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Parker Hannifin G2 manual Coordinate System, Mechanical Setting Mode, 5.3.1, 5.3.2

Models: G2

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5.2.5Mechanical Setting Mode

5.2.5Mechanical Setting Mode

	This is a special mode for changing parameters related to the mechanical settings. Parameters #200 to #299 can
	be changed only when this operation is being executed. In addition, once started, this operation cannot be
	stopped. After you finish changing the necessary parameters, turn the power to the driver off and on again.
	Note that if you change these parameters, the changed values are not reflected until after the power is turned on
	again. Therefore, please note that if you try to read a parameter value after you change the parameter, the value
	before the change is read until you turn the power off and on again.
5.3	Coordinate System
5.3.1	Coordinate System
	The driver controls the position of the motor by three coordinate systems with different units: a command unit
	coordinate system, and a pulse coordinate system.
	The pulse coordinate system manages the coordinate values in units of pulses that can be detected by the encoder
	resolver. The position control part of the driver controls the motor based on these coordinate values. It has a
	command value and a current value, and they are always updated and displayed in the #320 Pulse position
	command value monitor and #321 Pulse position current value monitor, respectively.
	The command unit coordinate system manages coordinate values in the amount of pulses on the controller
	interface. The position command values that occur in the driver itself (test operation, auto-tuning operation,
	homing operation, jog move operation) are also processed based on these coordinate values. The command unit
	coordinate system has command values and current values, each of which are constantly updated and displayed
	in the #323 Command unit command value monitor and the #370 Command unit current value monitor,
	respectively.
5.3.2	Switching Position Command Pulse Weights
	The position command value instructed from the controller interface is given to the driver by any pair of the
	(PLS, SIGN), (UP, DOWN) and (A, B) signals, which is then reflected in the command unit command value.
	Normally, the pulse position command value inside the driver for a single pulse on the controller interface
	becomes the value set with the #207 Simplified scaling weighted data parameter. For example, if the setting
	value is 4, a single pulse on the controller interface will be equivalent to 4 pulses inside the driver.
	In addition, the command unit current value is output from the driver by either the (UP, DOWN) or (A, B) signal.
	The pulse position current value inside the driver for a single pulse on the controller interface always becomes
	the value set with the #207 Simplified scaling weighted data parameter. For example, if the setting value is 4,
	a single pulse on the controller interface will be equivalent to 4 pulses inside the driver.
	While the input signal “PLS_DIRECT” is on, the position command value instructed from the controller
	interface is independent of the value set with the #207 Simplified scaling weighted data parameter; a single
	pulse on the controller interface will be a single pulse inside the driver, instead. However, do not change the	5
	status of any of the (PLS, SIGN), (UP, DOWN) and (A, B) signals for 2 msec each before and after switching the	5

input signal “PLS_DIRECT” (off → on, on → off).

[Related parameters]

#207 Simplified scaling weighted data

5-9

Image 63

Parker Hannifin G2 Coordinate System, Mechanical Setting Mode, 5.3.1, 5.3.2, Switching Position Command Pulse Weights

Contents

p/n 88-020389-01 A Dynaserv G2 DriveUser Guide AutomationIntroduction Precautions for Using this Technical ManualWarning about electric shock Regarding the safe usage of this deviceWarnings Warning about rotationPrecautions Handling Precautions 13. Never attempt to disassemble or remodel the motor and driver. If such service is necessary, please contact us. We assume no responsibility for products that have been disassembled or remodeled without permission The core deviation should be 10 ∝mm or less Table of Contents Chapter FunctionsControl Interfaces ChapterChapter RS232C InterfacesChapter 8 DrvGII PC Utility @ Commands10-1 Chapter 10 Maintenance and InspectionChapter 11 Specifications Chapter 9 Operation Display Pendant1.1 About the DYNASERV DM/DR Series 1.2 About the DrvGII Type Driver 1.3 Product Configuration 1.4 Model Names and Codes1.5 Name and Function of Each Part 1.6 System Configuration Diagram Chapter Overview of the Product1.1 About the DYNASERV DM/DR Series 1 Overveiw of the Product1.2 About the DrvGII Type Driver 1 Overveiw of the Product 1.3 Product ConfigurationDriver part 2kW level With regenerative unit Connector for CN4 Regenerative terminal Connecto for CN2 Connector for CNA1.4 Model Names and Codes 1 Motor2 Driver series 1.5 Name and Function of Each Part1 Overveiw of the Product 1 Motor Part2 Driver part 500W level A model with regenerative terminal is shown2kW level A model with a regenerative terminal is shown 1 Overveiw of the Product 3 Details of the Front Panel of the DriverNote 1 All the items shown are of the contact I/O type CN2 - - CN3 Details of Setting Switches and Status Display LEDs1.6 System Configuration Diagram 1 Overveiw of the Product1-10 2.1 Installation of the Motor 2.2 Installation of the Driver Chapter Installation2.1 Installation of the Motor 2 InstallationAmbient air temperature during operation 2.2 Installation of the DriverShould not be installed in a sideways position Should not be installed upside down3.5 Wiring of Encoder Cable 3.6 Wiring of Controller Cable Chapter Connection and Wiring3.1 Diagram of Overall Connection 3.2 Cable Specification List 3.4 Wiring of Motor, AC Power Supply, and Ground Cable3.1 Diagram of Overall Connection 3 Connection and Wiringdiameter φ 14 mm or less, 10 m or less in length 3.2 Cable Specification List2 DM Series motors models other than the above 3.3 Connection between Motor and Driver3 Connection and Wiring 1 DM Series DM1004B/1004C motorsMotor cable 3 DR Series motorsDriver part Motor part3 Connection and Wiring 3.4 Wiring of Motor, AC Power Supply, and Ground CableCable 3.5 Wiring of Encoder Cable 3 Connection and WiringTerminal for CN2 3.6 Wiring of Controller Cable Made by Honda Tsushin Kogyo Connector PCR-S36FS Housing PCR-LS36LATerminal for CN4 Example of sensor connection sensor EE-SX670 manufactured by Omron 3.7 Wiring of Sensor Brake Terminal3 Connection and Wiring Electrical specificationsMade by Phoenix Contact plug MC1, 5/2-ST-5 Chapter 4 Basic Settings for Operating the Motor 4.1 Procedure Flowchart 4 Basic Settings for Operating the Motor4.2 Preoperation check INMODE.1 DrvGII CN4 I/O 24V Specification4 Basic Settings for Operating the Motor INMODE.0DrvGII CN4 I/O 5V Specification 4.3 Installing the PC Utility on the PC 4.3.1 Procedure4 Basic Settings for Operating the Motor Figure 4.3.3 “Setup Complete” dialog box Figure 4.3.2 “Select Program Folder” dialog boxNote Remove the floppy disk before restarting the computer Figure 4.3.5 “Version Information” dialog box 4.3.2 Startup4 Basic Settings for Operating the Motor “Startup”4.4 Preparation 4.4.1 Selecting Communication Port4.4.2 Selecting Channels 4-10 4.4.3 Displaying Communication Strings4 Basic Settings for Operating the Motor Figure 4.4.3 “Communication string” dialog box4.4.4 Main Menu Figure 4.4.4 “MainMenu” dialog box4-11 4 Basic Settings for Operating the Motor 4.5 Setting the Status to Servo ON3 Reset the driver according to the message in the dialog box Click OK4-13 4 Basic Settings for Operating the Motor 4.6 Auto-tuning3 Click Auto Tuning Start tuning starts MainMenu 4.7 Performing Homing Operation4 Basic Settings for Operating the Motor Click “Drive.” Click “Homing.”4 Click the “Start” button to start the homing operation 3 Set the “homing direction” in the “Homing” dialog box4.8 Performing the Basic Settings of Pulse Commands 4.8.1 About Position Command Pulse Input4 Basic Settings for Operating the Motor 4.8.2 Example of Operation Velocity pattern Example of operation4-19 5.3 Coordinate System Chapter Functions5.1 Parameters and Monitors 5.2 Operation Functions5.1.1 General Parameters 5.1.2 Mechanical Setting Parameters5 Functions 5.1 Parameters and Monitors5.2.1 Jog Move 5.2 Operation Functionswill oscillate 5.2.3 Auto-Tuning Operation5.2.2 Test Operation 5 Functions5.2.4 Homing Move 6 Home position move 5 Functions4 First home sensing move 5 Second home sensing moveHardware zero signal type Operation example Home position proximity signal5 Functions Operation example5.3.1 5.2.5 Mechanical Setting ModeSwitching Position Command Pulse Weights Coordinate System5.4 Control System 5 Functions5-10 Related parameters #51 Velocity control bandwidth 5.4.1 Velocity Control PartFrequency characteristics of the first order delay compensation device5.4.2 Position Control Part 5.4.3 Feed Forward5 Functions Related parameters #38 Servo stiffness settings 5.4.4 Servo Stiffness Parameter5.5 Acceleration/Deceleration Function 5.5.1 Velocity Override Function5 Functions Deceleration 5.5.2 Velocity ProfileAcceleration s-shaped, deceleration constant acceleration 5 Functions5.6.1 Settling Wait, Position Settling Status, and Positioning Status 5.6 Other Functions5.6.3 Brake Signal 5.6.2 Velocity Monitor and Analog Monitor5 Functions 5.7.1 Internal Generation of Parameter Initial Values 5.7 Special Parameter Processing5 Functions 5.7.4 Limiting the Maximum Parameter Values6.4 Operations 6.2 Position Command Pulse Input 6.3 Encoder Pulse OutputChapter Control Interfaces 6.1 Terminal Function6.1.1 Connection, Setting, and I/O Mapping 6 Control Interfaces6.1 Terminal Function 6.1.2 Explanation of Terminals 6 Control Interfaces 6.1.3 Electrical specificationsInterface power supply inputs COMP1, COMN1 Position command pulse inputs PUAIN ±, SDBIN ±Current limit analog input CRNTLMTIN ± 6.1.4 I/O logic setting6.2 Position Command Pulse Input 6.3 Encoder Pulse Output6 Control Interfaces 6.4 Operations 6.4.1 Starting an Operation6.4.2 Aborting an Operation Non-end type 6.4.3 Timing Charts6 Control Interfaces Self-end type In case of self-end6.5 Other Inputs 6.5.1 Pulse Weight Selection PLSDIRECT6.5.5 Disable Position Control Integral Operation PACT 6.5.6 Error reset ERRRESET6.5.7 Servo ON SERVO 6.5.8 Current Limit Input6 Control Interfaces Chapter RS232C Interfaces 7.1 Overview 7.2 Connection and Setting7.3 Communication Specifications 7.4 @ Commands 7.5 Parameter Commands7.2 Connection and Setting 7 RS232C Interfaces7.1 Overview Multi-channel Single channel and multi-channel 7.3 Communication Specifications7 RS232C Interfaces Communication parametersResponse character strings are classified as follows Transmission character stringResponse character string A response character string is structured as follows7.4.2 Stop @2 7.4 @ Commands7.4.4 Error reset @4 7.4.1 Start @3 FieldSoftware driver reset @96 7.4.5 Homing offset position setting @107.4.6 Jog move command @11 Field 7.4.7 Other convenient commands7 RS232C Interfaces 7.5 Parameter Commands8.3 Preparation 8.2 InstallationChapter DrvGII PC Utility 8.1 Overview8.1.2 Overview of the Action Menu 8 DrvGII PC Utility8.1 Overview 8.1.1 Overview of the Operation Menu8.2.1 Installation under Windows 95/98/98SE/Me/NT4.0/2000 8.2 InstallationFigure 8.3 “Setup Complete” dialog box 8 DrvGII PC UtilityFigure 8.2 “Select Program Folder” dialog box Figure 8.4 “Version Information” dialog box 8.2.2 Starting the PC Utility8 DrvGII PC Utility 8.3 Preparation8.3.1 Selecting a Communication Port 8.3.2 Selecting ChannelsFigure 8.7 “Communication string” dialog box 8.3.3 Displaying Communication Strings8.3.4 Main Menu 8 DrvGII PC UtilityFigure 8.8 “MainMenu” dialog box 8.4.1 Terminal 8.4 Operation Menu8-10 8 DrvGII PC Utility1 Parameter/monitor Figure 8.10 “Parameter Monitor” dialog boxDI status Red on Black off Gray nonexistent I/O point DO status 2 I/O monitorFigure 8.11 “I/O Monitor” dialog box 8-118 DrvGII PC Utility 3 Axis signal status displayFigure 8.12 “Axis signal status” dialog box 4 Error or alarm monitor Figure 8.13 “Error or Alarm” dialog box8-13 Figure 8.14 “Parameter/Monitor help” dialog box 6 Command helpFigure 8.15 “Command Help” dialog box 5 Parameter/monitor help8 DrvGII PC Utility 8.4.2 Servo TuningFigure 8.16 “Servo Tuning” dialog box 1 Auto-tuning 2 Manual tuningClicking the arrows at either end Figure 8.18 “Oscilloscope” dialog box 8.4.3 Oscilloscope8 DrvGII PC Utility The oscilloscope displays time-series of parameter/monitor values3 Select a trigger mode 8 DrvGII PC Utility 12 The displayed waveform can be reshaped using “Display position selection” and “Vertical axis range selection” in the Oscilloscope dialog box8.5 Action Menu Figure 8.20 “DriveMenu” dialog box8-19 8-20 8.5.1 Homing8 DrvGII PC Utility Figure 8.21 “Homing” dialog box 1 Editing parameters1 Set the motor to Servo ON see Chapter 8-22 8.5.2 Jog Move8 DrvGII PC Utility Figure 8.22 “JogMove” dialog box 1 Editing parameters8.5.3 Test Operation 8.6 Data Management Menus 8.6.1 Parameter Manager8 DrvGII PC Utility 8-25 1 Editing machine parametersFigure 8.24 “MachineParameterEdit” dialog box Editing 2 Uploading from the driver to a file3 Downloading from a file to the driver 4 Displaying the file contents5 Resetting the communication 8 DrvGII PC Utility8.6.2 I/O Set Figure 8.26 “I/O configuration” dialog box8-27 8 DrvGII PC Utility 5 Click “Set S.”Selection text field 1 Click “Download D” in the “I/O configuration” dialog box 8 DrvGII PC Utility 8.6.3 Pulse Set9.8 Special Command Display 9.1 Overview 9.2 Features and Part Names 9.3 Switching Displays9.4 Terminal Mode Display 9.5 Parameter Monitor Display 9.6 Parameter Settings Display 9.7 I/O Monitor DisplayTerminal mode display 9.2 Features and Part Names9 Operation Display Pendant 9.1 Overview#001+HOTErrEn -Set- DATA N/P 9.3 Switching Displays# S/+ =/ N/P #001+HOTErrEn -Mon- DATA N/P9.4 Terminal Mode Display 9 Operation Display PendantS / + D A T A 9.5 Parameter Monitor Display# 0 0 1 + H O T E r r E n M o n9.6 Parameter Settings Display 9 Operation Display Pendant+ H O T E r r E n S E L 9.7 I/O Monitor DisplayP L C I / OS p c 9.8 Special Command Display9 Operation Display Pendant C M D R e f E r r S t s10.3 Replacing the Battery for Memory Backup Chapter Maintenance and Inspection10.1 Maintenance and Inspection of the Motor Part 10.2 Maintenance and Inspection of the Driver Part10.3 Replacing the Battery for Memory Backup 10 Maintenance and Inspection10.1 Maintenance and Inspection of the Motor Part 10.2 Maintenance and Inspection of the Driver Part10.4.1 Backup Operation 10.4 Backup and Restore Operations of Driver Memory Contents10 Maintenance and Inspection 10.4.2 Restore Operation10.5 Motor Problems and Corrective Actions 11-1 Chapter Specifications11.1 Standard Specifications 11.2 Torque - Speed Characteristics 11.3 External Dimensions Unit mm11-2 11 Specifications11.1 Standard Specifications 1 DM Series MotorNote A/Absolute accuracy ±20 sec, B/Absolute accuracy ±60 sec 11-311 Specifications 2 DR Series Motor11-4 Unit 11-53 DR/5000 Series Motor 11 Specifications4 Motor Environment Specification 5 Driver Part General Specifications11-7 6 Driver Function Specifications2 DR Series 11.2 Torque - Speed Characteristics11 Specifications 1 DM Series2 Type B 11.3 External Dimensions Unit mm1 DM Series Motor 1 Type A2 Type E 3 Type B 11 Specifications2 DR Series Motor 1 Type A2 U!!!!!!!L 3 Driver Section1 U!!!!!!!A/B 500W, Type B is shown in the figure11-12 11 Specifications3 U!!!!!!!K 2kW level with regenerative unitAverage velocity/current duty 1 Restrictions on the motor11-13 Motor current No. of motor revolutionsMaximum velocity Velocity Time 11 Specifications2 Restrictions on the driver 11-14Minimum value Parameter ListParameter No Parameter nameParameter No Value causing an error detection in the +Brake turn OFF delay time upon Servo ON Over-travel error function in the + directionUnit Parameter nameMaximum value Initial valueParameter details Specify the velocity when executing over-travel signal search move in homing mode. This parameter is invalid if the over-travel signal search is not executed 0 - direction 1 + direction Velocity control width 30Hz 46 Position settling pulse width Specify the limiter value of the position error integrator in the axis position control section. Specify a smaller value when a wind-up condition occurs during axis operation. This parameter is set automatically by either executing auto- tuning operation or changing the servo stiffness settings parameter The check cycle is 2 msec Analog monitor selection 0 6.55V / 4194304 pulses 1 6.55V / 2097152 pulses 91 TBXEMG Servo status 94 Position command differential value excessive error Over-travel error function in the - direction processing 0 Do not use 1 Use 0 Do not perform 1 Perform 219 Velocity feedback filter use 227 Over-speed error processing type 229 Excessive position deviation error processing type Unit Monitor ListMonitor No Monitor name355 Monitor resolution 356 Digital velocity sensitivity Monitor detail 320 Pulse position command value Unit pulse 338 Zero signal status Unit None 349 Multi-channel communication slave code Unit None 347 Operation mode number Unit None355 Monitor resolution 348 Multi-channel communication status Unit None367 Velocity deviation digital Unit 1/16 digit 363 Velocity command value digital Unit 1/16 digit368 Current command value D/A Unit digit 361 Velocity ratio gain Unit x 1/100374 Acceleration feed forward command value Unit digit 390 Motor linear coordinate command differential value Unit pulse/∆T Name Error/Alarm ListError No STD1BatteryAlarm Error/Alarm DetailsMemoryError InterfaceBoardErrorError number SlaveDriveError CoordinateErrorACoordinateErrorB MonitorPulseErrorError number ServoNotReady Error number Error number Error number IllegalDevice DeviceConflict Error numberDevice conflict Long