Parker Products OEM650X, OEM350X manual Sizing Power Supply, Connection, Calculations, Motor Type

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OEM650/OEM650X • INSTALLATION

Sizing Power Supply

Table 2-14 contains power ratings to help system designers size a power supply. Combinations of motors and current levels other than those shown may result in power values that are not recommended.

Connection

OEM57 motors may be configured in parallel or series. OEM83 motors must be wired in parallel. Refer to the OEM650 Quick Test.

Motor Size	Motor	Motor Heat +	Drive	Supply
(@75VDC)	Current	Avg. Shaft Power	Heat	Total**
OEM57-40-MOS2.65A		56 Watts	9 Watts	65 Watts
OEM57-40-MOP5.3A		56 Watts	19 Watts	75 Watts
OEM57-51-MOS3.3A		75 Watts	11 Watts	86 Watts
OEM57-51-MOP6.6A		75 Watts	25 Watts	100 Watts
OEM57-83-MOS3.8A		86 Watts	13 Watts	99 Watts
OEM57-83-MOP7.5A		86 Watts	31 Watts	117 Watts
OEM83-62-MO*4.4A		113 Watts	15 Watts	128 Watts
OEM83-93-MO*	5.6A	133 Watts	20 Watts	153 Watts
OEM83-135-MO*	6.9A	155 Watts	27 Watts	182 Watts

S: Series Configuration P: Parallel Configuration

* 34 size motors are internal wired in Parallel ** User must supply this level of wattage

Table 2-14. Power Sizing

Use the following equation to determine drive heat.

Drive Heat (Watts) = (0.31) (I	2) + (1.13 I	M	) + 3	I = Motor Current
	M	M		M

Calculations

❏To convert watts to horsepower, divide by 746

❏To convert watts to BTU/hour, multiply by 3.413

❏To convert watts to BTU/minute, multiply by 0.0569

Motor Type

OEM650/OEM650X motors are custom-made for use with these drives and drive/indexers. They are not available as a standard model from any other manufacturer. These motors are designed for low loss at rest and at high speed. Motors in the same frame size from other manufacturers may sustain considerably higher iron losses than an OEM650/OEM650X motor. OEM motors are wound to render inductances within a range suitable for OEM Series prod- ucts. If you do not use an OEM Series motor, you should consult Compumotor's Applications Engineering Department for assistance (800-358-9070). OEM650s/OEM650Xs are designed to run 2-phase PM step motors only. Do not use variable reluctance or DC motors.

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Contents Compumotor Important User Information 88-013157-02AIntroduction ContentsInstallation Index Tuning & SpecificationsTroubleshooting Installation Process Overview How To Use This User GuideUser Guide Contents AssumptionsInstallation Preparation Software Reference ManualOverview OEM650/OEM650X OEM650X Description Chapter ObjectiveOEM650 Description OEM350/350X DescriptionFeatures Chapter Objectives OEM650/OEM650X Ship kitQuick Test OEM650/OEM650X Evaluation kitsOEM650/OEM650X Jumpers Size 23 OEM650 Motors Parallel Wiring Top ViewSize 34 OEM Series Motors Parallel Wiring Motor Size Current Resistor Reversing VDC+ and VDC- can seriously damage the drive Quick Test OEM650 with Separate Indexer CompumotorIndexer Quick Test OEM650XLD3 OEM650/OEM650X Dimensions OEM650/OEM650X MountingPanel Layout Mounting Without a HeatsinkOver-Temperature Protection Drive Current13. OEM-HS1 Dimensions Mounting With OEM-HS1Panel layout for minimum depth is shown in Figure 16. OEM-HS2 Dimensions Mounting With OEM-HS2Jumper #1 Motor Current Range Jumpers #2 #5 Motor ResolutionJumper Functions Jumpers #6 #8 Motor Waveform Shape Jumpers #9 #10 Auto StandbyJumper #11 Auto Test JU9Parallel Misalignment Motor MountingAttaching the Load Angular MisalignmentDouble-Flex Coupling CouplingsSingle-Flex Coupling Rigid CouplingOEM650 Inputs and Outputs Step Input Signal SpecificationDirection Input Signal Specification Step Pulse InputFault Output Remote InputGear Shift Input Step Signal 1 & Direction Signal 2 OutputsOEM650X Inputs and Outputs Reserved Signal CW Signal 3 & CCW Signal 4 Limit InputsHome Position Input Signal Output #1 Signal 10 and Output #2 Signal Shutdown Output Signal Sequence Inputs #1 #3 Signals 11 RS-232C-Tx Signal 14, Rx Signal 15, and Ground Signal Closed Loop OperationEncoder Inputs A, B, Z Signals Trigger Inputs #1 #3 Signals 20Address Signals #1 #3 Signals 23 20. Daisy Chain Configuration Daisy ChainingCalculations Sizing Power SupplyConnection Motor TypePower Dump Current AmpsResonance Tuning ProceduresShort-Circuit Protection Mid-Range InstabilitySounding Board Method Gauging Motor ResonanceTachometer Method Stethoscope MethodTouch Method Tuning the Drive to the MotorMotor Waveforms Performance Specifications OEM650/OEM650X with OEM57-83-MOS OEM57 Motors Parallel Configuration OEM83 Motors Tuning & Specifications OEM650/OEM650X Problem Isolation Drive MaintenanceMotor Maintenance Reducing Electrical NoiseCommon Problems and Solutions Front Panel LEDsSymptoms Possible Causes Solutions Symptoms Probable Causes Solutions Testing the Motor RS-232C ProblemsSoftware Debugging Tips Returning the SystemOEM650/OEM650X Troubleshooting Troubleshooting OEM650/OEM650X Index Index OEM650/OEM650X OEM650 Inputs & Outputs, and Internal Connections OEM650X Inputs & Outputs Screw Terminal Connections