Parker Hannifin VERSION 1.0 manual Print Reference Files, Download Project to Controller Flash

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PPU X4000 Y4000 Z4000 Mult X1 Y1 Z1

ACR-MOTIONMAX Installation Guide

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Step 3. Print Reference Files

Print the following 2 files for reference:

C:\Program Files\Parker\ACR-MOTIONMAX\Docs\Default Bit Definitions.xls.”

This file is a Complete I/O Bit Map of the ACR-MOTIONMAX System Signal Banks. This file is an Excel spreadsheet for your reference and is your best resource to understanding how ACR-MOTIONMAX communicates with the Parker-Acroloop Controller and AcroBasic.

C:\Program Files\Parker\ACR-MOTIONMAX\Docs\Parameter_Definitionst.xlsin the Parker\ACR-MOTIONMAX\Docs Sub Folder. This file describes the functions of all Parameters in the Parameters.Cfg file that ACR-MOTIONMAX uses at runtime

Step 4. Load ACR-MOTIONMAX AcroBasic Project Template Files

￿Copy the 5 AcroBasic Template files contained in the ACR-MOTIONMAX\AcroBasic sub folder to C:\Program files\Parker\Acroloop\Acroview\Projects\Default folder. If you already have code in the AcroView default folder it will be overwritten so back it up in necessary.

￿Open AcroView and Edit Prog0

Don’t Download to Card when prompted by Acroview yet.

Edit Prog0 @ 6 and configure the Axis Encoder Resolutions and Multipliers

Set the PPU Values (Encoder Resolution) for your application… Units = XXXX Counts per 1” of travel.

Example:

Step 5. Download Project to Controller Flash.

￿Download All AcroBasic Programs to the Servo Cards Flash and save it with (No Errors). Note: to enable error checking … right click in the lower window and select “Logging”. Next download the file to the card. AcroView writes a log file that resides in the AcroView folder. Open this file with notepad or create a shortcut to it on your desktop, as you will probably look at this file hundreds of time to check the program for errors.

When all Programs are Downloaded Error Free. Type the Following at the Command line.

Flash Save

ESave

Step 6. Test & Phase the Motor/Encoders

Phasing is correct when the Axis Readout Increments when moved in a positive direction on your machine. Enable your Drives manually and type the following at the Command line:

While watching the Readouts on the Top Upper left of the AcroView Screen.

Repeat for All Attached Axes.

Prog0

X1

The X Axis Motor should move 1 inch positive, and in a direction you consider to be Forward on your Machine. If it doesn’t the Motor is Out of Phase and the Mult Parameter/Encoder or DAC lines will need to be changed.

To Change Motor Direction using Parameters:

Set the MULT Parameter to –1 for the Axis

Axis0 MULT –1

Reverse the Dac Gain for the Axis

Dac0 Gain -3276.8

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Contents ACR-MotionMax Installation Guide Parker Hannifin Corporation All Rights Reserved ACR-MOTIONMAX Installation GuideNorth America and Asia Europe non-German speaking ItalyACR-MOTIONMAX Installation Guide Table of Contents Strobe & Done Signals Table ACR-MOTIONMAX Control System Bit Signal BanksT Code Sequencing Jogging FunctionsHoming & HandWheel System Overview DiagramMotionMax ACR-MOTIONMAX to AcroBasic System Start upDefining Bit Variables in AcroBasic ACR-MOTIONMAX AcroBasic Project Template FilesSys.8k File listing for PCI Type Controller AcroBasic Template Files listExample & Format Code Sequence ExamplesReference Files ACR-MOTIONMAX System Setup DiagramACR-MOTIONMAX Directory & File Structure Start Using MotionMax Install ACR-MOTIONMAX to your PC Install the Parker-Acroloop SDK Software Development KitPrint Reference Files Test & Phase the Motor/EncodersLoad ACR-MOTIONMAX AcroBasic Project Template Files Download Project to Controller FlashTune Axis Gains \Program Files\Parker\ACR-MOTIONMAX\Parfiles\Parameters.Cfg Function Control Signals Bit Configure Homing FunctionsFunction Called Address in Program CncInputsConfig Configure I/0 Labels for ACR-MOTIONMAX DiagnosticsCncOutputsConfig Example Edit the Control Initialization SubroutineRules of operation Edit the M Code FunctionsEditing the S Code Function Control Signals used with S CodesACR-MOTIONMAX Installation Guide RequestedToolPositon Edit the T Code FunctionEdit the Emergency Stop Function KeyBit = Estop Bit 129 of the Control SignalsREM ~ Set Emergency Stop REM ~ Clear Emergency StopSample UserDefinedError.txt for reference Configure Valid Mcodes List for ACR-MOTIONMAX Description Default Configure Key ACR-MOTIONMAX ParametersSoftwareOptions Default ToolChanger Parameter Description Default SpindleOptions Parameter Description DefaultSpeeds Parameter Description Default JogSpeeds Parameter Description DefaultDefault Mode Configure the OverridesStarting ACR-MOTIONMAX for the First Time Test Inputs and Outputs in DiagnosticsRunning ACR-MOTIONMAX for the First Time Step Test JoggingSoftwareOptions Appendix A. ACR-MOTIONMAX ParametersSpindleOptions 007HomeOffsets ToolChangerSoftLimits SpeedsJogSpeeds SystemResolutionFastJogSpeeds InPositionBandGains1 Gains0Gains2 Gains3Gains6 Spindle Axis Gains5Gains7 AuxFunctionsScreenColors EditorFontFeaturesDESC8=FLOOD Coolant on M9=1 DESC9=ALL Coolants OFF DESC31= DESC56= DESC81= DESC126=TURN on Tapping Mode ACR-MOTIONMAX Installation Guide End of Parameters

VERSION 1.0 specifications

Parker Hannifin Corporation, founded in 1917, is a global leader in motion and control technologies. With over a century of experience, the company has established itself as a trusted provider of high-quality solutions across various industries, including aerospace, automotive, healthcare, and manufacturing.

One of Parker Hannifin's main features is its diverse product range, which encompasses a wide array of systems and components designed to enhance the efficiency and reliability of machinery and equipment. The company specializes in hydraulic, pneumatic, and electromechanical systems, demonstrating expertise in fluid and motion control. Their products include hydraulic pumps, valves, cylinders, filters, and various seals, all engineered for optimal performance under demanding conditions.

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Moreover, Parker Hannifin's global footprint allows it to serve customers in various regions while providing localized support. With manufacturing facilities, distribution centers, and sales offices strategically located worldwide, the company ensures quick response times and tailored solutions for specific market needs.

In summary, Parker Hannifin Corporation is a dynamic leader in motion and control technologies, with a commitment to innovation, sustainability, and customer satisfaction. Their extensive range of high-performance products, coupled with advanced technologies and a global presence, positions Parker Hannifin as a reliable partner for industries seeking to enhance operational efficiency and reliability.
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