Description
IS200VPROH2B Product Introduction
The specific application scope of the product
will depend on the needs of system integration and industrial application, but generally speaking, this type of embedded controller module can be applied to the following categories:
manufacturing processes, etc.
monitoring and control system.
of the controller module, as well as the specific needs of the customer.
designed to manage gas or steam turbines.
It has a CIMPLICITY graphical interface and an HMI with software suitable for running heavy-duty turbines.
be installed at the bottom of the cabinet. For a small setup that is easy to serve a triple redundant system, up to three components can be installed side by side.
he board can operate within a temperature range of 0 to 65 degrees Celsius without the need for a fan for cooling. NFPA Class 1. This board can be used for two applications.
Nine Questions and Answers on Common Faults in ABB Industrial Robot ApplicationsQuestion 1: Under what circumstances do I need to back up my robot?Answer: 1. After the new machine is powered on for the first time.2. Before making any modifications.3. After completing the modification.4. If the robot is important, conduct it regularly once a week.5. It is best to make a backup on a USB flash drive.6. Delete old backups regularly to free up hard drive space.Second question: What does the alarm message 10106 maintenance time reminder mean when the robot appears?Answer: This is the intelligent periodic maintenance reminder of ABB robots.Question 3: What should I do if the robot enters a system failure state when it is powered on?Answer: 1. Restart the robot.2. If it doesn”t work, check whether there is a more detailed alarm prompt on the teaching pendant and handle it.3. Restart.4. If it still cannot be lifted, try B startup.5. If it still doesn’t work, try P startup.6. If it still doesn’t work, try I startup (this will return the robot to factory settings, be careful).Question 4: Can robot backup be shared by multiple robots?Answer: No, for example, the backup of robot A can only be used for robot A, not robots B or C, because this will cause system failure.Five questions: What files can be shared in the robot backup?Answer: If the two robots are of the same model and configuration. You can share RAPID programs and EIO files, but they must be verified before they can be used normally.Question 6: What is the mechanical origin of the robot? Where is the mechanical origin?Answer: The six servo motors of the robot have a unique fixed mechanical origin. Incorrectly setting the mechanical origin of the robot will cause problems such as limited movement or malfunction of the robot, the inability to walk in a straight line, etc., and serious damage to the robot.Question 7: How to cancel the robot 50204 motion monitoring alarm?Answer: 1. Modify the robot action monitoring parameters (control panel – action monitoring menu) to match the actual situation.2. Use the AccSet command to reduce the robot”s acceleration.3. Reduce the v_rot option in the speed data.Eight questions: What should I do if the robot alarms “50296, SMB memory data difference” when it is powered on for the first time?Answer: 1. Select calibration in the ABB main menu.2. Click ROB_1 to enter the calibration screen and select SMB memory.3. Select “Advanced” and click “Clear Control Cabinet Memory” after entering.4. Click “Close” when finished, then click “Update”.5. Select “The control cabinet or robot has been exchanged, and the control cabinet is updated using SMB memory data.”Question 9: How to customize the speed of robot trajectory in the RAPID program?Answer: 1. Select program data in the main menu of the teaching pendant.2. After finding the data type Speeddata, click New.3. Click on the initial value. The meanings of the four variables of Speeddata are: v_tcp represents the linear operating speed of the robot, v_rot represents the rotational operating speed of the robot, v_leax represents the linear operating speed of the additional axis, v_reax represents the rotational operating speed of the additional axis, if there is no additional axis, then No need to modify the two.4. The customized data can be called in the RAPID program.
IS200DSPXH2C GE power control board
DS200DMCBG1AED High performance processor module GE
IS210MVRAH2A GE power control board
IS410JPDEG1A I/O excitation redundant module GE
IS215UCVGH1A From General Electric in the United States
IS220PDIAH1B High performance processor module GE
IS420UCSBH1A From General Electric in the United States
IS200TRPGH1BDE GE power control board
IS210AEAAH1BJE From General Electric in the United States
IS200SRTDH2A High performance processor module GE
IS410STAIS2A Processor/Controller Mark VI System
IS210DRTDH1AA Processor/Controller Mark VI System
IS420ESWBH3A Processor/Controller Mark VI System
IS200DAMCG1A From General Electric in the United States
DS200CTBAG1A GE power control board
IS200TREGHIB From General Electric in the United States
IS220PPROH1A Processor/Controller Mark VI System
IS210MVRAH2A Processor/Controller Mark VI System
DS200SLCCG3ACC I/O excitation redundant module GE
IS200EROCH1ADD High performance processor module GE
DS200PCCAG9A GE power control board
IS200DSPXH1DBD High performance processor module GE
IS200EPCTG1AAA I/O excitation redundant module GE
IS210AEBIH1BAA I/O excitation redundant module GE
IS215UCVEH2AB High performance processor module GE
IS220PTURH1B From General Electric in the United States
IS200BICMH1AAA From General Electric in the United States
IS200TVIBH2BAA GE power control board
IS200EDCFG1A GE power control board
DS200FGPAG1AHD I/O excitation redundant module GE
IS200DAMCG1A Gas turbine system Mark VI
DS200TCQCG1BKG From General Electric in the United States
IS200BICLH1BBA High performance processor module GE
IS200EMIOH1ACA High performance processor module GE
IS210DSVOH1A From General Electric in the United States
IS210WSVOH1AE Processor/Controller Mark VI System
IS200EGDMH1A High performance processor module GE
IS200EACFG2A Gas turbine system Mark VI
IS220PDOAH1A GE power control board
IS200AEADH1ACA Gas turbine system Mark VI
IS2020ISUCG3A From General Electric in the United States
IS200TRTDH1B GE power control board
DS200IAXSG1A GE power control board
IS220YDIAS1A GE power control board
DS200TCQCG1BHF I/O excitation redundant module GE
IS200CABPG1B GE power control board
IS200TRPAS1AFD High performance processor module GE
DS200TCDAG1BDB Processor/Controller Mark VI System
DS200VPBLG1A Gas turbine system Mark VI
IS215UCVEM10A Gas turbine system Mark VI
IS200EISBH1AAB From General Electric in the United States
IS200SRLYH2A High performance processor module GE
IS200JPDFG1A High performance processor module GE
IS200TBAIH1CDC From General Electric in the United States
IS200SCTLG1A From General Electric in the United States
DS200IIBDG1AFA I/O excitation redundant module GE
IS200VTURH2B GE power control board
IS200DSPXH1DBD I/O excitation redundant module GE
IS200ERRRH1A GE power control board
IS200JPDMG1A Processor/Controller Mark VI System
DS3800DFXA1B1C I/O excitation redundant module GE
DS200SDCCF1AFD Gas turbine system Mark VI
IS210BPPBH2B Gas turbine system Mark VI
IS200HFPRG1A Gas turbine system Mark VI
IS200IGDMH1ACA From General Electric in the United States
IS200HFPAG2A High performance processor module GE
IS215UCVEM09B GE power control board
IS200AEADH1ACA GE power control board
IS200EPSMG1A From General Electric in the United States
IS210AEBIH1BED High performance processor module GE
DS200SHVMG1AFE Processor/Controller Mark VI System
IS200DTURH1ABA Gas turbine system Mark VI
IS215UCVEH2A Gas turbine system Mark VI
IS200TRPGH1B Gas turbine system Mark VI
IS220PAICH1B From General Electric in the United States
IS200IVFBG1A Gas turbine system Mark VI
IS210AEDBH3A Processor/Controller Mark VI System
IS200SDIIH1ADB GE power control board
IS2020RKPSG Processor/Controller Mark VI System
IS215UCVEM09B Processor/Controller Mark VI System
IS215UCVEH2A From General Electric in the United States
IS220PDOAH1B Gas turbine system Mark VI
IS210DTCIH1A Processor/Controller Mark VI System
