Anaheim DPJ72LC2, DPJ72LC3, DPJ72LC4 manual Initial Setup

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Section 3 Initial Setup

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revolution, a 0.9° Stepper Motor will have 400 full steps per revolution, and so on. This number is a characteristic of the stepper motor and is independent of the Stepper Motor Driver or the Step Mode.

5.Gear Ratio - The ratio of the number of stepper motor revolutions to drive screw revolutions due to any gears or pulleys between them. If it is a direct drive, enter 1 in this box.

6.Screw Thread - The number of turns per inch of the helical drive screw for each axis. For example, a single threaded, 0.05” pitch screw would have 20 turns per inch.

7.There are also general settings unique to each machine tool. These are described below. Once you determine the correct value for each general setting, enter it in the appropriate text box.

8.Axis Length - Sets the length of travel of each axis of your machine tool. You may want to define the axis length slightly smaller than the values published by the machine tool manufacturer. This will leave some room for error. Enter these figures in the Axis Length text boxes.

9.Motor Polarity - Depending on how a motor is wired, the same signal from the Stepper Motor Driver can turn it clockwise or counter clockwise. Use the jog buttons to make sure that a positive move in each axis on the screen corresponds to a positive move in each axis on the machine tool. Note that the direction of movement is defined as the direction of the tool relative to the table. For example, a positive X move in the program (tool movement to the right) will result in table movement to the left. If any direction is incorrect, change the motor polarity from Positive to Negative (or vice-versa) to reverse the correspondence between the software and machine tool.

10.Machine Envelope Home End - The end of an axis at which the optional home switch is installed. This determines the placement of the origin of the Machine Tool Envelope (Machine Zero) once home is set.

11.Home Switch Offset - The distance each axis backs away from the home switch after the switch is closed during homing.

12.Backlash - Sets the amount of backlash for each axis. See the “Setting Backlash” section below for more information.

13.Comp – Tells LC whether or not to use backlash compensation for all direction changes. Leave this checkbox unchecked for now. It is discussed in the “Setting Backlash” section below.

14.Tool Change Position – The position in Machine Coordinates where the machine will move when given the G28 command in the program.

15.When you are done entering the correct information, choose the OK button.

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Contents User’s Guide Table of Contents Error! Bookmark not defined Page Product Support Thank YouSystem Requirements If you are using Windows 95, 98 or NT Installing LCUsing the Mouse If you are using Windows 3.1 orUsing Standard Windows Controls Choosing CommandsPull-Down Menus Command ButtonsText Boxes System Safety Program Overview About this ManualFile Menu Pull Down Menu BarMain Screen Features Controller Menu Main Screen Features To change the state of an output line View Menu Tool Position BoxHelp Menu Relative Other FeaturesProgram MachineTo zero each axis To set new values within a coordinate systemTo zero all axes Tool Path View PortControl Box Code Mode Jog Mode Point Mode Home Mode Program Listing Box Message BoxPage Windows Windows SetupSetup File Software SetupSystem Settings To set your system settings Initial Setup Machine Tool Settings To set the Machine Tool Settings Initial Setup To Set the Maximum Unramped Feedrates Feedrate and Ramping SettingsTo Set the Ramping Rate To Set the Maximum FeedratesTo Set the Direction Change Delay To Set the Jog Rates Setting Machine ZeroTo Set the Maximum Arc Feedrate To Set Machine Zero Without Using Home Switches To Set Machine Zero Using Home SwitchesTo Set Backlash Setting BacklashTo Set Up the Tool Library Tooling SettingsTo Configure the Input Lines Input Line SettingsTo Configure the Output Lines Output Line SettingsTo define an M-code to control output lines To Configure the Motor Signal Lines Motor Signal SettingsTo Configure G and M Code Handling Initial Setup Page To import a DXF file Opening a G-Code ProgramImporting a DXF File To open an existing programTo choose a different file name or folder System Programming To open the editor Using the Program EditorTo edit a new program To close the editor To save your program using the same file nameKey Programming Concepts M Codes SupportedAbsolute vs. Incremental ModeG00 Rapid Tool Positioning M Code ReferenceG02 Clockwise Circular Cutting Move G01 Linear Interpolated Cutting MoveEnd End Center Start G03 Counter Clockwise Circular Cutting MoveG28 Return to Reference Point G04 DwellG17, G18, G19 Arc Plane Selection G20, G21 Inch Units and Metric UnitsG29 Return from Reference Point System Programming System Programming System Programming System Programming G52 Local Coordinate System G91 Incremental Positioning Mode G90 Absolute Positioning ModeM00 Program Pause M98, M99, M02 Subroutine CommandsM30 End of Program MXX Miscellaneous Device Control Feedrate CommandProgram Comments System Programming Windows 95, 98 or NT Configuring LCStarting LC Software Windows 3.1 orLoading a G-Code File Viewing the Tool Path Tutorial Animating the G-Code File Editing a G-Code File Using the Jog Controls Connecting the Machine OnlineSetting Machine Zero Using the Point Move Setting Program Zero on the Machine Tool Testing the Program on the Machine Tool Exiting the Program Cutting the PartTurning off the Controller O Connections Typical Output Configuration Motor ON/OFF Input Internally Connected Driver BLD72 Series DriverSetting the Kick Current Driver Page Glossary Glossary Glossary
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