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Mitsubishi Electric CR750-D Series manuals

CR750-D Series first page preview

CR750-D Series

Brand: Mitsubishi Electric | 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. Before starting use
  10. Symbols used in instruction manual
  11. Safety Precautions
  12. Precautions given in the separate Safety Manual
  13. Explanation of functions
  14. Operation panel (O/P) functions (CR760 controller)
  15. Teaching pendant (T/B) functions
  16. Operation rights
  17. Functions Related to Movement and Control
  18. Explanation of operation methods
  19. Input of the number/character
  20. Selecting a menu
  21. Jog Feed (Overview)
  22. Speed of jog feed
  23. JOINT jog
  24. TOOL jog
  25. CYLNDER jog
  26. Switching Tool Data
  27. Changing the world coordinate (specifies the base coordinate number)
  28. Impact Detection during Jog Operation
  29. Impact Detection Level Adjustment during Jog Operation
  30. Opening/Closing the Hands
  31. Returning to the Safe Point
  32. Aligning the Hand
  33. Programming
  34. Creating a program
  35. Completion of program creation and saving programs
  36. Correcting a program
  37. Registering the current position data
  38. Deletion of the position variable
  39. Confirming the position data (Position jump)
  40. Correcting the MDI (Manual Data Input)
  41. Executing a Command Directly
  42. Debugging
  43. Step return
  44. Step feed in another slot
  45. Step jump
  46. Automatic operation
  47. Starting automatic operation
  48. Starting from the T/B
  49. Stopping
  50. Resuming automatic operation from stopped state
  51. Resetting the program
  52. Turning the servo ON/OFF
  53. Error reset operation
  54. Operating the program control screen
  55. Copying programs
  56. Name change of the program (Rename)
  57. Deleting a program (Delete)
  58. Protection of the program (Protect)
  59. Select the program
  60. Operation of operating screen
  61. Finishing of the confirmation screen
  62. Operating the OPERATION screen
  63. Operating the monitor screen
  64. Output signal monitor
  65. Input register monitor
  66. Output register monitor
  67. Variable monitor
  68. Error history
  69. Operation of parameter screen
  70. Operation of the origin and the brake screen
  71. Operation of setup / initialization screen
  72. Initialize the parameter
  73. Initialize the battery
  74. Operation
  75. Version
  76. ENHANCED
  77. Operation of the initial-setting screen
  78. Adjustment of contrast
  79. MELFA-BASIC V
  80. Robot operation control
  81. Linear interpolation movement
  82. Circular interpolation movement
  83. Continuous movement
  84. Acceleration/deceleration time and speed control
  85. Confirming that the target position is reached
  86. High path accuracy control
  87. Hand and tool control
  88. Pallet operation
  89. Program control
  90. Repetition
  91. Interrupt
  92. Subroutine
  93. Timer
  94. Inputting and outputting external signals
  95. Communication
  96. Expressions and operations
  97. Relative calculation of position data (multiplication)
  98. Appended statement
  99. The difference between MELFA-BASIC V and MELFA-BASIC IV
  100. Multitask function
  101. Executing a multitask
  102. Precautions for creating multitask program
  103. How to perform the initialization processing via constantly executed programs
  104. Example of using multitask
  105. Procedures to multitask execution
  106. Program capacity
  107. Detailed specifications of MELFA-BASIC V
  108. Variable
  109. Statement
  110. Types of characters that can be used in program
  111. Characters having special meanings
  112. Data type
  113. Position constants
  114. Joint constants
  115. Angle value
  116. Numeric value variables
  117. Joint variables
  118. External variables
  119. User-defined external variables
  120. Creating User Base Programs
  121. Coordinate system description of the robot
  122. About base conversion
  123. About position data
  124. About tool coordinate system (mechanical interface coordinate system)
  125. Tool coordinate system
  126. Effects of use of tool coordinate system
  127. Robot status variables
  128. Logic numbers
  129. Functions
  130. List of Command
  131. Command related to program control
  132. Multi-task related
  133. Operators
  134. Priority level of operations
  135. Detailed explanation of command words
  136. Detailed explanation of Robot Status Variable
  137. Detailed Explanation of Functions
  138. Functions set with parameters
  139. Signal parameter
  140. About multi CPU input offsets (CR7xx-Q series controller only)
  141. Case (B)
  142. Operation parameter
  143. Command parameter
  144. Communication parameter
  145. Standard Tool Coordinates
  146. About Standard Base Coordinates
  147. About user-defined area
  148. Selecting a coordinate system
  149. Setting Areas
  150. Posture Area
  151. Selecting mechanism to be checked
  152. Example of settings
  153. Free plane limit
  154. Selection of a coordinates system for a free plane limit
  155. Automatic return setting after jog feed at pause
  156. Automatic execution of program at power up
  157. About the hand type
  158. About default hand status
  159. CR760 controller
  160. About the output signal reset pattern
  161. About the communication setting (Ethernet)
  162. CRRCE11 to 19 (protocol)
  163. Example of setting of parameter 1 (When the Support Software is used)
  164. Example of setting of parameter 2-1
  165. Example of setting parameters 2-2
  166. Example of setting parameters 3
  167. Connection confirmation
  168. Hand and Workpiece Conditions (optimum acceleration/deceleration settings)
  169. About the singular point adjacent alarm
  170. High-speed RAM operation function
  171. Warm-Up Operation Mode
  172. About singular point passage function
  173. About the collision detection function
  174. Related parameters
  175. How to use the collision detection function
  176. Optimizing the overload level
  177. Multi-rotational restrictions for the pallet definition instruction
  178. Interference avoidance function
  179. Operation procedures
  180. Preparing and connecting the devices
  181. Registering the simulated components for interference check
  182. Registering a free plane limit
  183. Support of additional axes
  184. Calibration between robots (Checking for interference between robots)
  185. Enabling and disabling the interference avoidance function
  186. Sample programs
  187. Sequencer input/output unit direct control
  188. The outline of the operating procedure
  189. Set up "Multiple CPU settings" of the sequencer
  190. Description of the Robot Status Variable
  191. Direct communication with robot CPUs
  192. Parameter for behavior selection at the error occurrence on dual system
  193. External input/output functions
  194. Sequencer link I/O function
  195. Robot CPU parameter setting
  196. CPU shared memory and robot I/O signal compatibility
  197. Assignment of the dedicated I/O signal. (at factory shipping)
  198. Dedicated input/output
  199. Enable/disable status of signals
  200. External signal timing chart
  201. Timing chart example
  202. External signal operation timing chart (Part 2)
  203. Example of external operation timing chart (Part 3)
  204. Example of external operation timing chart (Part 4)
  205. Example of external operation timing chart (Part 5)
  206. Emergency stop input
  207. Appendix
  208. Explanation of communication data packet
  209. Sample program
  210. Sample program for real-time external control function
  211. Configuration flag
  212. Spline interpolation
  213. Required devices and software version
  214. Specifications
  215. Restrictions
  216. Robot behavior during spline interpolation
  217. Check related to path points
  218. Operation mode
  219. Signal output
  220. Numerical setting
  221. Frame transformation
  222. Work procedures
  223. Creating the spline file
  224. Creating a file by DXF File Import function
  225. Creating new spline files with robot language
  226. Explanation of Spline File Edit screen
  227. Menu bar for Spline File Editing
  228. Details of path point data
  229. Editing the spline file
  230. Saving the spline file
  231. Deleting a spline file
  232. Copying the spline file
  233. Import/export function
  234. Auxiliary editing functions
  235. Displays the spline curve
  236. Robot program
  237. Creating the robot program
  238. Confirming the movement
  239. Saving in the robot controller
  240. Frame transformation function
  241. Position jump
  242. Parameter SPLOPTGC
  243. Ex-T control
  244. Ex-T jog
  245. Movement of the posture element in the WORK jog
  246. Ex-T jog operation
  247. WORK jog operation of the RV 6-axis type
  248. WORK jog operation of the RH 4-axis type
  249. WORK jog operation of the RH 4-axis hanging type
  250. Creation of robot program
  251. Cooperative operation function
  252. System configuration
  253. Automatic operation program (1.prg)
  254. Robot adjustment program (BFRM.prg)
  255. Sequence program
  256. Adjustment
  257. Adjustment 2: Setting of the common tool
  258. Cooperated operation by robots
  259. Get-position-quick function
  260. Specifications of Digital Input Signal
  261. Electric Specification of Digital Input
  262. How to use the GPS function
  263. Workpiece presence recognition in a cassette
  264. Upgrade of the servo software
CR750-D Series first page preview

CR750-D Series

Brand: Mitsubishi Electric | Category: Robotics
Table of contents
  1. safety precautions
  2. Table Of Contents
  3. Table Of Contents
  4. Table Of Contents
  5. Using This Manual
  6. Terminology Used in This Instruction Manual
  7. Select the Force Sensor
  8. Flowchart
  9. Force Sense Function System Specifications
  10. System Configuration
  11. Force Sense Function Specifications
  12. Force Sense Interface Unit Specifications
  13. Name of Each Force Sense Interface Unit Part
  14. VDC Power Supply Specifications
  15. VDC Output Cable
  16. Force Sensor Specifications
  17. Force Sensor External Dimensions
  18. Sensor Attachment Adapter External Dimensions
  19. Coordinate System Definition
  20. Force Sense Coordinate System (Mechanical Interface)
  21. Force Sense Coordinate System (XYZ)
  22. Force Sensor Coordinate System
  23. Check Before Use
  24. Force Sensor Set 4F-FS001-W1000
  25. Software Versions
  26. Attaching the Force Sensor
  27. Recommended Attachment Angle
  28. Securing the force sensor cable
  29. Tool installation
  30. Device Connection, Wiring, and Settings
  31. Force Sense Interface Unit ↔ Force Sensor
  32. Turning ON the Power
  33. Default Parameter Settings
  34. Force Sense Interface Unit identification
  35. Calibration
  36. Force Sensor Tolerance
  37. Force Sensor Control Offset Limit
  38. Checking the Connection and Settings
  39. If Using R32TB/R33TB
  40. Checking the Force Sensor Attachment Coordinate System
  41. Using the Force Sense Function (Programming)
  42. Force Sense Control
  43. Force Sense Enable/Disable Commands
  44. Control Mode / Control characteristics
  45. Offset Cancel Designation
  46. Control characteristics Change Commands
  47. Usage Example (Force Sense Control)
  48. Force Sense Detection
  49. Mo Trigger
  50. Force Detection Status
  51. Usage Example (Force Sense Detection)
  52. Force Sense log
  53. Parameter Settings
  54. Force Sense Log Data Acquisition
  55. Force Sense Log Data Display (RT ToolBox2)
  56. Force Sense Log File FTP Transfer
  57. Usage Example (Force Sense Log)
  58. Gravity Offset Cancel Function
  59. Calibration Procedure
  60. Usage Example (Force Sensor Calibration)
  61. Using the Force Sense Function (Teaching)
  62. Force Sense T/B
  63. Force Sense Monitor
  64. Contact Detection
  65. Usage Example (Force Sense Function T/B)
  66. Teaching Operation
  67. Usage Example (Teaching Operation)
  68. Force Sense Function Screen
  69. R32TB/R33TB
  70. Language Specifications
  71. Status Variables Relating to Force Sense Control Function
  72. Commands Relating to Force Sense Detection Function
  73. Status Variables Relating Force Sense Detection Function
  74. Commands Relating to Force Sense Log Function
  75. Related Commands for Gravity Offset Cancel Function
  76. Related Status Variables for Gravity Offset Cancel Function
  77. Other Related Commands
  78. Examples
  79. Parameter Specifications
  80. RT ToolBox2 Force Sense Function Parameter Setting Screen
  81. R56TB/R57TB Force Sense Function Parameter Setting Screen
  82. Troubleshooting
  83. Force Control Function Related Error Details
  84. Appendix
CR750-D Series first page preview

CR750-D Series

Brand: Mitsubishi Electric | Category: Controller
Table of contents
  1. Table Of Contents
  2. Table Of Contents
  3. Before starting use
  4. Symbols used in instruction manual
  5. Safety Precautions
  6. Precautions given in the separate Safety Manual
  7. Unpacking to installation
  8. Installation
  9. Installation procedures
  10. CR751 controller: Thin type
  11. CR751 controller: Heavy type
  12. CR760 controller
  13. Attachments installation procedures
  14. Installing the cover plate
  15. Connecting the power cable and grounding cable
  16. CR751 controller
  17. Emergency stop input and output etc
  18. CR750 controller
  19. Mode changeover switch input
  20. Connection of the mode changeover switch input
  21. Examples of safety measures
  22. External emergency stop connection [supplementary explanation]
  23. Magnet contactor control connector output (AXMC) for addition axes
  24. Image of how to connect the controller connector
  25. Connecting to the robot arm
  26. Installing the option devices
  27. Installing the extension memory cassette
  28. Basic operations
  29. Handling the controller
  30. Handling the T/B
  31. Installing the T/B (CR751 controller)
  32. Functions of each key
  33. Turning the power ON and OFF
  34. Shutting OFF the control power
  35. Turning the servo power ON/OFF
  36. Jog operation
  37. Opening and closing the hand
  38. Programming
  39. Creating the program
  40. Deciding the operation position name
  41. Describing and creating the program
  42. Confirming the program
  43. Correcting the program
  44. Saving the program
  45. Start automatic operation
  46. Maintenance and Inspection
  47. Inspection items
  48. Maintenance and inspection procedures
  49. The battery exchange method of the CR750/CR760 controller
  50. The battery exchange method of the CR751 controller
  51. The check of the filter, cleaning, exchange
  52. Maintenance parts
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