R SS684RC-1R-24L
NO SALAMANDER domestic (delta) load Total kW voltage kW X-Z kW X-Y kW Y-Z A X A Y A Z Al1 phaseX-Z Top 1, Top 2, Top 5 28 .35 208 10 .05 8 .85 9 .45 78 .74 81 .20 76 .21 136 .30X-Y Top 3, Oven 1 28 .35 240 10 .05 8 .85 9 .45 68 .25 70 .38 66 .05 118 .13Y-Z Oven 2, Top 4
WITH SALAMANDER domestic (delta) load Total kW voltage kW X-Z kW X-Y kW Y-Z A X A Y A Z A 1 phaseX-Z Top 1, Top 2, Oven 1 36 .60 208 12 .2 12 .8 11 .6 104 .10 99 .10 101 .63 175 .96X-Y Top 3, Top 5, Oven 2 36 .60 240 12 .2 12 .8 11 .6 90 .22 85 .89 66 .08 152 .50Y-Z Top 4, Salamander
SS684RC-2R-12L SS684RC-1L-24R
NO SALAMANDER domestic (delta) load Total kW voltage kW X-Z kW X-Y kW Y-Z A X A Y A Z A 1 phaseX-Z Top 1,Top4,Top 5 29 .60 208 10 .05 10 .10 9 .45 83 .90 81 .20 81 .41 142 .31X-Y Top 2, Oven 1 29 .60 240 10 .05 10 .10 9 .45 72 .71 70 .38 70 .56 123 .33Y-Z Oven 2, Top 3
WITH SALAMANDER domestic (delta) load Total kW voltage kW X-Z kW X-Y kW Y-Z A X A Y A Z A 1 phaseX-7 Top 4, Top 5, Oven 1 36 .60 208 12 .2 12 .8 11 .6 104 .10 99 .10 101 .63 175 .96X-Y Top 1, Top 2, Oven 2 36 .60 240 12 .2 12 .8 11 .6 90 .22 85 .89 66 .08 152 .50Y-Z Top 3, Salamander
SS684RC-2C-12R NO SALAMANDER domestic (delta) load Total kW voltage kW X-Z kW X-Y kW Y-Z A X A Y A Z A 1 phaseX-Z Top 2, Top 3, Top 5 29 .60 208 10 .05 10 .10 9 .45 83 .90 81 .20 61 .41 142 .31X-Y Top 1, Oven 1 29 .60 240 10 .05 10 .10 9 .45 72 .71 70 .38 70 .56 123 .33Y-Z Oven 2, Top 4
WITH SALAMANDER domestic (delta) load Total kW voltage kW X-Z kW X-Y kW Y-Z A X A Y A Z A 1 phaseX-Z Top 3, Top 5, Oven 1 36 .60 208 12 .2 12 .8 11 .6 104 .10 99 .10 101 .63 175 .96X-Y Top 1, Top 2, Oven 2 36 .60 240 12 .2 12 .8 11 .6 90 .22 85 .89 88 .08 152 .50Y-Z Top 4, Salamander
SS684RC-3R, SS684RC-1C-24R SS684RC-36R
NO SALAMANDER domestic (delta) load Total kW voltage kW X-Z kW X-Y kW Y-Z A X A Y A Z A 1 phaseX-Z Top 3, Top 4, Top 5 29 .60 208 10 .05 10 .10 9 .45 83 .90 81 .20 81 .41 142 .31X-Y Top 1 , Oven 1 29 .60 240 10 .05 10 .10 9 .45 72 .71 70 .38 70 .56 123 .33Y-Z Oven 2, Top 2
WITH SALAMANDER domestic (delta) load Total kW voltage kW X-Z kW X-Y kW Y-Z A X A Y A Z A 1 phaseX-Z Top 3, Top 4, Oven 1 36 .60 208 12 .2 12 .8 11 .6 104 .10 99 .10 101 .63 175 .96X-Y Top 1 , Top 5, Oven 2 36 .60 240 12 .2 12 .8 11 .6 90 .22 85 .89 66 .08 152 .50Y-Z Top 2, Salamander
SS684RC-3C-12L SS684RC-2C-24C-L SS684RC-1C-36L
NO SALAMANDER domestic (delta) load Total kW voltage kW X-Z kW X-Y kW Y-Z A X A Y A Z A 1 phaseX-Z Top 1, Top 2, Top 3 28 .35 208 10 .05 8 .85 9 .45 78 .74 81 .20 76 .21 136 .30X-Y Top 4, Oven 1 28 .35 240 10 .05 8 .85 9 .45 68 .25 70 .38 66 .05 118 .13Y-Z Oven 2, Top 5
WITH SALAMANDER domestic (delta) load Total kW voltage kW X-Z kW X-Y kW Y-Z A X A Y A Z A 1 phaseX-Z Top 1, Top 2, Oven 1 35 .35 208 12 .20 11 .55 11 .60 98 .90 99 .10 96 .39 169 .95X-Y Top 3, Top 4, Oven 2 35 .35 240 12 .20 11 .55 11 .60 85 .71 85 .89 83 .54 147 .29Y-Z Top 5, Salamander
SS684RC-3R-12L SS684RC-1L-36R
NO SALAMANDER domestic (delta) load Total kW voltage kW X-Z kW X-Y kW Y-Z A X A Y AZ A 1 phaseX-Z Top 3, Top 4, Top 5 28 .35 208 10 .05 8 .85 9 .45 78 .74 81 .20 76 .21 136 .30X-Y Top 1 , Oven 1 28 .35 240 10 .05 8 .85 9 .45 68 .25 70 .38 66 .05 118 .13Y-Z Oven 2, Top 2
WITH SALAMANDER domestic (delta) load Total kW voltage kW X-Z kW X-Y kW Y-Z A X A Y A Z A 1 phaseX-Z Top 3, Top 4, Oven 1 35 .35 208 12 .20 11 .55 11 .60 98 .90 99 .10 96 .39 169 .95X-Y Top 1 , Top 5, Oven 2 35 .35 240 12 .20 11 .55 11 .60 85 .71 85 .89 83 .54 147 .29Y-Z Top 2 , Salamander
SS684RC-3C-12R SS684RC-2C-24R SS684RC-1C-36R
NO SALAMANDER domestic (delta) load Total kW voltage kW X-Z kW X-Y kW Y-Z A X A Y AZ A 1 phaseX-Z Top 2, Top 3, Top 4 28 .35 208 10 .05 8 .85 9 .45 78 .74 81 .20 76 .21 136 .30X-Y Top 5, Oven 1 28 .35 240 10 .05 8 .85 9 .45 68 .25 70 .38 66 .05 118 .13Y-Z Oven 2, Top 1
WITH SALAMANDER domestic (delta) load Total kW voltage kW X-Z kW X-Y kW Y-Z A X A Y A Z A 1 phaseX-Z Top 2, Top 3, Oven 1 35 .35 208 12 .20 11 .55 11 .60 98 .90 99 .10 96 .39 169 .95X-Y Top 4, Top 5, Oven 2 35 .35 240 12 .20 11 .55 11 .60 85 .71 85 .89 63 .54 147 .29Y-Z Top 1, Salamander
SS684RC-2L-24R SS684RC-2R-24L
NO SALAMANDER domestic (delta) load Total kW voltage kW X-Z kW X-Y kW Y-Z A X A Y A Z A 1 phaseX-Z Top 1, Top 4, Top 5 28 .35 208 10 .05 8 .85 9 .45 78 .74 81 .20 76 .21 136 .30X-Y Top 2,Oven 1 28 .35 240 10 .05 8 .85 9 .45 68 .25 70 .38 66 .05 118 .13Y-Z Oven 2, Top 3
WITH SALAMANDER domestic (delta) load Total kW voltage kW X-Z kW X-Y kW Y-Z A X A Y A Z A 1 phaseX-Z Top 4, Top 5, Oven 1 35 .35 208 12 .20 11 .55 11 .60 98 .90 99 .10 96 .39 169 .95X-Y Top 1 , Top 2, Oven 2 35 .35 240 12 .20 11 .55 11 .60 85 .71 85 .89 83 .54 147 .29Y-Z Top 3, Salamander
SS684RC-1R-36L SS684RC-3L-12R
NO SALAMANDER domestic (delta) load Total kW voltage kW X-Z kW X-Y kW Y-Z A X A Y A Z A 1 phaseX-Z Top 2, Top 3, Top 5 28 .35 208 10 .05 8 .85 9 .45 78 .74 81 .20 76 .21 136 .30X-Y Top 1, Oven 1 28 .35 240 10 .05 8 .85 9 .45 68 .25 70 .38 66 .05 118 .13Y-Z Oven 2, Top 4
WITH SALAMANDER domestic (delta) load Total kW voltage kW X-Z kW X-Y kW Y-Z A X A Y A Z A 1 phaseX-Z Top 1, Top 2, Oven 1 35 .35 208 12 .20 11 .55 11 .60 98 .90 99 .10 96 .39 169 .95X-Y Top 3, Top 5, Oven 2 35 .35 240 12 .20 11 .55 11 .60 85 .71 85 .89 63 .54 147 .29Y-Z Top 4, Salamander
SS684RC-3R-24L SS684RC-3L-24R SS684RC-2R-36L SS684RC-2L-36R S684RC all models
WITH SALAMANDER domestic (delta) load Total kW voltage kW X-Z kW X-Y kW Y-Z A X A Y A Z A 1 phaseX-Z Top 1, Top 2, Top 3 27 .10 208 10 .05 8 .85 8 .20 78 .74 76 .12 71 .01 130 .29X-Y Top 4, Oven 1 27 .10 240 10 .05 8 .85 8 .20 68 .25 65 .97 61 .54 112 .92Y-Z Oven 2, Top 5
WITH SALAMANDER domestic (delta) load Total kW voltage kW X-Z kW X-Y kW Y-Z A X A Y A Z A 1phaseX-Z Top 1, Top 2, Oven 1 34 .10 208 12 .20 11 .55 10 .35 98 .90 93 .99 91 .23 163 .94X-Y Top 3, Top 4, Oven 2 34 .10 240 12 .20 11 .55 10 .35 85 .71 81 .46 79 .06 142 .08Y-Z Top 5, Salamander
Part # P152 Rev 1 (01/13/10)Page 48
GR
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Part # P152 Rev 1 (01/13/10) Page 49
WIR
ING
DIA
GR
AM
SU
684R
CS
680
SE
RIE
S
AP
R 2
6,19
99N
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ED
TOP
3 R
ED
GR
OU
P 1
NO
SA
LMA
ND
ER T1(1
)
T3(1
)T2
(1)
SU
684R
C M
odel
s:-1
L-36
RS
U68
4RC
Mod
els:
-1L-
24R
, -24
R, -
2R, -
2R-1
2L,
-2R
-24L
GR
OU
P 2
WIT
H S
ALM
AN
DE
R
TOP
1 R
ED
TOP
2 R
ED
TOP
3 R
ED
OV
EN
1 R
ED
TOP
5 R
ED
TOP
1 R
ED
TOP
2 R
ED
TOP
3 R
ED
O1(
1)
T3(1
)T2
(1)
T5(1
)T1
(1)
SU
684R
C M
odel
s:-1
L-24
R, -
24R
, -2L
-24R
, 2R
,-2
R-1
2L
GR
OU
P 2
NO
SA
LMA
ND
ER
TOP
1 R
ED
TOP
5 R
ED
TOP
2 R
ED
T1(1
)T2
(1)
SA
LAM
AN
DE
R B
LAC
K
SA
LAM
AN
DE
R R
ED
T1(1
)
T2(1
)
T3(1
)
T4(1
)
O1(
1)
S(1
)
T2(2
)
O2(
2)
O1(
2)
T1(2
)T3
(2)
S(2
)
T4(2
)
T5(1
)
O2(
1)
TOP
4 B
LAC
K
OV
EN
2 B
LAC
K
TOP
2 B
LAC
K
TOP
1 B
LAC
K
OV
EN
1 B
LAC
K
TOP
3 B
LAC
K
TOP
3 R
ED
TOP
2 R
ED
TOP
1 R
ED
TOP
4 R
ED
OV
EN
1 R
ED
TOP
5 R
ED
OV
EN
2 R
ED
GR
OU
P 3
WIT
H S
ALM
AN
DE
R
T2(1
)
T1(2
)
T3(2
)O
2(2)
T2(2
)
O2(
1)
O1(
2)T5
(2)
T3(1
)
O1(
1)T5
(1)
T4(1
)
T1(1
)
GR
OU
P 3
NO
SA
LMA
ND
ERG
RO
UP
4W
ITH
SA
LMA
ND
ER
TOP
1 B
LAC
K
OV
EN
1 B
LAC
K
OV
EN
2 R
ED
TOP
5 B
LAC
K
TOP
2 B
LAC
K
OV
EN
2 B
LAC
K
TOP
3 B
LAC
K
TOP
2 R
ED
OV
EN
1 R
ED
TOP
4 R
ED
TOP
3 R
ED
TOP
5 R
ED
TOP
1 R
ED
TOP
4 R
ED
TOP
2 R
ED
TOP
1 R
ED
OV
EN
1 R
ED
TOP
5 R
ED
SA
LAM
AN
DE
R B
LAC
K
OV
EN
1 B
LAC
K
SA
LAM
AN
DE
R R
ED
OV
EN
2 B
LAC
K
TOP
1 B
LAC
K
TOP
3 B
LAC
K
TOP
3 R
ED
TOP
2 B
LAC
K
TOP
4 B
LAC
K
OV
EN
2 R
ED
S(1
)
T1(2
)
O2(
2)
O1(
2)
T3(2
)
S(2
)
T4(2
)
T2(2
)
O1(
1)
O2(
1)
T1(1
)T2
(1)
T3(1
)
T4(1
)T5
(1)
OV
EN
1 B
LAC
K
OV
EN
2 B
LAC
K
T3(1
)
TOP
1 B
LAC
K
OV
EN
2 R
ED
TOP
3 R
ED
TOP
2 B
LAC
K
TOP
4 B
LAC
K
TOP
3 B
LAC
K
T1(2
)
O2(
2)T4
(2)
T3(2
)
O2(
1)
O1(
2)T2
(2)
OV
EN
1 R
ED
TOP
4 R
ED
TOP
2 R
ED
TOP
1 R
ED
TOP
5 R
ED
T4(1
)
O1(
1)
T5(1
)
T2(1
)
T1(1
)
GR
OU
P 4
NO
SA
LMA
ND
ER
SU
684R
C M
odel
s:-S
TD, -
12L,
-1C
, -1C
-12L
, -1C
-24L
,-1
C-3
6L, -
1L, -
24L,
-2C
-12L
, -2C
-24L
,-2
L, -2
L-36
R, -
2L-3
6L, -
36L,
-3C
-12L
,-3
L, -3
L-24
R, -
3R-2
4L
ENL3L2
3 P
HA
SE
L1
SA
LAM
AN
DE
R R
ED
SA
LAM
AN
DE
R B
LAC
K
T5(1
)
SU
684R
C M
odel
s:-S
TD, -
12L,
-1C
-24L
, -1C
-36L
, -1
L, -2
4L, -
2C-1
2L, -
2C-2
4L,
-2L,
-2L-
24R
, -2L
-36R
, -2R
-36L
,-3
6L, -
3L, -
3L-2
4R, -
3R-2
4L
T4(2
)
S(2
)
T2(2
)T1
(2)
O1(
2)
T5(2
)
O2(
2)
T3(2
)
S(1
)
TOP
5 B
LAC
K
TOP
5 R
ED
TOP
1 B
LAC
K
TOP
3 B
LAC
K
OV
EN
2 B
LAC
K
TOP
4 B
LAC
K
TOP
2 B
LAC
K
OV
EN
1 B
LAC
K
O2(
1)O
VE
N 2
RE
D
ENL3L2
3 P
HA
SE
L1
O1(
1)
O2(
2)T5
(2)
O1(
2)T1
(2)
T3(2
)T2
(2)
T5(1
)O
2(1)
T4(2
)
T4(1
)
ENL3L2
3 P
HA
SE
L1
SU
684R
C M
odel
s:-1
2R, -
1L-1
2R, -
1R, -
1R-1
2L
ENL3L2
3 P
HA
SE
L1
OV
EN
2 B
LAC
K
TOP
5 B
LAC
K
TOP
5 R
ED
TOP
3 B
LAC
K
TOP
4 B
LAC
K
OV
EN
1 R
ED
OV
EN
2 R
ED
OV
EN
1 B
LAC
K
TOP
2 B
LAC
K
TOP
1 B
LAC
K
TOP
4 R
ED
T4(1
)TO
P 4
RE
D
TOP
1 B
LAC
K
TOP
2 B
LAC
K
OV
EN
2 B
LAC
K
TOP
3 B
LAC
K
SA
LAM
AN
DE
R R
ED
TOP
4 B
LAC
K
OV
EN
1 B
LAC
K
SA
LAM
AN
DE
R B
LAC
K
TOP
5 B
LAC
K
S(2
)T5
(2)
O1(
2)
O2(
2)
T2(2
)
T4(2
)T1
(2)
T3(2
)
S(1
)
OV
EN
2 R
ED
O2(
1)
OV
EN
2 B
LAC
K
OV
EN
1 B
LAC
K
O1(
1)
SU
684R
C M
odel
s:-1
2R, -
1L-1
2R, -
1R, -
1R-1
2L,
-1R
-24L
, -2L
-12RO
2(2)
TOP
5 B
LAC
KT5
(2)
TOP
4 R
ED
TOP
4 B
LAC
K
TOP
3 B
LAC
K
OV
EN
1 R
ED
OV
EN
2 R
ED
TOP
2 B
LAC
K
TOP
1 B
LAC
K
O1(
2)T1
(2)
T4(2
)T2
(2)
O2(
1)
T3(2
)
T4(1
)
TOP
3 R
ED
T3(1
)
T5(1
)
Part # P152 Rev 1 (01/13/10)Page 50
WIR
ING
DIA
GR
AM
SU
684R
CS
680
SE
RIE
S
AP
R 2
6,19
99N
AV
C
43
2693
401
:A
LL D
IME
NS
ION
S A
RE
IN IN
CH
ES
TOLE
RA
NC
E ±
0.01
5" U
NLE
SS
OTH
ER
WIS
E S
PE
CIF
IED
CO
MM
ER
CIA
L R
AN
GE
S L
IMIT
ED
MIS
SIS
SA
UG
A, O
NTA
RIO
, CA
NA
DA
::
:
TITL
E:
DAT
ES
CA
LED
R.
SH
T
OF
CH
K. B
Y
REV
RE
V.#
DAT
ED
R.
DE
SC
RIP
TIO
N RE
VIS
ION
S
TOP
1 R
ED
TOP
4 R
ED
OV
EN
1 R
ED
TOP
3 R
ED
TOP
5 R
ED
OV
EN
1 B
LAC
K
TOP
1 B
LAC
K
TOP
2 R
ED
OV
EN
2 R
ED
TOP
5 B
LAC
K
TOP
3 B
LAC
K
TOP
4 B
LAC
K
TOP
2 B
LAC
K
OV
EN
2 B
LAC
K
OV
EN
1 R
ED
TOP
3 B
LAC
K
TOP
1 B
LAC
K
TOP
5 B
LAC
K
TOP
4 B
LAC
K
SA
LAM
AN
DE
R B
LAC
K
OV
EN
1 B
LAC
K
SA
LAM
AN
DE
R R
ED
OV
EN
2 B
LAC
K
TOP
2 B
LAC
K
OV
EN
2 R
ED
ENL3L2
3 P
HA
SE
L1
O1(
1)
SU
684R
C M
odel
s:-1
C-2
4R, -
36R
, -3R
, -3R
-12L
O2(
2)T5
(2)
O1(
2)
T3(2
)T4
(2)
T2(2
)
T2(1
)O
2(1)
T1(2
)
ENL3L2
3 P
HA
SE
L1
S(2
)
SU
684R
C M
odel
s:-1
C-3
6R, 2
C-2
4R, -
3C-1
2R
GR
OU
P 9
NO
SA
LMA
ND
ER T3(1
)T4
(1)
T5(1
)
T1(1
)
T3(2
)
T1(1
)
O2(
2)
T2(2
)O
1(2)
T1(2
)
S(1
)
T5(2
)T4
(2)
TOP
1 R
ED
O1(
1)
T4(1
)T5
(1)
O2(
1)
T3(1
)T2
(1)
TOP
4 R
ED
TOP
5 R
ED
TOP
2 R
ED
TOP
3 R
ED
GR
OU
P 9
WIT
H S
ALM
AN
DE
R
SU
684R
C M
odel
s:-1
R-3
6L, -
2C-1
2R, -
3L-1
2R
TOP
2 R
ED
TOP
3 R
ED
TOP
5 R
ED
TOP
4 R
ED
OV
EN
2 R
ED
OV
EN
1 R
ED
OV
EN
2 B
LAC
K
OV
EN
1 B
LAC
K
TOP
2 B
LAC
K
TOP
3 B
LAC
K
TOP
4 B
LAC
K
TOP
1 B
LAC
K
TOP
1 R
ED
TOP
1 R
ED
TOP
3 R
ED
TOP
2 R
ED
TOP
5 R
ED
OV
EN
1 R
ED
TOP
4 R
ED
TOP
1 B
LAC
K
OV
EN
1 B
LAC
K
OV
EN
2 R
ED
TOP
2 B
LAC
K
TOP
5 B
LAC
K
OV
EN
2 B
LAC
K
TOP
3 B
LAC
K
TOP
4 B
LAC
K
TOP
5 B
LAC
K
ENL3L2
3 P
HA
SE
L1
GR
OU
P 5
WIT
H S
ALM
AN
DE
R
T1(2
)
SU
684R
C M
odel
s:-1
C-2
4R, -
1L-3
6R, -
36R
-3R
, -3R
-12L
O2(
2)
O1(
2)T4
(2)
T2(2
)S
(2)
T3(2
)
T5(2
)TO
P 5
BLA
CK
OV
EN
2 B
LAC
K
TOP
3 B
LAC
K
TOP
1 B
LAC
K
TOP
2 B
LAC
K
OV
EN
1 B
LAC
K
TOP
4 B
LAC
K
SA
LAM
AN
DE
R B
LAC
K
T5(1
)
S(1
)T2
(1)
O2(
1)
T1(1
)
T4(1
)O
1(1)
T3(1
)
TOP
4 R
ED
TOP
1 R
ED
TOP
5 R
ED
OV
EN
1 R
ED
TOP
2 R
ED
OV
EN
2 R
ED
SA
LAM
AN
DE
R R
ED
TOP
3 R
ED
ENL3L2
3 P
HA
SE
L1
O2(
1)
SU
684R
C M
odel
s:-1
C-1
2R
T3(2
)
O2(
2)T5
(2)
T4(2
)
O1(
2)T1
(2)
T2(2
)
GR
OU
P 5
NO
SA
LMA
ND
ER T5(1
)
O1(
1)T2
(1)
T4(1
)
T1(1
)T3
(1)
ENL3L2
3 P
HA
SE
L1
GR
OU
P 7
WIT
H S
ALM
AN
DE
R
SU
684R
C M
odel
s:-1
C-1
2R, -
2C-1
2R, -
3L-1
2R
O1(
2)
O2(
2)T3
(2)
S(2
)
T4(2
)
T5(2
)
S(1
)
T2(2
)T1
(2)
O2(
1)
T4(1
)
T2(1
)
TOP
3 B
LAC
K
TOP
4 B
LAC
K
OV
EN
1 B
LAC
K
SA
LAM
AN
DE
R B
LAC
K
TOP
5 B
LAC
K
OV
EN
2 R
ED
TOP
4 R
ED
TOP
2 R
ED
TOP
1 B
LAC
K
OV
EN
2 B
LAC
K
TOP
2 B
LAC
K
SA
LAM
AN
DE
R R
ED
O1(
1)T5
(1)
T3(1
)
T1(1
)
OV
EN
1 R
ED
TOP
5 R
ED
TOP
3 R
ED
TOP
1 R
ED
ENL3L2
3 P
HA
SE
L1
T3(1
)
T2(2
)
O2(
2)
T3(2
)T4
(2)
T5(2
)
T4(1
)
O1(
2)
O2(
1)
T1(2
)
T5(1
)
O1(
1)T1
(1)
GR
OU
P 7
NO
SA
LMA
ND
ER T2(1
)
ENL3L2
3 P
HA
SE
L1
SU
684R
C M
odel
s:-3
C-1
2L
GR
OU
P 6
WIT
H S
ALM
AN
DE
R
ENL3L2
3 P
HA
SE
L1
T1(2
)
TOP
5 B
LAC
K
SA
LAM
AN
DE
R B
LAC
K
OV
EN
1 B
LAC
K
OV
EN
2 B
LAC
K
TOP
1 B
LAC
K
TOP
2 B
LAC
K
TOP
4 B
LAC
K
TOP
3 B
LAC
KT3
(2)
S(2
)T5
(2)
O1(
2)
T2(2
)
T4(2
)O
2(2)
SA
LAM
AN
DE
R R
ED
OV
EN
2 R
ED
T4(1
)
S(1
)T5
(1)
O2(
1)
T1(1
)
T3(1
)O
1(1)
TOP
4 R
ED
TOP
5 R
ED
TOP
3 R
ED
TOP
1 R
ED
OV
EN
1 R
ED
T2(1
)TO
P 2
RE
D
O2(
1)O
VE
N 2
RE
D
SU
684R
C M
odel
s:-1
C-3
6R, -
2C-2
4R, -
3C-1
2R
T1(2
)O
1(2)
T5(2
)
T3(2
)O
2(2)
T4(2
)
T2(2
)TO
P 1
BLA
CK
OV
EN
1 B
LAC
K
TOP
5 B
LAC
K
TOP
4 B
LAC
K
TOP
3 B
LAC
K
TOP
2 B
LAC
K
OV
EN
2 B
LAC
K
T2(1
)
T4(1
)
T5(1
)O
1(1)
T3(1
)
GR
OU
P 6
NO
SA
LMA
ND
ER T1(1
)O
VE
N 1
RE
D
TOP
4 R
ED
TOP
3 R
ED
TOP
2 R
ED
TOP
5 R
ED
TOP
1 R
ED
ENL3L2
3 P
HA
SE
L1
SU
684R
C M
odel
s:-1
R-2
4L, 1
R-3
6L, 2
L-12
R
GR
OU
P 8
WIT
H S
ALM
AN
DE
R
ENL3L2
3 P
HA
SE
L1O
VE
N 2
RE
D
TOP
2 B
LAC
K
OV
EN
2 B
LAC
K
SA
LAM
AN
DE
R R
ED
OV
EN
1 B
LAC
K
SA
LAM
AN
DE
R B
LAC
K
TOP
3 B
LAC
K
TOP
5 B
LAC
K
TOP
1 B
LAC
K
TOP
4 B
LAC
K
T1(2
)T2
(2)
S(2
)O
1(2)
T4(2
)
S(1
)
T5(2
)O
2(2)
T3(2
)
T5(1
)
T4(1
)
O2(
1)TO
P 5
RE
D
TOP
4 R
ED
T2(1
)
T3(1
)
O1(
1)
T1(1
)
OV
EN
1 R
ED
TOP
2 R
ED
TOP
3 R
ED
TOP
1 R
ED
T4(1
)TO
P 4
RE
D
SU
684R
C M
odel
s:-2
R-2
4L
T5(1
)
T3(1
)O
2(1)
O1(
1)
T1(2
)O
1(2)
T4(2
)T3
(2)
O2(
2)
T2(2
)
T1(1
)
T5(2
)
TOP
2 B
LAC
K
TOP
4 B
LAC
K
TOP
3 B
LAC
K
OV
EN
2 B
LAC
K
TOP
5 B
LAC
K
OV
EN
2 R
ED
TOP
5 R
ED
OV
EN
1 R
ED
TOP
3 R
ED
TOP
1 B
LAC
K
OV
EN
1 B
LAC
K
TOP
1 R
ED
GR
OU
P 8
NO
SA
LMA
ND
ER T2(1
)TO
P 2
RE
D
Part # P152 Rev 1 (01/13/10) Page 51
RC
OV
EN
SC
HE
MAT
IC S
U68
4RC S
680
SE
RIE
S
AP
R 2
8,19
99N
AV
C
44
2693
401
:A
LL D
IME
NS
ION
S A
RE
IN IN
CH
ES
TOLE
RA
NC
E ±
0.01
5" U
NLE
SS
OTH
ER
WIS
E S
PE
CIF
IED
CO
MM
ER
CIA
L R
AN
GE
S L
IMIT
ED
MIS
SIS
SA
UG
A, O
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Part # P152 Rev 1 (01/13/10)Page 52
MODELPhase grouping Loading Chart
SU684RC STD NO SALAMANDER export (wye) load voltage total kW kW L1 kW L2 kW L3 A L1 A L2 A L3 A 1 phaseL1 Top 1, Top 2, Top 3 400V3N~ 33 .35 13 .8 10 .1 9 .45 60 .00 43 .91 41 .09 145 .00L2 Top 4, Oven 1 415V3N~ 33 .35 13 .8 10 .1 9 .45 57 .50 42 .08 39 .38 138 .96L3 Oven 2, Top 5 380V3N~ 30 .51 12 .63 9 .24 8 .65 57 .39 42 .00 39 .30 138 .70
WITH SALAMANDER export (wye) load voltage total kW kW L1 kW L2 kW L3 A L1 A L2 A L3 A 1 phaseL1 Top 1, Top 2, Oven 1 400V3N~ 40 .75 14 .7 14 .45 11 .6 63 .91 62 .83 50 .43 177 .17L2 Top 3, Top 4, Oven 2 415V3N~ 40 .75 14 .7 14 .45 11 .6 61 .25 60 .21 48 .33 169 .79L3 Top 5, Salamander 380V3N~ 37 .28 13 .45 13 .22 10 .61 61 .13 60 .09 48 .24 169 .47
SU684RC-1L SU684RC-12L
NO SALAMANDER export (wye) load voltage total kW kW L1 kW L2 kW L3 A L1 A L2 A L3 A 1 phaseL1 Top 1, Top 2, Top 3 400V3N~ 32 .1 12 .55 10 .1 9 .45 54 .57 43 .91 41 .09 139 .57L2 Top 4, Oven 1 415V3N~ 32 .1 12 .55 10 .1 9 .45 52 .29 42 .08 39 .38 133 .75L3 Oven 2, Top 5 380V3N~ 29 .37 11 .48 9 .24 8 .65 52 .19 42 .00 39 .30 133 .50
WITH SALAMANDER export (wye) load voltage total kW kW L1 kW L2 kW L3 A L1 A L2 A L3 A 1 phaseL1 Top 1, Top 2, Oven 1 400V3N~ 39 .1 13 .45 14 .05 11 .6 58 .48 61 .09 50 .43 170 .00L2 Top 3, Top 4, Oven 2 415V3N~ 39 .1 13 .45 14 .05 11 .6 56 .04 58 .54 48 .33 162 .92L3 Top 6, Salamander 380V3N~ 35 .77 12 .31 12 .85 10 .61 55 .94 58 .43 48 .24 152 .61
SU684RC-1C NO SALAMANDER export (wye) load voltage total kW kW L1 kW L2 kW L3 A L1 A L2 A L3 A 1 phaseL1 Top 1, Top 2, Top 3 400V3N~ 32 .1 12 .55 10 .1 9 .45 54 .57 43 .91 41 .09 139 .57L2 Top 4, Oven1 415V3N~ 32 .1 12 .55 10 .1 9 .45 52 .29 42 .08 39 .38 133 .75L3 Oven 2, Top 5 380V3N~ 29 .37 11 .48 9 .24 8 .65 52 .19 42 .00 39 .30 133 .50
WITH SALAMANDER export (wye) load voltage total kW kW L1 kW L2 kW L3 A L1 A L2 A L3 A 1 phaseL1 Top 1, Top 3, Oven 1 400V3N~ 39 .1 13 .45 14 .05 11 .6 58 .48 61 .09 50 .43 170 .00L2 Top 2, Top 4, Oven 2 415V3N~ 39 .1 13 .45 14 .05 11 .6 56 .04 58 .54 48 .33 162 .92L3 Top 6, Salamander 300V3N~ 35 .77 12 .31 12 .85 10 .61 55 .94 53 .43 48 .24 162 .61
SU684RC-1R SU684RC-12R
NO SALAMANDER export (wye) load voltage total kW kW L1 kW L2 kW L3 A L1 A L2 A L3 A 1 phaseL1 Top 1, Top 2, Top 5 400V 3N~ 32 .1 12 .55 10 .1 9 .45 54 .57 43 .91 41 .09 139 .67L2 Top 3, Oven 1 415V3N~ 32 .1 12 .55 10 .1 9 .45 52 .29 42 .08 39 .38 133 .75L3 Oven 2, Top 4 380V3N~ 29 .37 11 .48 9 .24 8 .65 52 .19 42 .00 39 .30 133 .50
WITH SALAMANDER export (wye) load voltage total kW kW L1 kW L2 kW L3 A L1 A L2 A L3 A 1 phaseL1 Top 1 , Top 5, Oven 1 400V3N~ 39 .1 13 .45 14 .05 11 .6 58 .48 61 .09 50 .43 170 .00L2 Top 2, Top 3, Oven 2 415V 3N~ 39 .1 13 .45 14 .05 11 .6 56 .04 53 .54 48 .33 162 .92L3 Top 4, Salamander 380V3N~ 35 .77 12 .31 12 .85 10 .61 55 .94 58 .43 48 .24 162 .61
SU684RC-2L SU684RC-24L
NO SALAMANDER export (wye) load voltage total kW kW L1 kW L2 kW L3 AL1 AL2 AL3 A 1 phaseL1 Top 1, Top 2, Top 3 400V3N~ 30 .85 11 .3 10 .1 9 .45 49 .13 43 .91 41 .09 134 .13L2 Top 4, Oven 1 415V3N~ 30 .85 11 .3 10 .1 9 .45 47 .08 42 .08 39 .38 128 .54L3 Oven 2, Top 5 300V3N~ 20 .23 10 .34 9 .24 8 .65 46 .99 42 .00 39 .30 128 .30
WITH SALAMANDER export (wye) load voltage total kW kW L1 kW L2 kW L3 A L1 A L2 A L3 A 1 phaseL1 Top 1, Top 2, Oven 1 400V3N~ 37 .85 12 .2 14 .05 11 .6 53 .04 61 .09 50 .43 164 .57L2 Top 3, Top 4, Oven 2 415V3N~ 37 .85 12 .2 14 .05 11 .6 50 .83 58 .54 48 .33 157 .71L3 Top 5, Salamander 380V3N~ 34 .63 11 .16 12 .85 10 .61 50 .74 58 .43 48 .24 157 .41
SU684RC-1C-12L NO SALAMANDER export (wye) load voltage total kW kW L1 kW L2 kW L3 A L1 A L2 A L3 A 1 phaseL1 Top 1, Top 2, Top 3 400V3N~ 30 .85 11 .3 10 .1 9 .45 49 .13 43 .91 41 .09 134 .13L2 Top 4, Oven 1 415V3N~ 30 .85 11 .3 10 .1 9 .45 47 .08 42 .08 39 .38 128 .54L3 Oven 2, Top 5 300V3N~ 28 .23 10 .34 9 .24 8 .65 46 .99 42 .00 39 .30 120 .30
WITH SALAMANDER export (wye) load voltage total kW kW L1 kW L2 kW L3 A L1 A L2 A L3 A 1 phaseL1 Top 1, Top 3, Oven 1 400V3N~ 37 .85 12 .2 14 .05 11 .6 53 .04 61 .09 50 .43 164 .57L2 Top 2, Top 4, Oven 2 415V3N~ 37 .85 12 .2 14 .05 11 .6 50 .83 58 .54 48 .33 157 .71L3 Top 5, Salamander 380V3N~ 34 .63 11 .16 12 .85 10 .61 50 .74 58 .43 48 .24 157 .41
SU684RC-1R-12L SU684-1L-12R
NO SALAMANDER export (wye) load voltage total kW kW L1 kW L2 kW L3 A L1 A L2 A L3 A 1 phaseL1 Top 1, Top 2, Top 5 400V3N~ 30 .85 11 .3 10 .1 9 .45 49 .13 43 .91 41 .09 134 .13[2 Top 3, Oven 1 415V3N~ 30 .85 11 .3 10 .1 9 .45 47 .08 42 .08 39 .38 128 .54L3 Oven 2, Top 4 380V3N~ 28 .23 10 .34 9 .24 8 .65 46 .99 42 .00 39 .30 128 .30
WITH SALAMANDER export (wye) load voltage total kW kW L1 kW L2 kW L3 A L1 A L2 A L3 A 1 phaseL1 Top 1 , Top 5, Oven 1 400V3N~ 37 .85 12 .2 14 .05 11 .6 53 .04 61 .09 50 .43 164 .57L2 Top 2, Top 3, Oven 2 415V3N~ 37 .85 12 .2 14 .05 11 .6 50 .83 58 .54 48 .33 157 .71L3 Top 4, Salamander 380V3N~ #DIV/0! #DIV/0! #DIV/0! #DIV/0! #DIV/0! #DIV/0! #DIV/0! #DIV/0!
SU684RC-1C-12R NO SALAMANDER export (wye) load voltage total kW kW L1 kW L2 kW L3 A L1 A L2 A L3 A 1 phaseL1 Top 1, Top 3, Top 5 400V3N~ 30 .85 11 .3 10 .1 9 .45 49 .13 43 .91 41 .09 134 .13L2 Top 2 , Oven 1 415V3N~ 30 .85 11 .3 10 .1 9 .45 47 .08 42 .08 39 .38 128 .54L3 Oven 2, Top 4 380V3N~ 28 .23 10 .34 9 .24 8 .65 46 .99 42 .00 39 .30 128 .30
WITH SALAMANDER export (wye) load voltage total kW kW L1 kW L2 kW L3 A L1 A L2 A L3 A 1 phaseL1 Top 3, Top 5, Oven 1 400V3N~ 37 .85 12 .2 14 .05 11 .6 53 .04 61 .09 50 .43 164 .57L2 Top 1, Top 2, Oven 2 415V3N~ 37 .85 12 .2 14 .05 11 .6 50 .83 58 .54 48 .33 157 .71L3 Top 4, Salamander 380V3N~ 34 .63 11 .16 12 .85 10 .61 50 .74 58 .43 48 .24 157 .41
SU684RC-2R SU684RC-24R
NO SALAMANDER export (wye) load voltage total kW kW L1 kW L2 kW L3 A L1 A L2 A L3 A 1 phaseL1 Top 1 , Top 4, Top 5 400V3N~ 30 .85 11 .3 10 .1 9 .45 49 .13 43 .91 41 .09 134 .13L2 Top 2, Oven 1 415V3N~ 30 .85 11 .3 10 .1 9 .45 47 .08 42 .08 39 .38 128 .54L3 Oven 2, Top 3 380V3N~ 28 .23 10 .34 9 .24 8 .65 46 .99 42 .00 39 .30 128 .30
WITH SALAMANDER export (wye) load voltage total kW kW L1 kW L2 kW L3 A L1 A L2 A L3 A 1 phaseL1 Top 4, Top 5, Oven 1 400V3N~ 37 .85 12 .2 14 .05 11 .6 53 .04 61 .09 50 .43 164 .57L2 Top 1, Top 2, Oven 2 415V3N~ 37 .85 12 .2 14 .05 11 .6 50 .83 58 .54 48 .33 157 .71L3 Top 3, Salamander 380V3N~ 34 .63 11 .16 12 .85 10 .61 50 .74 58 .43 48 .24 157 .41
SU684RC-3L SU684RC-36L SU684RC-1C-24L SU684RC-2C-12L
NO SALAMANDER export (wye) load voltage total kW kW L1 kW L2 kW L3 A L1 A L2 A L3 A 1 phaseL1 Top 1, Top 2, Top 3 400V3N~ 29 .6 10 .05 10 .10 9 .45 43 .70 43 .91 41 .09 128 .70L2 Top 4, Oven 1 415V3N~ 29 .6 10 .05 10 .10 9 .45 41 .88 42 .08 39 .38 123 .33L3 Oven 2, Top 5 380V3N~ 27 .08 9 .20 9 .24 8 .65 41 .80 42 .00 39 .30 123 .10
WITH SALAMANDER export (wye) load voltage total kW kW L1 kW L2 kW L3 A L1 A L2 A L3 A 1 phaseL1 Top 1, Top 2, Oven 1 400V 3N~ 36 .6 12 .2 12 .8 11 .6 53 .04 55 .66 50 .43 159 .13L2 Top 3, Top 4, Oven 2 415V3N~ 36 .6 12 .2 12 .8 11 .6 50 .83 53 .33 48 .33 152 .50L3 Top 5, Salamander 380V3N~ 33 .49 11 .16 11 .71 10 .61 50 .74 53 .23 48 .24 152 .21
Part # P152 Rev 1 (01/13/10) Page 53
MODELPhase grouping Loading Chart
SU684RC-2L-12R SU684-1R-24L
NO SALAMANDER export (wye) load voltage total kW kW L1 kW L2 kW L3 A L1 A L2 A L3 A 1 phaseL1 Top 1, Top 2, Top 5 400V3N~ 29 .6 10 .05 10 .10 9 .45 43 .70 43 .91 41 .09 128 .70L2 Top 3, Oven 1 415V3N~ 29 .6 10 .05 10 .10 9 .45 41 .88 42 .08 39 .38 123 .33L3 Oven 2, Top 4 380V3N~ 27 .08 9 .20 9 .24 8 .65 41 .80 42 .00 39 .30 123 .10
WITH SALAMANDER export (wye) load voltage total kW kW L1 kW L2 kW L3 A L1 A L2 A L3 A 1 phaseL1 Top 1, Top 2, Oven 1 400V3N~ 36 .6 12 .2 12 .8 11 .6 53 .04 55 .65 50 .43 159 .13L2 Top 3, Top 5, Oven 2 415V3N~ 36 .6 12 .2 12 .8 11 .6 50 .83 53 .33 48 .33 152 .50L3 Top 4, Salamander 380V3N~ 33 .49 11 .16 11 .71 10 .61 50 .74 53 .23 48 .24 152 .21
SU684RC-2R-12L SU684RC-1L-24R
NO SALAMANDER export (wye) load voltage total kW kW L1 kW L2 kW L3 A L1 A L2 A L3 A 1 phaseL1 Top 1, Top 4, Top 5 400V3N~ 29 .6 10 .05 10 .10 9 .45 43 .70 43 .91 41 .09 128 .70[2 Top 2, Oven 1 415V3N~ 29 .6 10 .05 10 .10 9 .45 41 .88 42 .08 39 .38 123 .33L3 Oven 2, Top 3 380V3N~ 27 .08 9 .20 9 .24 8 .65 41 .80 42 .00 39 .30 123 .10
WITH SALAMANDER export (wye) load voltage total kW kW L1 kW L2 kW L3 A L1 A L2 A L3 A 1 phaseL1 Top 4, Top 5, Oven 1 400V3N~ 36 .6 12 .2 12 .8 11 .6 53 .04 55 .65 50 .43 159 .13L2 Top 1, Top 2, Oven 2 415V3N~ 36 .6 12 .2 12 .8 11 .6 50 .83 53 .33 48 .33 152 .50L3 Top 3, Salamander 380V3N~ 33 .49 11 .16 11 .71 10 .61 50 .74 53 .23 48 .24 162 .21
SU684RC-2C-12R NO SALAMANDER export (wye) load voltage total kW kW L1 kW L2 kW L3 A L1 A L2 A L3 A 1 phaseL1 Top 2, Top 3, Top 5 400V3N~ 29 .6 10 .05 10 .10 9 .45 43 .70 43 .91 41 .09 128 .70L2 Top 1, Oven 1 415V3N~ 29 .6 10 .05 10 .10 9 .45 41 .88 42 .08 39 .38 123 .33L3 Oven 2, Top 4 380V3N~ 27 .08 9 .20 9 .24 8 .65 41 .80 42 .00 39 .30 123 .10
WITH SALAMANDER export (wye) load voltage total kW kW L1 kW L2 kW L3 A L1 A L2 A L3 A 1 phaseL1 Top 3, Top 5, Oven 1 400V3N~ 36 .6 12 .2 12 .8 11 .6 53 .04 55 .65 50 .43 159 .13L2 Top 1, Top 2, Oven 2 415V3N~ 36 .6 12 .2 12 .8 11 .6 50 .83 53 .33 48 .33 152 .50L3 Top 4, Salamander 380V3N~ 33 .49 11 .16 11 .71 10 .61 50 .74 53 .23 48 .24 152 .21
SU684RC-3R SU684RC-1C-24R SU684RC-36R
NO SALAMANDER export (wye) load voltage total kW kW L1 kW L2 kW L3 A L1 A L2 A L3 A 1phaseL1 Top 3, Top 4, Top 5 400V3N~ 29 .6 10 .05 10 .10 9 .45 43 .70 43 .91 41 .09 128 .70L2 Top 1, Oven 1 415V3N~ 29 .6 10 .05 10 .10 9 .45 41 .88 42 .08 39 .38 123 .33L3 Oven 2, Top 2 380V3N~ 27 .08 9 .20 9 .24 8 .65 41 .80 42 .00 39 .30 123 .10
WITH SALAMANDER export (wye) load voltage total kW kW L1 kW L2 kW L3 A L1 A L2 A L3 A 1phaseL1 Top 3, Top 4, Oven 1 400V3N~ 36 .6 12 .2 12 .8 11 .6 53 .04 55 .65 50 .43 159 .13L2 Top 1, Top 5, Oven 2 415V3N~ 36 .6 12 .2 12 .8 11 .6 50 .83 53 .33 48 .33 152 .50L3 Top 2, Salamander 380V3N~ 33 .49 11 .16 11 .71 10 .61 50 .74 53 .23 48 .24 152 .21
SU684RC-3C-12L SU684RC-2C-24L SU684RC-1C-46L
NO SALAMANDER export (wye) load voltage total kW kW L1 kW L2 kW L3 A L1 A L2 A L3 A 1 phaseL1 Top 1 , Top 2, Top 3 400V3N~ 28 .35 10 .05 8 .85 9 .45 43 .70 38 .48 41 .09 123 .26L2 Top 4, Oven 1 415V3N~ 28 .35 10 .05 8 .85 9 .45 41 .88 36 .88 39 .38 118 .13L3 Oven 2, Top 5 380V3N~ 25 .94 9 .20 8 .10 8 .65 41 .80 36 .81 39 .30 117 .90
WITH SALAMANDER export (wye) load voltage total kW kW L1 kW L2 kW L3 A L1 A L2 A L3 A 1 phaseL1 Top 1 , Top 2, Oven 1 400V3N~ 35 .35 12 .2 11 .55 11 .6 53 .04 50 .22 50 .43 153 .70L2 Top 3, Top 4, Oven 2 415V3N~ 35 .35 12 .2 11 .55 11 .6 50 .83 48 .13 48 .33 147 .29L3 Top 5, Salamander 380V3N~ 32 .34 11 .16 10 .57 10 .61 50 .74 48 .03 48 .24 147 .01
SU684RC-1L-36R SU684-3R-12L
NO SALAMANDER export (wye) load voltage total kW kW L1 kW L2 kW L3 A L1 A L2 A L3 A 1 phaseL1 Top 3, Top 4, Top 5 400V3N~ 28 .35 10 .05 8 .85 9 .45 43 .70 38 .48 41 .09 123 .26L2 Top 1, Oven 1 415V3N~ 28 .35 10 .05 8 .85 9 .45 41 .88 36 .88 39 .38 118 .13L3 Oven 2, Top 2 380V3N~ 25 .94 9 .20 8 .10 8 .65 41 .80 36 .81 39 .30 117 .90
WITH SALAMANDER export (wye) load voltage total kW kW L1 kW L2 kW L3 A L1 A L2 A L3 A 1 phaseL1 Top 3, Top 4, Oven 1 400V3N~ 35 .35 12 .2 11 .55 11 .6 53 .04 50 .22 50 .43 153 .70L2 Top 1, Top 5, Oven 2 415V3N~ 36 .35 12 .2 11 .55 11 .6 50 .83 48 .13 48 .33 147 .29L3 Top 2, Salamander 380V3N~ 32 .34 11 .16 10 .57 10 .61 50 .74 48 .03 48 .24 147 .01
SU684RC-3C-12R SU684RC-2C-24R SU684-1C-36R
NO SALAMANDER export (wye) load voltage total kW kW L1 kW L2 kW L3 A L1 A L2 A L3 A 1 phaseL1 Top 2, Top 3, Top 4 400V3N~ 28 .35 10 .05 8 .85 9 .45 43 .70 38 .48 41 .09 123 .26L2 Top 5, Oven 1 415V3N~ 28 .35 10 .05 8 .85 9 .45 41 .88 36 .88 39 .38 118 .13L3 Oven 2, Top 1 380V3N~ 26 .94 9 .20 8 .10 8 .65 41 .80 36 .81 39 .30 117 .90
WITH SALAMANDER export (wye) load voltage total kW kW L1 kW L2 kW L3 A L1 A L2 A L3 A 1 phaseL1 Top 2, Top 3, Oven 1 400V3N~ 35 .35 12 .2 11 .55 11 .6 53 .04 50 .22 50 .43 153 .70L2 Top 4, Top 5, Oven 2 415V3N~ 35 .35 12 .2 11 .55 11 .6 50 .83 48 .13 48 .33 147 .29L3 Top 1, Salamander 380V3N~ 32 .34 11 .16 10 .57 10 .61 50 .74 48 .03 48 .24 147 .01
SU684RC-3L-12R SU684RC-1R-36L
NO SALAMANDER export (wye) load voltage total kW kW L1 kW L2 kW L3 A L1 A L2 A L3 A 1 phaseL1 Top 2, Top 3, Top 5 400V3N~ 28 .35 10 .05 8 .85 9 .45 43 .70 38 .48 41 .09 123 .26L2 Top 1 , Oven 1 415V3N~ 28 .35 10 .05 8 .85 9 .45 41 .88 36 .88 39 .38 118 .13L3 Oven 2, Top 4 380V3N~ 26 .94 9 .20 8 .10 8 .65 41 .80 36 .81 39 .30 117 .90
WITH SALAMANDER export (wye) load voltage total kW kW L1 kW L2 kW L3 A L1 A L2 A L3 A 1 phaseL1 Top 3, Top 5, Oven 1 400V3N~ 35 .35 12 .2 11 .55 11 .6 53 .04 50 .22 50 .43 153 .70L2 Top 1 , Top 2, Oven 2 415V3N~ 35 .35 12 .2 11 .55 11 .6 50 .83 48 .13 48 .33 147 .29L3 Top 4, Salamander 380V3N~ 32 .34 11 .16 10 .57 10 .61 50 .74 48 .03 48 .24 147 .01
SU684RC-2R-24L SU684-2L-24R
NO SALAMANDER export (wye) load voltage total kW kW L1 kW L2 kW L3 A L1 A L2 A L3 A 1 phaseL1 Top 2, Top 4, Top 5 400V3N~ 28 .35 10 .05 8 .85 9 .45 43 .70 38 .48 41 .09 123 .26L2 Top 1 , Oven 1 415V3N~ 28 .35 10 .05 8 .85 9 .45 41 .88 36 .88 39 .38 118 .13L3 Oven 2, Top 35 380V3N~ 25 .94 9 .20 8 .10 8 .65 41 .80 36 .81 39 .30 117 .90
WITH SALAMANDER export (wye) load voltage total kW kW L1 kW L2 kW L3 A L1 A L2 A L3 A 1 phaseL1 Top 4, Top 5, Oven 1 400V3N~ 36 .35 12 .2 11 .55 11 .6 53 .04 50 .22 50 .43 153 .70L2 Top 1 , Top 2, Oven 2 415V3N~ 35 .35 12 .2 11 .55 11 .6 50 .83 48 .13 48 .33 147 .29L3 Top 3, Salamander 380V3N~ 32 .34 11 .16 10 .57 10 .61 50 .74 48 .03 48 .24 147 .01
SU684RC-3R-34L SU684RC-3L-34R SU684RC-2R-36L SU684-2L-36R
NO SALAMANDER export (wye) load voltage total kW kW L1 kW L2 kW L3 A L1 A L2 A L3 A 1 phaseL1 Top 1, Top 2, Top 3 400V3N~ 27 .1 10 .05 8 .85 8 .2 43 .70 38 .48 35 .65 117 .83L2 Top 4, Oven 1 415V3N~ 27 .1 10 .05 8 .85 8 .2 41 .88 36 .88 34 .17 112 .92L3 Oven 2, Top 5 380V3N~ 24 .79 9 .20 8 .10 7 .50 41 .80 36 .81 34 .10 112 .70
WITH SALAMANDER export (wye) load voltage total kW kW L1 kW L2 kW L3 A L1 A L2 A L3 A 1 phaseL1 Top 1, Top 2, Oven 1 400V3N~ 34 .1 12 .2 11 .55 10 .35 53 .04 50 .22 45 .00 148 .26L2 Top 3, Top 4, Oven 2 415V3N~ 34 .1 12 .2 11 .55 10 .35 50 .83 48 .13 43 .13 142 .08L3 Top 5, Salamander 380V3N~ 31 .20 11 .16 10 .57 9 .47 50 .74 48 .03 43 .04 141 .81
Part # P152 Rev 1 (01/13/10)Page 54
GR
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EC
IFIE
D
CO
MM
ER
CIA
L R
AN
GE
S L
IMIT
ED
MIS
SIS
SA
UG
A, O
NTA
RIO
, CA
NA
DA
::
:
TIT
LE:
DAT
ES
CA
LED
R.
SH
T
OF
CH
K. B
Y
RE
VR
EV.
#D
ATE
DR
.D
ES
CR
IPT
ION
RE
VIS
ION
S
3350
W T
OP
S =
20A
4600
W T
OP
S =
30A
12
TOP
RL2
RL1
N (
BLA
CK
)
L1 (
RE
D)
L1H2
L2
H1 P
L1H2
L2
H1 P
3.35
kW T
OTA
L /(
8"=
2.1k
W, 6
"=1.
25kW
)H
OT
TO
P /
(OP
EN
TO
P)
DO
OR
SW
ITC
H R
IGH
T
NO
12
CO
M0
NC
5kW
TO
TAL
OV
EN
CO
OK
OF
F C
OO
L
TOP
SW
ITC
H
RL2
RL1
40A
_0A
_0A
40A
_0A
_0A
_0A
40A
BLA
CK
RE
D
DO
OR
SW
ITC
H L
EF
T
CO
M0
NC
12
NO
T1(
1)
T2(
1)
T3(
1)
O1(
1)
S(1
)
O2(
1)
T4(
1)
T5(
1)
T1(
2)T
2(2)
T3(
2)O
1(2)
S(2
)O
2(2)
T4(
2)T
5(2)
T1(
3)T
1(4)
T2(
3)
O1(
3)
O1(
4)T
3(4)
T3(
3)T
2(4)
S(3
)S
(4)
O2(
3)O
2(4)
T4(
3)
T4(
4)T
5(3)
T5(
4)
S(7
)S
(6)
S(8
) S(5
)
TB1
TB2
TB
1-1
TB
1-2
TB
1-3
TB
1-4
TB
1-5
TB
1-6
TB1-8b
TB1-8c
TB1-10bTB1-10c
TB1-10d
TB1-12b
TB1-11b
TB1-11a
TB1-10b
TB1-10e
TB
2-1
TB
2-2
TB
2-3
TB
2-4
TB2-8b
TB2-8c
TB2-10bTB2-10c
TB1-10dTB2-11a
TB2-11b
TB2-12b
O2(
4)
TB2-10a
TB2-10a
TB
2-10
f
TB
2-10
g
TB
2-12
c
TB
2-12
a
TB2-9a
TB2-8a
TB2-7a
12
332
1
WH
T BLK
GR
N
H14
629
"
TB2-7b
TB2-9b
TB2-9c
TB
2-9c
TB1-7a
TB1-8a
TB1-9a
TB1-10a
TB1-9c
TB
1-12
a
TB
1-12
c
TB
1-10
g
TB
1-9c
TB
1-10
f O2(
4)
TB1-10a
TB1-7b
TB1-9b
46
01
34
15
01 6
4
5 14
3
TB
1-9b
TB1-10c
GR
IDD
LE
3-1a
0-6a
3-1b
0-6b
TB2-10e
TB
2-9b
TB2-10b
TB2-10c
E5a
E1a
E1b
E5b
E4
E3
E2
21
3
4
2
1
3
4
H1
H2
H2
H1
G4
G2
G1
G3
ST
1
ST
2
ST
4
ST
3
OT
4
OT
2
OT
1
OT
3
12
3
23
1
BLK
WH
T
H14
629
"
GR
N
GZY
1 P
HA
SE
X
S(2
)
T5(
2)
O2(
2)T
4(2)
O1(
2)
T2(
2)
T5(
1)
T4(
1)
O2(
1)
S(1
)
O1(
1)
T3(
1)
T2(
1)
T1(
1)
T3(
2)
T1(
2)
RE
D
RE
D
RE
D
RE
D
RE
D
RE
D
RE
D
BLA
CK
BLA
CK
BLA
CK
BLA
CK
BLA
CK
BLA
CK
BLA
CK
SA
LAM
AN
DE
R B
LAC
KO
VE
N 2
BLA
CK
TOP
4 B
LAC
KTO
P 5
BLA
CK
OV
EN
1 R
ED
SA
LAM
AN
DE
R R
ED
OV
EN
2 R
ED
TOP
4 R
ED
TOP
5 R
ED
TOP
1 B
LAC
KTO
P 2
BLA
CK
TOP
3 B
LAC
KO
VE
N 1
BLA
CK
TOP
1 R
ED
TOP
2 R
ED
TOP
3 R
ED
Part # P152 Rev 1 (01/13/10) Page 55
WIR
ING
DIA
GR
AM
S/S
S68
4RC
2 S68
0 S
ER
IES
MA
R 2
2,19
99N
AV
C
42
2693
500
:
ALL
DIM
EN
SIO
NS
AR
E IN
INC
HE
S
TOLE
RA
NC
E ±
0.01
5" U
NLE
SS
OT
HE
RW
ISE
SP
EC
IFIE
D
CO
MM
ER
CIA
L R
AN
GE
S L
IMIT
ED
MIS
SIS
SA
UG
A, O
NTA
RIO
, CA
NA
DA
::
:
TIT
LE:
DAT
ES
CA
LED
R.
SH
T
OF
CH
K. B
Y
RE
VR
EV.
#D
ATE
DR
.D
ES
CR
IPT
ION
RE
VIS
ION
S
O2(
1)O
VE
N 2
RE
D
S(1
)
T3(
2)
O2(
2)
T5(
2)
O1(
2)
T1(
2)
T2(
2)
S(2
)
T4(
2)
T5(
1)
GZX Y
TOP
5 B
LAC
K
SA
LAM
AN
DE
R B
LAC
K
OV
EN
1 B
LAC
K
TOP
2 B
LAC
K
SA
LAM
AN
DE
R R
ED
TOP
4 B
LAC
K
OV
EN
2 B
LAC
K
TOP
3 B
LAC
K
TOP
1 B
LAC
K
TOP
5 R
ED
T1(
1)
T2(
1)
T3(
1)
T4(
1)
O1(
1)
GR
OU
P 1
WIT
H S
ALM
AN
DE
R
3 P
HA
SE
TOP
3 R
ED
TOP
2 R
ED
TOP
1 R
ED
TOP
4 R
ED
OV
EN
1 R
ED
TOP
1 B
LAC
K
TOP
2 B
LAC
K
OV
EN
1 B
LAC
K
TOP
5 B
LAC
K
OV
EN
2 R
ED
OV
EN
1 R
ED
TOP
4 B
LAC
K
OV
EN
2 B
LAC
K
TOP
3 B
LAC
K
GR
OU
P 1
NO
SA
LMA
ND
ER
GX ZY
T2(
2)
T3(
2)
O2(
2)
T5(
2)
T4(
2)
T1(
2)
O1(
2)
O2(
1)
T5(
1)TO
P 5
RE
D
3 P
HA
SE
T2(
1)
O1(
1)
T4(
1)
T3(
1)
T1(
1)
TOP
3 R
ED
TOP
2 R
ED
TOP
4 R
ED
TOP
1 R
ED
O2(
1)O
VE
N 2
RE
D
S(1
)
T2(
2)
O2(
2)
T5(
2)
O1(
2)
T1(
2)
T4(
2)
S(2
)
T3(
2)
T4(
1)
GZX Y
TOP
5 B
LAC
K
SA
LAM
AN
DE
R B
LAC
K
OV
EN
1 B
LAC
K
TOP
4 B
LAC
K
SA
LAM
AN
DE
R R
ED
TOP
3 B
LAC
K
OV
EN
2 B
LAC
K
TOP
2 B
LAC
K
TOP
1 B
LAC
K
TOP
4 R
ED
T1(
1)
T2(
1)
T3(
1)
T5(
1)
O1(
1)
GR
OU
P 2
WIT
H S
ALM
AN
DE
R
3 P
HA
SE
TOP
3 R
ED
TOP
2 R
ED
TOP
1 R
ED
TOP
5 R
ED
OV
EN
1 R
ED
TOP
1 B
LAC
K
TOP
2 B
LAC
K
OV
EN
1 B
LAC
K
TOP
5 B
LAC
K
OV
EN
2 R
ED
OV
EN
1 R
ED
TOP
3 B
LAC
K
OV
EN
2 B
LAC
K
TOP
4 B
LAC
K
GR
OU
P 2
NO
SA
LMA
ND
ER
GX ZY
T2(
2)
T4(
2)
O2(
2)
T5(
2)
T3(
2)
T1(
2)
O1(
2)
O2(
1)
T4(
1)TO
P 4
RE
D
3 P
HA
SE
T2(
1)
O1(
1)
T5(
1)
T3(
1)
T1(
1)
TOP
3 R
ED
TOP
2 R
ED
TOP
5 R
ED
TOP
1 R
ED
3 P
HA
SE
SA
LAM
AN
DE
R R
ED
SA
LAM
AN
DE
R B
LAC
K
OV
EN
2 R
ED
O2(
1)
T5(
1)
T4(
2)
S(2
)
T3(
2)
T1(
2)
O1(
2)
T5(
2)
O2(
2)
T2(
2)
S(1
)
TOP
3 B
LAC
K
OV
EN
1 B
LAC
K
TOP
5 B
LAC
K
TOP
5 R
ED
TOP
1 B
LAC
K
TOP
2 B
LAC
K
OV
EN
2 B
LAC
K
TOP
4 B
LAC
K
GR
OU
P 3
WIT
H S
ALM
AN
DE
R
O1(
1)
T4(
1)
T3(
1)
T2(
1)
T1(
1)
OV
EN
1 R
ED
TOP
4 R
ED
TOP
1 R
ED
TOP
2 R
ED
TOP
3 R
ED
GZYX
T2(
2)
T4(
2)
O2(
2)
T3(
2)
T5(
2)
O1(
2)
T1(
2)
T2(
1)
O2(
1)
GR
OU
P 3
NO
SA
LMA
ND
ER
3 P
HA
SE
T3(
1)
T4(
1)
T5(
1)
O1(
1)
T1(
1)
3 P
HA
SE
GR
OU
P 4
WIT
H S
ALM
AN
DE
R
TOP
3 B
LAC
K
OV
EN
2 B
LAC
K
TOP
4 B
LAC
K
TOP
2 B
LAC
K
TOP
5 B
LAC
K
OV
EN
2 R
ED
OV
EN
1 B
LAC
K
TOP
1 B
LAC
K
TOP
2 R
ED
GZYX
OV
EN
1 R
ED
TOP
5 R
ED
TOP
3 R
ED
TOP
4 R
ED
TOP
1 R
ED
3 P
HA
SE
OV
EN
2 R
ED
O2(
1)
TOP
4 B
LAC
K
TOP
2 B
LAC
K
TOP
3 R
ED
TOP
3 B
LAC
K
TOP
1 B
LAC
K
OV
EN
2 B
LAC
K
SA
LAM
AN
DE
R R
ED
OV
EN
1 B
LAC
K
SA
LAM
AN
DE
R B
LAC
K
TOP
5 B
LAC
K
T4(
2)
O1(
2)
T5(
2)
S(2
)
O2(
2)
T1(
2)
T2(
2)
T3(
2)
T3(
1)
S(1
)
TOP
5 R
ED
OV
EN
1 R
ED
TOP
1 R
ED
TOP
2 R
ED
TOP
4 R
ED
O1(
1)
T2(
1)
T5(
1)
T4(
1)
T1(
1)
OV
EN
2 B
LAC
KGZYX
T3(
2)TO
P 3
BLA
CK
TOP
4 B
LAC
K
TOP
5 B
LAC
KT
5(2)
O2(
2)
T4(
2)
TOP
2 B
LAC
K
TOP
3 R
ED
OV
EN
2 R
ED
OV
EN
1 B
LAC
K
TOP
1 B
LAC
K
T2(
2)
O1(
2)
T1(
2)
O2(
1)
T3(
1)
GR
OU
P 4
NO
SA
LMA
ND
ER
TOP
5 R
ED
TOP
1 R
ED
TOP
2 R
ED
TOP
4 R
ED
OV
EN
1 R
ED
T2(
1)
O1(
1)
T5(
1)
T4(
1)
T1(
1)
GYX Z
S/S
S68
4RC
2 M
odel
s:-S
TD
, -12
L, -
1C, -
1C-1
2L, -
1C-2
4L,
-1C
-36L
, -1L
, -24
L, -
2C-1
2L, -
2C-2
4L,
-2L,
-2L
-36R
, -2L
-36L
, -36
L, -
3C-1
2L,
-3L,
-3L
-24R
, -3R
-24L
S/S
S68
4RC
2 M
odel
s:-S
TD
, -12
L, -
1C-2
4L, -
1C-3
6L,
-1L
, -24
L, -
2C-1
2L, -
2C-2
4L,
-2L,
-2L
-24R
, -2L
-36R
, -2R
-36L
,-3
6L, -
3L, -
3L-2
4R, -
3R-2
4L
SS
684R
C2
Mod
els:
-12R
, -1L
-12R
, -1R
, -1R
-12L
SS
684R
C2
Mod
els:
-12R
, -1L
-12R
, -1R
, -1R
-12L
,-1
R-2
4L, -
2L-1
2R
SS
684R
C2
Mod
els:
-1L-
24R
, -24
R, -
2R, -
2R-1
2L,
-2R
-24L
SS
684R
C2
Mod
els:
-1L-
24R
, -24
R, -
2L-2
4R, 2
R,
-2R
-12L
SS
684R
C2
Mod
els:
-1C
, -1C
-12L
SS
684R
C2
Mod
els:
-1L-
36R
Part # P152 Rev 1 (01/13/10)Page 56
WIR
ING
DIA
GR
AM
S/S
S68
4RC
2 S68
0 S
ER
IES
MA
R 2
2,19
99N
AV
C
43
2693
500
:
ALL
DIM
EN
SIO
NS
AR
E IN
INC
HE
S
TOLE
RA
NC
E ±
0.01
5" U
NLE
SS
OT
HE
RW
ISE
SP
EC
IFIE
D
CO
MM
ER
CIA
L R
AN
GE
S L
IMIT
ED
MIS
SIS
SA
UG
A, O
NTA
RIO
, CA
NA
DA
::
:
TIT
LE:
DAT
ES
CA
LED
R.
SH
T
OF
CH
K. B
Y
RE
VR
EV.
#D
ATE
DR
.D
ES
CR
IPT
ION
RE
VIS
ION
S
TOP
5 B
LAC
KT
5(2)
T5(
2)TO
P 5
BLA
CK
T4(
2)TO
P 4
BLA
CK
TOP
5 B
LAC
KT
5(2)
3 P
HA
SE
YX Z G
SA
LAM
AN
DE
R R
ED
SA
LAM
AN
DE
R B
LAC
K
OV
EN
2 R
ED
O2(
1)
T4(
2)
T1(
2)
T2(
1)
T5(
2)
S(2
)
T3(
2)
O1(
2)
T2(
2)
O2(
2)
S(1
)
TOP
4 B
LAC
K
OV
EN
1 B
LAC
K
TOP
2 B
LAC
K
TOP
1 B
LAC
K
TOP
2 R
ED
TOP
3 B
LAC
K
OV
EN
2 B
LAC
K
TOP
5 B
LAC
K
GR
OU
P 5
WIT
H S
ALM
AN
DE
R
O1(
1)
T5(
1)
T4(
1)
T3(
1)
T1(
1)
OV
EN
1 R
ED
TOP
5 R
ED
TOP
1 R
ED
TOP
3 R
ED
TOP
4 R
ED
GZYX
T3(
2)
T4(
2)
T5(
2)
O2(
2)
T2(
2)
O1(
2)
T1(
2)
T4(
1)
O2(
1)
GR
OU
P 5
NO
SA
LMA
ND
ER
3 P
HA
SE
T2(
1)
T3(
1)
T5(
1)
O1(
1)
T1(
1)
3 P
HA
SE
GR
OU
P 6
WIT
H S
ALM
AN
DE
R
TOP
4 B
LAC
K
TOP
3 B
LAC
K
OV
EN
2 B
LAC
K
TOP
5 B
LAC
K
TOP
2 B
LAC
K
OV
EN
2 R
ED
OV
EN
1 B
LAC
K
TOP
1 B
LAC
K
TOP
4 R
ED
GZYX
OV
EN
1 R
ED
TOP
5 R
ED
TOP
2 R
ED
TOP
3 R
ED
TOP
1 R
ED
3 P
HA
SE
OV
EN
2 R
ED
O2(
1)
TOP
3 B
LAC
K
TOP
4 B
LAC
K
TOP
5 R
ED
TOP
2 B
LAC
K
TOP
1 B
LAC
K
OV
EN
2 B
LAC
K
SA
LAM
AN
DE
R R
ED
OV
EN
1 B
LAC
K
SA
LAM
AN
DE
R B
LAC
K
TOP
5 B
LAC
K
T3(
2)
O1(
2)
T5(
2)
S(2
)
O2(
2)
T1(
2)
T4(
2)
T2(
2)
T5(
1)
S(1
)
TOP
4 R
ED
OV
EN
1 R
ED
TOP
1 R
ED
TOP
2 R
ED
TOP
3 R
ED
O1(
1)
T2(
1)
T4(
1)
T3(
1)
T1(
1)
OV
EN
2 B
LAC
KGZYX
T2(
2)TO
P 2
BLA
CK
TOP
3 B
LAC
K
TOP
4 B
LAC
KT
4(2)
O2(
2)
T3(
2)
TOP
5 B
LAC
K
TOP
1 R
ED
OV
EN
2 R
ED
OV
EN
1 B
LAC
K
TOP
1 B
LAC
K
T5(
2)
O1(
2)
T1(
2)
O2(
1)
T1(
1)
GR
OU
P 6
NO
SA
LMA
ND
ER
TOP
5 R
ED
TOP
2 R
ED
TOP
3 R
ED
TOP
4 R
ED
OV
EN
1 R
ED
T3(
1)
O1(
1)
T5(
1)
T4(
1)
T2(
1)
ZX Y G
3 P
HA
SE
SA
LAM
AN
DE
R B
LAC
K
SA
LAM
AN
DE
R R
ED
TOP
1 R
ED
T1(
1)
T2(
1)
T3(
1)
T5(
1)
O1(
1)
S(1
)
T1(
2)
O2(
2)
O1(
2)
T3(
2)
T4(
2)
S(2
)
T2(
2)
T4(
1)
O2(
1)
TOP
2 B
LAC
K
OV
EN
2 B
LAC
K
TOP
1 B
LAC
K
TOP
3 B
LAC
K
OV
EN
1 B
LAC
K
TOP
4 B
LAC
K
TOP
3 R
ED
TOP
2 R
ED
TOP
5 R
ED
OV
EN
1 R
ED
TOP
4 R
ED
OV
EN
2 R
ED
GR
OU
P 7
WIT
H S
ALM
AN
DE
R
T1(
1)
GZ
3 P
HA
SE
X Y
T2(
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T4(
2)
T3(
2)
O2(
2)
T1(
2)
O1(
2)
O1(
1)
T4(
1)
O2(
1)
T5(
1)
T3(
1)
T2(
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GR
OU
P 7
NO
SA
LMA
ND
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3 P
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P 8
WIT
H S
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1 R
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1 B
LAC
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4 B
LAC
K
TOP
3 B
LAC
K
TOP
2 B
LAC
K
OV
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1 B
LAC
K
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2 B
LAC
K
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1 R
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OV
EN
2 R
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4 R
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5 R
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3 R
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2 R
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GZ
3 P
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SE
X Y
T1(
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D
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1 B
LAC
K
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5 B
LAC
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3 B
LAC
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4 R
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3 R
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2 R
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OV
EN
1 R
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5 R
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SA
LAM
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R B
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1 B
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T3(
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O2(
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O1(
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T1(
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S(2
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T2(
2)
T5(
2)
O1(
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O2(
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T4(
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S(1
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T3(
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T5(
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OV
EN
2 B
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K
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D
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3 B
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K
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2 B
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1 B
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1 B
LAC
K
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4 B
LAC
K
T2(
2)
O2(
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T3(
2)
T4(
2)
O1(
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T1(
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TOP
3 R
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4 R
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OV
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1 R
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2 R
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5 R
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OV
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2 R
ED
O1(
1)
O2(
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T3(
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T4(
1)
T5(
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T2(
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GR
OU
P 8
NO
SA
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ND
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P 9
WIT
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4 B
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5 B
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T1(
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T4(
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3 R
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4 R
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O1(
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T2(
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T5(
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2 B
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T2(
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P 2
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4 B
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T5(
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T1(
1)
O1(
1)
T3(
1)
T5(
1)
T4(
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SS
684R
C2
Mod
els:
-1C
-24R
, -1L
-36R
, -36
R-3
R, -
3R-1
2L
SS
684R
C2
Mod
els:
-1C
-12R
SS
684R
C2
Mod
els:
-3C
-12L
SS
684R
C2
Mod
els:
-1C
-36R
, -2C
-24R
, -3C
-12R
SS
684R
C2
Mod
els:
-1C
-12R
, -2C
-12R
, -3L
-12R
SS
684R
C2
Mod
els:
-1R
-36L
, -2C
-12R
, -3L
-12R
SS
684R
C2
Mod
els:
-1R
-24L
, 1R
-36L
, 2L-
12R
SS
684R
C2
Mod
els:
-2R
-24L
SS
684R
C2
Mod
els:
-1C
-36R
, 2C
-24R
, -3C
-12R
SS
684R
C2
Mod
els:
-1C
-24R
, -36
R, -
3R, -
3R-1
2L
Part # P152 Rev 1 (01/13/10) Page 57
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Part # P152 Rev 1 (01/13/10)Page 58
MODELPhase grouping Loading chart
SS684RC2 STD NO SALAMANDER domestic (delta) load Total kW voltage kW X-Z kW X-Y kW Y-Z A X A Y A Z A 1 phaseX-Z Top 1, Top 2, Top 3 34 .00 208 13 .80 10 .10 10 .10 99 .91 99 .91 84 .10 163 .46X-Y Top 4, Oven 1 34 .00 240 13 .80 10 .10 10 .10 86 .59 86 .59 72 .89 141 .67Y-Z Oven 2, Top 5
WITH SALAMANDER domestic (delta) load Total kW voltage kW X-Z kW X-Y kW Y-Z A X A Y A Z A 1 phaseX-Z Top 1, Top 2, Oven 1 41 .00 208 14 .70 14 .70 11 .60 122 .41 109 .76 109 .76 197 .12X-Y Top 3, Top 4, Oven2 41 .00 240 14 .70 14 .70 11 .60 106 .09 95 .12 95 .12 170 .83Y-Z Top 5, Salamander
SS684RC2-1L SS684RC2-12L
NO SALAMANDER domestic (delta) load Total kW voltage kW X-Z kW X-Y kW Y-Z A X A Y A Z A 1 phaseX-Z Top 1, Top 2, Top 3 32 .75 208 12 .55 10 .10 10 .10 94 .49 94 .49 84 .10 157 .45X-Y Top 4, Oven 1 32 .75 240 12 .55 10 .10 10 .10 81 .89 81 .89 72 .89 136 .46Y-Z Oven 2, Top 5
WITH SALAMANDER domestic (delta) load Total kW voltage kW X-Z kW X-Y kW Y-Z A X A Y A Z A 1 phaseX-Z Top 1, Top 2, Oven 1 39 .75 208 13 .45 14 .70 11 .60 117 .24 104 .39 109 .76 191 .11X-Y Top 3, Top 4, Oven 2 39 .75 240 13 .45 14 .70 11 .60 101 .61 90 .47 95 .12 165 .63Y-Z Top 5, Salamander
SS684RC2-1C NO SALAMANDER domestic (delta) load Total kW voltage kW X-Z kW X-Y kW Y-Z A X A Y A Z A 1phaseX-Z Top 1, Top 2, Top 3 32 .75 208 12 .55 10 .10 10 .10 94 .49 94 .49 84 .10 157 .45X-Y Top 4, Oven 1 32 .75 240 12 .55 10 .10 10 .10 81 .89 81 .89 72 .89 136 .46Y-Z Oven 2, Top 5
WITH SALAMANDER domestic (delta) load Total kW voltage kW X-Z kW X-Y kW Y-Z A X A Y A Z A 1 phaseX-Z Top 1, Top 3, Oven 1 39 .75 208 13 .45 14 .70 11 .60 117 .24 104 .39 109 .76 191 .11X-Y Top 2, Top 4, Oven 2 39 .75 240 13 .45 14 .70 11 .60 101 .61 90 .47 95 .12 165 .63Y-Z Top 5, Salamander
SS684RC2-1R SS684RC2-12R
NO SALAMANDER domestic (delta) load Total kW voltage kW X-Z kW X-Y kW Y-Z A X A Y A Z A 1 phaseX-Z Top 1, Top 2, Top 5 32 .75 208 12 .55 10 .10 10 .10 94 .49 94 .49 84 .10 157 .45X-Y Top 3, Oven 1 32 .75 240 12 .55 10 .10 10 .10 81 .89 81 .89 72 .89 136 .46Y-Z Oven 2, Top 4
WITH SALAMANDER domestic (delta) load Total kW voltage kW X-Z kW X-Y kW Y-Z A X A Y A Z A 1 phaseX-Z Top 1, Top 5, Oven 1 39 .75 208 13 .45 14 .70 11 .60 117 .24 104 .39 109 .76 191 .11X-Y Top 2, Top 3, Oven 2 39 .75 240 13 .45 14 .70 11 .60 101 .61 90 .47 95 .12 165 .63Y-Z Top 4, Salamander
SS684RC2-2L SS684RC2-24L
NO SALAMANDER domestic (delta) load Total kW voltage kW X-Z kW X-Y kW Y-Z A X A Y A Z A 1 phaseX-Z Top 1, Top 2, Top 3 31 .50 208 11 .3 10 .1 10 .1 89 .15 89 .15 84 .10 151 .44X-Y Top 4, Oven 1 31 .50 240 11 .3 10 .1 10 .1 77 .26 77 .26 72 .89 151 .44Y-Z Oven 2, Top 5
WITH SALAMANDER domestic (delta) load Total kW voltage kW X-Z kW X-Y kW Y-Z A X A Y A Z A 1 phaseX-2 Top 1, Top 2, Oven 1 38 .50 208 12 .20 14 .70 11 .60 112 .16 99 .10 109 .76 185 .10X-Y Top 3, Top 4, Oven 2 38 .50 240 12 .20 14 .70 11 .60 97 .21 85 .89 95 .12 160 .42Y-Z Top 5, Salamander
SS864RC2-1C-12L NO SALAMANDER domestic (delta) load Total kW voltage kW X-Z kW X-Y kW Y-Z A X A Y A Z A 1 phaseX-Z Top 1, Top 2, Top 3 31 .50 208 11 .3 10 .1 10 .1 89 .15 89 .15 84 .10 151 .44X-Y Top 4, Oven 1 31 .50 240 11 .3 10 .1 10 .1 77 .26 77 .26 72 .89 131 .25Y-Z Oven 2, Top 5
WITH SALAMANDER domestic (delta) load Total kW voltage kW X-Z kW X-Y kW Y-Z A X A Y A Z A 1 phaseX-Z Top 1, Top 3, Oven 1 38 .50 208 12 .20 14 .70 11 .60 112 .16 99 .10 109 .76 185 .10X-Y Top 2, Top 4, Oven 2 38 .50 240 12 .20 14 .70 11 .60 97 .21 85 .89 95 .12 160 .42Y-Z Top 5, Salamander
SS684RC2-1L-12R SS684RC2-1R-12L
NO SALAMANDER domestic (delta) load Total kW voltage kW X-Z kW X-Y kW Y-Z A X A Y A Z A 1 phaseX-Z Top 1, Top 2, Top 5 31 .50 208 11 .3 10 .1 10 .1 89 .15 89 .15 84 .10 151 .44X-Y Top 3, Oven 1 31 .50 240 11 .3 10 .1 10 .1 77 .26 77 .26 77 .89 131 .25Y-Z Oven 2, Top 4
WITH SALAMANDER domestic (delta) load Total kW voltage kW X-Z kW X-Y kW Y-Z A X A Y A Z A 1 phaseX-Z Top 1, Top 5, Oven 1 38 .50 208 12 .20 14 .70 11 .60 112 .16 99 .10 109 .76 185 .10X-Y Top 2, Top 3, Oven 2 38 .50 240 12 .20 14 .70 11 .60 97 .21 89 .89 95 .12 160 .42Y-Z Top 4, Salamander
SS684RC2-1C-12R NO SALAMANDER domestic (delta) load Total kW voltage kW X-Z kW X-Y kW Y-Z A X A Y A Z A 1 phaseX-Z Top 1, Top 3, Top 5 31 .50 208 11 .3 10 .1 10 .1 89 .15 89 .15 84 .10 151 .44X-Y Top 2, Oven 1 31 .50 240 11 .3 10 .1 10 .1 77 .26 77 .26 72 .89 131 .25Y-Z Oven 2, Top 4
domestic (delta) load Total kW voltage kW X-Z kW X-Y kW Y-Z AX A Y AZ A 1 phaseX-Z Top 3, Top 5, Oven 1 38 .50 208 12 .20 14 .70 11 .60 112 .16 99 .10 109 .76 185 .10X-Y Top 1, Top 2, Oven 2 38 .50 240 12 .20 14 .70 11 .60 97 .21 85 .89 95 .12 160 .42Y-Z Top 4, Salamander
SS684RC2-2R SS684RC2-24R
NO SALAMANDER domestic (delta) load Total kW voltage kW X-Z kW X-Y kW Y-Z A X A Y A Z A 1 phaseX-Z Top 1, Top 4, Top 5 31 .50 208 11 .3 10 .1 10 .1 89 .15 89 .15 84 .10 151 .44X-Y Top 2, Oven 1 31 .50 240 11 .3 10 .1 10 .1 77 .26 77 .26 72 .89 131 .25Y-Z Oven 2, Top 3
WITH SALAMANDER domestic (delta) load Total kW voltage kW X-Z kW X-Y kW Y-Z A X A Y A Z A 1 phaseX-Z Top 4, Top 5, Oven 1 38 .50 208 12 .20 14 .70 11 .60 112 .16 99 .10 109 .76 185 .10X-Y Top 1, Top 2, Oven 2 38 .50 240 12 .20 14 .70 11 .60 97 .21 89 .89 95 .12 160 .42Y-Z Top 3, Salamander
SS684RC2-3L SS684RC2-36L SS684RC2-1C-24L SS684RC2-2C-12L
NO SALAMANDER domestic (delta) load Total kW voltage kW X-Z kW X-Y kW Y-Z A X A Y A Z A 1 phaseX-Z Top 1, Top 2, Top 3 30 .25 208 10 .05 10 .1 10 .1 83 .90 83 .90 84 .10 145 .43X-Y Top 4, Oven 1 30 .25 240 10 .05 10 .1 10 .1 72 .71 72 .71 72 .89 126 .04Y-Z Oven 2, Top 5
WITH SALAMANDER domestic (delta) load Total kW voltage kW X-Z kW X-Y kW Y-Z A X A Y A Z A 1 phaseX-Z Top 1, Top 2, Oven 1 37 .25 208 12 .2 13 .45 11 .6 106 .84 99 .10 104 .39 179 .09X-Y Top 3, Top 4, Oven 2 37 .25 240 12 .2 13 .45 11 .6 92 .59 85 .89 90 .47 155 .21Y-Z Top 5, Salamander
Part # P152 Rev 1 (01/13/10) Page 59
MODELPhase grouping Loading chart
SS684RC2-2L-12R SS684RC2-1R-24L
NO SALAMANDER domestic (delta) load Total kW voltage kW X-Z kW X-Y kW Y-Z A X A Y A Z Al1 phaseX-Z Top 1, Top 2, Top 5 30 .25 208 10 .05 10 .1 10 .1 83 .90 83 .90 84 .10 145 .43X-Y Top 3, Oven 1 30 .25 240 10 .05 10 .1 10 .1 72 .71 72 .71 72 .89 126 .04Y-Z Oven 2, Top 4
WITH SALAMANDER domestic (delta) load Total kW voltage kW X-Z kW X-Y kW Y-Z A X A Y A Z A 1 phaseX-Z Top 1, Top 2, Oven 1 37 .25 208 12 .2 13 .45 11 .6 106 .84 99 .10 104 .39 179 .09X-Y Top 3, Top 5, Oven 2 37 .25 240 12 .2 13 .45 11 .6 92 .59 85 .89 90 .47 155 .21Y-Z Top 4, Salamander
SS684RC2-2R-12L SS684RC2-1L-24R
NO SALAMANDER domestic (delta) load Total kW voltage kW X-Z kW X-Y kW Y-Z A X A Y A Z A 1 phaseX-Z Top 1,Top 4,Top 5 30 .25 208 10 .05 10 .1 10 .1 83 .90 83 .90 84 .10 145 .43X-Y Top 2, Oven 1 30 .25 240 10 .05 10 .1 10 .1 72 .71 72 .71 72 .89 126 .04Y-Z Oven 2, Top 3
WITH SALAMANDER domestic (delta) load Total kW voltage kW X-Z kW X-Y kW Y-Z A X A Y A Z A 1 phaseX-7 Top 4, Top 5, Oven 1 37 .25 208 12 .2 13 .45 11 .6 106 .84 99 .10 104 .39 179 .09X-Y Top 1, Top 2, Oven 2 37 .25 240 12 .2 13 .45 11 .6 92 .59 85 .89 90 .47 155 .21Y-Z Top 3, Salamander
SS684RC2-2C-12R NO SALAMANDER domestic (delta) load Total kW voltage kW X-Z kW X-Y kW Y-Z A X A Y A Z A 1 phaseX-Z Top 2, Top 3, Top 5 30 .25 208 10 .05 10 .1 10 .1 83 .90 83 .90 84 .10 145 .43X-Y Top 1, Oven 1 30 .25 240 10 .05 10 .1 10 .1 72 .71 72 .71 72 .89 126 .04Y-Z Oven 2, Top 4
WITH SALAMANDER domestic (delta) load Total kW voltage kW X-Z kW X-Y kW Y-Z A X A Y A Z A 1 phaseX-Z Top 3, Top 5, Oven 1 37 .25 208 12 .2 13 .45 11 .6 106 .84 99 .10 104 .39 179 .09X-Y Top 1, Top 2, Oven 2 37 .25 240 12 .2 13 .45 11 .6 92 .59 85 .89 90 .47 155 .21Y-Z Top 4, Salamander
SS684RC2-3R, SS684RC2-1C-24R SS684RC2-36R
NO SALAMANDER domestic (delta) load Total kW voltage kW X-Z kW X-Y kW Y-Z A X A Y A Z A 1 phaseX-Z Top 3, Top 4, Top 5 30 .25 208 10 .05 10 .1 10 .1 83 .90 83 .90 84 .10 145 .43X-Y Top 1 , Oven 1 30 .25 240 10 .05 10 .1 10 .1 72 .71 72 .71 72 .89 126 .04Y-Z Oven 2, Top 2
WITH SALAMANDER domestic (delta) load Total kW voltage kW X-Z kW X-Y kW Y-Z A X A Y A Z A 1 phaseX-Z Top 3, Top 4, Oven 1 37 .25 208 12 .2 13 .45 11 .6 106 .84 99 .10 104 .39 179 .09X-Y Top 1 , Top 5, Oven 2 37 .25 240 12 .2 13 .45 11 .6 92 .59 85 .89 90 .47 155 .21Y-Z Top 2, Salamander
SS684RC2-3C-12L SS684RC2-2C-24C-L SS684RC2-1C-36L
NO SALAMANDER domestic (delta) load Total kW voltage kW X-Z kW X-Y kW Y-Z A X A Y A Z A 1 phaseX-Z Top 1, Top 2, Top 3 29 .00 208 10 .05 8 .85 10 .10 78 .74 83 .90 78 .96 139 .42X-Y Top 4, Oven 1 29 .00 240 10 .05 8 .85 10 .10 68 .25 72 .71 68 .43 120 .83Y-Z Oven 2, Top 5
WITH SALAMANDER domestic (delta) load Total kW voltage kW X-Z kW X-Y kW Y-Z A X A Y A Z A 1 phaseX-Z Top 1, Top 2, Oven 1 36 .00 208 12 .20 12 .20 11 .60 101 .59 99 .10 99 .10 173 .08X-Y Top 3, Top 4, Oven 2 36 .00 240 12 .20 12 .20 11 .60 88 .05 85 .89 85 .89 150 .00Y-Z Top 5, Salamander
SS684RC2-3R-12L SS684RC2-1L-36R
NO SALAMANDER domestic (delta) load Total kW voltage kW X-Z kW X-Y kW Y-Z A X A Y AZ A 1 phaseX-Z Top 3, Top 4, Top 5 29 .00 208 10 .05 8 .85 10 .10 78 .74 83 .90 78 .96 139 .42X-Y Top 1 , Oven 1 29 .00 240 10 .05 8 .85 10 .10 68 .25 72 .71 68 .43 120 .83Y-Z Oven 2, Top 2
WITH SALAMANDER domestic (delta) load Total kW voltage kW X-Z kW X-Y kW Y-Z A X A Y A Z A 1 phaseX-Z Top 3, Top 4, Oven 1 36 .00 208 12 .20 12 .20 11 .60 101 .59 99 .10 99 .10 173 .08X-Y Top 1 , Top 5, Oven 2 36 .00 240 12 .20 12 .20 11 .60 88 .05 85 .89 85 .89 150 .00Y-Z Top 2 , Salamander
SS684RC2-3C-12R SS684RC2-2C-24R SS684RC2-1C-36R
NO SALAMANDER domestic (delta) load Total kW voltage kW X-Z kW X-Y kW Y-Z A X A Y AZ A 1 phaseX-Z Top 2, Top 3, Top 4 29 .00 208 10 .05 8 .85 10 .10 78 .74 83 .90 78 .96 139 .42X-Y Top 1, Oven 1 29 .00 240 10 .05 8 .85 10 .10 68 .25 72 .71 68 .43 120 .83Y-Z Oven 2, Top 5
WITH SALAMANDER domestic (delta) load Total kW voltage kW X-Z kW X-Y kW Y-Z A X A Y A Z A 1 phaseX-Z Top 2, Top 3, Oven 1 36 .00 208 12 .20 12 .20 11 .60 101 .59 99 .10 99 .10 173 .08X-Y Top 4, Top 5, Oven 2 36 .00 240 12 .20 12 .20 11 .60 88 .05 85 .89 85 .89 150 .00Y-Z Top 1, Salamander
SS684RC2-1R-36L SS684RC2-3L-12R
NO SALAMANDER domestic (delta) load Total kW voltage kW X-Z kW X-Y kW Y-Z A X A Y A Z A 1 phaseX-Z Top 2, Top 3, Top 5 29 .00 208 10 .05 8 .85 10 .10 78 .74 83 .90 78 .96 139 .42X-Y Top 1, Oven 1 29 .00 240 10 .05 8 .85 10 .10 68 .25 72 .71 68 .43 120 .83Y-Z Oven 2, Top 4
WITH SALAMANDER domestic (delta) load Total kW voltage kW X-Z kW X-Y kW Y-Z A X A Y A Z A 1 phaseX-Z Top 3, Top 5, Oven 1 36 .00 208 12 .20 12 .20 11 .60 101 .59 99 .10 99 .10 . 139 .42X-Y Top 1 , Top 2, Oven 2 36 .00 240 12 .20 12 .20 11 .60 88 .05 85 .89 85 .89 150 .00Y-Z Top 4, Salamander
SS684RC2-2L-24R SS684RC2-2R-24L
NO SALAMANDER domestic (delta) load Total kW voltage kW X-Z kW X-Y kW Y-Z A X A Y A Z A 1 phaseX-Z Top 2, Top 4, Top 5 29 .00 208 10 .05 8 .85 10 .10 78 .74 83 .90 78 .96 139 .42X-Y Top 1, Oven 1 29 .00 240 10 .05 8 .85 10 .10 68 .25 72 .71 68 .43 120 .83Y-Z Oven 2, Top 35
WITH SALAMANDER domestic (delta) load Total kW voltage kW X-Z kW X-Y kW Y-Z A X A Y A Z A 1 phaseX-Z Top 4, Top 5, Oven 1 36 .00 208 12 .20 12 .20 11 .60 101 .59 99 .10 99 .10 173 .08X-Y Top 1, Top 2, Oven 2 36 .00 240 12 .20 12 .20 11 .60 88 .05 85 .89 85 .89 150 .00Y-Z Top 3, Salamander
SS684RC2-3R-24LSS684RC2-3L-24R SS684RC2-2R-36L SS684RC2-2L-36R S684RC2 all models
WITH SALAMANDER domestic (delta) load Total kW voltage kW X-Z kW X-Y kW Y-Z A X A Y A Z A 1 phaseX-Z Top 1, Top 2, Top 3 27 .75 208 10 .05 8 .85 8 .85 78 .74 78 .74 73 .70 133 .41X-Y Top 4, Oven 1 27 .75 240 10 .05 8 .85 8 .85 68 .25 68 .25 63 .87 150 .00Y-Z Oven 2, Top 5
WITH SALAMANDER domestic (delta) load Total kW voltage kW X-Z kW X-Y kW Y-Z A X A Y A Z A 1phaseX-Z Top 1, Top 2, Oven 1 34 .75 208 12 .20 12 .20 10 .35 101 .59 93 .99 93 .99 167 .07X-Y Top 3, Top 4, Oven 2 34 .75 240 12 .20 12 .20 10 .35 88 .05 81 .46 81 .46 144 .79Y-Z Top 5, Salamander
Part # P152 Rev 1 (01/13/10)Page 60
GR
IDD
LE T
HE
RM
OS
TAT
40°-
230°
C
3.35
kW
OV
EN
TH
ER
MO
STA
T
65°-
290°
C
2.5k
W
2.5k
W
1675
W
1675
W
OV
EN
TH
ER
MO
STA
T
65°-
290°
C
2.5k
W
2.5k
W
WIR
ING
DIA
GR
AM
SU
684R
C2
S68
0 S
ER
IES
AP
R 2
6,19
99N
AV
C
41
2693
501
34
21
6 H
EAT
SW
ITC
H
P2P1
P3
43
12
5
_0A
SA
LAM
AN
DE
RTO
P 1
TOP
2TO
P 3
TOP
4TO
P 5
OV
EN
_0A
_0A
40A
_0A
_0A
40A
40A
OV
EN
CO
OK
OF
F C
OO
L
5kW
TO
TAL
OV
ENB
LUE
BR
OW
N
M~
GR
EE
N/Y
ELL
OW
SW
ITC
H
BR
OW
N
GR
EE
N/Y
ELL
OW
BLU
E
M~
6 H
EAT
SW
ITC
H
P2P1
P3
43
12
5
34
21
ER
7kW
SA
LAM
AN
DE
R
L (R
ED
)
N (
BLA
CK
)
N (
BLA
CK
)
L (R
ED
)
SE
ALE
D E
LEM
EN
T
2.6k
W, 2
20m
m2.
0kW
, 180
mm
TOP
1
TOP
2
TOP
3
LNLNLN
12
34
56
78
910
111
23
4_
78
910
1112
NTO
P 4
L
TOP
5LN
SE
E T
ER
MIN
AL
BLO
CK
CO
NN
EC
TIO
NS
SH
EE
TS
2 A
ND
3
:
ALL
DIM
EN
SIO
NS
AR
E IN
INC
HE
S
TOLE
RA
NC
E ±
0.01
5" U
NLE
SS
OT
HE
RW
ISE
SP
EC
IFIE
D
CO
MM
ER
CIA
L R
AN
GE
S L
IMIT
ED
MIS
SIS
SA
UG
A, O
NTA
RIO
, CA
NA
DA
::
:
TIT
LE:
DAT
ES
CA
LED
R.
SH
T
OF
CH
K. B
Y
RE
VR
EV.
#D
ATE
DR
.D
ES
CR
IPT
ION
RE
VIS
ION
S
3350
W T
OP
S =
20A
4600
W T
OP
S =
30A
12
TOP
RL2
RL1
N (
BLA
CK
)
L1 (
RE
D)
L1H2
L2
H1 P
L1H2
L2
H1 P
3.35
kW T
OTA
L /(
8"=
2.1k
W, 6
"=1.
25kW
)H
OT
TO
P /
(OP
EN
TO
P)
DO
OR
SW
ITC
H R
IGH
T
NO
12
CO
M0
NC
5kW
TO
TAL
OV
EN
CO
OK
OF
F C
OO
L
TOP
SW
ITC
H
RL2
RL1
TOP
5 B
LAC
KTO
P 4
BLA
CK
OV
EN
2 B
LAC
KS
ALA
MA
ND
ER
BLA
CK
OV
EN
1 B
LAC
KTO
P 3
BLA
CK
TOP
2 B
LAC
KTO
P 1
BLA
CK
TOP
5 R
ED
TOP
4 R
ED
OV
EN
2 R
ED
SA
LAM
AN
DE
R R
ED
OV
EN
1 R
ED
TOP
3 R
ED
TOP
2 R
ED
TOP
1 R
ED
DO
OR
SW
ITC
H L
EF
T
CO
M0
NC
12
NO
T1(
1)
T2(
1)
T3(
1)
O1(
1)
S(1
)
O2(
1)
T4(
1)
T5(
1)
T1(
2)T
2(2)
T3(
2)O
1(2)
S(2
)O
2(2)
T4(
2)T
5(2)
T1(
3)T
1(4)
T2(
3)
O1(
3)
O1(
4)T
3(4)
T3(
3)T
2(4)
S(3
)S
(4)
O2(
3)O
2(4)
T4(
3)
T4(
4)T
5(3)
T5(
4)
S(7
)S
(6)
S(8
) S(5
)
TB1
TB2
TB
1-1
TB
1-2
TB
1-3
TB
1-4
TB
1-5
TB
1-6
TB1-8b
TB1-8c
TB1-10bTB1-10c
TB1-10d
TB1-12b
TB1-11b
TB1-11a
TB1-10b
TB1-10e
TB
2-1
TB
2-2
TB
2-3
TB
2-4
TB2-8b
TB2-8c
TB2-10bTB2-10c
TB1-10dTB2-11a
TB2-11b
TB2-12b
O2(
4)
TB2-10a
TB2-10a
TB
2-10
f
TB
2-10
g
TB
2-12
c
TB
2-12
a
TB2-9a
TB2-8a
TB2-7a
12
332
1
WH
T BLK
GR
N
H14
629
"
TB2-7b
TB2-9b
TB2-9c
TB
2-9c
TB1-7a
TB1-8a
TB1-9a
TB1-10a
TB1-9c
TB
1-12
a
TB
1-12
c
TB
1-10
g
TB
1-9c
TB
1-10
f O2(
4)
TB1-10a
TB1-7b
TB1-9b
46
01
34
15
01 6
4
5 14
3
TB
1-9b
TB1-10c
GR
IDD
LE
3-1a
0-6a
3-1b
0-6b
TB2-10e
TB
2-9b
TB2-10b
TB2-10c
E5a
E1a
E1b
E5b
E4
E3
E2
21
3
4
2
1
3
4
H1
H2
H2
H1
G4
G2
G1
G3
ST
1
ST
2
ST
4
ST
3
OT
4
OT
2
OT
1
OT
3
12
3
23
1
BLK
WH
T
H14
629
"
GR
N
ENL3L2
3 P
HA
SE
L1
Part # P152 Rev 1 (01/13/10) Page 61
WIR
ING
DIA
GR
AM
SU
684R
C2
S68
0 S
ER
IES
AP
R 2
6,19
99N
AV
C
42
2693
501
:
ALL
DIM
EN
SIO
NS
AR
E IN
INC
HE
S
TOLE
RA
NC
E ±
0.01
5" U
NLE
SS
OT
HE
RW
ISE
SP
EC
IFIE
D
CO
MM
ER
CIA
L R
AN
GE
S L
IMIT
ED
MIS
SIS
SA
UG
A, O
NTA
RIO
, CA
NA
DA
::
:
TIT
LE:
DAT
ES
CA
LED
R.
SH
T
OF
CH
K. B
Y
RE
VR
EV.
#D
ATE
DR
.D
ES
CR
IPT
ION
RE
VIS
ION
S
O2(
1)O
VE
N 2
RE
D
S(1
)
T3(
2)
O2(
2)
T5(
2)
O1(
2)
T1(
2)
T2(
2)
S(2
)
T4(
2)
T5(
1)
TOP
5 B
LAC
K
SA
LAM
AN
DE
R B
LAC
K
OV
EN
1 B
LAC
K
TOP
2 B
LAC
K
SA
LAM
AN
DE
R R
ED
TOP
4 B
LAC
K
OV
EN
2 B
LAC
K
TOP
3 B
LAC
K
TOP
1 B
LAC
K
TOP
5 R
ED
T1(
1)
T2(
1)
T3(
1)
T4(
1)
O1(
1)
GR
OU
P 1
WIT
H S
ALM
AN
DE
R
TOP
3 R
ED
TOP
2 R
ED
TOP
1 R
ED
TOP
4 R
ED
OV
EN
1 R
ED
TOP
1 B
LAC
K
TOP
2 B
LAC
K
OV
EN
1 B
LAC
K
TOP
5 B
LAC
K
OV
EN
2 R
ED
OV
EN
1 R
ED
TOP
4 B
LAC
K
OV
EN
2 B
LAC
K
TOP
3 B
LAC
K
GR
OU
P 1
NO
SA
LMA
ND
ER T2(
2)
T3(
2)
O2(
2)
T5(
2)
T4(
2)
T1(
2)
O1(
2)
O2(
1)
T5(
1)TO
P 5
RE
D
T2(
1)
O1(
1)
T4(
1)
T3(
1)
T1(
1)
TOP
3 R
ED
TOP
2 R
ED
TOP
4 R
ED
TOP
1 R
ED
O2(
1)O
VE
N 2
RE
D
S(1
)
T2(
2)
O2(
2)
T5(
2)
O1(
2)
T1(
2)
T4(
2)
S(2
)
T3(
2)
T4(
1)
TOP
5 B
LAC
K
SA
LAM
AN
DE
R B
LAC
K
OV
EN
1 B
LAC
K
TOP
4 B
LAC
K
SA
LAM
AN
DE
R R
ED
TOP
3 B
LAC
K
OV
EN
2 B
LAC
K
TOP
2 B
LAC
K
TOP
1 B
LAC
K
TOP
4 R
ED
T1(
1)
T2(
1)
T3(
1)
T5(
1)
O1(
1)
GR
OU
P 2
WIT
H S
ALM
AN
DE
R
TOP
3 R
ED
TOP
2 R
ED
TOP
1 R
ED
TOP
5 R
ED
OV
EN
1 R
ED
TOP
1 B
LAC
K
TOP
2 B
LAC
K
OV
EN
1 B
LAC
K
TOP
5 B
LAC
K
OV
EN
2 R
ED
OV
EN
1 R
ED
TOP
3 B
LAC
K
OV
EN
2 B
LAC
K
TOP
4 B
LAC
K
GR
OU
P 2
NO
SA
LMA
ND
ER
T2(
2)
T4(
2)
O2(
2)
T5(
2)
T3(
2)
T1(
2)
O1(
2)
O2(
1)
T4(
1)TO
P 4
RE
D
T2(
1)
O1(
1)
T5(
1)
T3(
1)
T1(
1)
TOP
3 R
ED
TOP
2 R
ED
TOP
5 R
ED
TOP
1 R
ED
SA
LAM
AN
DE
R R
ED
SA
LAM
AN
DE
R B
LAC
K
OV
EN
2 R
ED
O2(
1)
T5(
1)
T4(
2)
S(2
)
T3(
2)
T1(
2)
O1(
2)
T5(
2)
O2(
2)
T2(
2)
S(1
)
TOP
3 B
LAC
K
OV
EN
1 B
LAC
K
TOP
5 B
LAC
K
TOP
5 R
ED
TOP
1 B
LAC
K
TOP
2 B
LAC
K
OV
EN
2 B
LAC
K
TOP
4 B
LAC
K
GR
OU
P 3
WIT
H S
ALM
AN
DE
R
O1(
1)
T4(
1)
T3(
1)
T2(
1)
T1(
1)
OV
EN
1 R
ED
TOP
4 R
ED
TOP
1 R
ED
TOP
2 R
ED
TOP
3 R
ED
T2(
2)
T4(
2)
O2(
2)
T3(
2)
T5(
2)
O1(
2)
T1(
2)
T2(
1)
O2(
1)
GR
OU
P 3
NO
SA
LMA
ND
ER
T3(
1)
T4(
1)
T5(
1)
O1(
1)
T1(
1)
GR
OU
P 4
WIT
H S
ALM
AN
DE
R
TOP
3 B
LAC
K
OV
EN
2 B
LAC
K
TOP
4 B
LAC
K
TOP
2 B
LAC
K
TOP
5 B
LAC
K
OV
EN
2 R
ED
OV
EN
1 B
LAC
K
TOP
1 B
LAC
K
TOP
2 R
ED
OV
EN
1 R
ED
TOP
5 R
ED
TOP
3 R
ED
TOP
4 R
ED
TOP
1 R
ED
OV
EN
2 R
ED
O2(
1)
TOP
4 B
LAC
K
TOP
2 B
LAC
K
TOP
3 R
ED
TOP
3 B
LAC
K
TOP
1 B
LAC
K
OV
EN
2 B
LAC
K
SA
LAM
AN
DE
R R
ED
OV
EN
1 B
LAC
K
SA
LAM
AN
DE
R B
LAC
K
TOP
5 B
LAC
K
T4(
2)
O1(
2)
T5(
2)
S(2
)
O2(
2)
T1(
2)
T2(
2)
T3(
2)
T3(
1)
S(1
)
TOP
5 R
ED
OV
EN
1 R
ED
TOP
1 R
ED
TOP
2 R
ED
TOP
4 R
ED
O1(
1)
T2(
1)
T5(
1)
T4(
1)
T1(
1)
OV
EN
2 B
LAC
K
T3(
2)TO
P 3
BLA
CK
TOP
4 B
LAC
K
TOP
5 B
LAC
KT
5(2)
O2(
2)
T4(
2)
TOP
2 B
LAC
K
TOP
3 R
ED
OV
EN
2 R
ED
OV
EN
1 B
LAC
K
TOP
1 B
LAC
K
T2(
2)
O1(
2)
T1(
2)
O2(
1)
T3(
1)
GR
OU
P 4
NO
SA
LMA
ND
ER
TOP
5 R
ED
TOP
1 R
ED
TOP
2 R
ED
TOP
4 R
ED
OV
EN
1 R
ED
T2(
1)
O1(
1)
T5(
1)
T4(
1)
T1(
1)
SU
684R
C2
Mod
els:
-ST
D, -
12L,
-1C
, -1C
-12L
, -1C
-24L
,-1
C-3
6L, -
1L, -
24L,
-2C
-12L
, -2C
-24L
,-2
L, -
2L-3
6R, -
2L-3
6L, -
36L,
-3C
-12L
,-3
L, -
3L-2
4R, -
3R-2
4L
SU
684R
C2
Mod
els:
-ST
D, -
12L,
-1C
-24L
, -1C
-36L
, -
1L, -
24L,
-2C
-12L
, -2C
-24L
,-2
L, -
2L-2
4R, -
2L-3
6R, -
2R-3
6L,
-36L
, -3L
, -3L
-24R
, -3R
-24L
SU
684R
C2
Mod
els:
-12R
, -1L
-12R
, -1R
, -1R
-12L
SU
684R
C2
Mod
els:
-12R
, -1L
-12R
, -1R
, -1R
-12L
,-1
R-2
4L, -
2L-1
2R
SU
684R
C2
Mod
els:
-1L-
24R
, -24
R, -
2R, -
2R-1
2L,
-2R
-24L
SU
684R
C2
Mod
els:
-1L-
24R
, -24
R, -
2L-2
4R, 2
R,
-2R
-12L
SU
684R
C2
Mod
els:
-1C
, -1C
-12L
SU
684R
C2
Mod
els:
-1L-
36R
ENL3L2
3 P
HA
SE
L1
ENL3L2
3 P
HA
SE
L1
ENL3L2
3 P
HA
SE
L1ENL3L2
3 P
HA
SE
L1
ENL3L2
3 P
HA
SE
L1
ENL3L2
3 P
HA
SE
L1
ENL3L2
3 P
HA
SE
L1 ENL3L2
3 P
HA
SE
L1
Part # P152 Rev 1 (01/13/10)Page 62
WIR
ING
DIA
GR
AM
SU
684R
C2
S68
0 S
ER
IES
AP
R 2
6,19
99N
AV
C
43
2693
501
:
ALL
DIM
EN
SIO
NS
AR
E IN
INC
HE
S
TOLE
RA
NC
E ±
0.01
5" U
NLE
SS
OT
HE
RW
ISE
SP
EC
IFIE
D
CO
MM
ER
CIA
L R
AN
GE
S L
IMIT
ED
MIS
SIS
SA
UG
A, O
NTA
RIO
, CA
NA
DA
::
:
TIT
LE:
DAT
ES
CA
LED
R.
SH
T
OF
CH
K. B
Y
RE
VR
EV.
#D
ATE
DR
.D
ES
CR
IPT
ION
RE
VIS
ION
S
TOP
5 B
LAC
KT
5(2)
T5(
2)TO
P 5
BLA
CK
T4(
2)TO
P 4
BLA
CK
TOP
5 B
LAC
KT
5(2)
SA
LAM
AN
DE
R R
ED
SA
LAM
AN
DE
R B
LAC
K
OV
EN
2 R
ED
O2(
1)
T4(
2)
T1(
2)
T2(
1)
T5(
2)
S(2
)
T3(
2)
O1(
2)
T2(
2)
O2(
2)
S(1
)
TOP
4 B
LAC
K
OV
EN
1 B
LAC
K
TOP
2 B
LAC
K
TOP
1 B
LAC
K
TOP
2 R
ED
TOP
3 B
LAC
K
OV
EN
2 B
LAC
K
TOP
5 B
LAC
K
GR
OU
P 5
WIT
H S
ALM
AN
DE
R
O1(
1)
T5(
1)
T4(
1)
T3(
1)
T1(
1)
OV
EN
1 R
ED
TOP
5 R
ED
TOP
1 R
ED
TOP
3 R
ED
TOP
4 R
ED
T3(
2)
T4(
2)
T5(
2)
O2(
2)
T2(
2)
O1(
2)
T1(
2)
T4(
1)
O2(
1)
GR
OU
P 5
NO
SA
LMA
ND
ER
T2(
1)
T3(
1)
T5(
1)
O1(
1)
T1(
1)
GR
OU
P 6
WIT
H S
ALM
AN
DE
R
TOP
4 B
LAC
K
TOP
3 B
LAC
K
OV
EN
2 B
LAC
K
TOP
5 B
LAC
K
TOP
2 B
LAC
K
OV
EN
2 R
ED
OV
EN
1 B
LAC
K
TOP
1 B
LAC
K
TOP
4 R
ED
OV
EN
1 R
ED
TOP
5 R
ED
TOP
2 R
ED
TOP
3 R
ED
TOP
1 R
ED
OV
EN
2 R
ED
O2(
1)
TOP
3 B
LAC
K
TOP
4 B
LAC
K
TOP
5 R
ED
TOP
2 B
LAC
K
TOP
1 B
LAC
K
OV
EN
2 B
LAC
K
SA
LAM
AN
DE
R R
ED
OV
EN
1 B
LAC
K
SA
LAM
AN
DE
R B
LAC
K
TOP
5 B
LAC
K
T3(
2)
O1(
2)
T5(
2)
S(2
)
O2(
2)
T1(
2)
T4(
2)
T2(
2)
T5(
1)
S(1
)
TOP
4 R
ED
OV
EN
1 R
ED
TOP
1 R
ED
TOP
2 R
ED
TOP
3 R
ED
O1(
1)
T2(
1)
T4(
1)
T3(
1)
T1(
1)
OV
EN
2 B
LAC
K
T2(
2)TO
P 2
BLA
CK
TOP
3 B
LAC
K
TOP
4 B
LAC
KT
4(2)
O2(
2)
T3(
2)
TOP
5 B
LAC
K
TOP
1 R
ED
OV
EN
2 R
ED
OV
EN
1 B
LAC
K
TOP
1 B
LAC
K
T5(
2)
O1(
2)
T1(
2)
O2(
1)
T1(
1)
GR
OU
P 6
NO
SA
LMA
ND
ER
TOP
5 R
ED
TOP
2 R
ED
TOP
3 R
ED
TOP
4 R
ED
OV
EN
1 R
ED
T3(
1)
O1(
1)
T5(
1)
T4(
1)
T2(
1)
SA
LAM
AN
DE
R B
LAC
K
SA
LAM
AN
DE
R R
ED
TOP
1 R
ED
T1(
1)
T2(
1)
T3(
1)
T5(
1)
O1(
1)
S(1
)
T1(
2)
O2(
2)
O1(
2)
T3(
2)
T4(
2)
S(2
)
T2(
2)
T4(
1)
O2(
1)
TOP
2 B
LAC
K
OV
EN
2 B
LAC
K
TOP
1 B
LAC
K
TOP
3 B
LAC
K
OV
EN
1 B
LAC
K
TOP
4 B
LAC
K
TOP
3 R
ED
TOP
2 R
ED
TOP
5 R
ED
OV
EN
1 R
ED
TOP
4 R
ED
OV
EN
2 R
ED
GR
OU
P 7
WIT
H S
ALM
AN
DE
R
T1(
1)
T2(
2)
T4(
2)
T3(
2)
O2(
2)
T1(
2)
O1(
2)
O1(
1)
T4(
1)
O2(
1)
T5(
1)
T3(
1)
T2(
1)
GR
OU
P 7
NO
SA
LMA
ND
ER
GR
OU
P 8
WIT
H S
ALM
AN
DE
R
TOP
1 R
ED
TOP
1 B
LAC
K
TOP
4 B
LAC
K
TOP
3 B
LAC
K
TOP
2 B
LAC
K
OV
EN
1 B
LAC
K
OV
EN
2 B
LAC
K
OV
EN
1 R
ED
OV
EN
2 R
ED
TOP
4 R
ED
TOP
5 R
ED
TOP
3 R
ED
TOP
2 R
ED
T1(
1)TO
P 1
RE
D
TOP
1 B
LAC
K
TOP
5 B
LAC
K
TOP
3 B
LAC
K
TOP
4 R
ED
TOP
3 R
ED
TOP
2 R
ED
OV
EN
1 R
ED
TOP
5 R
ED
SA
LAM
AN
DE
R B
LAC
K
OV
EN
1 B
LAC
K
SA
LAM
AN
DE
R R
ED
OV
EN
2 B
LAC
K
TOP
2 B
LAC
K
OV
EN
2 R
ED
T3(
2)
O2(
2)
O1(
2)
T1(
2)
S(2
)
T2(
2)
T5(
2)
O1(
1)
O2(
1)
T4(
1)
S(1
)
T3(
1)
T5(
1)
T2(
1)
OV
EN
2 B
LAC
K
T1(
1)TO
P 1
RE
D
TOP
3 B
LAC
K
TOP
2 B
LAC
K
OV
EN
1 B
LAC
K
TOP
1 B
LAC
K
TOP
4 B
LAC
K
T2(
2)
O2(
2)
T3(
2)
T4(
2)
O1(
2)
T1(
2)
TOP
3 R
ED
TOP
4 R
ED
OV
EN
1 R
ED
TOP
2 R
ED
TOP
5 R
ED
OV
EN
2 R
ED
O1(
1)
O2(
1)
T3(
1)
T4(
1)
T5(
1)
T2(
1)
GR
OU
P 8
NO
SA
LMA
ND
ER
GR
OU
P 9
WIT
H S
ALM
AN
DE
R
O2(
1)O
VE
N 2
RE
D
TOP
2 B
LAC
K
OV
EN
2 B
LAC
K
SA
LAM
AN
DE
R R
ED
OV
EN
1 B
LAC
K
SA
LAM
AN
DE
R B
LAC
K
TOP
1 R
ED
TOP
4 B
LAC
K
TOP
5 B
LAC
K
TOP
1 B
LAC
K
TOP
3 B
LAC
K
T1(
2)
O1(
2)
T3(
2)
T2(
2)
S(2
)
O2(
2)
T4(
2)
T5(
2)
S(1
)
T1(
1)
TOP
5 R
ED
OV
EN
1 R
ED
TOP
3 R
ED
TOP
4 R
ED
TOP
2 R
ED
O1(
1)
T2(
1)
T3(
1)
T5(
1)
T4(
1)
OV
EN
2 B
LAC
K
T2(
2)TO
P 2
BLA
CK
TOP
4 B
LAC
K
TOP
3 B
LAC
K
TOP
5 B
LAC
K
O2(
2)
T5(
2)
T4(
2)
T3(
2)
OV
EN
2 R
ED
TOP
2 R
ED
TOP
1 B
LAC
K
OV
EN
1 B
LAC
K
T1(
2)
O1(
2)
O2(
1)
T2(
1)
GR
OU
P 9
NO
SA
LMA
ND
ER
TOP
5 R
ED
TOP
3 R
ED
OV
EN
1 R
ED
TOP
4 R
ED
TOP
1 R
ED
T1(
1)
O1(
1)
T3(
1)
T5(
1)
T4(
1)
SU
684R
C2
Mod
els:
-1C
-24R
, -1L
-36R
, -36
R-3
R, -
3R-1
2L
SU
684R
C2
Mod
els:
-1C
-12R
SU
684R
C2
Mod
els:
-3C
-12L
SU
684R
C2
Mod
els:
-1C
-36R
, -2C
-24R
, -3C
-12R
SU
684R
C2
Mod
els:
-1C
-12R
, -2C
-12R
, -3L
-12R
SU
684R
C2
Mod
els:
-1R
-36L
, -2C
-12R
, -3L
-12R
SU
684R
C2
Mod
els:
-1R
-24L
, 1R
-36L
, 2L-
12R
SU
684R
C2
Mod
els:
-2R
-24L
SU
684R
C2
Mod
els:
-1C
-36R
, 2C
-24R
, -3C
-12R
SU
684R
C2
Mod
els:
-1C
-24R
, -36
R, -
3R, -
3R-1
2L
ENL3L2
3 P
HA
SE
L1 ENL3L2
3 P
HA
SE
L1
ENL3L2
3 P
HA
SE
L1
ENL3L2
3 P
HA
SE
L1
ENL3L2
3 P
HA
SE
L1
ENL3L2
3 P
HA
SE
L1
ENL3L2
3 P
HA
SE
L1
ENL3L2
3 P
HA
SE
L1
ENL3L2
3 P
HA
SE
L1
ENL3L2
3 P
HA
SE
L1
Part # P152 Rev 1 (01/13/10) Page 63
RC
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5kW
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Part # P152 Rev 1 (01/13/10)Page 64
MODELPhase grouping Loading chart
SU684RC2 STD NO SALAMANDER export (wye) load voltage total kW kW L1 kW L2 kW L3 A L1 A L2 A L3 A 1 phaseL1 Top 1, Top 2, Top 3 400V 3N~ 34 13 .8 10 .1 10 .1 60 .00 43 .91 43 .91 147 .83L2 Top 4, Oven 1 415V 3N~ 34 13 .8 10 .1 10 .1 57 .50 42 .08 42 .08 141 .67L3 Oven 2, Top 5 380V 3N~ 31 .11 12 .63 9 .24 9 .24 57 .39 42 .00 42 .00 141 .40
WITH SALAMANDER export (wye) load voltage total kW kW L1 kW L2 kW L3 A L1 A L2 A L3 A 1 phaseL1 Top 1, Top 2, Oven 1 400V 3N~ 41 14 .7 14 .7 11 .6 63 .91 63 .91 50 .43 178 .26L2 Top 3, Top 4, Oven 2 415V 3N~ 41 14 .7 14 .7 11 .6 61 .25 61 .25 48 .33 170 .83L3 Top 5, Salamander 380V 3N~ 37 .51 13 .45 13 .45 10 .61 61 .13 61 .13 48 .24 170 .51
SU684RC2-1L SU684RC2-12L
NO SALAMANDER export (wye ) load voltage total kW kW L1 kW L2 kW L3 A L1 A L2 A L3 A 1 phaseL1 Top 1 , Top 2, Top 3 400V 3N~ 32 .75 12 .55 10 .1 10 .1 54 .57 43 .91 43 .91 142 .39L2 Top 4, Oven 1 415V 3N~ 32 .75 12 .55 10 .1 10 .1 52 .29 42 .08 42 .08 136 .46L3 Oven 2, Top 5 380V 3N~ 29 .96 11 .48 9 .24 9 .24 52 .19 42 .00 42 .00 136 .20
WITH SALAMANDER export (wye) load voltage total kW kW L1 kW L2 kW L3 A L1 A L2 A L3 A 1 phaseL1 Top 1, Top 2, Oven 1 400V 3N~ 39 .75 13 .45 14 .7 11 .6 58 .48 63 .91 50 .43 172 .83L2 Top 3, Top 4, Oven 2 415V 3N~ 39 .75 13 .45 14 .7 11 .6 56 .04 61 .25 48 .33 165 .63L3 Top 5, Salamander 380V 3N~ 36 .37 12 .31 13 .45 10 .61 55 .94 61 .13 48 .24 165 .31
SU684RC2-1C NO SALAMANDER export (wye) load voltage total kW kW L1 kW L2 kW L3 A L1 A L2 A L3 A 1 phaseL1 Top I , Top 2, Top 3 400V 3N~ 32 .75 12 .55 10 .1 10 .1 54 .57 43 .91 43 .91 142 .39L2 Top 4, Oven 1 415V 3N~ 32 .75 12 .55 10 .1 10 .1 52 .29 42 .08 42 .08 136 .46L3 Oven 2, Top 5 380V 3N~ 29 .96 11 .48 9 .24 9 .24 52 .19 42 .00 42 .00 136 .20
WITH SALAMANDER export (wye) load voltage total kW kW L1 kW L2 kW L3 A L1 A L2 A L3 A 1 phaseL1 Top 1 , Top 3, Oven 1 400V 3N~ 39 .75 13 .45 14 .7 11 .6 58 .48 63 .91 50 .43 172 .83L2 Top 2, Top 4, Oven 2 415V 3N~ 39 .75 13 .45 14 .7 11 .6 56 .04 61 .25 48 .33 165 .63L3 Top 5, Salamander 380V 3N~ 36 .37 12 .31 13 .45 10 .61 55 .94 61 .13 48 .24 165 .31
SU684RC2-1R SU684RC2-12R
NO SALAMANDER export (wye) load voltage total kW kW L1 kW L2 kW L3 A L1 A L2 A L3 A 1 phaseL1 Top 1, Top 2, Top 5 400V 3N~ 32 .75 12 .55 10 .1 10 .1 54 .57 43 .91 43 .91 142 .39L2 Top 3, Oven 1 415V 3N~ 32 .75 12 .55 10 .1 10 .1 52 .29 42 .08 42 .08 136 .46L3 Oven 2, Top 4 380V 3N~ 29 .96 11 .48 9 .24 9 .24 52 .19 42 .00 42 .00 136 .20
WITH SALAMANDER export (wye) load voltage total kW kW L1 kW L2 kW L3 A L1 A L2 A L3 A 1 phaseL1 Top 1, Top 5, Oven 1 400V 3N~ 39 .75 13 .45 14 .7 11 .6 58 .48 63 .91 50 .43 172 .83L2 Top 2, Top 3, Oven 2 415V 3N~ 39 .75 13 .45 14 .7 11 .6 56 .04 61 .25 48 .33 165 .63L3 Top 4, Salamander 380V 3N~ 36 .37 12 .31 13 .45 10 .61 55 .94 61 .13 48 .24 165 .31
SU684RC2-2L SU684RC2-24L
NO SALAMANDER export (wye) load voltage total kW kW L1 kW L2 kW L3 A L1 A L2 A L3 A 1 phaseL1 Top 1 , Top 2, Top 3 400V 3N~ 31 .5 11 .3 10 .1 10 .1 49 .13 43 .91 43 .91 136 .96L2 Top 4, Oven 1 415V 3N~ 31 .5 11 .3 10 .1 10 .1 47 .08 42 .08 42 .08 131 .25L3 Oven 2, Top 5 380V 3N~ 28 .82 10 .34 9 .24 9 .24 46 .99 42 .00 42 .00 131 .00
WITH SALAMANDER export (wye) load voltage total kW kW L1 kW L2 kW L3 A L1 A L2 A L3 A 1 phaseL1 Top I , Top 2, Oven I 400V 3N~ 38 .5 12 .2 14 .7 11 .6 53 .04 63 .91 50 .43 167 .39L2 Top 3, Top 4, Oven 2 415V 3N~ 38 .5 12 .2 14 .7 11 .6 50 .83 61 .25 48 .33 160 .42L3 Top 5, Salamander 380V 3N~ 35 .22 11 .16 13 .45 10 .61 50 .74 61 .13 48 .24 160 .11
SU684RC2-1C-12L NO SALAMANDER export (wye) load voltage total kW kW L1 kW L2 kW L3 A L1 A L2 A L3 A 1 phaseL1 Top 1 , Top 2, Top 3 400V 3N~ 31 .5 11 .3 10 .1 10 .1 49 .13 43 .91 43 .91 136 .96L2 Top 4, Oven 1 415V 3N~ 31 .5 11 .3 10 .1 10 .1 47 .08 42 .08 42 .08 131 .25L3 Oven 2, Top 5 380V 3N~ 28 .82 10 .34 9 .24 9 .24 46 .99 42 .00 42 .00 131 .00
WITH SALAMANDER export (wye) load voltage total kW kW L1 kW L2 kW L3 A L1 A L2 A L3 A 1 phaseL1 Top 1, Top 3, Oven 1 400V 3N~ 38 .5 12 .2 14 .7 11 .6 53 .04 63 .91 50 .43 167 .39L2 Top 2, Top 4, Oven 2 415V 3N~ 38 .5 12 .2 14 .7 11 .6 50 .83 61 .25 48 .33 160 .42L3 Top 5, Salamander 380V 3N~ 35 .22 11 .16 13 .46 10 .61 50 .74 61 .13 48 .24 160 .11
SU684RC2-1R-12L SU684-1L-12R
NO SALAMANDER export (wye) load voltage total kW kW L1 kW L2 kW L3 A L1 A L2 A L3 A1 phaseL1 Top 1, Top 2, Top 5 400V 3N~ 31 .5 11 .3 10 .1 10 .1 49 .13 43 .91 43 .91 136 .96L2 Top 3, Oven 1 415V 3N~ 31 .5 11 .3 10 .1 10 .1 47 .08 42 .08 42 .08 131 .25L3 Oven 2, Top 4 380V 3N~ 28 .82 10 .34 9 .24 9 .24 46 .99 42 .00 42 .00 131 .00
WITH SALAMANDER export (wye) load voltage total kW kW L1 kW L2 kW L3 A L1 A L2 A L3 A 1 phaseL1 Top 1, Top 5, Oven 1 400V 3N~ 38 .5 12 .2 14 .7 11 .6 53 .04 63 .91 50 .43 167 .39L2 Top 2, Top 3, Oven 2 415V 3N~ 38 .5 12 .2 14 .7 11 .6 50 .83 61 .25 48 .33 160 .42L3 Top 4, Salamander 380V 3N~ 35 .22 11 .16 13 .45 10 .61 50 .74 61 .13 48 .24 160 .11
SU684RC2-1C-12R NO SALAMANDER export (wye) load voltage kW total kW L1 kW L2 kW L3 A L1 A L2 A L3 A 1 phaseL1 Top 1, Top 3, Top 5 400V 3N~ 31 .5 11 .3 10 .1 10 .1 49 .13 43 .91 43 .91 136 .96L2 Top 2 , Oven 1 415V 3N~ 31 .5 11 .3 10 .1 10 .1 47 .08 42 .08 42 .08 131 .25L3 Oven 2, Top 4 380V 3N~ 28 .82 10 .34 9 .24 9 .24 46 .99 42 .00 42 .00 131 .00
WITH SALAMANDER export (wye) load voltage total kW kW L1 kW L2 kW L3 A L1 A L2 A L3 A 1 phaseL1 Top 3, Top 5, Oven 1 400V 3N~ 38 .5 12 .2 14 .7 11 .6 53 .04 63 .91 50 .43 167 .39L2 Top 1, Top 2, Oven 2 415V 3N~ 38 .5 12 .2 14 .7 11 .6 50 .83 61 .25 48 .33 160 .42L3 Top 4, Salamander 380V 3N~ 35 .22 11 .16 13 .45 10 .61 50 .74 61 .13 48 .24 160 .11
SU684RC2-2R SU684RC2-24R
NO SALAMANDER export (wye) load voltage total kW kW L1 kW L2 kW L3 A L1 A L2 A L3 A 1 phaseL1 Top I , Top 4, Top 5 400V 3N~ 31 .5 11 .3 10 .1 10 .1 49 .13 43 .91 43 .91 136 .96L2 Top 2, Oven 1 415V 3N~ 31 .5 11 .3 10 .1 10 .1 47 .08 42 .08 42 .08 131 .25L3 Oven 2, Top 3 380V 3N~ 28 .82 10 .34 9 .24 9 .24 46 .99 42 .00 42 .00 131 .00
WITH SALAMANDER export (wye) load voltage total kW kW L1 kW L2 kW L3 A L1 A L2 A L3 A 1 phaseL1 Top 4, Top 5, Oven I 400V 3N~ 38 .5 12 .2 14 .7 11 .6 53 .04 63 .91 50 .43 167 .39L2 Top 1, Top 2, Oven 2 415V 3N~ 38 .5 12 .2 14 .7 11 .6 50 .83 61 .25 48 .33 160 .42L3 Top 3, Salamander 380V 3N~ 35 .22 11 .16 13 .45 10 .61 50 .74 61 .13 48 .24 160 .11
SU684RC2-3L SU684RC2-36L SU684RC2-1C-24L SU684RC2-2C-12L
NO SALAMANDER export (wye) load voltage total kW kW L1 kW L2 kW L3 A L1 A L2 A L3 A 1 phaseL1 Top 1 , Top 2, Top 3 400V 3N~ 30 .25 10 .05 10 .1 10 .1 43 .70 43 .91 43 .91 131 .52L2 Top 4, Oven 1 415V 3N~ 30 .25 10 .05 10 .1 10 .1 41 .88 42 .08 42 .08 126 .04L3 Oven 2, Top 5 380V 3N~ 27 .50 9 .20 9 .24 9 .24 41 .80 42 .00 42 .00 125 .80
WITH SALAMANDER export (wye) load voltage total kW kW L1 kW L2 kW L3 A L1 A L2 A L3 A 1 phaseL1 Top I , Top 2, Oven 1 400V 3N~ 37 .25 12 .2 13 .45 11 .6 53 .04 58 .48 50 .43 161 .96L2 Top 3, Top 4, Oven 2 415V 3N~ 37 .25 12 .2 13 .45 11 .6 50 .83 56 .04 48 .33 155 .21L3 Top 5 , Salamander 380V 3N~ 34 .08 11 .16 12 .31 10 .61 50 .74 55 .94 48 .24 154 .91
Part # P152 Rev 1 (01/13/10) Page 65
MODELPhase grouping Loading chart
SU684RC2-2L-12R SU684-1R-24L
NO SALAMANDER export (wye) load voltage total kW kW L1 kW L2 kW L3 A L1 A L2 A L3 A lphaseL1 Top 1, Top 2, Top 5 400V 3N~ 30 .25 10 .05 10 .1 10 .1 43 .70 43 .91 43 .91 131 .52L2 Top 3, Oven 1 415V 3N~ 30 .25 10 .05 10 .1 10 .1 41 .88 42 .08 42 .08 126 .04L3 Oven 2, Top 4 380V 3N~ 27 .68 9 .20 9 .24 9 .24 41 .80 42 .00 42 .00 125 .80
WITH SALAMANDER export (wye) load voltage total kW kW L1 kW L2 kW L3 A L1 A L2 A L3 A 1 phaseL1 Top 1, Top 2, Oven 1 400V 3N~ 37 .25 12 .2 13 .45 11 .6 53 .04 58 .48 50 .43 161 .96L2 Top 3, Top 5, Oven 2 415V 3N~ 37 .25 12 .2 13 .45 11 .6 50 .83 56 .04 48 .33 155 .21L3 Top 4, Salamander 380V 3N~ 34 .08 11 .16 12 .31 10 .61 50 .74 55 .94 48 .24 154 .91
SU684RC2-2R-12L SU684RC2-1L-24R
NO SALAMANDER export (wye) load voltage total kW kW L1 kW L2 kW L3 A L1 A L2 A L3 A 1 phaseL1 Top 1 , Top 4, Top 5 400V 3N~ 30 .25 10 .05 10 .1 10 .1 43 .70 43 .91 43 .91 131 .52L2 Top 2, Oven 1 415V 3N~ 30 .25 10 .05 10 .1 10 .1 41 .88 42 .08 42 .08 126 .04L3 Oven 2, Top 3 380V 3N~ 27 .68 9 .20 9 .24 9 .24 41 .80 42 .00 42 .00 125 .80
WITH SALAMANDER export (wye) load voltage total kW kW L1 kW L2 kW L3 A L1 A L2 A L3 A 1 phaseL1 Top 4, Top 5, Oven 1 400V 3N~ 37 .25 12 .2 13 .45 11 .6 53 .04 58 .48 50 .43 161 .96L2 Top 1, Top 2, Oven 2 415V 3N~ 37 .25 12 .2 13 .45 11 .6 50 .83 56 .04 48 .33 155 .21L3 Top 3, Salamander 380V 3N~ 34 .08 11 .16 12 .31 10 .61 50 .74 55 .94 48 .24 154 .91
SU684RC2-2C-12R NO SALAMANDER export (wye) load voltage total kW kW L1 kW L2 kW L3 A L1 A L2 A L3 A 1 phaseL1 Top 2, Top 3, Top 5 400V 3N~ 30 .25 10 .05 10 .1 10 .1 43 .70 43 .91 43 .91 131 .52L2 Top 1, Oven 1 415V 3N~ 30 .25 10 .05 10 .1 10 .1 41 .88 42 .08 42 .08 126 .04L3 Oven 2, Top 4 380V 3N~ 27 .68 9 .20 9 .24 9 .24 41 .80 42 .00 42 .00 125 .80
WITH SALAMANDER export (wye) load voltage total kW kW L1 kW L2 kW L3 A L1 A L2 A L3 A 1 phaseL1 Top 3, Top 5, Oven 1 400V 3N~ 37 .25 12 .2 13 .45 11 .6 53 .04 58 .48 50 .43 161 .96L2 Top 1, Top 2, Oven 2 415V 3N~ 37 .25 12 .2 13 .45 11 .6 50 .83 56 .04 48 .33 155 .21L3 Top 4, Salamander 380V 3N~ 34 .08 11 .16 12 .31 10 .61 50 .74 55 .94 48 .24 154 .91
SU684RC2-3R SU684RC2-1C-24R SU684RC2-36R
NO SALAMANDER export (wye) load voltage total kW kW L1 kW L2 kW L3 A L1 A L2 A L3 A 1 phaseL1 Top 3, Top 4, Top 5 400V 3N~ 30 .25 10 .05 10 .1 10 .1 43 .70 43 .91 43 .91 131 .52L2 Top 1, Oven 1 415V 3N~ 30 .25 10 .05 10 .1 10 .1 41 .88 42 .08 42 .08 126 .04L3 Oven 2, Top 2 380V 3N~ 27 .68 9 .20 9 .24 9 .24 41 .80 42 .00 42 .00 125 .80
WITH SALAMANDER export (wye) load voltage total kW kW L1 kW L2 kW L3 A L1 A L2 A L3 A 1 phaseL1 Top 3, Top 4, Oven 1 400V 3N~ 37 .25 12 .2 13 .45 11 .6 53 .04 58 .48 50 .43 161 .96L2 Top 1, Top 5, Oven 2 415V 3N~ 37 .25 12 .2 13 .45 11 .6 50 .83 56 .04 48 .33 156 .21L3 Top 2, Salamander 380V 3N~ 34 .08 11 .16 12 .31 10 .61 50 .74 55 .94 48 .24 154 .91
SU684RC2-3C-12L SU684RC2-2C-24L SU684RC2-1C-46L
NO SALAMANDER export (wye) load voltage total kW kW L1 kW L2 kW L3 A L1 A L2 A L3 A 1 phaseL1 Top 1 , Top 2, Top 3 400V 3N~ 29 10 .05 8 .85 10 .1 43 .70 38 .48 43 .91 126 .09L2 Top 4, Oven 1 415V 3N~ 29 10 .05 8 .85 10 .1 41 .88 36 .68 42 .08 120 .83L3 Oven 2, Top 5 380V 3N~ 26 .53 9 .20 8 .10 9 .24 41 .80 36 .61 42 .00 120 .60
WITH SALAMANDER export (wye) load voltage total kW kW L1 kW L2 kW L3 A L1 A L2 A L3 A 1 phaseL1 Top I , Top 2, Oven 1 400V 3N~ 36 12 .2 12 .2 11 .6 53 .04 53 .04 50 .43 156 .52L2 Top 3, Top 4, Oven 2 415V 3N~ 36 12 .2 12 .2 11 .6 50 .83 50 .83 48 .33 150 .00L3 Top 5, Salamander 380V 3N~ 32 .94 11 .16 11 .16 10 .61 50 .74 50 .74 48 .24 149 .72
SU684RC2-1L-36R SU684-3R-12L
NO SALAMANDER export (wye) load voltage total kW kW L1 kW L2 kW L3 A L1 A L2 A L3 A 1 phaseL1 Top 1 , Top 3, Top 4 400V 3N~ 29 10 .05 8 .85 10 .1 43 .70 38 .48 43 .91 126 .09L2 Top 5, Oven 1 415V 3N~ 29 10 .05 8 .85 10 .1 41 .88 36 .88 42 .08 120 .83L3 Oven 2, Top 2 380V 3N~ 26 .53 9 .20 8 .10 9 .24 41 .80 36 .81 42 .00 120 .60
WITH SALAMANDER export (wye) load voltage total kW kW L1 kW L2 kW L3 A L1 A L2 A L3 A 1 phaseL1 Top 3, Top 4, Oven 1 400V 3N~ 36 12 .2 12 .2 11 .6 53 .04 53 .04 50 .43 156 .52L2 Top 1 , Top 5, Oven 2 415V 3N~ 36 12 .2 12 .2 11 .6 50 .83 50 .83 48 .33 150 .00L3 Top 2, Salamander 380V 3N~ 32 .94 11 .16 11 .16 10 .61 50 .74 50 .74 48 .24 149 .72
SU684RC2-3C-12R SU684RC2-2C-24R SU684-1C-36R
NO SALAMANDER export (wye) load voltage total kW kW L1 kW L2 kW L3 A L1 A L2 A L3 A 1 phaseL1 Top 2, Top 3, Top 4 400V 3N~ 29 10 .05 8 .85 10 .1 43 .70 38 .48 43 .91 126 .09L2 Top 5, Oven 1 415V 3N~ 29 10 .05 8 .85 10 .1 41 .88 36 .88 42 .08 120 .83L3 Oven 2, Top 1 380V 3N~ 26 .53 9 .20 8 .10 9 .24 41 .80 36 .81 42 .00 120 .60
WITH SALAMANDER export (wye) load voltage total kW kW L1 kW L2 kW L3 A L1 A L2 A L3 A 1 phaseL1 Top 2, Top 3, Oven 1 400V 3N~ 36 12 .2 12 .2 11 .6 53 .04 53 .04 50 .43 156 .52L2 Top 4, Top 5, Oven 2 415V 3N~ 36 12 .2 12 .2 11 .6 50 .83 50 .83 48 .33 150 .00L3 Top 1, Salamander 380V 3N~ 32 .94 11 .16 11 .16 10 .61 50 .74 50 .74 48 .24 149 .72
SU684RC2-3L-12R SU684RC2-1R-36L
NO SALAMANDER export (wye) load voltage total kW kW L1 kW L2 kW L3 A L1 A L2 A L3 A 1 phaseL1 Top 2, Top 3, Top 5 400V 3N~ 29 10 .05 8 .85 10 .1 43 .70 38 .48 43 .91 126 .09L2 Top 1, Oven 1 415V 3N~ 29 10 .05 8 .85 10 .1 41 .88 36 .88 42 .08 120 .83L3 Oven 2, Top 4 380V 3N~ 26 .53 9 .20 8 .10 9 .24 41 .80 36 .81 42 .00 120 .60
WITH SALAMANDER export (wye) load voltage total kW kW L1 kW L2 kW L3 A L1 A L2 A L3 A1 phaseL1 Top 1, Top 2, Oven1I 400V 3N~ 36 12 .2 12 .2 11 .6 53 .04 53 .04 50 .43 156 .52L2 Top 3, Top 5, Oven 2 415V 3N~ 36 12 .2 12 .2 11 .6 50 .83 50 .83 48 .33 150 .00L3 Top 4, Salamander 380V 3N~ 32 .94 11 .16 11 .16 10 .61 50 .74 50 .74 48 .24 149 .72
SU684RC2-2R-24L SU684-2L-24R
NO SALAMANDER export (wye) load voltage total kW kW L1 kW L2 kW L3 A L1 A L2 A L3 A 1 phaseL1 Top 2, Top 4, Top 5 400V 3N~ 29 10 .05 8 .85 10 .1 43 .70 38 .48 43 .91 126 .09L2 Top 1, Oven 1 415V 3N~ 29 10 .05 8 .85 10 .1 41 .88 36 .68 42 .08 120 .83[3 Oven 2, Top 35 380V 3N~ 26 .53 9 .20 8 .10 9 .24 41 .80 36 .61 42 .00 120 .60
WITH SALAMANDER export (wye) load voltage total kW kW L1 kW L2 kW L3 A L1 A L2 A L3 A 1 phaseL1 Top 1, Top 2, Oven 1 400V 3N~ 36 12 .2 12 .2 11 .6 53 .04 53 .04 50 .43 156 .52L2 Top 3, Top 4, Oven 2 415V 3N~ 36 12 .2 12 .2 11 .6 50 .83 50 .83 48 .33 150 .00L3 Top 5, Salamander 380V 3N~ 32 .94 11 .16 11 .16 10 .61 50 .74 50 .74 48 .24 149 .72
SU684RC2-3R-34L SU684RC2-3L-34R SU684RC2-2R-36L SU684-2L-36R
NO SALAMANDER export (wye) load voltage total kW kW L1 kW L2 kW L3 A L1 A L2 A L3 A 1 phaseL1 Top 1 , Top 2, Top 3 400V 3N~ 27 .75 10 .05 8 .85 8 .85 43 .70 38 .48 38 .48 120 .65L2 Top 4, Oven 1 415V 3N~ 27 .75 10 .05 8 .85 8 .85 41 .88 36 .88 36 .88 115 .63L3 Oven 2, Top 5 380V 3N~ 25 .39 9 .20 8 .10 8 .10 41 .80 36 .81 36 .81 115 .41
WITH SALAMANDER export (wye) load voltage total kW kW L1 kW L2 kW L3 A L1 A L2 A L3 A 1 phaseL1 Top 1 , Top 2, Oven 1 400V 3N~ 34 .75 12 .2 12 .2 10 .35 53 .04 53 .04 45 .00 151 .09L2 Top 3, Top 4, Oven 2 415V 3N~ 34 .75 12 .2 12 .2 10 .35 50 .83 50 .63 43 .13 144 .79L3 Top 5 , Salamander 380V 3N~ 31 .79 11 .16 11 .16 9 .47 50 .74 50 .74 43 .04 144 .52
Part # P152 Rev 1 (01/13/10)Page 66
1.165 kW 1.165 kW 1.165 kW
1.165 kW 1.165 kW1.165 kW
(208
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Part # P152 Rev 1 (01/13/10) Page 67
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Title
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IRE
SPEC
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Part # P152 Rev 1 (01/13/10)Page 68
1.165 kW 1.165 kW 1.165 kW
1.165 kW 1.165 kW1.165 kW
220,
230
, 240
V/ 3
80, 4
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15 V
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Part # P152 Rev 1 (01/13/10) Page 69
DAT
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Ass
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sion
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2 w
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tem
3 w
as 1
0"
Title
: S(
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RC . S
ER-6
80 W
IRE
SPEC
IFIC
ATIO
NS
By
VC
MO
DEL
volt
age
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l kW
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1kW
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29 .1
1
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l kW
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Ate
rmin
al A
des
crip
tion
term
inal
Bte
rmin
al B
des
crip
tion
11
H37
12 G
ATG
SRE
DST
RAN
DED
101
X10
STRI
P 5/
8"F1
50W
IRE
PIN
-12/
10 W
P 13
022F
T IN
SUL
22
H36
12 G
ATG
SBL
ACK
STRA
ND
ED10
1X1
0ST
RIP
5/8'
F150
WIR
E PI
N-1
2/10
WP
1302
2FT
INSU
L3
3H
3712
GA
TGS
RED
STRA
ND
ED63
1X1
0ST
RIP
5 .8"
F150
WIR
E PI
N-1
2/10
WP
1302
2FT
INSU
L4
4H
3612
GA
TGS
BLAC
KST
RAN
DED
631
X10
STRI
P 5/
8"F1
50W
IRE
PIN
-12/
10 W
P 13
022F
T IN
SUL
510
H19
16 G
ATG
SBL
ACK
STRA
ND
ED15
4F1
46TE
RMIN
AL
#10
RIN
G 1
6-14
GA
OPE
N B
AF1
46TE
RMIN
AL
#10
RIN
G 1
6-14
GA
OPE
N B
A6
11H
3612
GA
TGS
BLAC
KST
RAN
DED
271
F150
WIR
E PI
N -1
2/10
WP1
3022
FT IN
SUL
F146
TERM
INA
L-RI
NG
#10
STU
D 1
2-10
GA
, 650
F7
12H
2016
GA
TGS
RED
STRA
ND
ED27
1F1
51W
IRE
PIN
-16/
14W
P 13
015S
FTF1
48TE
RMIN
AL
#10
RIN
G 1
6-14
GA
OPE
N B
A8 9
14H
140
16 G
ASE
W-1
BLAC
KST
RAN
DED
62
F151
WIR
E PI
N-1
6/14
WP1
3015
SFT
F468
TERM
INA
L-1/
4" M
ALE
INS
16-1
4 G
A10
15H
3712
GA
TGS
RED
STRA
ND
ED27
1F4
73TE
RMIN
AL
RIN
G #
10 S
TUD
12-
10G
A IN
SX8
STRI
P 1/
2'11
16H
2016
GA
TGS
RED
STRA
ND
ED27
1X1
0ST
RIP
5/8"
X8ST
RIP
1/2"
1217
H14
016
GA
SEW
-1BL
ACK
STRA
ND
ED6
2W
ITH
20
# N
/AF4
68TE
RMIN
AL
-1/4
" MA
LE IN
S 16
-14
GA
1318
H20
16 G
ATG
SRE
DST
RAN
DED
252
F146
TERM
INA
L #
10
RIN
G 1
6-14
GA
OPE
N B
AF1
46TE
RMIN
AL
#10
RIN
G 1
6-14
GA
OPE
N B
A14
20H
3612
GA
TGS
BLAC
KST
RAN
DED
272
F150
WIR
E PI
N-1
2/10
WP1
3022
FT IN
SF4
76TE
RMIN
AL-
RIN
G #
10 S
TUD
12-
10G
A, 6
50F
15S(
1)H
1210
GA
SEW
-2RE
DST
RAN
DED
241
X10
STRI
P 5/
8"F4
73TE
RMIN
AL-
RIN
G #
10 S
TUD
12-
10G
A IN
S16 17
S(3)
H12
10 G
ASE
W-2
RED
STRA
ND
ED60
1F4
73TE
RMIN
AL-
RIN
G #
10 S
TUD
12-
10G
A IN
SX8
STRI
P 1/
2"18
S(4)
H11
10 G
ASE
W-2
BLAC
KST
RAN
DED
601
F473
TERM
INA
L-RI
NG
#10
STU
D 1
2-10
GA
INS
X8ST
RIP
1/2"
19S(
5)H
4010
GA
SEW
-2G
REEN
STRA
ND
ED10
1F4
73TE
RMIN
AL-
RIN
G #
10 S
TUD
12-
10G
A IN
SX8
STRI
P 1/
2"20
S(6)
H12
10 G
ASE
W-2
RED
STRA
ND
ED50
1X8
STRI
P 1/
2'X8
STRI
P 1/
2"21
S(7)
H11
10 G
ASE
W-2
BLAC
KST
RAN
DED
501
X8ST
RIP
1/2"
X8ST
RIP
1/2"
21S(
8)H
4010
GA
SEW
-2G
REEN
STRA
ND
ED50
1X8
STRI
P 1/
2"X8
STRI
P 1/
2"23 24 25 26
NO
TE :
S1 -
S8 F
OR
S(U
)ER6
80 O
NLY
27 28
Part # P152 Rev 1 (01/13/10)Page 70
Part # P152 Rev 1 (01/13/10) Page 71