Category: ABB

Flexible and reliable device for use with all ABB flame detectors.

The Flame Analysis Unit (FAU810) is the latest addition to ABB’s range of cutting edge flame analysis equipment.

The FAU810 has been designed from the ground up to maximise flexibility, availability and reliability.

It takes full advantage of the latest technology available, keeping the cost of flue gas analysis as low as possible while maintaining ABB’s excellent reputation as the most reliable instrument in the industry.

Easy to install and configure, the FAU810 is simple to operate and features a redundant Profi bus DP-V1 or standard Modbus interface for easy and secure data exchange and adjustment.

Adjustments. You can connect any type of ABB flame sensing device to the FAU810.

This makes the FAU810 the standard module for all ABB flame scanner applications and the preferred solution for retrofitting existing equipment.

This makes the FAU810 the standard module for all ABB flame scanner applications and the preferred solution for retrofitting existing installations.

It determines whether the current signal value is within the functionally defined programmed limits.

The FAU810 can define a variety of limit values to dcs-sis.com address any situation that may arise in a utility or industrial boiler.

Collecting Flame Detector Signal Values

The FAU810 analyses the signal generated by the flame detector.

Calculate signal quality

The FAU810 measures the signal quality to show changes in the burner flame.

The quality value acts as a barometer, predicting when the burner is likely to go out. This helps you to anticipate changes and problems.

Continuous fault detection

The instrument automatically monitors the flame detector and the electronics of the FAU810 unit to detect system problems or malfunctions.

Signalling an Unsafe Condition

A no flame condition occurs when the FAU810 logic determines that an unsafe condition exists.

Remote Monitoring

Extended setup, parameter archiving, group viewing, advanced diagnostics including flame raw data, real-time and historical trending for up to 254 networked scanning heads.

Networking with the DTM is possible via the PC-based software package Flame ExplorerTM or via any Profi Bus DP-V1 master remote control.

IEC 61850 and Ethernet redundancy

Communication services in the substation

– IEC 61850-8-1 part allows the elimination of copper wires between relays on a horizontal level, i.e. relay-to-relay communication – substation bus;

IEC 61850-9-2LE allows the sharing of digitised information from transformers or sensors with other relays in a standardised way – process bus.

These services are categorised as client-server services:

– The MMS traffic, defined in IEC 61850-8-1. allows MMS clients such as SCADA, OPC servers or gateways to access all IED objects “vertically”.

This traffic flows on the station bus and the process bus.

Real-time services:

– The GOOSE flow, as defined in IEC 61850-8-1. which allows the IED to exchange data “horizontally” between machine rooms, or “vertically” between the process level and the machine room level.

In particular, status signals and trip signals are usually also used for interlocking. These information flows are usually transmitted via the station bus and/or the process bus.

– The SV (Sampled Value) flow is defined in IEC 61850-9-2 and is used to transmit voltage and current samples.

This flow is usually on the process bus, dcs-sis.com but can also flow via the station bus, e.g. for busbar protection, centralised protection and control, and phase measurement.

Generic Object-Oriented System Events (GOOSE)

– Standardised horizontal communication

– Replaces hard wiring between relays and controllers

– GOOSE is used to broadcast events between relays in a substation.

– The GOOSE communication link between relays is monitored and controlled by cyclically sending data.

– Ethernet technology provides a fast and reliable station bus for data transfer.

ABB’s 3BSE000470R1 PFBK 165 PROCESSOR BOARD, as a processor board, typically offers a range of features and benefits.

These features help to meet the needs of various industrial automation and control systems. The following are some of the possible features:

High-performance computing power: The processor board may be equipped with a high-performance processor capable of performing complex control algorithms and data processing tasks for fast response and efficient operation.

Rich interface options: The processor board usually provides a variety of communication interfaces, such as Ethernet, serial port, fieldbus, etc., for data exchange and communication with other devices or systems.

Modular design: The adoption of modular design makes the processor board easy to install, configure and maintain.

At the same time, the modular structure also provides flexibility and expandability, allowing functional modules to be added or replaced as needed.

Reliability and stability: ABB, as a well-known power and automation technology company, its products usually excel in terms of reliability and stability.

This processor board may undergo strict quality control and testing to ensure stable and reliable operation even in harsh industrial environments.

Ease of use and configurability: The processor board may be equipped with an intuitive user interface and powerful configuration tools that allow users to easily set parameters, troubleshoot and monitor the system.

Compatibility and Integration: The processor board may be compatible with a wide range of ABB and other vendors’ equipment and systems for easy integration into existing automation solutions.

The types of communication interfaces supported by ABB’s 3BSE000470R1 PFBK 165 PROCESSOR BOARD may vary depending on the specific product version and configuration.

Typically, ABB’s processor boards support a variety of communication interfaces to meet the needs of different application scenarios.

The following are some common types of communication interfaces, one or more of which may be supported by this processor board:

Ethernet interface (Ethernet): Used to connect to dcs-sis.com a local area network (LAN) or wide area network (WAN) for high-speed data communication and remote access.

Serial communication interfaces (Serial): such as RS-232. RS-422. RS-485. etc., for point-to-point serial communication with other devices or systems.

Fieldbus interface: such as PROFIBUS, Modbus, CAN, etc. It is used to connect devices and systems in the industrial field for real-time data exchange and control.

USB interface: used to connect USB devices, such as storage devices, keyboards, mice, etc., to facilitate data backup and device debugging.

ABB’s 3BSE000470R1 PFBK 165 PROCESSOR BOARD, as a high-performance processor board, has a wide range of application scenarios.

Unrivalled overall capability and performance

The Symphony Plus Flame Scanner takes full advantage of the system architecture, unrivalled scalability and simplicity, CPU performance and communication speed. It is this

combined with the Uvisor™ SF810i Flame Scanner makes for an ideal flame failure protection system.

The Uvisor™ SF810i is a multi-fuel scanner that provides consistent and reliable information on flame presence and quality for utility and industrial boiler burners.

The Uvisor™ SF810i utilises state-of-the-art technology in a ruggedised housing:

– Solid-state sensor module covering the entire flame radiation spectrum (UV-VL-IR and dual-sensor UVIR)

– Signal processor unit: extremely powerful module capable of running ABB’s proprietary flame analysis process.

The real-time measurement of dynamic flame parameters is continuously subjected to extensive fail-safe verification procedures before the flame status is voted on.

– Communication drives: Redundant PROFIBUS DP-V1 links (or redundant standard Modbus) provide high-speed data transfer to external

Monitoring system

– Terminal and configuration board with local display dcs-sis.com and buttons for initial setup and online aiming assistance.

The integrated scanner is supplied with screw-type removable terminals as standard and can be supplied with IP66/67 or ATEX II 2GD EX d IIC T6 quick connectors for non-hazardous and hazardous areas respectively, for ease of maintenance.

The Uvisor™ SF810i Flame Scanner is available with accessories for the following installations:

– Line of sight (LOS) for wall burners

– Fibre optic cable (FOC) with outer conduit, cooling hose and connector flange for angle burner tilt burners

– Extended setup, parameter file archiving, group viewing, advanced diagnostics including raw flame data, real-time and historical trends for up to 254 scanning heads

Features:

Data management: The PPC907BE-3BHE024577R0101 module is responsible for managing and storing a large amount of system data, including equipment operating status, process parameters, fault information and so on.

Data processing: The module has data processing capability, which can process the input data and output the corresponding control signals.

Communication: PPC907BE-3BHE024577R0101 module supports various communication protocols, such as Ethernet, Modbus, Profibus, etc., to achieve communication with other devices.

Remote Access: The module may support remote access dcs-sis.com function, allowing users to monitor and control via network connection.

Data Acquisition and Processing: The module may acquire data from various sensors and devices, and output or upload them to other systems after processing.

Application Areas:

Industrial Automation: In the field of industrial automation, PPC907BE-3BHE024577R0101 modules are widely used in various automation equipment and systems, such as robots, production line control, etc., to achieve efficient and accurate control.

Power System: In the power industry, the module can be applied to the control and protection of power generation, transmission and distribution systems, and monitoring and regulating the parameters of various power equipment.

Machinery Manufacturing: In the field of machinery manufacturing, the module can be used to control various machine tools, machining centres and other equipment to achieve high-precision and high-efficiency processing.

Process control: PPC907BE-3BHE024577R0101 module is suitable for various process control applications, such as chemical, pharmaceutical, food processing and other fields, to accurately control various processes.

Logistics systems: In logistics systems, the module can be used to control automated warehouses, conveyor belts, robots and other equipment to improve logistics efficiency and accuracy.

Data centre: In the field of data centre, the PPC907BE-3BHE024577R0101 module can be used as a central server to manage data storage and access, providing efficient data processing and storage solutions.

Control panel CDP 312R

A control panel (type CDP 312R) is installed on the door of the drive. The CDP 312R is the user interface of the supply unit and the inverter unit of the drive, providing the essential controls such as Start/Stop/Direction/Reset/Reference, and the parameter settings for the units’ control programs. More information on using the panel can be found in the Firmware Manual delivered with the drive.

The control panel is wired to both the supply unit and the inverter dcs-sis.com unit. By default, the panel is set to control the inverter unit. The unit that is currently being controlled is indicated by the ID number. The ID number can be seen in the Drive Selection Mode of the panel. By default, one (1) denotes the inverter unit and two (2) denotes the supply unit.

The control panel can communicate with and control only one of the units at a time, and it displays the Warning and Fault messages of the unit it controls. In addition,the panel indicates the active warnings and faults in the unit that is not currently being controlled (for more information, see chapter Fault tracing).

Controls of the supply unit

The supply unit control program runs in the RDCU control unit located in the swing out frame. The RDCU is connected to the supply modules by a fibre optic link, and a separate wire set. If there are parallel supply modules, the controls from the RDCU are distributed to the modules with an optical branching unit (APBU board). The RDCU is also connected to the inverter unit with a fibre optic link and to the panel through the panel link.

Typically, the user controls the supply unit with the control devices mounted on the cabinet door. The use of these control devices is described in the following subsections. No additional control devices or connections are needed. However, it is also possible to control the unit with the control panel and through the fieldbus.

Main disconnecting device

The drive is always equipped with a main disconnecting device. The device is either the main switch-disconnector inside the module (no option +F253 or +F255), the main switch-disconnector outside the module (option +F253), or the main breaker outside the module (option +F255). 

The user operates the main switch-disconnector(s) with a handle on the cabinet door. The breaker is withdrawable; its must be racked out when disconnection is needed.

Product Overview

Use of the relay

The motor protection relay REM610 is a multifunctional protection relay primarily used to protect motors in various motor applications.

The relay is based on a microprocessor environment. A self-monitoring system continuously monitors the operation of the relay.

The human-machine interface includes a liquid crystal display (LCD) that makes local use of the relay safe and easy.

The relay can be controlled locally via serial communications from a computer connected to the front communication port.

Remote control is available via a serial communications bus connected to the rear connector of the control and monitoring system.

Features

* Three-phase motor start monitoring based on thermal stress calculation with speed switch blocking function

* Three-phase overcurrent protection with timing characteristics and speed switch latching function

* Three-phase short circuit protection with instantaneous or timed characteristic

* Three-phase undercurrent (loss of load) protection with timed characteristic

* Non-directional earth fault protection with timing characteristics.

* Three-phase thermal overload protection

* Three-phase unbalance protection based on negative phase sequence currents with inverse definite minimum time characteristic

* Inverted phase protection based on negative phase sequence current

* Accumulated start-up time counter with restart inhibit function

* Circuit breaker fault protection

* Temperature protection stage with timing characteristics

* Emergency start function

* Optional RTD module

* With six measurement inputs

* Supports PTC thermistors and various RTD sensors

* Three additional galvanically isolated digital inputs

* Four precise current inputs

* Time synchronisation via digital inputs

* Trip circuit monitoring

* User selectable rated frequency 50/60 Hz

* Three normally open power output contacts

* Two change-over signal output contacts

* Output contact functions can be freely configured according to requirements

* Two galvanically isolated digital inputs, three additional galvanically isolated digital inputs on the optional RTD module

* Interference recorder:

* Recording time up to 80 seconds.

* Triggered by one or more internal or digital input signals

* Records four analogue channels and up to dcs-sis.com eight user-selectable digital channels

* Adjustable sampling rate

* Non-volatile memory for

* Up to 100 time-stamped event codes

* Set values

* Interference logger data

* Time-stamped logged data for the last five events

* Operating indication messages and LEDs showing status in case of power failure

* HMI with alphanumeric LCD and navigation buttons

* Eight programmable LEDs

* Multiple language support

* User-selectable password protection for the HMI

* Display of primary current value

* Demand value

* All settings can be modified via PC

* Optical front communication connection: wireless or cable

* Optional rear communication module with plastic fibre, combined fibre (plastic and glass) or RS-485 connection.

for system communication using SPA bus, IEC 60870-5-103 or Modbus (RTU and ASCII) communication protocols.

* Battery backup for real-time clock

* Battery charge monitoring

* Continuous self-monitoring of electronics and software

* Removable plug-in unit

The ABB DSCL110A Accuray Advant Smart Platform DCS PM3 system excels in safety.

Specifically, its safety is reflected in the following aspects:

First, the system adopts a redundant design, which ensures that when a component or part of the system fails, the backup component or system can quickly take over.

Thus, the stable operation of the overall system is maintained and the risk of production interruption or data loss is avoided.

Secondly, the system is equipped with a fault diagnostic function that monitors the system’s operating status in real time, and issues an immediate alert or automatically repairs the system when an abnormality or potential problem is detected.

This self-diagnostic and self-repairing capability greatly reduces the need for human intervention and lowers the possibility of human error, thus improving system security.

In addition, the system focuses on data security. It adopts advanced data encryption technology to ensure that data are not illegally accessed or tampered with during data transmission and storage.

At the same time, data security is further ensured through a strict access control mechanism where only authorised personnel can access system data and functions.

Finally, the security of the system is also reflected in its strong defence capability. It is able to resist various network attacks and malware invasion, protecting the system from damage and the risk of data leakage.

To sum up, the ABB DSCL110A Accuray Advant Smart Platform DCS PM3 system has done a very good job in terms of security, and can provide a solid guarantee for the production and operation of enterprises.

ABB DSCL110A Accuray Advant Smart Platform DCS PM3 is an advanced distributed control system designed for industrial automation.

It incorporates a high degree of integration and scalability, allowing it to be flexibly integrated into existing industrial automation environments and dcs-sis.com expanded according to actual needs to meet control requirements of varying size and complexity.

With a variety of built-in advanced control algorithms, the system enables precise control of industrial processes to improve productivity and reduce energy consumption.

In addition, it also has powerful communication capabilities, supporting a variety of communication protocols, and can be seamlessly connected to a variety of devices and systems to achieve data sharing and remote monitoring.

In terms of reliability and safety, the ABB DSCL110A Accuray Advant Smart Platform DCS PM3 adopts a redundant design and troubleshooting functions to

ensure stable system operation and safeguard data security. It also provides an intuitive user interface and powerful diagnostic tools, making it easy for operators to operate and maintain.

Overall, ABB DSCL110A Accuray Advant Smart Platform DCS PM3 has a wide range of application prospects in the field of industrial automation.

It can help enterprises improve productivity, reduce operating costs and achieve sustainable development.

OVERVIEW

Part of ABB’s Mobility family of device handheld terminals, the DHH805 is a handheld terminal for HART® instrumentation configuration. It can connect to a wide range of devices

It supports ABB instruments and, optionally, instruments from third party suppliers.

All supported HART field devices can be configured, polled and fine-tuned using the Mobility DHH805.

As a full-featured HART communicator, the Mobility dcs-sis.com DHH805 supports generic, common and device-specific commands for commissioning, configuration and maintenance operations.

The Mobility DHH805 provides comprehensive information via a graphical dot matrix display.

It features easy-to-navigate parameter scrolling, eliminating the need to memorise online or offline device configuration menus.

The Mobility DHH805 is designed for optimum convenience and usability.

The DHH805 is aesthetically pleasing and easy to grasp, with thumb-operated buttons for one-handed operation.

Design Features

The Mobility DHH805 supports all HART devices at the generic and common command level, and all ABB and non-ABB devices at the device specific command level.

Each Mobility DHH805 comes with a lifetime subscription allowing users to update the latest device versions/definitions over time.

Device updates (updated EDDs) can be downloaded directly from the HART Foundation website.

The Mobility DHH805 supports a wide range of transmitter types including analytical, flow, level, pressure and temperature.

Device Functions

– Updates to new device configuration files and firmware via internet connection

– Dedicated memory for over 2000 HART device profiles

– Record and store over 1000 device profiles

– Clone/upload/download configurations

– Offline mode for developing/reviewing configurations

– Upload and log device configurations using DHH utility

– Backlit 6-line dot matrix graphic display

– Edit directly in review/edit mode

– HART Menu Home Key

– Programmable lock settings

– Contrast adjustment

– Elasticated hand strap and adjustable, removable suspension strap

– Customised “use in place” soft case with lead kit compartment

I. Program memory (Programmemory) composition:

Application programme (Program) System module (Systemmodules)

Robot programme memory, only allows the existence of a main program; all routines and data regardless of which module exists, all shared by the system; all routines and data in addition to special definitions, the name must be unique.

1. the composition of the application (Program):

-Main module (Mainmodule) Main program (Mainroutine) Program data (Programdata) Routines (Routines)

-Programmodules Programdata Routines

2. Composition of Systemmodules:

-Systemdata.

-Routines (Routines)

All ABB robots come with two system modules, the USER module and the BASE module. Depending on the application of the robot, some robots are equipped with system modules for the corresponding application. It is recommended not to modify any of the automatically generated system modules.

Second, ABB robot programming instructions and their meanings:

Link: This document is more comprehensive and instructions in accordance with the first letter of the alphabet is sorted very good to find what they need to know.

Third, ABB robots commonly used data types:

ABB robot data storage describes the properties of the robot controller inside the ABB robot controller data types up to more than 100 kinds of common data types including basic data, i/o data, motion-related data.

1. basic data

bool Logical value: the logical state given in the true or false. Logical value has two cases: established and not established, the logical value is true using true or 1 that is not established, the logical value is false using false or 0 that is

byte byte value: used to measure the storage capacity of a unit of measurement, the value range is (0-255)

num numeric value: variable, can store integer or decimal integer value range (-8388607~8388608)

dnum double numeric: can store integer and decimal, integer value range (-4503599627370495~+4503599627370496)

string String: string is a string of characters consisting of numbers, letters, and underscores. He represents the data type of text in programming languages.

==stringdig == numeric-only string: can handle dcs-sis.com positive integers not larger than 4294967295

2. i/o Data

dionum digital value: take the value of 0 or 1 for processing digital i/o signals, digital i/o signals in the 0 as a low level 0 ~ 0.7v, 1 as a high level 3.4 ~ 5.0v

signaldi/do Digital input/output signals: binary value input and output, such as switch on is 1. off is 0.

signalgi/go Digital Input/Output Signal Group: Multiple digital inputs or outputs are used in combination.

signalai analogue input: for example, a temperature value is collected by a temperature sampler, which has to be converted into a binary number that can be recognised by the PLC through a transmitter.

signalao analogue output: data – transmitter – actuator

3、Operation related data

robtarget Position data: Defines the position of the robot arm and additional axes.

robjoint Joint data: Define the position of each joint of the robotic arm.