GE IS420UCSBH4A UCSB Controller Module

GE IS420UCSBH4A can be plugged into a 6 amp relay terminal block. The electromechanical relay terminal blocks are rated between 12VDC to 110VDC and 120VAC to 230VAC and are ideal for all types of applications. The relays are easily removed and replaced using convenient locking jets, and the terminal blocks are equipped with red LEDs to provide visual indication of operation. Plug-in jumpers with red or blue insulators are available in different lengths at half the price of competitive models. An easy-to-read wiring diagram on the side of each terminal block ensures accurate wiring installation. The entire Import/Export Controller’s direct logic line contains many new features that make ladder logic programming faster and easier. Typical tasks such as configuring an analogue card, programming equations, configuring a CTERT high-speed counter, or programming an up/down delay timer can require multiple lines of ladder code. Using IP boxes reduces these processes to a simple programming block with blank parameters. Over 60 IP instructions are available in areas such as memory, discrete and analogue help, maths, communications, and Cleto high-speed counters. IP instruction functions are compatible with direct logic dl05, dl06, d2-250-1, d2-260 and d4-450 CPUs. Further network and fieldbus interfaces can be added via the PLC’s dual expansion ports. This variety of communication possibilities enables the user to easily develop the control network and add new machines or devices to the control system network, e.g. even if they are located in another process line or location.

GE IS420UCSBH4A  uses a multiprocessor system to handle the most demanding machine and motion automation control and communication tasks. The machine controller is optimised for robust, high-performance industrial control and is built on a 1.3 GHz processor, four 32-bit RICC processors plus an embedded dual precision floating-point processor, 16 megabytes of user-programmed memory and a large communications interface. This extremely high level of computational power enables the new controller to handle extremely complex control tasks involving complexity, such as precisely coordinated motion with a very large number of axes, as well as maths-intensive calculations, such as real-time trigonometry for robots or other advanced kinematics applications. The controller also has a built-in interface that enables abb’s advanced safety PLCs to be connected to high-risk applications. Versatile connectivity is at the heart of the new mechanical controller’s design. This allows it to be used in both legacy systems and today’s popular networks, while providing a soft architecture capable of handling future requirements. Four independent Ethernet interfaces and an integrated network switch are built in. Two of the interfaces are programmable and support different Ethernet-based protocols, such as Ethernet and Profinet, allowing the PLC to connect to control two different types of networks.TAP/IP, UDP, CAN/CAN open and two RS232/485 serial interfaces complete the on-board connectivity.