Programmable logic controllers (PLCs)
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Omron CS1WEIP21
EtherNet/IP unit for CS-series, 100Base-TX, 1 x RJ45 socket, supports CIP, FINS/UDP and FINS/TCP
Omron CP1LL20DT1D
PLC, 24 VDC supply, 12 x 24 VDC inputs, 8 x PNP outputs 0.3 A, 5K steps program + 10K words data memory
Omron CP1LEM30DT1D
PLC, 24 VDC supply, 18 x 24 VDC inputs, 12 x PNP outputs 0.3 A, 2 x analog inputs, 10K steps program + 32K words data memory, 1 x Ethernet port
Omron CP1LEM40DT1D
PLC, 24 VDC supply, 24 x 24 VDC inputs, 16 x PNP outputs 0.3 A, 2 x analog inputs, 10K steps program + 32K words data memory, 1 x Ethernet port
Omron CJ1WDA021
Analog output unit, 2 x outputs 1 to 5 V, 0 to 5 V, 0 to 10 V, -10 to 10 V, 4 to 20 mA, externally powered 24 VDC 140mA, screw terminal
Omron CJ1WMAD42
Analog I/O unit, 4 x inputs -10 to 10 V, 0 to 5 V, 0 to 10 V, 1 to 5 V, 4 to 20 mA, 2 x outputs -10 to 10 V, 0 to 5 V, 0 to 10 V, 1 to 5 V, 4 to 20 mA, resolution 1:4000 scalable to ±32000 or 1:8000, screw terminal
Omron CJ1WDRM21
DeviceNet master/slave unit for CJ-series
Omron CJ1WOD204
Digital output unit, 8 x transistor outputs, PNP, 0.5 A, 24 VDC, with short-circuit protection and alarm, screw terminal
Omron CJ2MCPU34
CPU with built-in EtherNet/IP port, 30K steps program, 32K words data memory, 32K words x 4 banks EM, 2560 I/O max, option port for RS-232C/485, USB programming port, 3 expansion racks max.
Omron CP1WCN811
I/O expansion cable for CP1-series, 80 cm
Omron CP1WME05M
CP1 memory cassette (for upload/download of user program)
Omron CS1WCN226
Communication cable, CS1/CQM1H/CPM2C/CJ1 peripheral port to PC 9-pin RS-232C port, 2 m
Omron CS1WCN118
Communication adapter, CS1/CQM1H/CPM2C peripheral port to 9-pin receptacle (use with XW2Z-***S-CV), 0.1 m
Omron CP1LL20DRA
PLC, 100-240 VAC supply, 12 x 24 VDC inputs, 8 x relay outputs 2 A, 5K steps program + 10K words data memory
Omron CS1WSCU31V1
Serial communication unit, 2x RS-422/485 ports, Protocol Macro, Host Link, 1:N NT Link, No protocol, Serial Gateway (CompoWay/F, Modbus-RTU, Modbus-ASCII, Host Link), Modbus RTU Slave
Omron CS1GCPU45H
CPU, 60K steps program, 128K words data memory, 7 expansion racks max.
Omron CS1WBC033
CPU backplane with C200H I/O BUS, 3 I/O slots
Omron CS1WBC053
CPU backplane with C200H I/O BUS, 5 I/O slots
Omron CS1DBI092
Duplex expansion backplane, 9 I/O slots, use CS1D-PA207R power supplies only
Omron CS1DBC082S
Duplex CPU backplane, 8 I/O slots, use CS1D-PA207R power supplies only
Omron XW2Z200T
Cable, RS-232C, for connecting NT HMI 9-pin port to PLC 9-pin port, 2 m
Omron XW2Z100K
I/O connection cable, MIL40 to MIL40, 1 m
ABB 2TLA020070R5800
Pluto cable, USB port to Pluto programming port.
ABB 2TLA020070R1700
Pluto is a cost effective, powerful and compact safety PLC for all machine safety applications. Most safety devices on the market can be connected directly to Pluto and multiple safety sensors can be connected to a single input and still achieve the highest safety level. Programming is done easily in the accompanying software Pluto Manager.Safety PLC with Pluto safety bus. Totally 46 I/O: 24 failsafe inputs + 16 non-failsafe outputs/failsafe inputs + 4 individually failsafe relay outputs + 2 individually failsafe transistor outputs.
ABB 2TLA020070R4700
Pluto S20 v2. Pluto is a cost effective, powerful and compact safety PLC for all machine safety applications. Most safety devices on the market can be connected directly to Pluto and multiple safety sensors can be connected to a single input and still achieve the highest safety level. Programming is done easily in the accompanying software Pluto Manager.Safety PLC. Totally 20 I/O: 8 failsafe inputs + 8 non-failsafe outputs/failsafe inputs + 2 individually failsafe relay outputs + 2 individually failsafe transistor outputs. (Without Pluto safety bus). NOTE: Version 2 hardware/processor.
ABB 2TLA020070R1800
Pluto is a cost effective, powerful and compact safety PLC for all machine safety applications. Most safety devices on the market can be connected directly to Pluto and multiple safety sensors can be connected to a single input and still achieve the highest safety level. Programming is done easily in the accompanying software Pluto Manager.Safety PLC. Totally 46 I/O: 24 failsafe inputs + 16 non-failsafe outputs/failsafe inputs + 4 individually failsafe relay outputs + 2 individually failsafe transistor outputs. (Without Pluto safety bus)
Omron NX1021000
Sysmac NX1 Modular CPU, 5MB program and 33.5MB data memory , built-in EtherCAT (2 servo axes, 4 PTP axes, total 64 EtherCAT nodes), 2 Ethernet ports (OPC-UA and EtherNet/IP)
Phoenix Contact 1064312
Bus connector - AXC BS L 2
Phoenix Contact 1061701
Program / configuration memory - SD FLASH 8GB PLCNEXT MEMORY
Phoenix Contact 1069208
Controller - AXC F 3152
Phoenix Contact 1151412
Controller - AXC F 1152
Omron NJ1011000
Sysmac NJ1 CPU, 3MB memory, built-in EtherCAT (2 servo axes, in total 64 EtherCAT nodes) and EtherNet/IP
Omron NJ1011020
Sysmac NJ1 CPU with with Database Connectivity, 3MB memory, built-in EtherCAT (2 servo axes, in total 64 EtherCAT nodes) and EtherNet/IP
Omron NJ3011100
Sysmac NJ3 CPU, 5 MB memory, built-in EtherCAT (4 servo axes, in total 192 EtherCAT nodes) and EtherNet/IP
Omron NJ3011200
Sysmac NJ3 CPU, 5 MB memory, built-in EtherCAT (8 servo axes, in total 192 EtherCAT nodes) and EtherNet/IP
Omron NJ5011420
Sysmac NJ5 CPU with Database Connectivity, 20MB memory, built-in EtherCAT (32 servo axes, in total 192 EtherCAT nodes) and EtherNet/IP
Omron NJPA3001
Sysmac NJ power supply unit, 100-240 VAC, 30 W, "RUN" output relay
Omron NJPD3001
Sysmac NJ power supply unit, 24 VDC, 30 W, "RUN" output relay
Omron NX1029000
Sysmac NX1 Modular CPU, 5MB program and 33.5MB data memory , built-in EtherCAT (0 servo axes, 4 PTP axes, total 64 EtherCAT nodes), 2 Ethernet ports (OPC-UA and EtherNet/IP)
Phoenix Contact 2404267
Controller - AXC F 2152
Omron NX1021100
Sysmac NX1 Modular CPU, 5MB program and 33.5MB data memory , built-in EtherCAT (4 servo axes, 4 PTP axes, total 64 EtherCAT nodes), 2 Ethernet ports (OPC-UA and EtherNet/IP)
Omron NX1P29024DT1
Sysmac NX1P CPU with 24 Digital Transistor I/O (PNP), 1.5 MB memory, EtherCAT (0 servo axes, 4 PTP axes, 16 EtherCAT nodes), EtherNet/IP and 1 serial option port
Omron NX1P21040DT
Sysmac NX1P CPU with 40 Digital Transistor I/O (NPN), 1.5 MB memory, EtherCAT (2 servo axes, 4 PTP axes, 16 EtherCAT nodes), EtherNet/IP and 2 serial option ports
Omron NX1P21140DT1
Sysmac NX1P CPU with 40 Digital Transistor I/O (PNP), 1.5 MB memory, EtherCAT (4 servo axes, 4 PTP axes, 16 EtherCAT nodes), EtherNet/IP and 2 serial option ports
Omron NX1P21040DT1
Sysmac NX1P CPU with 40 Digital Transistor I/O (PNP), 1.5 MB memory, EtherCAT (2 servo axes, 4 PTP axes, 16 EtherCAT nodes), EtherNet/IP and 2 serial option ports
Omron NX1P29024DT
Sysmac NX1P CPU with 24 Digital Transistor I/O (NPN), 1.5 MB memory, EtherCAT (0 servo axes, 4 PTP axes, 16 EtherCAT nodes), EtherNet/IP and 1 serial option port
Omron NX1WCIF01
Sysmac NX1P RS-232C screwless (15 m max.) serial communication option board
Omron NX1WMAB221
Sysmac NX1P Analog I/O screwless option board, 2 x analog inputs 0 to 10 V, resolution 1:4000 or 0 to 20 mA, resolution 1:2000, 2 x analog outputs 0 to 10 V, resolution 1:4000
Omron NXTC3406
4 loops, Thermocouple/Pt100 input, PNP 4 Digital Outputs 24 VDC, 21 mA/point, Heat or Cool control, Push-in Plus terminals
Omron CP1HX40DT1D
PLC, 24 VDC supply, 24 x 24 VDC inputs, 16 x PNP outputs 0.3 A, 1 x analog input, 20K steps program + 32K words data memory
Omron CP1HXA40DT1D
PLC, 24 VDC supply, 24 x 24 VDC inputs, 16 x PNP outputs 0.3 A, 4 x analog inputs, 2 x analog outputs, 20K steps program + 32K words data memory
Programmable logic controllers (PLCs) - Best sellers
What is Programmable logic controllers (PLCs) ?
Programmable Logic Controllers (PLCs) are the cornerstone of modern industrial automation systems. These specialized computers are designed to control a wide range of industrial processes and machinery. PLCs are known for their ruggedness, reliability, and flexibility, making them suitable for various applications, from simple control systems to complex networked operations.
In industrial settings, PLCs are used to automate tasks such as machine control, process control, and material handling. They are highly configurable, allowing programmers to tailor control algorithms to specific needs. PLCs are essential for efficient operation, providing precision, scalability, and adaptability in automation systems.
What are the critical factors to consider when selecting PLCs for industrial automation?
When selecting PLCs for industrial automation, consider the complexity of the task, the number of inputs and outputs required, the communication capabilities, and the environmental conditions where the PLC will operate. The choice should align with the specific requirements of the application and future scalability needs.
How do PLCs improve the efficiency and reliability of automated systems?
PLCs improve the efficiency and reliability of automated systems by providing precise control over various processes, reducing manual intervention, and enabling consistent operation. They can adapt to changing conditions, offer real-time diagnostics, and are capable of handling complex control tasks with high accuracy.
What are the latest developments in PLC technology for industrial use?
The latest developments in PLC technology for industrial use include the integration of advanced communication protocols for IoT connectivity, increased processing power for handling complex tasks, and the incorporation of AI and machine learning for predictive maintenance and optimized control strategies.