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SINUMERIK 810D first page preview

SINUMERIK 810D

Brand: Siemens | Category: Control Unit
Table of contents
  1. technical support
  2. safety instructions
  3. Table Of Contents
  4. Table Of Contents
  5. Table Of Contents
  6. Table of Contents
  7. Programming Basics
  8. Switchover
  9. Decimal point programming
  10. Comments
  11. Basics of feed function
  12. F1-digit feed
  13. Feed per minute function (G94)
  15. Commands Calling
  16. Linear interpolation (G01)
  17. Circular interpolation (G02, G03)
  18. end point
  19. Helical interpolation (G02, G03)
  20. Reference point return
  21. Reference point return check (G27)
  22. Second to fourth reference point return (G30)
  23. Movement Control Commands
  24. Machine coordinate system (G53)
  25. Workpiece coordinate system (G92)
  26. Resetting the work (G92.1)
  27. Local coordinate system (G52)
  28. Plane selection (G17, G18, G19)
  29. Rotation of coordinate system (G68, G69)
  30. D rotation G68 / G69
  31. Determining the coordinate value input modes
  32. Inch/Metric input designation (G20, G21)
  33. Scaling (G50, G51)
  34. Programmable mirror image (G50.1, G51.1)
  35. G60: Oriented positioning
  36. Time-controlling commands
  37. Cutting feedrate control
  38. Compressor in ISO dialect mode
  39. Exact stop (G09, G61), cutting mode (G64), tapping mode (G63)
  40. Tool offset functions
  41. Cutter radius compensation (G40, G41, G42)
  42. Collision monitoring
  43. S, T, M, and B functions
  44. Tool function (T function)
  45. Internally processed M codes
  46. General purpose M codes
  47. Enhanced Level
  48. Index
  49. High--speed peck drilling cycle (G73)
  50. Fine boring cycle (G76)
  51. Drilling cycle, spot drilling (G81)
  52. Drilling cycle, counter boring cycle (G82)
  53. Peck drilling cycle (G83)
  54. Boring cycle (G85)
  55. Boring cycle (G86)
  56. Boring cycle, back boring cycle (G87)
  57. Drilling cycle (G89), retract using G01
  58. Rigid tapping cycle (G84)
  59. Left--handed rigid tapping cycle (G74)
  60. Peck tapping cycle (G84 or G74)
  61. Canned cycle cancel (G80)
  62. Program example using tool length offset and canned cycles
  63. Multiple threads with G33
  64. Threads with variable lead (G34)
  65. Programmable data input (G10)
  66. Subprogram call up function (M98, M99)
  67. Eight--digit program number
  68. Polar coordinate command (G15, G16)
  69. Polar coordinate interpolation (G12.1, G13.1)
  70. Cylindrical interpolation (G07.1)
  71. Program support functions (2)
  72. Chamfering and corner rounding commands
  73. Automating support functions
  74. Multistage skip (G31, P1 -- P4)
  75. Program interrupt function (M96, M97)
  76. Tool life control function
  77. Macroprograms
  78. Macro Call via G Function
  79. Additional functions
  80. Switchover modes for DryRun and skip levels
  81. Interrupt programm with M96 / M97 (ASUB)
  82. C.1 G code table
  83. D.1 Machine/Setting data
  84. D.2 Channel-specific machine data
  85. D.3 Axis-specific setting data
  86. D.4 Channel-specific setting data
  87. E.1 Machine data
  88. E.2 Setting data
  89. E.3 Variables
SINUMERIK 810D first page preview

SINUMERIK 810D

Brand: Siemens | Category: Controller
Table of contents
  1. Table Of Contents
  2. Table Of Contents
  3. Table Of Contents
  4. Table of Contents
  5. Programming Basics
  6. Switchover
  7. Selection of G code system A, B, or C
  8. Comments
  9. Block skip
  10. Basics of feed function
  12. Commands Calling
  13. Linear interpolation (G01)
  14. Circular interpolation (G02, G03)
  15. Cylindrical interpolation (G07.1)
  16. Polar coordinate interpolation (G12.1, G13.1)
  17. Using the thread cutting function
  18. Continuous thread cutting
  19. Multiple-thread cutting (G33)
  20. Variable lead thread cutting (G34)
  21. Reference point return
  22. Reference point return check (G27)
  23. Second to fourth reference point return (G30)
  24. Rapid lift with G10.6
  25. Tool retract (G10.6)
  26. Movement Control Commands
  27. Machine coordinate system (G53)
  28. Workpiece coordinate system (G92)
  29. How to select a workpiece coordinate system
  30. Determining the coordinate value input modes
  31. Diametric and radial commands for X-axis
  32. Inch/metric input designation (G20, G21)
  33. G60: Oriented positioning
  34. Time-controlling commands
  35. Tool offset functions
  36. Spindle function (S function)
  37. Constant surface speed control (G96, G97)
  38. Tool function (T function)
  39. Internally processed M codes
  40. General purpose M codes
  41. Enhanced Level
  42. Multiple repetitive cycles
  43. Hole-machining canned cycles (G80 to G89)
  44. Program support functions (2)
  45. Subprogram call up function (M98, M99)
  46. Eight-digit program number
  47. Automating support functions
  48. Multistage skip (G31, P1--P2)
  49. Macroprograms
  50. Index
  51. Advanced functions
  52. Polygonal turning
  53. Compressor in ISO dialect mode
  54. Switchover modes for DryRun and skip levels
  55. Interrupt programm with M96 / M97 (ASUP)
  56. C.1 G code table
  57. D.1 Machine/Setting Data
  58. D.2 Channel-specific machine data
  59. D.3 Axis-specific setting data
  60. D.4 Channel-specific setting data
  61. E.1 Machine data
  62. E.2 Setting data
SINUMERIK 810D first page preview

SINUMERIK 810D

Brand: Siemens | Category: Measuring Instruments
Table of contents
  1. Preface
  2. Table Of Contents
  3. Table Of Contents
  4. Table Of Contents
  5. Table Of Contents
  6. Table Of Contents
  7. Table Of Contents
  8. Basics
  9. General prerequisites
  10. Behavior on block search, dry run, program testing, simulation
  11. Reference points on the machine and workpiece
  12. Definition of the planes, tool types
  13. Probes that can be used
  14. Probe, calibration body, calibration tool
  15. Measuring tools on milling machines, machining centers
  16. Measuring workpieces at the turning machines
  17. Measuring tools at lathes
  18. Measurement principle
  19. Measuring strategy for measuring workpieces with tool offset
  20. Parameters for checking the measurement result and offset
  21. Effect of empirical value, mean value, and tolerance parameters
  22. Overview of measuring cycle functions for milling technology
  23. Calibrating workpiece probes
  24. Workpiece measurement at one point
  25. Measuring the workpiece parallel to the axis
  26. Measuring a workpiece at an angle
  27. Measuring a surface at an angle
  28. Measuring spheres
  29. Workpiece measurement: Setting-up a corner
  30. Overview of measuring cycle functions for turning technology
  32. Measuring workpieces at lathes: 1-point measurement
  33. Measuring workpieces at lathes: 2-point measurement
  34. Parameter concept of the measuring cycles
  35. Parameter overview
  36. Result parameters
  37. Description of the most important defining parameters
  38. Tool number and tool name: _TNUM and _TNAME
  39. Offset number: _KNUM
  40. Offset number _KNUM extended for tool offset: up to 9 digits
  41. Correcting setup and additive offset in workpiece measurement: _DLNUM
  42. Correcting the tool of a stored tool environment: _TENV
  43. Variable measuring velocity: _VMS
  44. Tolerance parameters: _TZL, _TMV, _TUL, _TLL, _TDIF and _TSA
  45. Measurement path: _FA
  46. Probe type, probe number: _PRNUM
  47. Empirical value, mean value: _EVNUM
  48. Multiple measurement at the same location: _NMSP
  49. Package structure of the measuring cycles
  50. Measuring cycle subroutines
  51. CYCLE116: Calculation of center point and radius of a circle
  52. Measuring cycle user programs
  53. Measuring in JOG
  55. Overview of the auxiliary programs required
  56. CYCLE971 tool: Measuring milling tools, drills
  57. Measurement and correction strategy
  58. Compensation strategy
  59. Compensation with correction table when measuring with rotating spindle
  60. Calibrating tool probes
  61. Programming example 1
  62. Programming example 2
  63. Operational sequence
  64. Calibrating tool probes automatically
  65. Programming example
  67. Measuring tool
  68. Programming examples 1
  71. CYCLE976 calibrate workpiece probe
  72. Calibrating a workpiece probe in a hole of known hole center point
  75. Calibrating a workpiece probe in a hole of unknown hole center point
  78. Calibration of a workpiece probe on a surface
  83. CYCLE977 workpiece: Measure hole/shaft/groove/web/rectangle parallel to axes
  84. Measuring contour elements
  87. Measuring and tool offset
  89. Measurement and ZO determination
  91. CYCLE978 workpiece: Measuring a surface parallel to the axis
  92. Measuring the surface
  97. CYCLE979 workpiece: Measure hole/shaft/groove/rib at an angle
  98. Measure shaft, groove, web
  104. CYCLE998 workpiece: Angle measurement and ZO determination
  105. angle measurement
  112. CYCLE961 workpiece: Setup inside and outside corner
  113. Setting up a corner with definition of distances and angles
  116. Setting up a corner with 4 points
  119. CYCLE997 workpiece: Measuring a sphere and ZO determination
  122. Programming example CYCLE997
  123. CYCLE119: Arithmetic cycle for determining position in space
  125. CYCLE996 workpiece: Measure kinematics
  126. Measurement procedure
  127. Measuring an individual ball position
  128. Example of the procedure to measure the kinematics (CYCLE996)
  129. Activation of the function
  130. Programming via a screen form
  131. Parameters of "1st, 2nd, 3rd measurement" screen form
  132. Parameters of "Calculate kinematics" screen form
  133. Result bit
  134. Result parameters, intermediate results
  135. Programmable adjustable parameters
  137. Measuring Cycles for Turning Machines
  138. Call and return conditions
  139. CYCLE982 Tool: Measure turning tools
  140. Calibrate tool probe (machine-related)
  141. Determining dimensions of calibration
  142. Measure turning tool (machine-related)
  143. CYCLE982 tool: Measure turning and milling tools
  146. Automatic tool measurement
  147. Incremental calibration
  148. Incremental measurement
  149. Milling tool: Suppression of start angle positioning _STA1
  150. Measuring drills - Special applications
  151. Measuring a tool with orientational tool carriers - 90° multiples of tool position (measuring cycle release SW 6.3 and higher)
  152. Measuring turning tools - 90° multiples of the tool position
  153. Measuring milling/drilling tools - 90° multiples of the tool position
  154. CYCLE973 Calibrating workpiece probes
  155. Calibrating in the reference groove
  160. CYCLE974 workpiece: 1-point measurement
  161. point measurement and ZO determination
  166. point measurement with reversal and tool offset
  168. CYCLE994 workpiece: 2-point measurement
  171. Complex example for tool measurement
  172. Log measurement results
  173. Measuring cycle support in the program editor
  174. Menus, explanation of the cycles
  175. Softkey bars for turning
  176. Softkey bars for milling
  178. Presetting measuring cycle support in HMI sl
  179. Measuring result screens
  180. Hardware/software
  181. Software prerequisites for HMI sl
  182. Function check for HMI sl
  183. Data description
  184. Cycle data
  185. Data adjustment to a specific machine
  186. Central values
  187. Central bits
  188. Detailed description
  189. Channel-oriented values
  190. Channel-oriented bits
  192. Data for measuring in JOG
  193. Start-up (hardware)
  194. Alarm, error, and system messages
  195. parameters as of measuring cycles version 2.6, with reference to measuring function
  196. A.2 GUD variables that can no longer be used
  197. A.3 Changes to names of cycle programs and GUD modules
  198. A.4 Overview of measuring cycle parameters
  199. list of abbreviations
  200. E Overview
  201. Glossary
  202. Index
SINUMERIK 810D first page preview

SINUMERIK 810D

Brand: Siemens | Category: Controller
Table of contents
  1. NCU system software for 840D sl/840DE sl
  2. Cycle Times (G3)
  3. Contour Tunnel Monitoring
  4. Axis Couplings and ESR
  5. Setpoint Exchange (S9)
  6. Tangential Control (T3)
  7. Installation and Activation of
  8. Simulation of Compile Cycles (TE02)
  9. Clearance Control (TE1)
  10. Analog Axis (TE2)
  11. Handling Transformation
  12. MCS Coupling (TE6)
  13. Retrace Support (TE7)
  14. Cycle-Independent Path
  15. Preprocessing (V2)
  16. Path length evaluation (W6)
  17. Gantry Axes (G1
  19. Synchronous Signal Output
SINUMERIK 810D first page preview

SINUMERIK 810D

Brand: Siemens | Category: Controller
Table of contents
  1. Table Of Contents
  2. Table Of Contents
  3. Table Of Contents
  4. Table Of Contents
  5. Table Of Contents
  6. Table Of Contents
  7. Table Of Contents
  8. Table Of Contents
  9. Table Of Contents
  10. DNC Plant/DNC Cell (FBDN1)
  11. Introduction
  12. Product description
  13. MCIS for machine tools
  14. DNC NC program management
  15. Fields of application and system variants
  16. DNC HMI
  17. DNC Cell
  18. DNC IFC SINUMERIK
  19. DNC IFC Serial
  20. Plant structure
  21. Plant topology
  22. DNC functions on hardware components
  23. Station PC
  24. Controller
  25. Operator interface
  26. Explorer layout for DNC and DNC Admin
  27. Table 3-1: DNC and DNC Admin menu
  28. Fig. 3-2: Toolbar on the user interface
  29. Fig. 3-4: Quick filter bar on the user interface
  30. Display formats
  31. Operation
  32. View filter
  33. Creating or changing filters
  34. Table 3-4: Filter operands
  35. Saving the filter criteria
  36. Examples of the view filter
  37. User-specific tree view
  38. Print function
  39. Print preview
  40. Printing
  41. Creating a CSV file
  42. NC data management
  43. Maintenance functions
  44. Fig. 4-1: NC data properties / tab: General
  45. Fig. 4-2: NC data properties / tab: Information
  46. Fig. 4-3: NC data properties / tab: Attachments
  47. Fig. 4-4: Machine properties / tab: Configuration
  48. Importing NC data
  49. Fig. 4-5: Dialog: Confirm file import
  50. Table 4-2: Import file with header
  51. Table 4-3: Structure of the import file for an automatic import
  52. Editing NC data
  53. Download/upload functions
  54. Fig. 4-8: Indication of download/upload functions in DNC
  55. Downloading NC data
  56. Downloading NC data to SINUMERIK* with DNC IFC SINUMERIK
  57. Uploading NC data
  58. Fig. 4-12: Cancel upload (data reception)
  59. Uploading NC data from SINUMERIK*
  60. Version management and release / trial cut identifier
  61. Fig. 4-14: Delete Version dialog
  62. Release / trial cut identifier
  63. DNC Compare
  64. Table 4-4: Sample file for a comparison result
  65. Individual NC data comparison
  66. Print function for the individual NC data comparison
  67. Fig. 4-17: Example of a printout of all the results of the individual NC data comparison
  68. Archiving (manual)
  69. Archive results
  70. Displaying archive results
  71. Data organization
  72. Fig. 4-19: Database structure of the machines, NC and NC type data
  73. Table 4-6: DNCDATA database table
  74. Table 4-7: DNCDATATYPE database table
  75. File system
  76. Consistency check
  77. Consistency check when DNC Admin is started
  78. Consistency Check dialog
  79. Fig. 4-23: Consistency Check dialog: Missing files
  80. Fig. 4-24: Consistency Check dialog: Missing database entries for NC data
  81. Fig. 4-25: Consistency Check dialog: Missing database entries for directories
  82. Fig. 4-26: Consistency Check dialog: Missing workpieces in the workpiece table of the database
  83. User administration
  84. Structure of the user administration
  86. Creating new users / changing user properties
  87. Assigning filters for users
  88. Managing user groups
  90. Name of the user group
  91. User rights
  92. Display group
  93. Dialog function
  94. General information about the dialog function
  95. Dialog program
  96. Examples
  97. Dialog program responses
  98. Configuration parameters
  99. Code conversion function
  100. Code conversion
  102. Code conversion tables
  103. Table 7-5: Code conversion table: EIA_OUT
  104. Table 7-7: Code conversion table: ISO_OUT
  105. System platform
  106. Hardware
  107. Requirements for DNC Plant
  108. Software
  110. Software structure
  112. Machine server
  113. External dialog interpreter
  114. Configuration
  115. General
  116. Differences
  117. Defining the station name and type
  119. Machine connections
  120. Fig. 10-3: DNC Plant: Machine properties transmission mode: Serial without protocol
  121. Fig. 10-4: DNC Cell: Machine properties transmission mode: SINUMERIK*
  122. Machine configuration files
  123. Table 10-2: Controller types for machine configuration file templates
  124. Fig. 10-5: Template selection for serial transmission without protocol
  125. Configuration for the serial connection without protocol
  126. Fig. 10-7: Config dialog / tab: Machine Server
  127. Fig. 10-8: Config dialog / tab: Code Conversion Server
  128. Fig. 10-9: Config dialog / tab: Interface
  129. Table 10-3: Parity of the serial interface
  130. Table 10-4: Flow control of the serial interface
  131. Fig. 10-10: Config dialog / tab: Send
  132. Table 10-6: Comment during transmission
  133. Table 10-7: End-of-line character conversion during download
  134. Fig. 10-11: Config dialog / Receive tab page
  135. Fig. 10-12: Config dialog / Dialog Function tab page
  136. Fig. 10-13: Config dialog / Data Stream Interpretation tab page
  137. Table 10-8: Data stream interpretation: Interpretation mode: NCSplit parameter
  138. Table 10-10: Example: Data stream interpretation
  139. Table 10-11: Example of a standard machine configuration file for serial connection without protocol
  140. Configuration dialog for the SINUMERIK* connection type
  141. Fig. 10-15: Config dialog SINUMERIK* / FTP tab page
  142. Fig. 10-16: Config dialog SINUMERIK* / Upload Dialog tab page
  143. Fig. 10-17: Config dialog SINUMERIK* / Comparison Directories tab page
  144. Fig. 10-18: Config dialog SINUMERIK* / Job Archive Server tab page
  145. Fig. 10-19: Config dialog SINUMERIK* / Remote Login tab page
  146. Table 10-12: Example of a standard machine configuration file for the SINUMERIK connection type
  147. Configuration for the file system connection type
  148. Table 10-13: Example of a standard machine configuration file for the file system connection type
  149. Dialog function configuration dialog
  150. Fig. 10-22: List description for dialog function lists
  151. Fig. 10-23: Response list for a dialog function request
  152. Fig. 10-24: Communication error on machine server with the dialog function
  153. Configuration dialog for the tool setting device
  154. Editing database tables
  155. Global settings
  156. Version strategy for upload
  157. Storage strategy for editing
  158. Machine-specific version management
  159. List editor
  160. Fig. 10-27: List Editor
  161. Description of the 1st section of the List Editor
  162. Description of the 2nd section of the List Editor
  163. Fig. 10-29: Left-hand section of the List Editor (2nd section)
  164. Screen editor
  165. Fig. 10-31: Screen Editor preview
  166. Description of the 1st section of the Screen Editor
  167. Description of the 2nd section of the Screen Editor
  168. Table 10-18: Field types
  169. Fig. 10-34: Screen Editor – field names
  170. Fig. 10-35: Screen Editor - coordinates
  171. Fig. 10-37: Screen Editor - length
  172. Saving the screen display in the database
  173. Fig. 10-38: Order number of the fields in the screen output
  174. Error management
  176. Displaying the messages
  177. Filtering log data
  178. Deleting errors/messages
  179. Separate execution sequence log
  180. Auto archiving
  181. Function of DNC Auto Archive
  183. Configuring the auto archive function
  184. Configuration in DNC Admin
  185. Configuration in the machine configuration file
  186. Backing up NC active controller data
  187. Fig. 12-3: Dialog for selecting data areas
  188. Start parameters for auto archive
  189. Starting the auto archive function automatically
  190. Comparison results
  191. I.1 Keyword index
SINUMERIK 810D first page preview

SINUMERIK 810D

Brand: Siemens | Category: Control Unit
Table of contents
  1. Foreword
  2. Table Of Contents
  3. Table Of Contents
  4. Table Of Contents
  5. Brief description
  6. Components of synchronized actions
  7. Definition of motion-synchronous actions
  8. Real-time evaluations and calculations
  9. Special real-time variables for synchronized actions
  10. Marker/counter variables
  11. Timers
  12. Synchronized action parameters
  13. R parameters
  14. FIFO variables (circulating memory)
  15. System variables saved in SRAM (SW 6.3 and later)
  16. Determining the path tangent in synchronized actions
  17. Determining the current override
  18. Capacity evaluation using time requirement for synchronized actions
  19. List of system variables relevant to synchronized actions
  20. Actions in synchronized actions
  21. Output of M, S and H auxiliary functions to the PLC
  22. Setting (writing) and reading of real-time variables
  23. Changing of SW cam positions and times (setting data)
  24. FCTDEF
  25. Polynomial evaluation SYNFCT
  26. Overlaid movements $AA_OFF settable (SW 6 and later)
  27. Online tool offset FTOC
  28. Online tool length offset $AA_TOFF[Index]
  29. RDISABLE
  30. DELDTG
  31. Disabling a programmed axis motion
  32. Starting command axes
  33. Axial feedrate from synchronized actions
  34. Starting/Stopping axes from synchronized actions
  35. Axis replacement from synchronized actions
  36. Spindle motions from synchronized actions
  37. Setting actual values from synchronized actions
  38. Activating/deactivating coupled motions and couplings
  39. Measurements from synchronized actions
  40. Setting and deleting wait markers for channel synchronization
  41. Set alarm/error reactions
  42. Evaluating data for machine maintenance
  43. Call of Technology Cycles
  44. Coordination of synchronized actions, technology cycles, part program (and PLC)
  45. Control and protection of synchronized actions
  46. Protected synchronized actions
  47. Control system response for synchronized actions in specific operational states
  48. NC STOP
  49. Mode change
  50. Response of active synchronized actions to end of program and change in operating mode
  51. Program interruption by ASUB
  52. Configuration
  53. Diagnostics (only with HMI Advanced)
  54. Displaying status of synchronized actions
  55. Displaying main run variables
  56. Boundary conditions
  57. Signal Descriptions
  58. Examples of conditions in synchronized actions
  59. Reading and writing of SD/MD from synchronized actions
  60. Examples of adaptive control
  61. Clearance control with variable upper limit
  62. Feedrate control
  63. Control velocity as a function of normalized path
  64. Monitoring a safety clearance between two axes
  65. Store execution times in R parameters
  66. Axis couplings via synchronized actions
  67. Non-circular grinding via master value coupling
  68. On-the-fly parting
  69. Technology cycles position spindle
  70. Synchronized actions in the TC/MC area
  71. Machine data
  72. Axis-specific machine data
  73. Signals
  74. A.1 Publication-specific information
  75. A.1.2 Overview
  76. Index
SINUMERIK 810D first page preview

SINUMERIK 810D

Brand: Siemens | Category: Control Unit
Table of contents
  1. Table Of Contents
  2. Brief Description
  3. Detailed Description
  4. Ready signals to PLC
  5. Alarm signals to PLC
  6. Signals to/from panel front
  7. Index
  8. Signals to channel
  9. Signals from axis/spindle
  10. Signals to axis/spindle (digital drives)
  11. Signals from axis/spindle (digital drives)
  12. Functions
  13. Settings for involute interpolation
  14. Activate DEFAULT memory
  15. Supplementary Conditions
  16. Access protection via password and keyswitch
  17. Password
  18. Keyswitch settings (DB10, DBX56.4 to 7)
  19. Parameterizable protection levels
  20. Data Lists
  21. NC-specific machine data
  22. Channelspecific machine data
  23. System variables
  26. Signals to operator panel front
  27. Signals from operator panel front
  28. channel status
SINUMERIK 810D first page preview

SINUMERIK 810D

Brand: Siemens | Category: Control Systems
Table of contents
  1. Expanding the Operator Interface (BE1)
  3. HMI Advanced
  4. Function...........................................................................................................................BE1/2
  5. Arrays ..............................................................................................................................BE1/3
  6. Function ...............................................................................................................................BE1/3
  8. MDA...............................................................................................................................BE1/5
  9. Program.........................................................................................................................BE1/5
  11. error messages
SINUMERIK 810D first page preview

SINUMERIK 810D

Brand: Siemens | Category: Control Unit
Table of contents
  1. Table Of Contents
  2. Table Of Contents
  3. Table Of Contents
  4. Table Of Contents
  5. Table Of Contents
  6. Table Of Contents
  7. Table Of Contents
  8. Table Of Contents
  9. Table Of Contents
  10. Basics
  11. General prerequisites
  12. Behavior on block search, dry run, program testing, simulation
  13. Reference points on the machine and workpiece
  14. Definition of the planes, tool types
  15. Probes that can be used
  16. Probe, calibration body, calibration tool
  17. Measuring tools on milling machines, machining centers
  18. Measuring workpieces at the turning machines
  19. Measuring tools at lathes
  20. Measurement principle
  21. Measuring strategy for measuring workpieces with tool offset
  22. Parameters for checking the measurement result and offset
  23. Effect of empirical value, mean value, and tolerance parameters
  24. Overview of measuring cycle functions for milling technology
  25. Calibrating workpiece probes
  26. Measuring the workpiece parallel to the axis
  27. Measuring a workpiece at an angle
  28. Measuring a surface at an angle
  29. Measuring spheres
  30. Workpiece measurement: Setting-up a corner
  31. Overview of measuring cycle functions for turning technology
  33. Measuring workpieces at lathes: 1-point measurement
  34. Measuring workpieces at lathes: 2-point measurement
  35. Parameter concept of the measuring cycles
  36. Parameter overview
  37. Result parameters
  38. Description of the most important defining parameters
  39. Tool number and tool name: _TNUM and _TNAME
  40. Offset number: _KNUM
  41. Offset number _KNUM extended for tool offset: up to 9 digits
  42. Correcting setup and additive offset in workpiece measurement: _DLNUM
  43. Correcting the tool of a stored tool environment: _TENV
  44. Variable measuring velocity: _VMS
  45. Tolerance parameters: _TZL, _TMV, _TUL, _TLL, _TDIF and _TSA
  46. Measurement path: _FA
  47. Probe type, probe number: _PRNUM
  48. Empirical value, mean value: _EVNUM
  49. Multiple measurement at the same location: _NMSP
  50. Measuring cycle subroutines
  51. CYCLE116: Calculation of center point and radius of a circle
  52. Measuring cycle user programs
  53. Package structure of the measuring cycles
  54. Overview
  55. Workpiece measurement
  56. Function interface of the measuring point softkeys (P1...P4)", in the PLC
  57. Measuring in JOG with active TRAORI
  58. Calibrating the workpiece probe
  59. Calibrating probe length
  60. Calibrating probe radius
  61. Measure edge
  62. Setting the edge
  63. Orienting the edge
  64. Distance 2 edges
  65. Measuring corner
  66. Right-angled corner
  67. Any corner
  68. Measuring pocket, hole or spigot
  69. Rectangular pocket or 1 hole or 1 spigot
  70. holes or 2 circular spigots
  71. holes or 3 circular spigots
  72. holes or 4 circular spigots
  73. Align plane
  74. Measuring a plane that is oblique in space
  75. Rejection, repetition, end of measurement
  76. Cascaded measurement
  77. Support of set-up in JOG - after measurement
  78. Example 1
  79. Example 2
  80. Measuring the tool
  81. Measuring milling or drilling tools
  83. Overview of the auxiliary programs required
  84. CYCLE971 tool: Measuring milling tools, drills
  85. Measurement and correction strategy
  86. Compensation strategy
  87. Compensation with correction table when measuring with rotating spindle
  88. Calibrating tool probes
  89. Programming example 1
  90. Programming example 2
  91. Operational sequence
  92. Calibrating tool probes automatically
  93. Programming example
  95. Measuring tool
  96. Programming examples 1
  99. CYCLE976 calibrate workpiece probe
  100. Calibrating a workpiece probe in a hole of known hole center point
  103. Calibrating a workpiece probe in a hole of unknown hole center point
  106. Calibration of a workpiece probe on a surface
  111. CYCLE977 workpiece: Measure hole/shaft/groove/web/rectangle parallel to axes
  112. Measuring contour elements
  115. Measuring and tool offset
  117. Measurement and ZO determination
  119. CYCLE978 workpiece: Measuring a surface parallel to the axis
  120. Measuring the surface
  125. CYCLE979 workpiece: Measure hole/shaft/groove/rib at an angle
  126. Measure shaft, groove, web
  132. CYCLE998 workpiece: Angle measurement and ZO determination
  133. angle measurement
  140. CYCLE961 workpiece: Setup inside and outside corner
  141. Setting up a corner with definition of distances and angles
  144. Setting up a corner with 4 points
  147. CYCLE997 workpiece: Measuring a sphere and ZO determination
  150. Programming example CYCLE997
  151. CYCLE119: Arithmetic cycle for determining position in space
  154. Call and return conditions
  155. CYCLE982, CYCLE972 Tool: Measure turning tools
  156. Calibrate tool probe (machine-related)
  159. Determining dimensions of calibration
  160. Measure turning tool (machine-related)
  163. CYCLE982 tool: Measure turning and milling tools
  164. Special aspects with milling tools
  165. Measuring variants
  172. Automatic tool measurement
  174. Incremental calibration
  177. Incremental measurement
  180. Milling tool: Suppression of start angle positioning _STA1
  181. Measuring drills – special applications (from measuring cycles SW 6.3)
  182. CYCLE973 Calibrating workpiece probes
  183. Calibrating in the reference groove
  188. CYCLE974 workpiece: 1-point measurement
  189. point measurement and ZO determination
  195. CYCLE994 workpiece: 2-point measurement
  198. Complex example for tool measurement
  199. Log measurement results
  200. Handling the log cycles
  201. CYCLE105(PAR1) Creating log content
  202. Programming example for formatting a single number
  203. Variables when logging
  204. Selection of the log content
  205. Log format
  206. Log header
  207. Example: Creating a measurement result log
  208. Measuring cycle support in the program editor (up to measuring cycles SW 5.4)
  209. Load the measuring cycle support
  210. Description of the parameterizing cycles
  211. Calibrate tool probe - CYCLE_CAL_TOOLSETTER
  212. Calibration in groove - CYCLE_973
  213. Measuring milling tools - CYCLE_971
  214. Hole, measure shaft – CYCLE_977_979A
  215. Measure rectangle - CYCLE_977_979C
  216. Single-point measurement - CYCLE_978
  217. Corner measurement with specification of points - CYCLE_961_P
  218. Single-point measurement - CYCLE_974
  219. Two-point measurement - CYCLE_994
  220. Measuring cycle support in the program editor (from measuring cycles SW 6.2)
  221. Softkey bars for turning
  222. Softkey bars for milling
  224. Pre-setting of the measuring cycle support
  225. Measuring result screens
  226. Hardware/software
  227. SINUMERIK 840D sl (solution line) probe connection to X122, NCU 7x0
  228. Measuring in JOG
  229. Function test
  230. Data description
  231. Memory configuring machine data, SRAM
  232. Memory configuring machine data, DRAM
  233. Other machine data
  234. Cycle data
  235. Data adjustment to a specific machine
  236. Central values
  237. Central bits
  238. Detailed description
  239. Central strings
  240. Channel-oriented values
  241. Channel-oriented bits
  243. Data for measuring in JOG
  244. Modifying the GUD7 data block
  245. Settings in data block GUD6
  246. Loading files for measuring in JOG
  247. Commissioning measuring cycles for the first time
  248. Steps for commissioning measuring cycles for the first time
  249. Step 0.3 - set up machine data for measuring in JOG
  250. and/or SW 06.04.08
  251. Step 2 – load cycle programs
  252. Step 3 – load measuring cycle text files
  253. Step 6 – activate measuring cycle support, configure
  254. Step 8 – set measuring cycle data
  255. Step 4 – menu tree for extending measuring cycles
  256. Step 5 – configure measuring cycle support
  257. Step 7 – incorporate files for measurement result display
  258. Step 9 – incorporate displays for measuring cycle support
  259. Commissioning measuring cycles, HMI-Embedded TCU solution line SW 1.x
  260. Step 2 – activate definition files
  261. Upgrading measuring cycles
  262. of SW 06.04.10 and HMI-Advanced PCU50 solution line
  263. Step 1 – load definition files
  264. Step 3 – update Bitmaps
  265. Sequence for probe installation
  266. Example of calculating the repeat accuracy
  267. Alarm, error, and system messages
  268. Adaptation of the Measuring Cycles to Previous Software Versions
  269. A.1 Overview of measuring cycle parameters
  270. Glossary
SINUMERIK 810D first page preview

SINUMERIK 810D

Brand: Siemens | Category: Industrial Equipment
Table of contents
  1. Preface
  2. Table Of Contents
  3. Table Of Contents
  4. Table Of Contents
  5. Table Of Contents
  6. Table Of Contents
  7. Description of workpiece points
  8. Definition of workpiece positions
  9. Polar coordinates
  10. Incremental dimension
  11. Plane designations
  12. Position of zero points
  13. Position of coordinate systems
  14. Machine coordinate system
  15. Basic coordinate system
  16. Workpiece coordinate system
  17. Frame system
  18. Assignment of workpiece coordinate system to machine axes
  19. Current workpiece coordinate system
  20. Main axes/Geometry axes
  21. Special axes
  22. Channel axes
  23. Synchronized axes
  24. Command axes
  25. Lead link axes
  26. Coordinate systems and workpiece machining
  27. Structure and contents of an NC program
  28. Language elements of the programming language
  29. Programming a sample workpiece
  30. First programming example for milling application
  31. Second programming example for milling application
  32. Programming example for turning application
  33. General notes
  34. Absolute/relative dimensions
  35. Incremental dimensions (G91, X=IC)
  36. Absolute dimension for rotary axes (DC, ACP, ACN)
  37. Dimensions inch/metric, (G70/G700, G71/G710)
  38. Special turning functions
  39. Position of workpiece
  40. Zero offset frame, (G54 to G57, G505 to G599, G53, G500/SUPA
  41. Selection of working plane (G17 to G19)
  42. Working area limitation in BCS (G25/G26, WALIMON, WALIMOF)
  43. Working area limitation in WCS/SZS (WALCS0 ... WALCS10)
  44. Reference point approach (G74)
  46. Travel commands with polar coordinates, polar angle, polar radius
  47. Traversing commands with polar coordinates, (G0, G1, G2, G3 AP=..., RP=...)
  48. Rapid traverse movement (G0, RTLION, RTLIOF)
  49. Linear interpolation (G1)
  50. Circular interpolation types, (G2/G3, CIP, CT)
  51. Circular interpolation with center point and end point (G2/G3, I=, J=, K=AC...)
  52. Circular interpolation with radius and end point (G2/G3, CR)
  53. Circular interpolation with arc angle and center point (G2/G3, AR=)
  54. Circular interpolation with polar coordinates (G2/G3, AP=, RP=)
  55. Circular interpolation with intermediate and end points (CIP)
  56. Circular interpolation with tangential transition (CT)
  57. Helical interpolation (G2/G3, TURN=)
  58. Involute interpolation (INVCW, INVCCW)
  59. Contour definitions
  60. Two straight lines (ANG1, X3... Z3... ANG2)
  61. Three straight lines (ANG1, X3... Z3... ANG2, X4... Z4...)
  62. End point programming with angle
  63. Thread cutting with constant lead (G33)
  64. Programmable run-in and run-out paths (DITS, DITE)
  65. Linear progressive/degressive thread pitch change (G34, G35)
  66. Tapping without compensating chuck (G331, G332)
  67. Tapping with compensating chuck (G63)
  68. Stop with thread cutting (LFOF, LFON, LFTXT, LFWP, LFPOS)
  69. Lifting on retraction (LFTXT, LFWP, LFPOS, POLF, POLFMASK; POLFMLIN)
  70. Approaching a fixed point (G75)
  71. Travel to fixed stop (FXS, FXST, FXSW)
  72. Chamfer, rounding (CHF, CHR, RND, RNDM, FRC, FRCM)
  74. Exact stop (G60, G9, G601, G602, G603)
  75. Continuous-path mode (G64, G641, G642, G643, G644)
  76. Acceleration behavior
  77. Influence of acceleration on following axes (VELOLIMA, ACCLIMA, JERKLIMA)
  78. Technology G group (DYNNORM, DYNPOS, DYNROUGH, DYNSEMIFIN, DYNFINISH)
  79. Smoothing the path velocity
  80. Traversing with feedforward control, FFWON, FFWOF
  81. Contour accuracy, CPRECON, CPRECOF
  82. Dwell time, delay (G4, WRTPR)
  83. Internal preprocessing stop
  84. General
  85. Frame instructions
  86. Programmable zero offset
  87. Axial zero offset (G58, G59)
  88. Programmable rotation (ROT, AROT, RPL)
  89. Programmable frame rotations with solid angles (ROTS, AROTS, CROTS)
  90. Programmable scale factor (SCALE, ASCALE)
  91. Programmable mirroring (MIRROR, AMIRROR)
  92. Frame generation according to tool orientation (TOFRAME, TOROT, PAROT)
  93. Deselect frame (G53, G153, SUPA, G500)
  94. Deselect DRF (handwheel) offsets, overlaid motions (DRFOF, CORROF)
  95. Feedrate (G93, G94, G95 or F..., FGROUP, FGREF)
  96. Traversing positioning axes (POS, POSA, POSP, FA, WAITP, WAITMC)
  97. Position-controlled spindle operation (SPCON, SPCOF)
  98. Positioning spindles (SPOS, M19 and SPOSA, WAITS)
  99. Feedrate for positioning axes/spindles (FA, FPR, FPRAON, FPRAOF)
  100. Percentage feedrate override (OVR, OVRA)
  101. Feedrate with handwheel override (FD, FDA)
  102. Percentage acceleration override (ACC option)
  103. Feedrate optimization for curved path sections (CFTCP, CFC, CFIN)
  104. Spindle speed (S), direction of spindle rotation (M3, M4, M5)
  105. Constant cutting rate (G96/G961/G962, G97/G971/G972, G973, LIMS, SCC[AX])
  106. Constant grinding wheel peripheral speed (GWPSON, GWPSOF)
  107. Programmable spindle speed limitation (G25, G26)
  108. Multiple feedrate values in one block (F.., ST=.., SR=.., FMA.., STA
  109. Blockwise feed (FB...)
  111. Tool offsets in the control's offset memory
  112. List of tool types
  113. Tool selection/tool call T
  114. Tool change with M06 (mill)
  115. Tool offset D
  116. Tool selection T with tool management
  117. Turning machine with circular magazine (T selection)
  118. Milling machine with chain magazine (T selection)
  119. Tool offset call D with tool management
  120. Milling machine with chain magazine (D call)
  121. Activating the active tool offset immediately
  122. Contour approach and retraction (NORM, KONT, KONTC, KONTT)
  123. Compensation at the outside corners (G450, G451)
  124. Smooth approach and retraction
  125. Approach and retraction with enhanced retraction strategies (G460, G461, G462)
  126. Collision monitoring (CDON, CDOF, CDOF2)
  127. D tool compensation (CUT2D, CUT2DF)
  128. Tool length compensation for orientable toolholders (TCARR, TCOABS, TCOFR)
  129. Grinding-specific tool monitoring in parts programs (TMON, TMOF)
  130. Additive offsets
  131. Select offsets (via DL numbers)
  132. Specify wear and setup values ($TC_SCPxy[t,d], $TC_ECPxy[t,d])
  133. Delete additive offsets (DELDL)
  134. Special handling of tool offsets
  135. Mirroring of tool lengths
  136. Wear sign evaluation
  137. Tool length and plane change
  138. Tools with a relevant cutting edge length
  139. Special functions
  140. M functions
  141. H functions
  142. Arithmetic Parameters and Program Jumps
  143. Unconditional program jumps
  144. Conditional program jumps (IF, GOTOB, GOTOF, GOTO, GOTOC)
  145. Program section repetition
  146. Tables
  147. List of addresses
  148. List of G functions/preparatory functions
  149. List of predefined subprograms
  150. Predefined subroutine calls in motion-synchronous actions
  151. Predefined functions
  152. Data types
  153. A Appendix
  154. A.1 List of abbreviations
  155. A.2 List of abbreviations
  156. A.2.2 Overview
  157. Glossary
  158. Index
SINUMERIK 810D first page preview

SINUMERIK 810D

Brand: Siemens | Category: Control Unit
Table of contents
  1. Table Of Contents
  2. Table Of Contents
  3. Table Of Contents
  4. Table Of Contents
  5. Table Of Contents
  6. Table Of Contents
  7. Table Of Contents
  8. Flexible NC programming
  9. Variable definition (DEF user-defined variables LUD, GUD, PUD)
  10. Array definitions (DEF, SET, REP)
  11. Indirect programming
  12. Tables
  13. Run string as parts program line (EXECSTRING)
  14. Assignments
  15. Arithmetic operations/functions
  16. Comparison and logical operations
  17. Precision correction on comparison errors (TRUNC)
  18. Priority of the operations
  19. Possible type conversions
  20. String operations
  21. Type conversion to STRING
  22. Type conversion of STRING
  23. Conversion to lower/upper case
  24. Look for character/string in the string
  25. Selection of a substring
  26. Selection of a single character
  27. CASE statement
  28. Control structures
  29. Program coordination
  30. Interrupt routine (SETINT, DISABLE, ENABLE, CLRINT)
  31. Axis replacement, spindle replacement (RELEASE, GET, GETD)
  32. Transfer axis to another channel (AXTOCHAN)
  33. NEWCONF: Setting machine data effective
  34. WRITE: Write file
  35. DELETE: Delete file
  36. READ: Read lines in the file
  37. ISFILE: File present in the NCK user memory
  38. FILEDATE/TIME/SIZE/STAT/INFO: File information
  39. CHECKSUM: Form the checksum over an array
  40. ROUNDUP: Round up
  41. Subroutines, Macros
  42. Subroutines with SAVE mechanism
  43. Subroutines with parameter transfer (PROC, VAR)
  44. Call subroutines (L or EXTERN)
  45. Parameterized subroutine return (RET)
  46. Subroutine with program repetition (P)
  47. Modal subroutine (MCALL)
  48. Indirect subroutine call (CALL)
  49. Repeating program sections with indirect programming (CALL)
  50. Indirect call of a program programmed in ISO language (ISOCALL)
  51. Calling subroutine with path specification and parameters (PCALL)
  52. Search path adaptation of the subroutines prepared during startup
  53. Execute external subroutine (EXTCALL)
  54. Subroutine call with M, T and D functions
  55. Suppress individual block (SBLOF, SBLON)
  56. Suppress current block display (DISPLOF)
  57. Cycles: Setting parameters for user cycles
  58. Macro technique (DEFINE...AS)
  59. File and Program Management
  60. Working memory
  61. Defining user data
  62. Protection levels for user data, MD, SD and NC commands
  63. Automatic activation of GUDs and MACs
  64. Change the protection data for the machine and setting data (REDEF MD, SD)
  65. Protection levels for NC commands (REDEF)
  66. REDEF Changing the attributes of the NC language elements
  67. SEFORM structuring statement in the Step editor
  68. Protection zones
  69. Activating, deactivating protection zones (CPROT, NPROT)
  70. Checking for protection zone violation, working area limitation and software limits
  71. Special Motion Commands
  72. Spline interpolation (ASPLINE, BSPLINE, CSPLINE, BAUTO, BNAT, BTAN)
  73. Spline grouping (SPLINEPATH)
  74. Compressor (COMPOF/ON, COMPCURV, COMPCAD)
  75. Polynomial interpolation (POLY, POLYPATH)
  76. Settable path reference (SPATH, UPATH)
  77. Measurements with touch trigger probe (MEAS, MEAW)
  78. Extended measuring function (MEASA, MEAWA, MEAC) (option)
  79. Special functions for OEM users (OEMIPO1, OEMIPO2, G810 to G829)
  80. Programmable servo parameter set (SCPARA)
  81. Coordinate transformation via frame variables
  82. Predefined frame variable ($P_BFRAME, $P_IFRAME, $P_PFRAME, $P_ACTFRAME)
  83. Frame variables / assigning values to frames
  84. Reading and changing frame components (TR, FI, RT, SC, MI)
  85. Linking complete frames
  86. Defining new frames (DEF FRAME)
  87. Coarse and fine offsets (CFINE; CTRANS)
  88. DRF offset
  89. External zero offset
  90. Preset offset (PRESETON)
  91. Deactivating frames (DRFOF, G53, G153, and SUPA)
  92. Frame calculation from three measuring points in space (MEAFRAME)
  93. NCU global frames
  94. Channel-specific frames ($P_CHBFR, $P_UBFR)
  95. Frames active in the channel
  96. General programming of transformation types
  97. Orientation movements for transformations
  98. Overview of orientation transformation TRAORI
  99. Three, four and five axis transformation (TRAORI)
  101. Variants of orientation programming and initial setting (OTIRESET)
  102. Programming of the tool orientation (A..., B..., C..., LEAD, TILT)
  103. Face milling (3D-milling A4, B4, C4, A5, B5, C5)
  104. Orientation axis reference (ORIWKS, ORIMKS)
  105. Programming the orientation axes (ORIAXES, ORIVECT, ORIEULER, ORIRPY)
  106. Orientation programming along the peripheral surface of a taper (ORIPLANE, ORICONxx)
  107. Orientation polynomials (PO[angle], PO[coordinate])
  108. Rotations of the tool orientation (ORIROTA, ORIROTR/TT, ORIROTC, THETA)
  109. Orientations relative to the path
  110. Interpolation of the tool rotation relative to the path (ORIROTC, THETA)
  111. Smoothing of orientation characteristic (ORIPATHS A8=, B8=, C8=)
  112. Compression of the orientation COMPON (A..., B..., C..., THETA)
  113. Online tool length compensation (TOFFON, TOFFOF)
  114. Kinematic transformation
  115. Cylinder surface transformation (TRACYL)
  116. Inclined axis (TRAANG)
  117. Inclined axis programming (G05, G07)
  118. Cartesian PTP travel
  119. PTP for TRANSMIT
  120. Constraints when selecting a transformation
  121. Deselect transformation (TRAFOOF)
  122. Chained transformations (TRACON, TRAFOOF)
  123. Replaceable geometry axes (GEOAX)
  124. Offset memory
  125. Language commands for tool management
  126. Online tool compensation (PUTFTOCF, PUTFTOC, FTOCON, FTOCOF)
  127. Keep tool radius compensation constant (CUTCONON)
  128. Activate 3D tool offsets (CUT3DC..., CUT3DF...)
  129. D tool radius compensation: peripheral milling, face milling
  130. Tool types/tool change with changed dimensions (G40, G41, G42)
  131. Compensation on the path, path curvature, and insertion depth ISD and tool status (CUT3DC)
  132. Inside corners/outside corners and intersection procedure (G450/G451)
  133. D circumferential milling with limitation surfaces general use
  134. Consideration of a limitation surface (CUT3DCC, CUT3DCCD)
  135. Tool orientation (ORIC, ORID, OSOF, OSC, OSS, OSSE, OSD, OST)
  136. Free assignment of D numbers, cutting edge numbers
  137. Checking D numbers (CHKDNO)
  138. Renaming D numbers (GETDNO, SETDNO)
  139. Deriving the T number from the specified D number (GETACTTD)
  140. Tool holder kinematics
  141. Tangential control (TANG, TANGON, TANGOF, TANGDEL)
  142. Coupled motion (TRAILON, TRAILOF)
  143. Curve tables (CTAB)
  144. Principal functions curve tables (CTABDEF, CTABEND, CTABDEL)
  145. Curve table forms (CTABDEL, CTABNOMEM, CTABFNO, CTABID, CTABLOCK CTABUNLOCK)
  146. Behavior at the edges of curve tables (CTABTSV, CTABTSP, CTABMIN, CTABMAX)
  147. Axial leading value coupling (LEADON, LEADOF)
  148. Feedrate response (FNORM, FLIN, FCUB, FPO)
  149. Program run with preprocessing memory (STARTFIFO, STOPFIFO, STOPRE)
  150. Conditionally interruptible program sections (DELAYFSTON, DELAYFSTOF)
  151. Preventing program position for SERUPRO (IPTRLOCK, IPTRUNLOCK)
  152. Repositioning at contour (REPOSA/L, REPOSQ/H, RMI, RMN, RMB, RME)
  153. Motion synchronous actions
  154. Programming and command elements
  155. Validity range: Identification number ID
  156. Cyclic checking of the condition
  157. Actions
  158. Operators for conditions and actions
  159. Main run variables for synchronized actions
  160. Implicit type conversion
  161. GUD variables for synchronous actions
  162. Default axis identifier (NO_AXIS)
  163. Synchronized action marker $AC_MARKER[n]
  164. Synchronized action parameters $AC_PARAM[n]
  165. Read and write NC machine and NC setting data
  166. Timer-Variable $AC_Timer[n]
  167. FIFO variable $AC_FIFO1[n] ... $AC_FIFO10[n]
  168. Information about the block types in the interpolator
  169. Actions in synchronized actions
  170. Output of auxiliary functions
  171. Cancel preprocessing stop (STOPREOF)
  172. Delete distance-to-go (DELDTG)
  173. Polynomial definition (FCTDEF)
  174. Synchronized function (SYNFCT)
  175. Clearance control with limited compensation $AA_OFF_MODE
  176. Online tool offset (FTOC)
  177. Online tool length offset ($AA_TOFF[tool direction])
  178. Positioning movements
  179. Position axis (POS)
  180. Position in specified reference range (POSRANGE)
  181. Start/stop axis (MOV)
  182. Axis replacement (RELEASE, GET)
  183. Axial feed (FA)
  184. Axis coordination
  185. Set actual values (PRESETON)
  186. Spindle motions
  187. Leading value coupling (LEADON, LEADOF)
  188. Measuring (MEAWA, MEAC)
  189. Initialization of array variables with SET, REP
  190. Set/delete wait markers with SETM, CLEARM
  191. Travel to fixed stop (FXS and FOCON/FOCOF)
  192. Determining the path tangent in synchronized actions
  193. Determining the current override
  194. Time use evaluation of synchronized actions
  195. Technology cycles
  196. Context variable ($P_TECCYCLE)
  197. Call by value parameters
  198. Control processing of technology cycles (ICYCOF, ICYCON)
  199. Cascading technology cycles
  200. IF check structures
  201. Lock, unlock, reset (LOCK, UNLOCK, RESET)
  202. Delete synchronized action (CANCEL)
  203. Restrictions
  204. Oscillation
  205. Control oscillation via synchronized actions
  206. Punching and nibbling
  207. Automatic path segmentation
  208. Path segmentation for path axes
  209. Path segmentation for single axes
  210. Additional functions
  211. Check scope of NC language present (STRINGIS)
  212. ISVAR ( ) function call and read machine array index
  213. Learn compensation characteristics (QECLRNON, QECLRNOF)
  214. Synchronous spindle
  215. Electronic gear (EG)
  216. Activate electronic gear (EGON)
  217. Deactivate electronic gear (EGOFS)
  218. Revolutional feedrate (G95)/electronic gear (FPR)
  219. Extended stop and retract
  220. Drive-independent responses to ESR
  221. NC-controlled reactions to retraction
  222. NC-controlled reactions to stoppage
  223. Drive-independent stopping
  224. Drive-independent retraction
  225. Link communication
  226. Access to a global NCU memory area
  227. Axis container (AXCTWE, AXCTWED)
  228. Program runtime/Workpiece counter
  229. Workpiece counter
  230. Interactive window call from parts program, command:
  231. Influencing the motion control
  232. Percentage velocity correction (VELOLIM)
  233. Master/slave grouping (MASLDEF, MASLDEL, MASLOF, MASLOF, MASLOFS)
  234. User stock removal programs
  235. Contour preparation (CONTPRON)
  236. Contour decoding (CONTDCON)
  237. Intersection of two contour elements (INTERSEC)
  238. Traversing a contour element from the table (EXECTAB)
  239. Calculate circle data (CALCDAT)
  240. List of statements
  241. Glossary
SINUMERIK 810D first page preview

SINUMERIK 810D

Brand: Siemens | Category: Control Systems
SINUMERIK 810D first page preview

SINUMERIK 810D

Brand: Siemens | Category: Control Systems
SINUMERIK 810D first page preview

SINUMERIK 810D

Brand: Siemens | Category: Control Systems
Table of contents
  1. Control
  2. Actual value display
  3. Objective
  4. control panel
  5. Area switchover key
  7. Configuration
  8. Current block
  9. Cursor
  10. Display window
  11. Message overview
  12. Table Of Contents
  13. Software update
  14. Target group
  15. R parameters
  16. Down Arrow
  17. Machine
  18. Operator panel
  19. Operator's Guide (BA)
  20. Parameter
  21. BA/3
  22. Program
  23. Scroll bar
  24. Softkeys
SINUMERIK 810D first page preview

SINUMERIK 810D

Brand: Siemens | Category: Controller
Table of contents
  1. SINUMERIK 840Di
  2. Table Of Contents
  3. SINUMERIK 840DE (export version)
  4. Flexible NC
  5. Subprograms, Macros
  6. File and Program
  7. Protection Zones
  8. Special Motion Commands
  9. Frames
  10. Transformations
  11. Tool Offsets
  12. Path Traversing Behavior
  13. Motion-Synchronous Action
  14. Oscillation
  15. Punching and Nibbling
  16. Additional Functions
  17. User Stock Removal Programs
  18. Tables
SINUMERIK 810D first page preview

SINUMERIK 810D

Brand: Siemens | Category: Control Systems
Table of contents
  1. Table Of Contents
  2. SINUMERIK 840D powerline
  3. Table Of Contents
  4. Table Of Contents
  5. Table Of Contents
  6. Table Of Contents
  7. Table Of Contents
  8. Table Of Contents
  9. Table Of Contents
  10. Introduction
  11. The product SINUMERIK 840D/810D
  12. Switching control system on and off
  13. Operating areas
  14. Operator Components/Operating Sequences
  15. Operator panels
  16. Operator panel keys
  17. Machine control panels
  18. Machine control panel keys
  19. Feedrate control
  20. Spindle control
  21. Key switch
  22. Program control
  23. Standard PC keyboard MF-II
  24. Mouse operability with HMI Embedded Win32
  25. Screen layout
  26. Global machine status display
  27. Program control display
  28. General operating sequences
  29. Selecting and opening directory/file
  30. Changing menu window
  31. Editing inputs/values
  32. Confirming/canceling input
  33. Channel switchover
  34. m:n communication links
  35. Pocket calculator
  36. Blue screen error status screen
  37. Operating Example
  38. Typical operating sequence
  39. Machine Operating Area
  40. Parameters
  41. Program
  42. Operating mode group and channels
  43. Selection of operating mode / changing operating mode
  44. Services
  45. General functions and displays
  46. Display program level
  47. Switching between the machine/workpiece coordinate system (MCS/WCS)
  48. Display axis feedrates
  49. Display spindles
  50. Display G functions, transformations and swivel data record
  51. Handwheel
  52. Set actual value
  53. Start-Up
  54. Inch/metric switchover
  55. Actual value display: Settable zero offset system, SZS
  56. Jog operating mode
  57. Traversing axes
  58. Inc: Incremental dimension
  59. Repos
  60. SI (Safety Integrated): User confirmation
  61. Determine scratching/zero offset
  62. Displaying system frames
  63. MDA operating mode
  64. Save program
  65. Automatic mode
  66. Execute program
  67. Program editing
  68. Setting block search/search destination
  69. Accelerated block search for execution from external source
  70. Overstoring
  72. DRF offset
  73. Parameters Operating Area
  74. Tool data
  75. Tool offset
  76. Create new tool
  77. Display tool
  78. Delete tool
  79. Create new cutting edge
  80. Find cutting edge
  81. Determine tool offsets
  82. Tool offsets with D-numbers only (flat D no.)
  83. Make active tool offset operative immediately
  84. Tool management
  85. Tool management basic display
  86. Select new tool
  87. Display and modify tool data
  88. Load tool
  89. Unloading of a tool
  90. Relocating a tool
  91. ShopMill tool management
  92. Function scope
  93. Select tool list
  94. Set up more than one edge for each tool
  95. Creating duplo/replacement tools
  96. Enter tool wear data
  97. Service
  98. Managing magazine locations
  99. Delete tools
  100. Load or unload tool in magazine
  101. Relocating tools
  102. Sorting tools in the tool list
  103. Tool management ShopTurn
  106. Setting up more than one cutting edge for each tool
  107. Sort tools
  111. Manage magazine locations
  112. R parameters
  113. Setting data
  114. Jog data
  115. Spindle data
  116. Dry run feedrate for DRY mode
  117. Other types of setting data
  118. Protection zones
  119. Zero offset
  120. Display zero/work offsets
  121. Changing the settable work/zero offset (G54 ...)
  122. Activate work/zero offset and basic frame immediately
  123. Global work/zero offset/frame (Basic WO)
  124. User data/user variables (GUD, PUD, LUD)
  125. Program Operating Area
  126. Program types
  127. Program basic display
  128. Operating data
  129. Edit programs
  130. Selective program protection: RO
  131. Hidden program lines: Display HD
  132. Defining and activating user data (GUD, LUD)
  133. Defining and activating user data (GUD, LUD) via RS-232 C
  134. Free contour programming
  135. Graphic representation of the contour
  136. Create contour
  137. Changing a contour
  138. Contour elements general
  139. Create, change, delete contour elements
  140. Help
  141. Parameter description of the contour elements line/circle and pole
  142. Programming example of free contour programming
  143. Program simulation
  144. Milling simulation before machining
  145. Milling simulation during machining
  146. Manage programs
  147. File types, blocks and directories
  148. Handling files
  149. Create new workpiece/part program
  150. Execute a program on the NC for execution
  151. Execute Program from network drive, compact flash card, disk
  152. Storing a program
  153. Copy file and insert
  154. Rename file
  155. Delete file
  156. Workpiece template" function
  157. EXTCALL
  158. Services Operating Area
  159. Function
  160. Data selection
  161. Formats for saving and importing data
  162. PC format binary format
  163. Interface parameterization
  164. Main services screen
  165. Setting the interface
  166. Reading in data via RS-232 interface
  167. Inserting data from the clipboard
  168. Reading out data via RS-232 interface
  169. Reading out PLC alarm texts and cycle texts
  170. Execution from external source via RS-232 interface
  172. Restoring the original status via NC card
  173. Saving data to NC card
  174. Series start-up
  175. Upgrading
  176. Diagnosis Operating Area
  177. Basic display diagnosis
  178. Displaying alarms and messages
  179. Service display
  180. Service drive
  181. Service safety integrated
  182. Display and modify system resources
  183. Display version data
  184. Displaying loadable compile cycles
  185. General
  186. Change/delete operand value
  187. Selecting/creating operand forms for PLC status
  188. Setting the time/date
  189. Activate remote diagnosis
  190. Start-Up Operating Area
  191. Start-up basic display
  192. Display machine data
  193. Display options: Masking filter
  194. NC settings
  195. PLC settings
  196. Change HMI surface
  197. Traverse log
  198. Change language
  199. Initiate NCK reset
  200. Display or modify system resources
  201. A Abbreviations
  202. C References
SINUMERIK 810D first page preview

SINUMERIK 810D

Brand: Siemens | Category: Control Systems
Table of contents
  1. Table Of Contents
  2. Table Of Contents
  3. Table Of Contents
  4. Table Of Contents
  5. Table Of Contents
  6. SINUMERIK 840D/810D Operator's Guide ManualTurn (BAM) – 08.02 Edition
  7. Siemens AG, 2002. All rights reserved
  8. Introduction
  9. The ManualTurn product
  10. Operator notes
  11. Switching on/switching off
  12. Operation
  13. Operator panels
  14. Machine control panel
  15. Mini handheld unit
  16. Graphics interface
  17. Operating system
  18. Operating modes
  19. Important function keys
  20. Important soft keys
  21. Pocket calculator
  22. Absolute and incremental dimensions
  23. Angle reference system
  24. Tool and cutting data
  25. Preparatory Functions for Machining
  26. Approach reference points
  27. Setup
  28. Incremental feed mode
  29. Offsets
  30. Preset
  31. Manual offset
  32. Delete manual offset
  33. Zero offset
  34. Spindle speed limitation
  35. Oriented spindle stop
  36. Tool
  37. Selecting/deselecting tool offset
  38. Measure tool
  39. Tool wear compensation
  40. Measuring system changeover inch/metric
  41. Turning Simple Contours
  42. Turning in manual mode
  43. Turning with path dimension input
  44. Turning with STRAIGHT mode
  45. Turning with CONICAL mode
  46. Turning with CIRCLE mode
  47. Turning with the contour handwheel and JOG keys +/–
  48. Turning with Cycles
  49. General notes
  50. Turning cycles in CYCLE mode
  51. Controlling thread cutting operations
  52. Re-working a thread
  53. Undercuts Form E and F
  54. Thread undercuts
  55. Drilling in longitudinal axis (center)
  56. Hole circle drilling
  57. Stock removal/grooving cycles in STOCK REMOVAL mode
  58. Grooving cycles
  59. Turning any Contours (Free Contour Input)
  61. Create new contour
  62. Symbolic representation of contour
  63. Graphic representation of contour
  64. Create contour elements
  65. Editing contour elements
  66. Stock removal against contour
  67. Machining residual material
  68. Single-cycle machining
  69. Program Creation with EasyStep and G Code
  70. Parts Program
  71. Creating a machining sequence
  72. Display machining sequence
  73. Program steps
  74. Special functions
  75. Insert G code step
  76. Program editor
  77. Switching off the program
  78. Single-step mode (single block)
  79. Tool nose radius compensation
  80. G code programming
  81. G code editor
  82. Create new parts program
  83. Editing program blocks
  84. Parts Program Management
  85. General
  86. Select a file
  87. Storing thread undercut and thread cycles
  88. Rename/copy file
  89. Error/transmission log
  90. General Functions
  91. Simulation and simultaneous recording
  92. Simulation
  93. Simultaneous recording
  94. Teach In
  95. Deselecting "Teach In"
  96. Transferring machining steps to system
  97. Transferring auxiliary functions to system
  98. Standard CNC operation
  99. Intervention in the Machining Process
  100. Aborting a machining operation
  101. Repositioning
  102. Saving manual offset with "Store offset" function
  103. Alarms and Messages
  104. Alarms and messages in ManualTurn cycles
  105. Messages in cycles
  106. Alarms with ManualTurn
  107. Description of alarms
  108. Examples
  110. Example 1: External machining with groove and thread
  111. Example 2: External machining with sphere
  112. Example 3: External machining with thread undercuts and grooves
  113. Example 4: External machining with thread undercut and groove
  114. Appendix
  115. A Abbreviations
  116. C References
SINUMERIK 810D first page preview

SINUMERIK 810D

Brand: Siemens | Category: Control Unit
Table of contents
  1. Table Of Contents
  2. Table Of Contents
  3. Delivery condition of the system
  4. Hard disk partitions
  5. system settings
  6. User administration
  7. Change service user
  8. Global user settings
  9. Specific user settings
  10. Boot up behavior of the PCU
  11. Boot up of the PCU: HMI program already installed
  12. BIOS settings
  13. Service menu functions (DOS function)
  14. Parameterizing the service menu (DOS)
  15. Operating the main menu
  16. Setting the SINUMERIK HMI environment
  17. Starting DOS shell and checking the software version
  18. Starting the service desktop
  19. Checking the hard disk
  20. Configuring the operator interface
  21. Displaying your own boot screen
  22. User-specific settings during boot up
  23. Starting service des ktop during boot up
  24. Starting OEM programs
  25. PCU with SITOP UPS module
  26. Starting and configuring the SITOP monitor
  27. Configuration of the SITOP UPS module
  28. Configuration for exiting the HMI
  29. Installing software and software update
  30. Silently" installing an upgrade or Service Pack
  31. Installation with FAT16 data file structure
  32. Installation with FAT32 data file structure
  33. Installation via network connection
  34. Settings for network drives
  35. Network operation with the Service desktop
  36. Installing and authorizing SIMATIC STEP 7
  37. Authorizing SIMATIC STEP 7 via the Service menu
  38. Backing up and Restoring Data
  39. Restoring the PCU hard disk from the PG/PC hard disk
  40. Commissioning a replacement hard disk
  41. Backing up and restoring PCU partitions locally
  42. Backing up partitions
  43. Restoring partitions
  44. Restoring Partition E: (Windows) on the PCU
  45. Deleting the backup image
  46. Defining an emergency backup image
  47. Restoring the emergency backup on partition E:
  48. Backing up/restoring data with a TCU configuration
  49. Index
SINUMERIK 810D first page preview

SINUMERIK 810D

Brand: Siemens | Category: Handhelds
Table of contents
  1. Table Of Contents
  2. intended use
  3. explanation of symbols
  4. Table Of Contents
  5. Table Of Contents
  6. Table Of Contents
  7. Table Of Contents
  8. Introduction
  9. User interface
  10. user interface
  12. Display
  13. Status indicator
  14. Dialog window
  15. Machine control keys
  16. Softkeys
  17. Cursor block
  18. Menus/operating areas
  19. Parameters operating area
  21. Tool offset
  22. Correcting tool data
  23. Create new tool/new cutting edge
  24. R parameters
  25. Setting data
  26. Channel-specific setting data
  27. Axis-specific setting data
  28. Settable zero offset
  29. Offset (ZO)
  30. Rotation/Scale/Mirroring (ZO)
  31. User data
  32. Displaying and modifying user data
  33. Search user data
  34. Program operating area
  35. Directories
  36. Workpiece overview
  37. Create new workpiece
  38. Create new file
  39. Parts programs/subroutines
  40. Cycles
  41. memory information
  42. Edit program
  43. Text search
  44. Positioning the cursor
  45. Manual Mode – Operating Area Machine
  47. Reference point approach
  48. Machine operating area
  49. Repositioning
  50. MDA operating mode
  51. Automatic Mode – Operating Area Machine
  53. Current block
  54. Program level
  55. Overstoring
  56. Program control
  57. Teach-In
  59. Block selection
  60. Inserting a block
  61. Inserting a block – circular motion
  62. Inserting a block - A-Spline (option)
  63. Changing a block
  64. Replacing a block
  65. Correction mode
  66. Services
  68. Selecting a target directory
  69. Transfer
  70. Save to clipboard
  71. Fault log
  72. RS-232-C settings
  73. RS-232-C settings, special functions
  74. Output data
  75. Messages, Service Displays, PLC Data – Operating Area Diagnosis
  76. Diagnostics
  77. Messages
  78. Service axes
  79. NC utilization
  80. Communications log
  81. NCU version data
  82. HMI version data
  83. PLC status
  84. Date/time
  85. Remote diagnosis
  86. Start-Up
  88. General
  89. Operating areas
  90. Channel-specific machine data
  91. Drive configuration
  92. Display-specific machine data
  93. NC startup
  94. HMI startup
  95. Language selection
  96. Action log
  97. Setting the system parameters
  98. LCD contrast
  99. Processing the password
  100. Appendix
  101. A Abbreviations
  102. Functionality
  103. C References
  104. Handling information
SINUMERIK 810D first page preview

SINUMERIK 810D

Brand: Siemens | Category: Controller
Table of contents
  1. SINUMERIK 810D
  2. Table Of Contents
  3. SINUMERIK 810D powerline
  4. Table Of Contents
  5. Table Of Contents
  6. System Overview
  7. System configuration
  8. Axis Expansion
  9. NCU Terminal Block
  10. I/O Modules
  11. Labeling and adhesive labels
  12. Installation Conditions
  13. Electromagnetic compatibility (EMC)
  14. Power supply
  15. Safe electrical isolation
  16. Earthing concept
  17. RI suppression measures
  18. Ambient climatic and mechanical conditions
  19. Operating conditions
  20. Exposure to contaminants
  21. Technical data of the individual components
  22. MPI network
  23. MPI network rules
  24. Design and Installation of the 810D
  25. Installing the SINUMERIK 810D
  26. Modification for external cooling, 2-axis CCU box (SW 5 and higher)
  27. Mains supply (MS)
  28. Description of the SINUMERIK 810D
  29. Interfaces of the SINUMERIK 810D
  30. Hardware interfaces overview
  31. CCU1/CCU2: Description of the interfaces operating and display elements
  33. CCU3: Description of the interfaces, operating and display elements
  34. Cable distributor
  35. Measuring system
  36. Evaluative encoder systems
  37. Measuring channels, indirect and direct measuring systems
  38. Integrated power sections: 3-axis CCU box
  39. Integrated power sections: 2-axis CCU box
  40. PLC module
  41. CCU1: 6th axis (SW 3.2 and higher)
  42. Axis expansion with the SIMODRIVE 611D closed-loop control module
  44. DMP Compact Modules
  46. DMP compact module 16O (6FC5 111-0CA02-0AA1)
  47. DMP compact module 8O (6FC5 111-0CA03-0AA1)
  48. DMP compact module 1I analog (6FC5 111-0CA04-0AA0)
  49. DMP compact module 1I NC analog (6FC5 211-0AA10-0AA0)
  50. DMP compact module 1O analog (6FC5 111-0CA05-0AA0)
  51. Maintenance and Service
  52. B References
  53. D Index-
SINUMERIK 810D first page preview

SINUMERIK 810D

Brand: Siemens | Category: Controller
Table of contents
  1. SINUMERIK 840Di
  2. Table Of Contents
  3. Table Of Contents
  4. Table Of Contents
  5. Table Of Contents
  6. SINUMERIK 810D
  7. Drilling Cycles and
  8. Siemens AG 2000 All rights reserved
  9. Milling Cycles
  10. General information
  11. Turning Cycles
  12. Cycle auxiliary subroutines
  13. Programming cycles
  14. Machine data
  15. Messages during execution of a cycle
  16. Cycle call and parameter list
  17. Simulation of cycles
  18. Cycle support in program editor (SW 4.3 and later)
  19. Overview of important files
  20. Configuring cycle selection
  21. Configuring input screenforms for parameter assignment
  22. Configuring help displays
  23. Configuring tools (MMC 100 only)
  24. Loading to the control
  25. Independence of language
  26. Operating the cycles support function
  27. Integrating user cycles into the MMC 103 simulation function
  28. Cycles support in the program editor (SW 5.1 and later)
  29. New functions in input screenforms
  30. Drilling Cycles and Drilling Patterns
  31. Drilling cycles
  32. Preconditions
  33. Drilling, centering – CYCLE81
  34. Drilling, counterboring – CYCLE82
  35. Deep-hole drilling – CYCLE83
  36. Rigid tapping – CYCLE84
  37. Tapping with compensating chuck – CYCLE840
  38. Boring 1 – CYCLE85
  39. Boring 2 – CYCLE86
  40. Boring 3 – CYCLE87
  41. Modal call of drilling cycles
  42. Drill pattern cycles
  43. Row of holes – HOLES1
  44. Hole circle – HOLES2
  45. Dot matrix – CYCLE801 (SW 5.3 and later)
  49. Thread cutting - CYCLE90
  50. Elongated holes on a circle - LONGHOLE
  51. Slots on a circle - SLOT1
  52. Circumferential slot - SLOT2
  53. Milling rectangular pockets - POCKET1
  54. Milling circular pockets - POCKET2
  55. Milling rectangular pockets - POCKET3
  56. Milling circular pockets - POCKET4
  57. Face milling - CYCLE71
  58. Path milling - CYCLE72
  59. Milling rectangular spigots - CYCLE76 (SW 5.3 and later)
  60. Milling circular spigots - CYCLE77 (SW 5.3 and later)
  61. Pocket milling with islands - CYCLE73, CYCLE74, CYCLE75 (SW 5.2 and later)
  62. Transfer pocket edge contour - CYCLE74
  63. Transfer island contour - CYCLE75
  64. Contour programming
  65. Pocket milling with islands - CYCLE73
  69. Grooving cycle – CYCLE93
  70. Undercut cycle – CYCLE94
  71. Stock removal cycle – CYCLE95
  72. Thread undercut – CYCLE96
  73. Thread cutting – CYCLE97
  74. Thread chaining – CYCLE98
  75. Thread recutting (SW 5.3 and later)
  76. Extended stock removal cycle - CYCLE950 (SW 5.3 and later)
  77. Error Messages and Error Handling
  79. Overview of cycle alarms
  80. Messages in the cycles
  81. Appendix
  82. A Abbreviations
  83. C References
SINUMERIK 810D first page preview

SINUMERIK 810D

Brand: Siemens | Category: Control Unit
Table of contents
  1. Table Of Contents
  2. SINUMERIK 840D/840Di/810D Operator's Guide CAD Reader (CAD) – 03.02 Edition
  3. Appendix
  4. Introduction
  5. The CAD Reader product
  6. Scope of application
  7. Formats
  8. How to Use the CAD Reader
  9. General operating procedures
  10. Define the zero point
  11. Drill points
  12. Process an imported file
  13. Additional Settings
  14. Additional settings and displays
  15. Example of Application
  16. Example of application for a contour trace
  17. SINUMERIK 840Di
  18. SINUMERIK 810D
  20. I.1 Keyword Index
SINUMERIK 810D first page preview

SINUMERIK 810D

Brand: Siemens | Category: Controller
Table of contents
  1. Table Of Contents
  2. Edition
  4. Table Of Contents
  5. Table Of Contents
  6. System overview
  7. System configuration
  8. Axis expansion
  9. I/O Modules
  10. Labels
  11. Connection Conditions
  12. Power supply
  13. Safe isolation to EN 61800-5-1
  14. Grounding Concept
  15. RI suppression measures
  16. Climatic and mechanical environmental conditions
  17. Operating conditions
  18. Technical data of the individual components
  19. MPI/OPI network rules
  20. Design and Installation of the 810D
  21. Assembly of the SINUMERIK 810D
  22. Alteration for external heat dissipation, 2-axis CCU box
  24. Description
  26. Description of the interfaces, operating and display elements
  28. Cable distributor
  29. Measuring system
  30. Encoder systems that can be evaluated
  31. Measuring channels, indirect and direct measuring system
  32. Integrated power modules: 3-axis CCU box
  33. Integrated power modules: 2-axis CCU box
  34. PLC module
  35. PCMCIA card (memory card)
  36. Axis expansion with SIMODRIVE 611D control plug-in unit
  37. NCU Terminal Block
  38. DMP Compact Modules
  40. DMP compact module 16O (6FC5111-0CA02-0AA2)
  41. DMP compact module 8O (6FC5111-0CA03-0AA2)
  42. DMP compact module 1I analog (6FC5111-0CA04-0AA0)
  43. DMP compact module 1I NC analog (6FC5211-0AA10-0AA0)
  44. DMP compact module 1O analog (6FC5111-0CA05-0AA0)
  45. Maintenance and Service
  46. A Abbreviations
SINUMERIK 810D first page preview

SINUMERIK 810D

Brand: Siemens | Category: DC Drives
Table of contents
  1. Table Of Contents
  2. Requirements for Upgrade
  3. Software upgrade with MMC 100.2
  4. Upgrading from CCU 1 to CCU 3
  5. Alarm 8022
  6. NCK increment 51.09.00
  7. Functional Improvements from Version 06.05.24.00 to Version 06.05.25.00
SINUMERIK 810D first page preview

SINUMERIK 810D

Brand: Siemens | Category: Controller
Table of contents
  1. Table Of Contents
  2. Table Of Contents
  3. Table Of Contents
  4. Table Of Contents
  5. Table Of Contents
  6. Table Of Contents
  7. General Preparations
  8. Configuration
  10. Mechanical configuration
  11. Mains infeed module
  12. PLC Start-Up
  13. General configuration of SINUMERIK 840D system
  14. Motor connection
  15. Encoder connection
  16. Connection of MMC100 and MMC102/103
  17. Configuration of components for digitizing
  18. Settings, MPI/OPI
  19. MPI/OPI, network rules
  20. Standard configuration
  21. Standard configuration as from SW 3.2
  22. Connection to OPI bus
  23. Connection to MPI bus
  24. Example of a configuration of MCP and HHU via OPI
  25. Example of a configuration of HHU via MPI
  26. Handheld unit
  27. Settings on the HHU for software version 4.x and higher
  28. Example: Connecting the HHU to the SINUMERIK 840D
  29. Handheld programming unit
  30. Interface signals of the HPU
  31. Standard configuration of the HPU (without MCP)
  32. Machine control panel (MCP)
  33. Customer operator panel interface
  34. Second machine control panel
  35. Language default
  36. EMC / ESD Measures
  37. Measures to protect ESD-sensitive components
  38. Power On and Power-Up
  39. Startup sequence
  41. Power on
  42. MMC100 – MMC102/103 power-up
  43. Error during control power-up (NC)
  44. Machine control panel (MCP) power-up
  45. Assigning Parameters to the Control and the PLC Program
  46. Machine and setting data
  47. Handling machine and setting data
  48. Protection level concept
  49. Machine data masking filter (SW 4.2 and higher)
  50. Saving the filter settings
  51. Example of start-up design concept
  52. System data
  53. Memory configuration
  54. Dynamic RAM memory
  55. Static RAM memory
  56. Scaling machine data
  57. Axes and spindles
  58. Drive configuration (FDD, SLM, MSD)
  59. Setting the axis-specific setpoint/actual value parameters
  60. Drive parameterization (FDD, MSD)
  61. Parameterization of incremental measuring systems
  62. Drive Optimization
  63. Axis data
  64. Velocity matching (axis)
  65. Position controller data (axis)
  66. Monitoring functions (axis)
  67. Reference point approach (axis)
  68. Spindle data
  69. Spindle configuration
  70. Speeds and setpoint adjustment for spindle
  71. Spindle positioning
  72. Spindle synchronization
  73. Spindle monitoring
  74. Example: Start-up of NCK I/O devices
  75. Linear motors (1FN1 and 1FN3 motors)
  76. Start-up: Linear motor with one primary part
  77. Start-up: Linear motors with 2 identical primary parts
  78. Mounting dimensions
  79. Temperature sensors for 1FN1 and 1FN3 motors
  80. Measuring system
  81. Parallel connection of linear motors
  82. Test measurements on linear motor
  83. AM / U/F function
  84. System settings for power up, RESET and part program start
  85. Overview of organization blocks, function blocks and DBs
  86. Alarm and Message Texts
  88. Alarm text files for MMC 102/103
  89. Alarm text files for HPU
  90. Syntax for alarm text files
  91. Properties of alarm list
  92. Axis and Spindle Dry Run
  93. Axis test run
  94. Testing the spindle
  95. Drive Optimization with Start-Up Tool
  96. Instructions for use
  97. System requirements
  98. Starting the program
  99. Measuring functions
  100. Interface signals Traverse request and Motion enable drive test
  101. Aborting measuring functions
  102. Frequency response measurement
  103. Measurement of speed control loop
  104. Measurement of position control loop
  105. Graphic display
  106. Gantry axes (SW 5.1 and later)
  107. Trace function (SW 4.2 and higher)
  108. Operation, basic display
  109. Parameterization
  110. Performing measurement
  111. Display function
  112. File function
  113. Print graph
  114. Analog output (DAC)
  115. Flow chart for self-optimization
  116. Input options for self-optimization
  117. Data Backup
  118. Data backup via MMC 100
  119. Data backup via MMC 102/103
  120. Data backup via V24 on the MMC 102/103
  121. Output of drive data via V24 on MMC102/103
  122. Output of drive data via V24 on the MMC102/103
  123. PLC data output via V24 on MMC102/103
  124. Output of the series start-up file via V24 on MMC102/103
  125. Back up hard disk via Norton GhostR (SW 4.4 and higher)
  126. Saving user data
  127. Restore data to hard disk
  128. Several SW versions on one MMC 103 (SW 5.2 and higher)
  129. Installing a replacement hard disk (SW 4.4 and higher)
  130. Line checksums (MD 11230 MD_FILE_STYLE)
  131. Machine data numbers
  132. Machine/setting data
  133. Software and Hardware Replacement
  134. Upgrading the MMC 100/100.2/101 software
  135. Upgrade of MMC 102/103 software Version 4.x or earlier
  136. Upgrading the NC
  137. Series start-up via NC card (SW 4.4 and higher)
  138. SINUCOPY–FFS (SW 4.4 and higher)
  139. Hardware replacement
  140. Miscellaneous
  141. Machine data access via part program
  142. A Abbreviations
  143. B References
SINUMERIK 810D first page preview

SINUMERIK 810D

Brand: Siemens | Category: Industrial Equipment
Table of contents
  1. Table Of Contents
  2. Programming help systems
  3. Quick "ASCII" help
  4. Extension of text files
  5. Extension of a topic
  6. Extension of an instruction
  7. Parameterization of extended "PDF" help
  8. Extension with alarm text variables
  9. Extending programming help
  10. ISO mode help
  11. Extending ISO mode help
  12. Alarm/Machine data help
  13. Alarm help
  14. Extending alarm help
  15. User comments on help
  16. Changing "Win-Help" alarm help to "PDF help
  17. Machine data help
  18. Extending the machine data help
  19. Index
SINUMERIK 810D first page preview

SINUMERIK 810D

Brand: Siemens | Category: Control Systems
Table of contents
  1. Table Of Contents
  2. SINUMERIK 840D powerline
  3. Table Of Contents
  4. Table Of Contents
  5. Table Of Contents
  6. Table Of Contents
  7. Table Of Contents
  8. Table Of Contents
  9. Table Of Contents
  10. Introduction
  11. The SINUMERIK 840D/810D system
  12. Operator Components
  13. Notes on handling
  14. Activation/deactivation
  15. Operator Components/Sequence of Operations
  16. Operator panels
  17. OP 010S operator panel
  18. OP 012 operator panel
  19. Full standard keyboard
  20. Operator panel keys
  21. Machine control panels
  22. Machine control panel keys
  23. Feed control
  24. Spindle control
  25. Keyswitch
  26. Program control
  27. Screen layout
  28. Global machine status display
  29. Program control display
  30. General sequence of operation
  31. Switch menu window
  32. Select directory/file
  33. Edit input/values
  34. Confirm/cancel input
  35. Editing part programs in the ASCII editor
  36. Switch channel
  37. m:n Communication links
  38. Pocket calculator
  39. Help
  40. Editor help
  41. Quick help for program commands
  42. Extended help for program commands
  43. Job list
  44. Syntax description for job lists
  45. Example of a job list with two-channel 1:1 connections
  46. Example of a job list with multi-channel m:n connections
  47. Execute job list" operating sequence
  48. Rename workpieces with job lists
  49. Copy workpieces with job lists
  50. Example of Operation
  51. Machine Operating Area
  52. Data structure of the NC control
  53. Operating modes and machine functions
  54. Mode groups and channels
  55. Channel-wide status display with symbols (SW 6.2 and higher)
  56. Dual-channel display (SW 6.4 and higher)
  57. Operating mode selection/change
  58. Services
  59. General functions and displays
  60. Display program level
  61. Toggling between Machine/Work (MCS/WCS)
  62. Display axis feeds
  63. Display auxiliary functions
  64. Display spindles
  65. Handwheel
  66. Status of synchronized actions
  67. Preset
  68. Setting the actual value
  69. Inch/metric switchover
  70. Reference point approach
  71. JOG mode
  72. Traverse the axes
  73. Inc: Incremental dimensions
  74. Repos (repositioning)
  75. SI (Safety Integrated): User agreement
  76. Scratching (SW 6 or higher)
  77. Scratching (SW 5 and lower)
  78. Display system frames
  79. MDI mode
  80. Save program, file function
  81. Teach-in
  82. Automatic mode
  83. Program Overview
  84. Loading and unloading the workpiece/part program
  85. Log: Loading list of the programs
  86. Executing programs from the hard disk
  87. Access to external network drive
  88. Program editing
  89. Block search/setting the search destination
  90. Accelerated external block search
  91. Block search in program testing mode, multi-channel
  92. Overstore
  94. DRF offset
  95. Parameters" Operating Area
  96. Tool data
  97. Tool offsets
  98. New tool
  99. Display tool
  100. Delete tool
  101. New cutting edge
  102. Delete cutting edge
  103. Activate tool offset immediately
  104. Tool management
  105. Basic tool management functions
  106. Modifying/changing tool data
  107. Change of meaning/representation of tool wear data
  108. Grinding parameters extension in SW 6.2 or later
  109. Loading
  110. Unload
  111. Relocation
  112. Tool master data in the tool catalog
  113. Tool offset data in the tool cabinet
  114. Batch processing of tools
  115. R parameters (arithmetic parameters)
  116. Setting data
  117. Jog data
  118. Spindle data
  119. Dry run feedrate for dry run DRY
  120. Starting angle for thread cutting
  121. Other types of setting data
  122. Protection zones
  123. Electronic gears (SW 6.3 and higher)
  124. Work offset
  125. Changing the settable work offset (G54 ...)
  126. Display active settable work offset
  127. Display active programmable work offset
  128. Display active work offset external
  129. Immediately activate work offset and basic frame
  130. Service
  131. Changing/finding user data/user variables
  132. Display system variables
  133. Creating/editing variable views
  134. Manage variable views
  135. Program" Operating Area
  136. Program types
  137. Storing programs
  138. Edit programs
  139. Undo and redo in the editor (from SW 6.3)
  140. Selective program protection: *RO*
  141. Reserved character strings
  142. Free contour programming
  143. Program contour
  144. Contour elements
  145. Graphic representation of the contour
  146. Input screens for setting parameters for contour elements
  147. Specifying contour elements in polar coordinates, closing the contour
  148. Undercuts in turning technology
  150. Parameter description of straight line/circle contour elements
  151. Examples of user-defined contour programming
  152. Cycle support
  153. Display in the step editor (option from SW 6.4)
  154. Program relationship in the dual editor (from SW 6.4)
  155. Synchronized display in the dual-step editor
  156. Multi-channel step display (option from SW 6.4)
  157. Program simulation
  158. Simulation operation
  159. Simulation settings
  160. Setting downtimes
  161. Display and colors
  162. Section by section simulation
  163. Multi-channel, section by section program simulation
  164. Simulation with orientable toolholder
  165. Quick display in the simulation for mold making
  166. Simulation with external network drive
  167. Manage programs
  168. NC data types and directories
  169. New workpiece/part program
  170. Saving setup data
  171. Select program for execution
  172. Load/unload program
  174. Copy/paste
  175. Delete
  176. Rename
  177. Enabling
  178. Accessing an external network drive/computer
  179. Services" Operating Area
  180. Function
  181. Hard disk
  182. Directories
  183. Data selection
  184. Formats for saving and importing data
  185. Punched tape format
  186. PC format
  187. RS-232 interface parameters
  188. Interface parameters
  189. Operation
  190. Setting the RS-232 interface
  191. Reading in data
  192. Reading out data
  193. Manage data
  194. Creating a new file/directory
  196. Deleting
  197. Changing the properties of a file/drive/archive
  198. Defining and activating user data (GUD)
  199. Start-up functions
  200. Restoring the original state via NC card
  201. Upgrade
  202. Diagnosis" Operating Area
  203. Diagnostics main screen
  204. Alarms/messages/alarm log
  205. Service display
  206. Service axis
  207. Service drive
  208. Service Safety Integrated
  209. Configuration data
  210. Action log
  211. Sorting and saving version information
  212. Displaying the version screen for cycles (from SW 6.3)
  213. Display cycle versions (from SW 6.3)
  214. Displaying loadable compile cycles (from SW 6.3)
  215. PLC status
  216. Changing/deleting values
  217. Symbolic PLC addresses
  218. Selecting/creating operand screens for PLC status
  219. File functions
  220. Displaying NC system resources
  221. Startup" Operating Area
  222. Machine data
  223. Display options: suppression filter
  224. User views
  226. Set time/clock
  227. Drives/servo
  228. Changing the HMI interface
  229. System settings
  230. Transferring display MD from HMI Embedded
  232. Maintenance
  233. Operating data
  234. Cleaning
  235. Appendix
  236. A Abbreviations
  237. C References
  238. E Commands, identifiers
SINUMERIK 810D first page preview

SINUMERIK 810D

Brand: Siemens | Category: Control Unit
Table of contents
  1. Table Of Contents
  2. Table Of Contents
  3. Table Of Contents
  4. Table Of Contents
  5. Table Of Contents
  6. ã Siemens AG, 2002. All rights reserved
  7. SINUMERIK 840D powerline
  8. ã Siemens AG, 2002. All rights reserved SINUMERIK 840D/840Di/810D Programming Guide Cycles (PGZ) – 11.02 Edition
  9. General
  10. General information
  11. Drilling cycles, drill pattern cycles, milling cycles and turning cycles
  12. Cycle auxiliary subroutines
  13. Programming cycles
  14. Messages during execution of a cycle
  15. Cycle call and parameter list
  16. Simulation of cycles
  17. Cycle support in program editor (SW 4.3 and higher)
  18. Overview of important files
  19. Configuring cycle selection
  20. Configuring input screen forms for parameter assignment
  21. Configuring help displays
  22. Configuring tools (MMC 100 / MMC 100.2 only)
  23. Loading to the control
  24. Independence of language
  25. Operating the cycles support function
  26. Typical user cycle configuration
  27. Cycle support in program editor (SW 5.1 and higher)
  28. New functions in input screen forms
  29. Drilling Cycles and
  30. Milling Cycles
  31. Cycle support for user cycles (SW 6.2 and higher)
  32. Cycle support configuration
  33. Bitmap size and screen resolution
  34. Storing bitmaps in data management for HMI Advanced
  35. Cycle startup (SW 6.2 and higher)
  36. Definition files for the cycles GUD7.DEF and SMAC.DEF
  37. New form of delivery for cycles in HMI Advanced
  38. Special functions for cycles
  39. Drilling Cycles and Drilling Patterns
  40. Drilling cycles
  41. Preconditions
  42. Drilling, centering – CYCLE81
  43. Drilling, counterboring – CYCLE82
  44. Deep-hole drilling – CYCLE83
  45. Rigid tapping – CYCLE84
  46. Tapping with compensating chuck – CYCLE840
  47. Boring 1 – CYCLE85
  48. Boring 2 – CYCLE86
  49. Boring 3 – CYCLE87
  50. Boring 4 – CYCLE88
  51. Boring 5 – CYCLE89
  52. Modal call of drilling cycles
  53. Drill pattern cycles
  54. Row of holes – HOLES1
  55. Hole circle – HOLES2
  56. Dot matrix – CYCLE801 (SW 5.3 and higher)
  60. Thread cutting – CYCLE90
  61. Elongated holes on a circle – LONGHOLE
  62. Slots on a circle – SLOT1
  63. Circumferential slot – SLOT2
  64. Milling rectangular pockets – POCKET1
  65. Milling circular pockets – POCKET2
  66. Milling rectangular pockets – POCKET3
  67. Milling circular pockets – POCKET4
  68. Face milling – CYCLE71
  69. Path milling – CYCLE72
  70. Milling rectangular spigots – CYCLE76 (SW 5.3 and higher)
  71. Milling circular spigots – CYCLE77 (SW 5.3 and higher)
  72. Pocket milling with islands – CYCLE73, CYCLE74, CYCLE75 (SW 5.2 and higher)
  73. Transfer pocket edge contour – CYCLE74
  74. Transfer island contour – CYCLE75
  75. Contour programming
  76. Pocket milling with islands – CYCLE73
  77. Swiveling – CYCLE800 (SW 6.2 and higher)
  78. Operation, parameter assignment, input screen form
  79. Operating instructions
  80. Parameters
  81. Starting up CYCLE800
  82. User cycle TOOLCARR.spf
  83. Error messages
  84. High Speed Settings – CYCLE832 (SW 6.3 and higher)
  85. Calling CYCLE832 in the HMI menu tree
  87. Customizing technology
  88. Interfaces
  90. Turning Cycles
  93. Grooving cycle – CYCLE93
  94. Undercut cycle – CYCLE94
  95. Stock removal cycle – CYCLE95
  96. Thread undercut – CYCLE96
  97. Thread cutting – CYCLE97
  98. Thread chaining – CYCLE98
  99. Thread recutting (SW 5.3 and higher)
  100. Extended stock removal cycle – CYCLE950 (SW 5.3 and higher)
  101. Error Messages and Error Handling
  103. Overview of cycle alarms
  104. Messages in the cycles
  105. Appendix
  106. A Abbreviations
  107. C References
  108. E Identifiers
SINUMERIK 810D first page preview

SINUMERIK 810D

Brand: Siemens | Category: Control Unit
Table of contents
  1. Table Of Contents
  2. Table Of Contents
  3. Table Of Contents
  4. Table Of Contents
  5. Table Of Contents
  6. Description of workpiece points
  7. Definition of workpiece positions
  8. Polar coordinates
  9. Incremental dimension
  10. Plane designations
  11. Position of zero points
  12. Position of coordinate systems
  13. Machine coordinate system
  14. Basic coordinate system
  15. Workpiece coordinate system
  16. Frame system
  17. Assignment of workpiece coordinate system to machine axes
  18. Current workpiece coordinate system
  19. Axes
  20. Main axes/Geometry axes
  21. Special axes
  22. Channel axes
  23. Synchronized axes
  24. Command axes
  25. Lead link axes
  26. Coordinate systems and workpiece machining
  27. Structure and contents of an NC program
  28. Language elements of the programming language
  29. Programming a sample workpiece
  30. First programming example for milling application
  31. Second programming example for milling application
  32. Programming example for turning application
  33. General notes
  34. Absolute/relative dimensions
  35. Incremental dimensions (G91, X=IC)
  36. Absolute dimension for rotary axes (DC, ACP, ACN)
  37. Dimensions inch/metric, (G70/G700, G71/G710)
  38. Special turning functions
  39. Position of workpiece
  40. Zero offset (frame), G54 to G57, G505 to G599, G53, G500/SUPA
  41. Selection of working plane (G17 to G19)
  42. Working area limitation (G25/G26, WALIMON, WALIMOF)
  43. Reference point approach (G74)
  45. Travel commands with polar coordinates, polar angle, polar radius
  46. Traversing commands with polar coordinates, (G0, G1, G2, G3 AP=..., RP=...)
  47. Rapid traverse movement (G0, RTLION, RTLIOF)
  48. Linear interpolation (G1)
  49. Circular interpolation types, (G2/G3, CIP, CT)
  50. Circular interpolation with center point and end point (G2/G3, I=, J=, K=AC...)
  51. Circular interpolation with radius and end point (G2/G3, CR)
  52. Circular interpolation with arc angle and center point (G2/G3, AR=)
  53. Circular interpolation with polar coordinates (G2/G3, AP=, RP=)
  54. Circular interpolation with intermediate and end points (CIP)
  55. Circular interpolation with tangential transition (CT)
  56. Helical interpolation (G2/G3, TURN=)
  57. Involute interpolation (INVCW, INVCCW)
  58. Contour definitions
  59. Two straight lines (ANG1, X3... Z3... ANG2)
  60. Three straight lines (ANG1, X3... Z3... ANG2, X4... Z4...)
  61. End point programming with angle
  62. operating principle
  63. Programmable run-in and run-out paths (DITS, DITE)
  64. Linear progressive/degressive thread pitch change (G34, G35)
  65. Tapping without compensating chuck (G331, G332)
  66. Tapping with compensating chuck (G63)
  67. Stop with thread cutting(LFOF, LFON, LFTXT, LFWP, LFPOS)
  68. Lifting on retraction (LFTXT, LFWP, LFPOS, POLF, POLFMASK; POLFMLIN)
  69. Approaching a fixed point (G75)
  70. Travel to fixed stop (FXS, FXST, FXSW)
  71. Chamfer, rounding (CHF, CHR, RND, RNDM, FRC, FRCM)
  73. Exact stop (G60, G9, G601, G602, G603)
  74. Continuous-path mode (G64, G641, G642, G643, G644)
  75. Acceleration behavior
  76. Influence of acceleration on following axes (VELOLIMA, ACCLIMA, JERKLIMA)
  77. Technology G groups (DYNNORM, DYNPOS, DYNROUGH, DYNSEMIFIN, DYNFISH)
  78. Smoothing the path velocity
  79. Traversing with feedforward control, FFWON, FFWOF
  80. Contour accuracy, CPRECON, CPRECOF
  81. Dwell time, G4
  82. Internal preprocessor stop
  83. General
  84. Frame instructions
  85. Programmable zero offset
  86. Axial zero offset (G58, G59)
  87. Programmable rotation (ROT, AROT, RPL)
  88. Programmable frame rotations with solid angles (ROTS, AROTS, CROTS)
  89. Programmable scale factor (SCALE, ASCALE)
  90. Programmable mirroring (MIRROR, AMIRROR)
  91. Frame generation according to tool orientation (TOFRAME, TOROT, PAROT)
  92. Deselect frame (G53, G153, SUPA, G500)
  93. Deselect DRF (handwheel) offsets, overlaid motions and transformation (DRFOF, CORROF TRAFOOF)
  94. Feedrate (G93, G94, G95 or F..., FGROUP, FGREF)
  95. Traversing positioning axes (POS, POSA, POSP, FA, WAITP, WAITMC)
  96. Position-controlled spindle operation (SPCON, SPCOF)
  97. Positioning spindles (position-controlled axis operation) (SPOS, M19 and SPOSA)
  98. Milling on turned parts (TRANSMIT)
  99. Cylinder surface transformation (TRACYL)
  100. Feedrate for positioning axes/spindles (FA, FPR, FPRAON, FPRAOF)
  101. Percentage feedrate override (OVR, OVRA)
  102. Feedrate with handwheel override (FD, FDA)
  103. Percentage acceleration override (ACC option)
  104. Feedrate optimization for curved path sections (CFTCP, CFC, CFIN)
  105. Spindle speed (S), direction of spindle rotation (M3, M4, M5)
  106. Constant cutting rate (G96, G961, G97, G971, LIMS)
  107. Constant grinding wheel peripheral speed (GWPSON, GWPSOF)
  108. Programmable spindle speed limitation (G25, G26)
  109. Multiple feedrate values in one block (F.., ST=.., SR=.., FMA.., STA=.., SRA=..)
  110. Blockwise feed (FB...)
  112. Tool offsets in the control's offset memory
  113. List of tool types
  114. Tool selection/tool call T
  115. Tool offset D
  116. Tool selection T with tool management
  117. Turning machine with circular magazine (T selection)
  118. Milling machine with chain magazine (T selection)
  119. Tool offset call D with tool management
  120. Milling machine with chain magazine (D call)
  121. Activating the active tool offset immediately
  122. Tool radius compensation (G40, G41, G42)
  123. Contour approach and retraction (NORM, KONT, KONTC, KONTT)
  124. Compensation at the outside corners (G450, G451)
  125. Smooth approach and retraction
  126. Approach and retraction with enhanced retraction strategies (G460, G461, G462)
  127. Collision monitoring (CDON, CDOF, CDOF2)
  128. ½ D tool offset (CUT2D, CUT2DF)
  129. Tool length compensation for orientable toolholders (TCARR, TCOABS, TCOFR)
  130. Grinding-specific tool monitoring in parts programs (TMON, TMOF)
  131. Additive offsets
  132. Specify wear and setup values ($TC_SCPxy[t,d], $TC_ECPxy[t,d])
  133. Delete additive offsets (DELDL)
  134. Special handling of tool offsets
  135. Mirroring of tool lengths
  136. Wear sign evaluation
  137. Tool length and plane change
  138. Tools with a relevant cutting edge length
  139. Special functions
  140. M functions
  141. H functions
  142. Arithmetic Parameters and Program Jumps
  143. Unconditional program jumps
  144. Conditional program jumps (IF, GOTOB, GOTOF, GOTO, GOTOC)
  145. Subprograms and Repetition of Program Sections
  146. Subprogram call
  147. Subprogram with program repetition
  148. Program section repetition
  149. Tables
  150. List of addresses
  151. List of G functions/preparatory functions
  152. List of predefined subprograms
  153. Predefined subprogram calls in motion-synchronous actions
  154. Predefined functions
  155. Data types
  156. A.1 Abbreviations
  157. Glossary
SINUMERIK 810D first page preview

SINUMERIK 810D

Brand: Siemens | Category: Control Unit
SINUMERIK 810D first page preview

SINUMERIK 810D

Brand: Siemens | Category: Industrial Equipment
SINUMERIK 810D first page preview

SINUMERIK 810D

Brand: Siemens | Category: Control Unit
SINUMERIK 810D first page preview

SINUMERIK 810D

Brand: Siemens | Category: Control Systems
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