Parker Products OEM350X, OEM650X manual Remote Input, Fault Output

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OEM650/OEM650X • INSTALLATION

Remote Input

The Remote input is an optically isolated input that uses an ILQ2 quad OPTO isolator. The REMOTE+ terminal is connected to the anode of the OPTO lead via a 681Ω current limiting resistor. The REMOTE- terminal is connected to the cathode of the OPTO lead.

The OPTO requires a minimum of 3.5 mA (≈ 3.5VDC) to ensure proper system operation.

This input allows you to reduce current to a motor from a remote location. This is accomplished by changing the current select resistor via the remote input. When the remote input is enabled, the open collector transistor connected to the REMOTE screw terminal will conduct to ground. If the CURRENT and REMOTE terminals are shorted together (with a wire) motor current will be reduced to zero.

Motor current can also be reduced by a percentage if CURRENT and REMOTE are shorted with the appropriate resistor. A remote motor current value must be selected (see Table 2-8) to set the operating current. Identify the current resistor associated with the operating current you select. Use the resistor values to determine the remote resistor that must be installed between the CURRENT and REMOTE terminals. Use the following equation to detemine RREMOTE.

RREMOTE = -13,300 (3650 + RC) / (RC - RS)

RC = Resistor associated with the operating current

RS = Resistor associated with the desired standby current

Fault Output

This output is an open-collector, open emitter output from a ILQ2 OPTO isolator. The output transistor will conduct when the drive is functioning properly. The transistor will not conduct properly when any of the following conditions exist.

No power is applied to the drive

There is insufficient voltage (<24VDC)

The driver detects a motor fault

The remote input is enabled

This output has the following electrical characteristics:

VCE = 35VDC

VCESAT = 0.3VDC

Collector Current = 10 mA maximum

Dissipation = 100 mW maximum

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Contents Compumotor Important User Information 88-013157-02AIntroduction ContentsInstallation Index Tuning & SpecificationsTroubleshooting How To Use This User Guide User Guide ContentsInstallation Process Overview AssumptionsInstallation Preparation Software Reference ManualOverview OEM650/OEM650X Chapter Objective OEM650 DescriptionOEM650X 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 JU9Motor Mounting Attaching the LoadParallel Misalignment Angular MisalignmentCouplings Single-Flex CouplingDouble-Flex Coupling Rigid CouplingStep Input Signal Specification Direction Input Signal SpecificationOEM650 Inputs and Outputs Step Pulse InputFault Output Remote InputGear Shift Input Step Signal 1 & Direction Signal 2 OutputsOEM650X Inputs and Outputs CW Signal 3 & CCW Signal 4 Limit Inputs Home Position Input SignalReserved Signal Output #1 Signal 10 and Output #2 SignalSequence Inputs #1 #3 Signals 11 RS-232C-Tx Signal 14, Rx Signal 15, and Ground SignalShutdown Output 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 ChainingSizing Power Supply ConnectionCalculations Motor TypePower Dump Current AmpsTuning Procedures Short-Circuit ProtectionResonance Mid-Range InstabilityGauging Motor Resonance Tachometer MethodSounding Board 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 Drive Maintenance Motor MaintenanceProblem Isolation 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

OEM650X, OEM650, OEM350, OEM350X specifications

Parker Products provides an exceptional lineup of industrial-grade portable adhesive applicators, including the OEM350X, OEM350, OEM650, and OEM650X. These models are designed to meet the demands of various manufacturing processes, delivering reliable and precise adhesive application for diverse industries such as automotive, woodworking, and packaging.

The OEM350 series, including both OEM350 and OEM350X, is characterized by its lightweight yet durable construction, allowing for ease of handling and transport. This series is particularly known for its versatility in handling various adhesive types, including polyurethane, hot melt, and cyanoacrylate adhesives. The OEM350 features a robust performance with a maximum output of 350 lbs per hour, ensuring efficient production rates while maintaining high-quality bonding. The OEM350X variant enhances these features with advanced temperature control technology, enabling users to maintain optimal adhesive viscosity for different applications.

On the other hand, the OEM650 and OEM650X models are designed for heavier-duty applications. The OEM650 can deliver up to 650 lbs of adhesive per hour, making it suitable for high-volume manufacturing processes. Its larger tank capacity and efficient heating mechanism allow for extended operational periods between refills, which significantly boosts productivity. The OEM650X takes performance a notch higher with integrated smart technology, which provides real-time monitoring of adhesive quality and system health, helping to reduce downtime and maintain efficiency in production.

All models in this range are equipped with user-friendly interfaces for easy operation. The control panels allow operators to set precise temperature and pressure settings, which can be adjusted to fit particular production needs. Additionally, the equipment is built with safety features such as automatic shut-offs and alarm systems, ensuring safe operation in busy manufacturing environments.

Parker Products’ OEM series stands out not only for its performance but also for its commitment to innovation. With advancements like modular design for easy maintenance and scalability, these applicators are designed to grow with your business. The robust performance, versatile application, and advanced technologies of the OEM350X, OEM350, OEM650, and OEM650X make them invaluable tools in the modern manufacturing landscape, driving efficiency and quality in adhesive applications.