Sterling AF-XXX specifications Maximum Input Pulse Rate, Minimum and Maximum Percent Setpoints

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Example 1: An extruder rotating at 30 RPM and providing 8 pulses per revolution generates 240 pulses per minute will provide excellent results.

Example 2: An extruder rotating at 15 RPM and providing 1 pulse per revolution generates 15 pulses per minute and will provide poor results.

Maximum Input Pulse Rate

As programmed, the drive is capable of accurately following an extruder’s rate signal of up to 50,000 pulses per minute. Extruders that provide rate signals above this frequency REQUIRE end user programming to provide accurate results. The value programmed into parameter P16 must be modified to a value that filters this pulse rate to an acceptable frequency. Please refer to the parameter description section for additional information.

Example 1: An extruder rotating at 175 RPM and providing 8 pulses per revolution generates 1,400 pulses per minute will provide excellent results.

Example 2: An extruder rotating at 250 RPM and providing 250 pulses per revolution generates 62,500 pulses per minute and will provide poor results.

Minimum and Maximum Percent Setpoints

The drive rotates the additive feeder’s auger at a constant percentage of the extruder screw. If the extruder screw is turning at 100 RPM and the setpoint is 50%, the additive feeder turns at 50 RPM. Increasing the extruder speed to 110 RPM will make the additive feeder rotate at

55 RPM. Decreasing the extruder speed to 90 RPM will make the additive feeder rotate at 45 RPM.

As programmed, the drive accepts percentage setpoints from 10% to 200% of the extruder’s speed. The drive and motor’s acceptable operating speed range is 3 to 71 RPM.

Increasing the percent setpoint to a value that would cause the auger to rotate over 71 RPM will NOT cause the feeder’s auger to rotate OVER 71 RPM.

Example 1: The extruder is rotating at 75 RPM, and the additive feeder percent setpoint is 85%. The additive feeder’s auger will rotate at 63.75 RPM.

Example 2: The same extruder’s speed setpoint is increased to 100 RPM without changing the additive feeder percent setpoint of 85%. The additive feeder will rotate at its maximum speed of 71 RPM, not at 85 RPM. If your application requires that additives be fed at a higher rate than what71 RPM provides the simplest method is to increase the size of the auger and sleeve your additive feeder is equipped with. Please refer to the parts section for a complete listing of available sizes.

The minimum and maximum percent setpoints may be custom programmed to more precisely reflect the range of speeds in use at your facility. Please refer to the parameter description section for additional information.

Additive Feeders

Chapter 4: Operation

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Contents SF Series Additive Feeders Shipping Information Table of Contents Program Parameter Descriptions Safety How to Use This ManualSafety Symbols Used in this Manual Wear Safety Glasses and Work Gloves General Responsibility ResponsibilityRemember Operator ResponsibilityMaintenance Responsibility Additive Feeder Safety TagsReporting a Safety Defect Mechanical Features Standard FeaturesFunctional Description Models Covered in This ManualElectrical Features Controller FeaturesOptions Safety Devices and Interlocks AccessoriesSafety Circuit Standards Safety Device Lock-OutsFail Safe Operation Supply System Installation InstallationUncrating the Equipment Rigging and Placing the Additive FeederMain Power Connection Electrical ConnectionsControl Relay Connection Determining the Desired Feed Rate Setup Procedures110 100 Calibration Procedure ProcedureEquipment Needed Observed Feed Rates ExamplesPre-Startup Checks Initial Start-upStarting Up the Additive Feeder Shutting Down the Additive FeederUsed as a Cycle Override Safety Timer Timer ModuleOperation Start-upElapsed Time Module Counter ModuleInjection Molding Injection Molding ApplicationsControl Relay Connection Field Control ProgrammingResetting the Unit to Un-Programmed State JP1 Program Enable JumperProgramming Step by Step Guide Additive Feeders Operation Injection Mode Application Notes Extruder Tracking Control Extrusion ApplicationsExtruder Tracking Equation Extruder Tracking Installation and SetupRunning Mode Parameter-Selection ModeValue Mode Resetting the Unit to Un-Programmed State Input Pulse Signal Requirements Extruder Tracking Control Application NotesMinimum Input Pulse Rate Minimum and Maximum Percent Setpoints Maximum Input Pulse RateDefining Program Parameters Program Parameter DescriptionsMode 1 Default to Zero Parameter 19 Power-up Value Parameter 35 Signal Input 2 S2 Input Configuration Parameter 36 Signal Input 2 S2 Setpoint Maintenance Preventative Maintenance SchedulePhotocopy this page for your maintenance records Material Cleanout/Changeover Preventative MaintenanceAuger Assembly Changeover Corrective MaintenanceRemoving Auger Assembly Installing Auger AssemblyMotor Brush Replacement Troubleshooting Problem Possible cause Corrective actionIntroduction Problem Possible cause Corrective action Additive Feeders Troubleshooting Technical Specifications AppendixAnnex B Information Additive Feeder Specifications and Overall Dimensions Drawings and DiagramsTypical Additive Feeder Controllers Exploded Assembly Drawing Parts List Spare Parts ListDetail # Part number Part/assembly description One Component Control Enclosure Parts Identification Warranty Returns Safety Tag InformationReturned Material Policy Credit ReturnsCompany Logo Additive Feeder Identification Serial Number TagSterling, Inc Th Street New Berlin, WI Technical AssistanceWorksheet for Charting Feed Rates