User manual OMRON 3G3MV-PDRT2

[. . . ] I539-E1-02 USER'S MANUAL DeviceNet Communications Unit MODEL 3G3MV-PDRT2 (For SYSDRIVE 3G3MV Multi-function Compact Inverters) DeviceNet Communications Card MODEL 3G3RV-PDRT2 (For SYSDRIVE 3G3RV and 3G3FV High-function General-purpose Inverters) Thank you for choosing a 3G3MV/3G3RV Series Inverter and DeviceNet Communications Unit. This manual describes the specifications and operating methods of the DeviceNet Communications Unit used for exchanging data between an Inverter and a Programmable Controller. Specifically, it describes the operation methods, communications methods, and data setting methods of the 3G3MV-PDRT2 DeviceNet Communications Unit and 3G3RV-PDRT2 DeviceNet Communications Card. Proper use and handling of the product will help ensure proper product performance, will lengthen product life, and may prevent possible accidents. [. . . ] Trigger condition Configurator Programmable Controller The open protocol allows the CMND instruction in the PLC to be used for placing triggers and collecting waveform data. , Waveform data DeviceNet (Master) Unit DeviceNet Inverter FREF FOUT IOUT MNTR F/R LO/RE PRGM RUN MIN STOP RESET MAX FREQUENCY SYSDRI VE 3G3MV DIGITAL OPERATO PJVOP-14 R 0 INVERTER RUN ALARM NPIT3129 7-404-1 Current is output INVERTER 3G3MVA2001 INPUT: AC3PH 200 230V 50/60Hz 1. 1A OUTPUT: AC3PH 0 230V 0 400Hz 0. 8A 0. 3kVA MASS:0. 6kg LOT NO: 8Y1 PRG: SER NO: N810318 001A 3 INSTALLATION CATEGORY FILE NO: E179149 IP20 OMRON Corporation Current level is internally traced and saved. 200V 3PHA SE WARNING 0. 1kW AVERTIS SMENT Attend l - Risk Read of elect manual Wait 1 before ric shoc install k. nectin To confo g power itor discha supply rge after to groun rm to requir . d the supply ements, make neutra sure l for Lisez - Risque 400V class. apres '' u'a les d'etac Pour repon conde ' hment ' ' le neutre dre aux nsateurs sont d'elec ' ' decha tricite, est a la exigences ' rges. masse pour la , s'assurer ' que~ serie 400V. Motor Output current The motor torque (Inverter's output current) fluctuates due to deterioration of the equipment, such as loose chain or wear on the machine). A current waveform can be used to check the fluctuation. Time 7-17 Configurator Settings Chapter 7 Setting Method Current Trace Tab Page in the Maintenance Information Window Click the Current Trace Tab in the Maintenance Information Window and set each item. Item Trigger Setting range Forward run command, reverse run command, frequency agreement, or error 10 ms, 20 ms, 50 ms, 100 ms, or a value up to 100 s Current Trace Sampling Cycle Details Sets the signal for trace timing. Note: The trace is performed by combining the trigger setting with the Start Trigger, Middle Trigger, and End Trigger Buttons. Select the trace sampling cycle from the pull-down menu. 7-18 Configurator Settings Chapter 7 Tracing Methods Button Details Performs manual tracing. When this button is clicked, the trace starts, and when the Cancel Button is clicked, the trace stops. Note 1: When the amount of trace data exceeds 150 points, the oldest data is deleted. Note 2: The 150 points that exist in memory when the Cancel Button is clicked will be stored. Recorded trace data Trace start (Trace Button is ON. ) Time Trace stop (Cancel Button is ON. ) Use the following button operations to perform traces. Trace Trace (Buffer full) Performs manual tracing. When this button is clicked, the trace starts, and when 150 points have been sampled, the trace stops. Note: If the Cancel Button is clicked during the trace, the trace will stop. Recorded trace data Trace start (Trace Button is ON. ) Trace stop (150 points sampled) Time Start Trigger Starts the trace using the signals selected in the Trigger field, and stops the trace when 150 points have been sampled. Note: The trace will also stop if the Cancel Button is clicked during the trace. Recorded trace data Start Trigger Button ON. Trace start (trigger signal ON) Time Trace stop (150 points sampled) Middle Trigger When this button is clicked, the trace starts. When the signals selected in the Trigger field are turned ON, 75 points are sampled, and then the trace stops. Note 1: When the trigger signal is ON, the 75 points before the trigger and the 75 points after the trigger are recorded. Note 2: The trace also stops when the Cancel Button is clicked. Recorded trace data Trace start (Middle Trigger Button ON) Trigger signal ON Trace stop (75 points sampled) Time End Trigger When this button is clicked, the trace starts. When the signals selected in the Trigger field are turned ON, the trace stops. Note 1: The 150 points from immediately before the trigger signal turns ON are recorded. Note 2: The trace also stops when the Cancel Button is clicked. Recorded trace data Trace start (End Trigger Button ON) Time Trace stop Trigger signal ON 7-19 Configurator Settings Chapter 7 Monitor Methods The trace data can be checked on the History Tab Page and Graph Tab Page. History Tab Page Current Trace Tab Page and History Tab Page in the Maintenance Information Window Item Time Current Status Save Button Details Displays the time determined from the current trace sampling cycle. Displays whether the sampling timing is during acceleration/deceleration or frequency agreement. [. . . ] The value for a 200-V-class 0. 4kW Inverter is given above. Option Parameters RegisClass 64 (hex) ter numInAtber stance tribute (hex) 0380 0381 0382 0383 0384 0385 0386 0387 0388 0389 038A 038B 038C 0397 038D 038E 038F 01 01 01 01 01 01 01 01 01 01 01 01 01 01 ------70 71 72 73 74 75 76 77 78 79 7A 7B 7C 7D ------Name Setting range Setting unit Default setting Write during operation No No No No No No No No No No No No No No No No No Constant F1-01 F1-02 F1-03 F1-04 F1-05 F1-06 F1-07 F1-08 F1-09 F1-10 F1-11 F1-12 F1-13 F1-14 F2-01 F3-01 F4-01 Number of PG pulses PG disconnection stopping method (PGO) PG overspeed stopping method PG speed deviation stopping method PG rotation setting PG output ratio Selecting integral control during accel/ decel. Overspeed (OS) detection time PG speed deviation detection level (DEV) PG speed deviation detection time (DEV) Number of PG gear teeth 1 Number of PG gear teeth 2 PG disconnection detection time Analog Reference Card selection Digital Reference Card input selection Channel 1 output monitor selection 0 to 60000 0 to 3 0 to 3 0 to 3 0, 1 0 to 132 0, 1 0 to 120 1 p/r 1 1 1 1 1 1 1% 1000 1 1 3 0 1 0 115 0. 0 (See note 1. ) 10 0. 5 0 0 2. 0 0 0 2 0. 0 to 2. 0 0. 1 s 0 to 50 1% 0. 0 to 0. 1 s 10. 0 0 to 1000 1 0 to 1000 1 0. 0 to 0. 1 s 10. 0 0, 1 0 to 7 1 to 38 (See note 2. ) 0. 00 to 2. 50 1 to 38 (See note 2. ) 0. 00 to 2. 50 -10. 0 to 10. 0 -10. 0 to 10. 0 ----1 1 1 F4-02 F4-03 0390 0391 ----- ----- Channel 1 gain Channel 2 output monitor selection 0. 01 1 1. 00 3 Yes No F4-04 F4-05 F4-06 F5-01 F5-02 0392 03A0 03A1 0393 0394 ----------- ----------- Channel 2 gain Channel 1 bias Channel 2 bias Not used. Not used. 0. 01 0. 1% 0. 1% ----- 0. 50 0. 0 0. 0 0 1 Yes Yes Yes ----- 10-98 Appendices Constant RegisClass 64 (hex) ter numInAtber stance tribute (hex) 0395 ----Not used. 0396 0398 0399 039A 039B 039C 039E 039F --------------------------------Name Setting range Setting unit Chapter 10 Default setting Write during operation --No No No No No --No No F6-01 F7-01 F8-01 F9-01 F9-02 F9-03 F9-04 F9-05 F9-06 --0 to 4 0 to 3 0, 1 0, 1 0 to 3 --- --1 1 1 1 1 --1 1 0 1 1 0 0 1 0 1 1 Output pulse multiple selection Operation selection (E-15) Communications external fault input selection Communications external fault input detection selection Communications external fault input operation selection Not used. Torque reference/Torque limit selection 0, 1 from communications DeviceNet operation selection 0 to 3 Note 1. [. . . ]