Category: ABB

Compact HMI 6.1.1-1 released.

Compact HMI version 6.1.1-1 reinforces ABB’s commitment to providing safe and reliable operation. To extend the lifecycle of new and existing installations, Compact HMI 6.1.1-1 was released with the following news:

-OPC UA Connect support.

-OPC UA Client Connect service

-Event History

-Windows operating system support

Compact HMI 6.1.1.1 supports Windows 10 LTSC 2021/Server 2022 in addition to Windows 10 2016 LTSC, Windows Server 2016. Windows 10 2019 LTSC and Windows Server 2019.

Compact HMI 6.1.1-1 is now available!

Compact HMI 6.1.1-1 Release Highlights:

OPC UA Connectivity

This OPC UA Client enables external OPC UA-Servers (e.g. PLCs) to be connected and integrated into the Compact HMI, so that the Compact HMI can read data from these OPC UA-Servers or write data to these OPC UA-Servers.OPC UA Connect is currently only supported for OPC UA-Data Access (DA).

OPC UA Client Connect Service

The new OPC UA servers enable external OPC UA-clients to connect to the Compact HMI to read and write OPC data.The OPC UA Client Connection Service is typically used to exchange data between the Compact HMI and third-party software applications for reporting dcs-sis.com and data analysis.OPC UA Connect currently supports only OPC UA-Data Access (DA).

Event History

Event History is intended to be an optional replacement for the previous Event Storage Service and provides essentially the same functionality for processing messages from services, connected systems, and workspace clients. Like the Event Storage Service, the Event History Service handles short-term storage of events and offers the following benefits:

Supports redundancy without the limitations of two service providers

Supports events for three months and the current month Approximately 5 million events can be stored with no limit per category.

AC500

With the AC500 PLC series, we offer a reliable and powerful platform for designing and creating scalable, cost-effective and flexible automation solutions.

Scalable

The scalability of the AC500 PLC is achieved by offering a wide range of devices to design and realise configurations suitable for simple control tasks or complex automation solutions.

The AC500 PLC provides flexibility of movement through an integrated software.

Cost effective

The AC500 PLC series includes a variety of CPUs, I/O modules, communication modules, communication interface modules and accessories.

The ‘all modules on any CPU concept’ combined with our lifecycle policy helps our customers to react quickly, flexibly and economically to new requirements.

Flexibility

Our AC500 is designed to provide the ease of use, safety and dcs-sis.com reliability needed to extend automation systems to meet new challenges.

Memory, performance and network capabilities mean more functionality, advanced visualisation, more comfortable operation – for better individual customer solutions.

AC500 CPU

We built the AC500 CPU to provide the ease of use, safety and reliability needed to adapt automation solutions to new challenges.

Dynamic and Adjustable Interaction

We have designed a range of fast processing CPUs with the right memory, performance and networking capabilities.

New demands can be easily met using one integrated software across the entire AC500 PLC range.

Networking

Our AC500 CPUs have a wide range of communication possibilities, including on-board and expansion modules that can be integrated into various combinations to form powerful network nodes for the smallest to the largest automation solutions.

These features link your automation solution to the past, keeping it up-to-date and leading it into tomorrow.

Applications

AC500 can be used in many different applications such as wind farms, solar trackers, high capacity circuit breaker production, large ships, tunnel automation, traffic control, packaging, printing presses and robotics.

By choosing the AC500 platform, you can participate in our expertise in different applications and software libraries (e.g. motion control, water, solar, drives).

The ABB AC500 CPU is a core component in industrial automation control systems, providing simple, safe and reliable automation solutions to meet new challenges.

It is flexible and scalable, offering a wide choice of models such as PM571. PM581 and PM591 to meet different control needs.

These CPUs are highly integrated, providing LCD display, operation buttons, SD card expansion port and two integrated serial communication ports for easy programming, dcs-sis.com data exchange and communication.

AC 700F Controller

The AC 700F controller has a small footprint and supports PROFIBUS. it can support up to eight direct I/O modules.

As a member of Freelance, the AC 700F controller offers many advantages over PLC-based solutions:

Distributed process control systems (DCS) simplify engineering, commissioning and maintenance of automation systems.

Visualisation is directly integrated making configuration particularly easy.

The AC 700F can also be extended by Profibus remote I/O units. In addition, field devices can be connected to the AC 700 F. Due to the flexibility of Ethernet and the small footprint, the AC 700 F can also be used as a competitive intelligent Ethernet I/O in junction boxes in non-hazardous areas of the site.

The ABB AC700F is a controller from ABB that is part of the Freelance 800F distributed control system (DCS).The AC700F controller is suitable for automation applications that are smaller in size, require less reliability, and have a large number of control devices with a high degree of independence.

The AC700F controller has the following features:

Affordable: The AC700F controllers are cost-effective PLC controllers that provide a more affordable Micro DCS solution for small point-size process control applications.

Seamless Integration: The AC700F controller can be seamlessly integrated into the Freelance 800F system via Ethernet, making it easy for users to expand and upgrade the system.

Programming and Configuration Tools: The AC700F controller adopts the same integrated programming and configuration tools as the AC800F controller, i.e., Freelance Engineer Station (Control Builder F), which is convenient for users to carry out programming and configuration.

Data Integration: The data from the AC700F controller can be seamlessly integrated into the main system DCS operator station without the need for additional HMI programming, improving system integration and efficiency.

In addition, the AC700F controller is suitable for applications where the number of points with a single controller does not exceed 300 I/Os. It is compact and can be configured with local I/O modules. The entire project configuration can be achieved through only one tool, which is convenient for users to configure and maintain the system.

In short, the ABB AC700F controller is an affordable, easy to integrate and configure the controller, suitable for small point size process control applications, can help users to improve the level of control and efficiency of automation systems.

Load cells are machined from a single piece of stainless steel. The load cell is machined directly onto the steel piece and is positioned so that it is sensitive to forces in the direction of measurement and insensitive to forces in other directions.

The load cell is mounted to the base with four screws and the bearing housing is mounted to the top of the load cell with four screws.

Each load cell is calibrated and temperature compensated.

The load cells PFCL 201C/201CE/201CD are available in four measuring ranges and all models have the same external dimensions.

The load cell PFCL 201C is equipped with connectors for plugging and unplugging the connection cable.

The load cell PFCL 201CE is equipped with a connection cable with protective hose.

Load cell PFCL 201CD with acid-proof cable gland and PTFE insulated connecting cable.

Repeatability error

Repeatability error is the maximum deviation between dcs-sis.com repeated readings under identical conditions. It is expressed as a percentage of the sensitivity at rated load.

Compensation Temperature Range

The temperature drift of a load cell is compensated for over a specific temperature range. This is the temperature range over which the load cell maintains the specified allowable temperature drift (i.e. zero drift and sensitivity drift).

Operating Temperature Range

The operating temperature range is the temperature range over which the load cell can operate within the specified accuracy. The load cell’s maximum allowable temperature drift (i.e. zero drift and sensitivity drift) does not necessarily remain constant throughout the operating temperature range.

Description

The wireless controller ARC600 is a compact solution-based device for remote control and monitoring of secondary substations in the distribution network, such

such as network disconnect switches, load disconnect switches and ring mains units (RMUs).

switches and ring mains units (RMUs) in the distribution network. It enables SCADA systems to wirelessly monitor and control field devices over the public communications infrastructure (cellular networks).
The wireless controller ARC600 utilises the built-in wireless communication capabilities for reliable and secure end-to-end communication.

Three switchgear devices can be remotely monitored and controlled, and can be expanded as needed using external I/O expansion modules.

The use of the wireless controller ARC600 in the distribution network improves the quality of power distribution and reduces outage times in affected areas.

Outage times and the overall impact on areas directly adjacent to these affected areas are reduced.

Additionally, by integrating legacy equipment, capital expenditures in the distribution network can be reduced and cost savings can be achieved more directly by promoting preventive maintenance.

By reducing the System Average Interruption Duration Index (SAIDI) and System Average Interruption Frequency Index (SAIFI), the

operating expenses can be reduced, resulting in lower penalties for undelivered energy.

The wireless controller ARC600 is also ideally suited for retrofitting dcs-sis.com into existing applications to remotely control these devices and further extend the life of the switchgear itself.

Communication with SCADA systems typically uses the IEC-104 protocol, but for existing installations using IEC-101 lines or modems, the ARC600 wireless controller also supports communication with SCADA systems.

The Wireless Controller ARC600 also supports IEC-101 communication (including dial-up) with SCADA systems.

The RIO600 is a flexible and robust remote I/O device for distribution substations.

It can be used in a variety of distribution and grid automation applications using IEC 61850 and Modbus TCP communications.

The RIO600 is used to extend the digital I/O (inputs/outputs) of the ABB Relion® family of protection relays, to

and to provide I/O for the station automation unit COM600 in primary substations.

As part of a grid automation solution, it can also be used in secondary distribution substations as a combined I/O and fault channel indication device.

Key benefits

The RIO600 helps simplify substation wiring and provides additional flexible I/O in the switchgear.

It can use IEC 61850 horizontal GOOSE communication or Modbus TCP.

The RIO600 enables better monitoring and faster data transfer than conventional signal wiring methods.

Module Type Description

Power Supply Module PSMH High Voltage Range Power Supply Module

PSML Low voltage range power supply module

Communication module LECM Communication module with RJ-45 Ethernet port

LECM Communication module with multimode fibre optic LC Ethernet ports

I/O Modules Digital Input Module DIM8H High voltage range, 8 optically isolated binary inputs with common loop per pair of inputs

DIM8L Low voltage range, eight opto-isolated binary inputs, two input pairs with common loop.

Digital Output Module DOM4

Digital output module DOM4 Four output contacts per digital output module, two pairs of potential-free contacts with common loop

RTD4 RTD Module Four opto-isolated channels supporting RTD sensors (Pt100. Pt250. Ni100. Ni120 and Ni250) and mA inputs (configurable 0…20 mA). .20 mA).

The channels are non-isolated from dcs-sis.com each other

Analogue Output Module AOM4 Four independently isolated and configurable mA output channels drive 0…. .20 mA.

Product Description

The ARG600 Wireless Gateway allows wireless monitoring and control of field devices from a central site or control centre over a cellular network.

The device provides industrial quality connectivity based on TCP/IP and serial port protocols.

The ARG600 Wireless Gateway has integrated communication capabilities for seamless integration with SCADA systems.

The Wireless Gateway ARG600 is a member of the ABB Arctic product family and part of the 600 Wireless Gateway product family.

With the Wireless Gateway ARG600. it is possible to connect legacy IEC 60870-101 devices to modern TCP/IP-based IEC 60870-5-104 control systems. This is made possible by the

protocol conversion to IEC 60870-104. The ARG600 also supports protocol conversion from Modbus RTU to Modbus TCP.

DNP3 serial devices can be connected to dcs-sis.com DNP3 TCP SCADA systems. In this case, the DNP3 protocol is transmitted via TCP/IP communication (transparent serial gateway mode).

The ARG600 wireless gateway can be used in a variety of industrial and utility applications to maximise benefits.

– Industrial-grade TCP/IP router: Multiple serial and TCP/IP-based field devices can be integrated into a centralised supervisory and control system (SCADA).

– Integrated protocol conversion to connect legacy serial devices to a TCP/IP-based supervisory control system (SCADA).

– Ideal for retrofitting as users can extend the life of existing serial substation equipment

– Remote access to field devices means fewer site visits for operation and maintenance

– Optimises communication costs by using public cellular networks

– Existing legacy private radio systems can be upgraded to solutions based on higher bandwidth cellular networks.

Introduction

The IOR810 is a gateway module that connects Symphony Plus SD-Series and HR-Series controllers to the S800 I/O.

As part of a Symphony Plus or Symphony Harmony control system.

The IOR810 provides an alternative way to use the S800 I/O with Sequence of Events (SOE) functionality.

The accuracy of the SOE timestamps is determined by the specifications of each S800 SOE digital input module type.

The IOR810 is the interface between the HN800 I/O bus (electrical or fibre optic) and the existing S800 I/O module bus (fibre optic only).

The core function of the IOR810 is to scan the S800 I/O modules and provide information to the Symphony Plus controller via the HN800.

The IOR810 connects and scans up to seven S800 cluster modems over the fibre module bus.

Each cluster modem can support up to 12 S800 I/O modules.

The distance between the IOR810 and the Symphony Plus controller is up to 30 metres if connected via the electrical HN800 bus;

If connected via a fibre optic HN800 bus, the distance between the IOR810 and the Symphony Plus controller is up to 3000m using RFO810 repeaters.

If using plastic fibre optic cables, the maximum distance of the fibre optic modular bus between the IOR810 and the S800 cluster modem or between two cluster modems in a daisy chain is 15 metres;

If HCS fibre optic cable is used, the maximum distance is 200 metres;

1000 m if using TB825 optical media converters and glass fibre cables.

The cluster dcs-sis.com modems can be non-redundant or redundant.

The IOR810 receives configuration information from the Symphony Plus controller using standard Symphony Plus function codes to specify S800 I/O data.

It will process inputs and outputs, analogue and digital signal types, pulse counters and Sequence of Events (SOE) data acquisition.

S800 Input/Output Modules and Terminal Units

The S800 I/O is distributed as a modular I/O and communicates with numerous controllers via Advant Fieldbus 100 (AF100), PROFIBUS-DP, or directly.

The S800 I/O is easy to install I/O modules and process wiring.

It is highly modular and flexible, so I/O modules can be combined to suit a wide range of applications.

The S800 I/O can be installed in a variety of configurations to meet most requirements.

Product Overview

The S800 I/O is easy to install I/O modules and process wiring.

It is highly modular and flexible, so I/O modules can be combined to suit a wide range of applications.

Including most types of signalling, HART and intrinsically safe interfaces, the S800 I/O module is combined with a fieldbus communication interface (FCI) to form an I/O station.

The S800 I/O can be used in both stand-alone and redundant applications.

In general, all S800 units are G3-compliant. G3-compliant modules can withstand

According to ISA-S71.04. G3-compliant modules can withstand more severe environmental conditions. The following S800

units are G2 compliant – SD821. SD822. SD823. SD831. SD832. SD833. SD834.

G3-compliant versions of the SD822 and SS822 are also available.

G3-compliant SD822 and SS822 versions are also available.

All modules dcs-sis.com are labelled with a bar code showing the serial number, product ID and product revision number.

Separate barcode strips are included on the modules if required.