motors & starting
TRANSCRIPT
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Factory Mutual Approvals Motor Parameters & Starting
By: James S. Nasby -- Columbia Engineering
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Seminar Details & Background♦ Background (History of Seminar)National Fire Protection Association (NFPA)
“Pumps for Fire Protection Systems”
♦ NEMA Standard MG-1Motors and Generators
♦ See Also: Section VIII.References Cited
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Topics to be CoveredI. Induction Motors – GeneralII. Electrical Power SupplyIII. Induction Motor ParametersIV. 3Ø Motor Starting Types (8+1)V. 3Ø Motor Running Types (3)VI. Common Motor Wiring Types (14)VII. Installation Considerations
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I. Motors – General Motor Types
♦
Induction Motors♦
Three Phase♦
Non-Salient Pole Motors: Usually Squirrel Cage Rotor Motors -but-can be Wound Rotor (Slip Ring)Induction Motors
♦
Usually Squirrel Cage♦
Design Type: Usually NEMA Design “B”Normal Starting TorqueNormal Starting Current (KVA)
♦
Synchronous Motors Not Covered
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I. Induction Motors General Definitions
♦
Motor Poles – Even Numbers (2, 4, 6, etc.)♦
Synchronous Speed (No Load Speed - Slip)♦
Starting Region – Fixed Impedance♦
Running Region – Energy Converter♦
Torques:Stall = Locked = Zero Speed TorquePull-up TorqueBreakdown TorqueRated Torque
♦
Starting Amps, KVA & Locked Rotor Code
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Motor Starting Region – cont’d Motor Torque Curve
Motor Torque and Pump Torque Curves
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II. Electrical Power Supplies Power Sources - Mains
♦ Types of Power Source– Three Phase A.C.
♦ Power Source Characteristics(Parameters)– Voltage (Utilization Voltage) -at-– Low voltage or Medium Voltage– Frequency – 50 Hz or 60 Hz– Starting Voltage Drop -vs- Starter– Running Voltage Drop -vs- Motor
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Power Supply Characteristics – cont’d - Power Quality -
♦
Source Capacity - Weak or Stiff Source– Starting Voltage Drop (15% of Controller Rated)– Running Voltage Drop (5% of Motor Rated)– Method of Calculating - NEMA ICS-14– Gen-Sets - Frequency & Voltage
♦
Voltage Balance (Amount of Imbalance)Small Voltage "Unbalance" = Large Current Imbalance. (See NEMA MG-1, part 1-14.36)
♦
Voltage Harmonics (Heats Windings)
♦
Power Factors - Affected by Motor
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III. Induction Motor ParametersGeneral Motor Characteristics♦
Induction Motor Types– Wound Rotor Motor
(Slip Ring Motor)= Rotary Transformer
– Squirrel Cage Motor = Ditto– But with Slip Rings Shorted
♦
Frequency – 50 Hz -vs- 60 Hz♦
NEMA Design Type “B” (MG-1)
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NEMA Design Types
Standard Three Phase
Induction Motors are
NEMA Design “B”
( Rated Full Load Torque)
Rated | Speed (RPM)
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Induction Motors - cont’d Motor Parameters - Electrical
♦ Locked Rotor Code (KVA per Hp)♦ Service Factors
– Usually 1.15 Maximum Allowed– Often Higher for Smaller Motors– Usually 1.0 Max. when used with VFD's
♦ Service Factor (S.F.) -vs- Ideal Conditions– Max. Temperature (40 °C Max.) -and-– Max. Altitude (3,300 ft /1,000 m Max.) -and-– Max. Voltage Imbalance (1% Max.)
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Motor Parameters – cont’d Abbreviations & Acronyms♦
Motor Currents– FLA = Motor Full Load Amperes– FLC = Motor Full Load Current = FLA– LRC = LRA = Locked Rotor Current (Amps)– SFA = Service Factor Amps – Locked Rotor Code* – Codes F & G Common
*May be Much Higher for Smaller Motors and for Energy Efficient Motors
♦
Power Factor (PF) – Real -vs- ImaginaryStarting PF = 30% / 40% TypicallyRunning PF = 85% down to 8.0% from Full Load to No Load, Typically
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Motor Parameters – cont’d Motor Current Curve
Motor Current -vs- RPM Curves
Rated Running Current = 100%
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Induction Motor Locked Rotor Codes
Maximum Allowed Motor Locked Rotor Codes per NFPA-20:
♦
Code "F" for 15 Hp & up -or-5.0 thru 5.59 KVA/Hp = approx. 540% FLA
♦
Code "G" for for 15 Hp & up5.6 thru 6.3 KVA/Hp = approx. 600% FLA
♦
Code "H" for 5 thru 10 Hp(up to 7.1 KVA/Hp = approx. 685% of FLA)
♦
Code "J" for 5 Hp only(up to 8.0 KVA/Hp = approx. 772% of FLA)
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Induction Motor Locked Rotor Codes
Table M-02 -- Motor Locked Rotor Code KVA Data and Allowed Horsepowers
"F" "G" "H" "J" Code Letter
Min. Max. Min. Max. Min. Max. Min. Max. KVA per Hp 5.00 5.59 5.60 6.29 6.30 7.09 7.10 7.99 LRA/FLA 482% 540% 540% 608% 608% 685% 685% 772% Allowed Hp 15 Hp and up 15 Hp and up 5 thru 10 Hp 5 Hp only
Note: The LRA/FLA ratios shown are approximate for illustration only.
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Table M-03 -- Maximum Motor Locked Rotor Currents
Motor Voltage - 60 Hz values Rated
Horsepower
Code
Letters 200 Vac 208 Vac 230 Vac 460 Vac 575 Vac 5 F - J 106 102 92 46 37
7.5 F - H 147 142 128 64 51 10 F - H 186 179 162 81 65 15 F - G 267 257 232 116 93 20 F - G 334 321 290 145 116 25 F - G 421 405 366 183 146 30 F - G 499 480 434 217 174 40 F - G 667 641 580 290 232 50 F - G 833 801 724 362 290 60 F - G 1,001 962 870 435 348 75 F - G 1,249 1,201 1,086 543 434
100 F - G 1,668 1,603 1,450 725 580 125 F - G 2,088 2,008 1,816 908 726 150 F - G 2,496 2,400 2,170 1,085 868 200 F - G 3,335 3,207 2,900 1,450 1,160 250 F - G 4,198 4,036 3,650 1,825 1,460 300 F - G 5,060 4,865 4,400 2,200 1,760 350 F - G 5,865 5,639 5,100 2,550 2,040 400 F - G 6,670 6,413 5,800 2,900 2,320 450 F - G 7,475 7,188 6,500 3,250 2,600 500 F - G 8,338 8,017 7,250 3,625 2,900
Note: The 460 Vac LRA values are from NFPA 20 Table 6-5.1.1. Others are calculated using voltage proportion.
Induction Motor Locked Rotor Currents
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Motor Parameters – cont’d Motor Stalled (Locked Rotor) Power Factor = Approx 40%
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Motor Parameters – cont’d Motor Theory and Formulae
♦
Purpose – Electrical to Mechanical♦
Energy Conversion– Motor Starting Region (Rotary Solenoid)– Running Region (Energy Converter)
♦
Motor Torque & Motor Current Draw-vs- Speed Curves
♦
A-T-L-Starting (Basic Motor Characteristics)– Power Factor & Phase Angles– Efficiencies
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Motor Starting -vs- Motor Running Regions
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Motor Starting -vs- Motor Running Regions
Motoring Region
Starting Region
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Motor Parameters – cont’d Motor Torque Curve
Motor Torque and Pump Torque Curves
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Motor Parameters – cont’d Motor Torque Curve
Motor Torque and Pump Torque Curves
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Motor Parameters – cont’d Motor Current Curve
Motor Current -vs- RPM Curves
Rated Running Current = 100%
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Motor Parameters – cont’d Motor Current Curve
Motor Current -vs- RPM Curves
Rated Running Current = 100%
Motoring RegionStarting Region
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Motor Theory and Formulae Motor Starting Region
For a Motor at Stall, Motor Impedance is Constant. So:
I = E / Z (Ohm’s Law)
Current is Directly Proportional to Motor Voltage. I.E.: Motor Current = Voltage / Impedance
Power Factor (P.F.) is Typically 30% to 40% at Stall (and for most of the starting region)
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Motor Theory and Formulae Motor Starting Region – cont’d
In the Starting (Accelerating) Region:Torque is Proportional to the Square
of the Applied Motor VoltageT = K1 x V2 -or- Since Current
is proportional to Voltage (see above):
T = K2 x I2
Thus: Torque is also Proportional to the Square of the Motor Current
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Motor Theory and Formulae Motor Starting Region – cont’d
Example of Starting Torque Proportional to the Square of Applied Motor Voltage.
E.G. 57% Volts = 33% Rated Stall
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Motor Theory and Formulae Motor Running Region
Motor Running Region (Energy Converter):
Mechanical Power is Torque x Speed:Pm = K3 x Tq x RPM
Motor Torque is Whatever the Load Requires
Electrical Power Input is:Pe = Pm + Motor Losses = Pm /
EfficiencyBut, Electrical Power Input is also given
as:Pe = K4 x V x Ireal (Volts x Real
Current)
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Motor Running -vs- Motor Starting Regions
Rated Torque (100%) times Rated Speed (E.g. 1750 RPM) yields Motor Rated Horsepower.
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IV. Motor Starting♦
General - Overview – Types of Reduction– Voltage Reduction: Wye–Delta, Soft Start, and
Autotransformer– Current Reduction: Primary Impedance (Primary
Resistor, Primary or Neutral Reactor)– Motor Impedance (Wound Rotor)
♦
Two Specialty Types– Medium Voltage – Four Common Types: A-T-L,
Primary Reactor, Neutral Reactor -and- Autotransformer
– Low Voltage - Wound Rotor (Not U.L. Listed)
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Motor Starting - cont’dEight (+1) Common Low Voltage Starting
Types:♦
Across-the-Line (A-T-L or Direct-On-Line)♦
Part Winding (Half Winding) Start♦
Primary Resistor Start♦
Primary (or Neutral) Reactor Start♦
Wye-Delta (Star-Delta) - Open Transition♦
Wye-Delta (Star-Delta) - Closed Transition♦
Soft Start / Soft Stop (SCR Phase Modulation)
♦
Autotransformer
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Motor Starting – cont’d Across-the-Line (Direct On Line)
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Full Voltage Start ------------ Across- the-Line
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Motor Starting – cont’d Across-the-Line (Direct On Line)
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Motor Starting – cont’d Part Winding Start
Note: The Motor Must be Wound Specifically for Part Winding Starting.
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Part Windin g Start
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Motor Starting – cont’d Part Winding Start
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Motor Starting – cont’d Primary Resistor Start
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Primary Reactor Start
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Motor Starting – cont’d Primary Resistor Start
Note: 65% Resistor Impedance is
1.24 - 0.40 = 0.84 pu
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Motor Starting – cont’d Primary Reactor Start
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Motor Starting – cont’d Primary (or Neutral) Reactor Start
Note: 65% Reactor Impedance is
1.54 – 1.00 = 0.54 pu
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Motor Starting Torque Comparison
Curves B, C & D are at 65% Motor Starting Voltage
(Reference Source Credit on Next Slide)
“0”“0”
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Motor Torque Comparison – cont’d A=ATL, B=A.T., C=Pri. Res., D=Reactor
Gerhart W. Heumann (G.E.), “MagneticControls of Industrial Motors”, Wiley &
S
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Motor Starting – cont’d Primary (or Neutral) Reactor Start
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Wye- Delta Open Transitio n
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Motor Starting – cont’d Wye-Delta Open Transition
LPM Module = Leading Phase Monitor®
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First Half Cycle Offset Waveforms
2.83 x LRA = 6 x 2.83 x FLA = 17.0 x FLA Maximum Theortical This curve shows starting a motor which
still has BACK EMF (voltage) present.
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Motor Starting – cont’d Wye-Delta Open Transition
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Motor Starting – cont’d Wye-Delta Open Transition
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Motor Starting – cont’d Wye-Delta Open Transition
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Motor Starting – cont’d Wye-Delta Transition Hazard
ClosedLeading
Lagging
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Motor Starting – cont’d Wye-Delta Closed Transition
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Wye-Delta Closed Transition
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Motor Starting – cont’d Wye-Delta (Open or Closed Xtn.)
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Wye-Delta Starting; Truths and Myths
Page 1 of 4
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Wye-Delta Starting; Truths and Myths
Page 2 of 4
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Wye-Delta Starting; Truths and Myths
Page 3 of 4
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Wye-Delta Starting; Truths and Myths
Page 4 of 4
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Motor Starting - cont’d Soft (Solid State - SCR) Start
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Soft Start (Solid State - SCR)
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Motor Starting - cont’d Soft (Solid State - SCR) Start
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Motor Starting - cont’ dAutotransformer Start
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Autotransformer Start
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Motor Starting - cont’ dAutotransformer Start
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Motor Starting Characteristics Parameter Chart
Fire Pump Starting Type Characteristics - for - Electric Fire Pump Motors and Controllers
Starting Characteristics (at Stall) -- Typical Values -for- Fully Load Pump (1) Starting Starting Starting Accelerate Motor Motor Amps Amps Starting Power Starting Full Load Type Contactors Closed & KVA & KVA Power % F.L. Torque to Starting Type Note Note (3) Transition % LRA % FLA Factor Note (4) % ATL Full Speed Notes Across-the-Line Any 1 N/A 100% 600% 40% 240% 100% Yes (a)
Part Winding Special (2) 2 Yes 65 390 40 156 48 Usually (b) Primary Resistor Any 2 Yes 65 390 80 314 42 Yes (c)
Primary Reactor Any 2 Yes 65 390 28 111 42 Yes (c) Neutral Reactor 6/12 Lead 2 Yes 65 390 28 111 42 Yes (c)
Wye-Delta Open 6/12 Lead 3 No 33/100 200/600 40 80/240 33 No (d) Wye-Delta Closed 6/12 Lead 4 Yes 33/100 200/600 40 80/240 33 No (d)(e)
Soft Start/Stop Any 1/2 Yes 40/67 240/400 Varies Ramps 16/44 Yes (f) Autotransformer Any 3 Yes 46 276 40 110 42 Yes (c)(g)
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Motor Starting Characteristics
Parameter Notes to ChartMotor Starting Characteristics Chart
Notes (1) Refer to Factory details. (2) Part Winding Motors must be wound specifically for this service. Some motors may not
accelerate to full speed in the starting mode. See Note (b). (3) Units with two or more contactors have two basic steps (Accelerate & Run) with steps three
and four being for transitions. (4) Starting KW Power as a percent of motor full load power requirement. (a) Also called "A-T-L" or Direct-On-Line. Motor Power Factor taken as 40%. Other values
shown are due to the effects of the controller. (b) Part Winding Parameters vary with the motor. Starting Amps & KVA vary from around
60% to 70%, Starting Torque from around 45% to 50%. The motor can start a fully loaded pump if it has no large torque dip or cusp. See the text discussion on Part Winding Starting for details.
(c) Figures are for tap set at 65% which yields a motor voltage of 65% of line (mains) voltage. (d) The Dual Figures are for Starting and Transition. The transition values are to finish
accelerating a fully loaded pump. Examples include deluge or open systems, re-starting a fully loaded pump after a power failure or interruption, and failure of another pump feeding the same system.
(e) Ignores the momentary transition resistor loads. (f) Varies with pump load and particular Soft Starter used. Values shown are initial and
maximum for a typical fully loaded pump. MCS uses the second (Start) contactor for isolation. Others use only the Bypass contactor.
(g) The 46% Starting Amps & KVA figures include the Autotransformer exciting current.
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V. Motor Running TypesConstant Speed Running♦
Full Voltage Running- Synchronous Speeds (3,600 RPM & etc.)- Slip Frequencies - Running (Rated) Speeds
♦
Motor Lead Wire Running Currents- Three Lead = Full Motor Current- Six Lead Parallel Run (Part Winding Start)
= 50% of FLC per set- Six Lead (Wye-Delta Start)
= 58% (57.7%) of FLC per set
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Motor Running - cont’d
Variable Speed Running♦
Wound Rotor Control- Changes Motor Secondary Impedance -and-- Motor Torque Curve
♦
Variable Frequency - Variable Speed Control (VFDs)
- Changes Motor Torque and Current Curves- Changes Motor Synchronous Speed –and-- Changes Motor Running (Loaded) Speed
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Wound Rotor Speed Torque Curves
(Reference Source Credit on Next Slide)
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Wound Rotor Speed-Torque Curves
- Flipped and Rotated -
Gerhart W. Heumann (G.E.), “MagneticControls of Industrial Motors”, Wiley & S
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VFD = Motor Running Only (No Motor Starting Region)
Starting Region
(Reference Only)
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Variable Speed Controllers Power Circuit Schematic
. .* Was Optional
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Variable Speed Control
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VFD – Principles of Operation
3 PhaseLine Freq.
AC / DC
Smoothing
DC / ACAt “X” Khz
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VI. Motor Wiring – Motor Lead Configurations (Fourteen)
♦
Three Lead – Three Coil(Single Voltage) (T1-T3)
♦
Six Lead – Three Coil– Wye Running (T1-T3 & T4-T6)– Delta Running (T1-T3 & T4-T6)
♦
Parallel Run (Six Lead - Six Coil)– T1-T3 and T7-T8 - or -– Both Sets Labeled T1-T3
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Motor Lead Configurations 3 Lead – 3 Coil - Wye Running
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Motor Lead Configurations 3 Lead – 3 Coil - Delta Running
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Motor Lead Configurations 6 Lead - 3 Coil - Wye Running
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Motor Lead Configurations 6 Lead – 3 Coil - Delta Running
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6 Lead – 6 Coil - Wye Running Parallel Running
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6 Lead – 6 Coil - Delta Running Parallel Running
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Motor Wiring – cont’d
♦ Nine Lead (Dual Voltage) (T1-T9)– Wye Wound– Delta Wound– Suitable for Part Winding Start ?
♦ Twelve Lead (T1-T12)– Dual Voltage– Single Voltage (Parallel Run)
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9 Lead - 6 Coil - Wye Running Series Running
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9 Lead - 6 Coil - Wye Running Parallel Running
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9 Lead - 6 Coil - Delta Running Series Running
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9 Lead - 6 Coil - Delta Running Parallel Running
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12 Lead - 6 Coil - Wye Running Series Running
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12 Lead - 6 Coil - Wye Running Parallel Running
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12 Lead - 6 Coil - Delta Running Series Running
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12 Lead - 6 Coil - Delta Running Parallel Running
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Typical 12 Lead Motor Wiring Diagram
Courtesy of Marathon Electric
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Starting Methods -vs- Motor Types
Table M-04 - Motor and Starting Types
Starting Type Motor Type Starting Type Motor Type
Full voltage Standard/Any Primary Reactor Standard/Any
Part Winding Part Winding Primary Resistor Standard/Any
Wye Delta - Closed Delta Run Autotransformer Standard/Any
Wye Delta - Open Delta Run Soft Start (SCR) Standard/Any
Neutral Reactor Wye Running Wound Rotor Wound rotor
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Motor Types -vs- Starting Types
Motor Description (a) Starting Method(b)
Run Type Number of Leads Part Winding
Wye (Star) Delta(c)
Neutral Reactor
"Other 5" Figure
Wye Run Three Lead No No No Yes 7-4
Delta Run Three Lead No No No Yes 7-5
Wye Run Six Lead, Single Coil No No Yes Yes 7-6
Delta Run Six Lead, Single Coil No Yes No Yes 7-7
Wye Run Six Lead Parallel Some(d) No No Yes 7-8
Delta Run Six Lead Parallel Some(d) No No Yes 7-9
Wye Run Nine Lead Series No No Yes Yes 7-10
Wye Run Nine Lead Parallel Some(d) No No Yes 7-11
Delta Run Nine Lead Series No No No Yes 7-12
Delta Run Nine Lead Parallel No(e) No No Yes 7-13
Wye Run Twelve Lead Series No No Yes Yes 7-14
Wye Run Twelve Lead Parallel Some(d) No Yes Yes 7-15
Delta Run Twelve Lead Series No Yes No Yes 7-16
Delta Run Twelve Lead Parallel Some(d) Yes No Yes 7-17 Notes: (a) The Motor "Type" (Wye or Delta) is the Running configuration, regardless of how the motor is started. Wound Rotor Motors are not covered in this chart. (b) "Other 5" are: Full voltage (A-T-L), Primary Resistor, Primary Reactor, Soft Start and Autotransformer. (c) Either Open or Closed Transition Wye-Delta (Star-Delta). (d) "Some" = May be used only of the motor is labeled as suitable for Part Winding Starting.
(e) The 9 lead "Double Delta" method has unequal currents and is not suitable for standard Part Winding controllers.
Table M-06 -- Motor SuitabilityMotor Types -vs- Starting Types
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VII. Induction Motors -- Installation Considerations
♦
Physical– Location - Ideally Within Site of Controller– Motor Protection: Fire, Security, Other Hazards
♦
Access – All Sides & Conduit Access♦
Electrical N.E.C. (NFPA 70) - §430 (& § 695)– Conduit & Hubs– Environmental– Conductor Sizing – Incoming & Motor Circuit– Voltage Drops: Start & Run– Cable Impedances and Run Lengths
(See NEMA ICS-14)
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Motor Installation – cont’d Start-up (Commissioning)
♦ Current Measurements
♦ Voltage Measurements
♦ Estimating Motor Load- FLA -vs- Voltage- SFA (115%) - Max. Allowed Under
Any Conditions (Temperature, Altitude, Voltage Imbalance) on ANY Phase
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Motor Installation – cont’d Environmental
♦
Open Drip Proof (ODP)♦
Totally Enclosed Fan Cooled (TEFC)♦
Outdoor♦
Hazardous Locations, Explosion Proof:– Motor, Controller, Wiring
♦
Other– Salt Air– Wind Blown Sand or Dust– Temperatures– Altitude