Description
SH140/30330/1/0/02/22/10/01/00 Schneider servo motor
SH140/30330/1/0/02/22/10/01/00 Schneider servo motor
Module Clips Drive controller servo moto
SH140/30330/1/0/02/22/10/01/00 Motor is a device that converts electrical energy into mechanical energy.
It uses energized coils (i.e. stator windings) to generate a rotating magnetic field and applies it to the rotor (such as a squirrel cage closed aluminum frame) to form a magnetic electric rotational torque.
SH140/30330/1/0/02/22/10/01/00 Electric motors are divided into DC motors and AC motors according to their power sources. Most electric motors in the power system are AC motors,
which can be synchronous motors or asynchronous motors (the stator magnetic field speed and rotor rotation speed of the motor do not maintain synchronous speed).
The SH140/30330/1/0/02/22/10/01/00 electric motor is mainly composed of a stator and a rotor. The direction of force movement of the energized wires in the magnetic field is related to the direction
of the current and the direction of the magnetic field lines (magnetic field direction). The working principle of an electric motor is that the magnetic field exerts force on the current, causing the motor to rotate.
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In modern production systems, industrial robots and PLCs need to communicate and collaborate to complete production tasks. That is, the industrial robots output signals to the PLC, allowing the PLC to control related equipment to drive the robot’s front-end tools. This article mainly analyzes the communication problems between ABB industrial robots and PLC based on DeviceNet fieldbus technology. DeviceNet is a common network communication method in the field of automation. ABB industrial robots establish a network to communicate with Siemens PLC based on the DeviceNet network.
1Configure DSQC652
There are mainly 5 types of standard I/0 boards commonly used in ABB industrial robots [2]. Except for the different addresses assigned to them during setup, their configuration methods are basically the same. This article mainly analyzes the ABB standard I/0 board DS0C652, which mainly builds communication modules based on the DeviceNet network. The DS0C652 board has a distributed I/O module with 16 digital input and 16 digital output interfaces. The board is installed in the ABB industrial robot control cabinet. First, define the specific operation steps of the DS0C652 board, enter the teach pendant control panel, then enter the configuration menu (Figure 1), select the DeviceNetDevice menu, and add a template to enter Figure 2. ABB standard I/0 board is hung on the DeviceNet network, so the address of the module in the network must be set. The jumpers 6 to 12 of terminal x5 are used to determine the address of the module. The available address range is 10 to 63. Modify the parameters in the template parameters to complete the DS0C652 board settings. Click the drop-down menu to select the “Use value from template” row, select “DS0C65224VDCI/0Device”, and then the parameters that need to be set include the address of the I/0 board in the bus.
Figure 1 Configuring DSQC652
2Configure signals and parameters
After completing the DS0C652 board setting, the I/0 signal setting will be performed. Setting the I/0 signal is the basis for establishing communication with the PLC. The PLC communicates and transmits data with the ABB industrial robot through the I/0 signal and the DS0C652 board. As shown in Figure 3, in the signal configuration interface, there are many default I/0 points after the system is established. Modification is not allowed. Click “Add” to add signals. When setting input and output signals, their address range is 0~15. First, enter the signal menu in the configuration options to set the input and output types, and modify the corresponding parameters. After completing the settings, the computer prompts that you need to restart the settings. If there are multiple signals that need to be defined and the waiting time is long after restarting multiple times, you can click “Cancel” and wait for all signals to be defined before clicking the “Yes” button to restart. After the signal settings are completed, click to select “Input and Output” in the ABB menu to check whether all signals have been set.
Figure 2 Configure DSQC652 parameters
Figure 3 Signal parameter settings
During the signal establishment process, attention should be paid to the DSoC652 port and PLC port addresses used, and the corresponding address table should be established, as shown in Table 1. The robot interacts with the PLC through I/O signals. During the setting process, there must be no errors in the port and address number of the PLC connected to the DSoC652. If the address is set incorrectly, the communication between the robot and the PLC will not work properly.
The entire robot teaching pendant setting process is shown in Figure 4.
LIEBHERR 917871314 X1-033 CAN
LIEBHERR 917871114 X1-057-1 CAN
LIEBHERR 917870914 X1-017 CAN
EUROTHERM 3504 VAF
FORTRUST C1000A
FOXBORO 43AP-PA42C-PB-PF
GESTRA URR-3-135297K
HANSHIN ELECTRONICS HPA-9000
HANSHIN PMC-9020
HM STEIN SOHN A-067-7 MTBUS
HYUNDAI ELEVATOR HIDC-N4
IDEC IZUMI FA-2JUNIOR TYPE-PFJ-T162-T082-T081
INGERSOLL-RAND 39875158 SG INTELLISYS
INGERSOLL-RAND E66268 SG INTELLISYS
INGERSOLL-RAND SSR M22-150 KW INTELLISYS
INGERSOLLRAND INTELLISYS SSR-15-100 HP-39817655
JRCS JEC-21M
KAMERA FINLAND TYPE-ACP9-T8000410.2
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LESLIE PMC-RS
LIAAEN HELITRON DC0016A IO
LIEBHERR 917852114 X1-041
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DSE DEEP SEA ELECTRONICS 4410
DANFOSS ADAP-KOOL TYPE-AKC25A
CUMMINS 3413905
SCANDE SCANLAB RUSHSCAN 25 2
SCANDE INTELLISCANDE14-405NM SCANLAB
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ABB 3BHE021083R0101
ABB XVC770BE101
ABB XVC770BE101 3BHE021083R0101
CUMMINS 3098693 REV-K
CONSILIUM 101
CONFOR STALECTRONIC 2000 1891-726
CHROMALOX LIMIT 10100
CHROMALOX 2104
BOSCH 0 811 405 073
AUTRONICA BSD-340-1 REV-9 POWERLOOP
BEMAC UGS-21
BASLER AVC63-7F
AZBIL SDC26
AUTRONICA BSD-340-1 REV-6 POWERLOOP
ARTISAN 4950H 7
AQUAMASTER-RAUMA STC-2X-944424
AQUAMASTER-RAUMA STC-2-AQ7351413
AQUAMASTER-RAUMA ROLLS-ROYCE PFC-3X-TJ52634
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ABB — AC 800M controller, Bailey, PM866 controller, IGCT silicon controlled 5SHY 3BHB01 3BHE00 3HNA00 DSQC series
BENTLY — 3500 system/proximitor, front and rear card, sensor, probe, cable 3500/20 3500/61 3500/05-01-02-00-001 3500/40M 176449-01 3500/22M 138607-01
Emerson — modbus card, power panel, controller, power supply, base, power module, switch 1C31,5X00, CE400, A6500-UM, SE3008,1B300,1X00,
EPRO — PR6423 PR6424 PR6425 PR6426 PR9376 PR9268 Data acquisition module, probe, speed sensor, vibration sensor
FOXBORO — FCP270 FCP280 FCM10EF FBM207 P0914TD CP40B FBI10E FBM02 FBM202 FBM207B P0400HE Thermal resistance input/output module, power module, communication module, cable, controller, switch
GE —- IS200/215/220/230/420 DS200/215 IC693/695/697/698 VMICPCI VMIVME 369-HI-R-M-0-0-E 469 module, air switch, I/O module, display, CPU module, power module, converter, CPU board, Ethernet module, integrated protection device, power module, gas turbine card
HIMA — F3 AIO 8/4 01 F3231 F8627X Z7116 F8621A 984862160 F3236 F6217 F7553 DI module, processor module, AI card, pulse encoder
Honeywell — Secure digital output card, program module, analog input card, CPU module, FIM card
MOOG — D136-001-007 Servo valve, controller, module
NI — SCXI-1100 PCI – PXIE – PCIE – SBRIO – CFP-AO-210 USB-6525 Information Acquisition Card, PXI Module, Card
Westinghouse — RTD thermal resistance input module, AI/AO/DI/DO module, power module, control module, base module
Woodward — 9907-164 5466-258 8200-1300 9907-149 9907-838 EASYGEN-3500-5/P2 8440-2145 Regulator, module, controller, governor
YOKOGAWA – Servo module, control cabinet node unit
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