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ABB REF 542plus Multifunctional Protection and Switching Controls

Functions

The REF542plus multifunctional protection and switchboard control unit integrates all auxiliary functions in one unit.

The multifunctional unit also has a self-monitoring function. All functions are designed as freely configurable software modules.

As a result, the various operational requirements of a MV station can be met without any problems.

The versatility of the software allows the REF542plus to be used on every switchboard regardless of the specific application requirements.

Configuration

Each protection and control application can be easily configured via the software function module, which allows the following functions to be arbitrarily defined as part of the secondary system:

LEDs for local indication (meaning and colour)

Single line diagrams showing the status of switching devices

Protection programme

Control programmes

Interlocking programmes

Automation sequences

All functions of the switchboard can be specified in co-operation with ABB. The configuration results are saved and delivered to the user together with the switchboard.

By using the “Function Block” programming language (FUPLA), the REF542plus multifunctional protection and switchboard control unit provides engineers, in

especially non-software specialists, the opportunity to easily update switchboard operation and handling.

With the REF542plus, users can fully integrate secondary systems into a true programmable controller.

This flexibility is very favourable for defining control functions for automation sequences.

This can include, for example, interlocking of switchgear, preventing the release of specific protective functions and initiating switching sequences.

The REF542plus multifunction unit offers a wide range of logic functions so that the various required control schemes can be configured.

The required control schemes are configured. The range of logic functions includes

AND logic gates

NAND logic gates

OR logic gates

NOR gates

XOR gates

Bistable and Monostable Flip-Flops

Bistable and Monostable Flip-Flops

Timers

Pulse Generator

Memory

Similar to the free definition of control schemes, each required protection scheme can www.honeywell-diver.com be configured by combining the available protection function modules.

For example, the following protection functions are available:

Timed overcurrent protection

Inverse time overcurrent protection

Directional overcurrent protection

Undervoltage or overvoltage protection

Distance protection

Transformer and motor differential protection

Cable, transformer and motor thermal protection

Reverse power protection

Synchronisation check

The parameters of the protection scheme can be changed via the HMI control unit without the use of a personal computer.

Additional functions can be performed using a personal computer running configuration software and connected to the optical interface on the front of the HMI unit.

These additional functions include

Parameter setting for the protection programme,

reading out of current measured values

Reading out the status of binary inputs and outputs,

reading out the fault recorder

Viewing the status of FUPLA logic inputs/outputs

The REF542plus allows convenient local operation and is fully interlocked to prevent switching errors.

The switching positions of the various switching devices in the switch box can be displayed on the LCD display of the HMI control unit.

If the local control mode is selected, switching operations can be entered locally via the control buttons on the HMI control unit.

Switching to other control modes is only possible using the correct electronic pushbuttons.

In remote control mode, switching operations can only be performed via a remote control unit (e.g. station automation system).

For users who wish to switch locally and remotely at the same time, a special control mode, the local and remote mode, is also available.

Interlocking is also possible between switchgear connected to the same busbar system. This requires the provision of status information between switchgear and other switchgear.

The status information must be provided by a conventional hard-wired ring bus system or by the more sophisticated ABB station automation system.

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ABB EMB01S-XIO Evolution Module Base

The EMB01S-EMR Evolution Module Base mounts an AI12e, AO02e, DI06e, or DO01e I/O module to the EMC-_B0x Evolution Mounting Base.

or DO01e I/O modules to the EMC-_B0x Evolution mounting base.

The base connects the I/O module to the HN800 I/O bus and connects the I/O cable to the field terminal.

The chassis supports all functions of the AI12e, AO02e, DI06e, or DO01e I/O modules. www.honeywell-diver.com This includes optional module redundancy.

Features and Benefits

Mounts AI12e, AO02e, DI06e, or DO01e I/O modules to the EMC-_B0x Evolution mounting base

Connecting I/O modules to the redundant HN800 I/O bus

Connect I/O module to NTDI0x TU via NKTU01 cable

Connect I/O module to NIDI01 TM via NKTU02 or NKTM01 cable

General information

Article number 7PAA005096R1 (EMB01S-XIO)

Lifecycle status active

Line redundancy yes

Channel 14. 15 or 16

Hot Swap No

Supported IO modules AI12e, AO02e, DI06e, DO01e

Single or redundant Single

Form Factor EMC-_B0_ Evolution Mounting Chassis

Mounting EMC-DB01. EMC-DB02. EMC-SB01. EMC-SB02

HN800 Bus length 190 mm

MTBF (per MIL-HDBK-217-FN2) PR E: 245.577 hours @ 30˚C, 244.473 hours @ 40˚C, 240.272 hours @ 70˚C

MTTR (hours) 8 hours

Power overvoltage category 1. Tested according to IEC/EN 61010-1

Process Signal Connections Thirteen (13) total: 4-AI, 2-AO, 3-DI, 4-DO

Field power connections @ I/O terminals (TU or TM)

Field power fuse @ I/O terminals (TU or TM)

Signal connection Terminable block on NTDI0x, NIDI01 or HDIOT-XIO-01

Maximum current 250 mA

Galvanic isolation test voltage 1500 V for up to 1 minute

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ABB Ability Symphony Plus Distributed Control System (DCS)

ABB’s new SDe Series improves plant reliability and efficiency with seamless automation system upgrade

ABB Ability Symphony Plus SDe Series continues to innovate and modernise legacy process control system installations with minimal risk and disruption to the plant

Control system upgrades are key to future-proofing, protecting and optimising plant operations across all industries

Plant managers can reuse existing cabinets, field wiring, terminal equipment and cabling to plan progressive system upgrades

ABB has introduced the ABB Capability™ Symphony Plus SDe series is a portfolio of hardware products that

helps modernise existing process control system installations while minimising risk and disruption to plant operations.

The new series enables power, water, oil and gas, pharmaceutical and pulp and paper

plant operators in industries such as power, water, oil and gas, pharmaceuticals and pulp and paper to upgrade their installed control systems to the latest technology, thereby improving efficiency and productivity.

The new SDe series continues to innovate to address one of the biggest challenges www.honeywell-diver.com facing control system owners: upgrading existing infrastructure without disrupting operations.

By preserving field wiring, terminal units and modular wiring, SDe solutions

Helping plant owners protect process controllers, I/O modules and automation technology as it evolves

their Symphony Harmony and INFI 90 investments while process controllers, I/O modules and automation technology evolve, enabling progressive growth with minimal impact.

The SDe I/O family includes a range of intelligent analogue, HART, digital and hybrid I/O modules with redundancy that

can communicate with higher-level controllers via the local bus.

Each module is supplied with an evolved mounting base for Harmony Rack systems and is fully compatible with HR BRC410 and SD controllers.

The SDe Series I/O product line includes digital and analogue modules for horizontal or vertical DIN rail mounting and integration with intelligent field devices and protocols.

Hardwired I/O and fieldbus I/O co-exist, using the same library of function blocks to build real-time control applications.

Legacy SDe series analogue input modules interface with field inputs.

such as pressure and flow transmitter signals, thermocouple inputs, and resistance temperature device (RTD) inputs.

Analogue output modules provide output signals to regulate final control elements such as control valves, positioners, actuators and more.

The input channels of the SDe Series digital input modules read the status of switches, relay contacts, solenoids, etc. The digital output modules are available in DC or DC output versions.

Digital output modules provide output channels for DC or AC switching applications.

The digital outputs can be used to drive alarms and bistatic final control elements such as actuators, relays, and solenoids.

For SDe Series digital I/O, each channel can be individually configured as an SOE (sequence of events) point.

This flexibility eliminates the cost and complexity of assigning additional digital inputs as SOEs in the field.

Whether the I/O is locally or remotely located, SOEs with 1 ms time stamps can be used throughout the system.

The SDe family of ruggedised control and I/O products provides seamless interconnectivity with intelligent field and electrical equipment and more advanced applications.

Extreme operating temperature ranges and scalable architectures are offered in a compact modular space.

In addition, the series features sustainability improvements, such as reduced power consumption and the use of standards-based technology, which reduces the total cost of ownership for plant owners.

The main principle behind the SDe range is to develop, enhance and extend ABB’s existing INFI 90. Harmony and Symphony DIN (SD) systems.

These systems are currently installed at more than 7.000 sites worldwide.

For Harmony rack mounting, the SDe Series offers increased modularity, enhanced functionality, one-to-one module replacement and space-appropriate mounting options to ensure seamless growth.

Fully compatible with the SD Series, it supports the expansion of SD systems with the latest technology and I/O hardware and software, delivering increased performance, reliability and capacity.

ABB’s Process Automation business automates, electrifies and digitises industrial operations that

meet a wide range of essential needs, from the supply of energy, water and materials to the production of goods and their transport to market.

With its approximately 20.000 employees, leading-edge technologies and service expertise.

ABB Process Automation helps customers in the process, mixing and marine industries to improve the performance and safety of their operations and achieve a more sustainable and resource-efficient future.

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ABB ACS580MV General Performance Drive

Energy efficiency made easy: Fully compatible variable frequency drives for a wide range of applications in many industries

The ACS580MV medium-voltage converter reduces complexity to simplicity while ensuring maximum reliability. Intuitive setup menus and assistants help you to quickly commission the variable-speed drive and get it up and running. All basic functions are built-in as standard, which reduces the www.honeywell-diver.com need for additional hardware and facilitates drive selection. The drives are easy to use in controlling pumps, fans, compressors, conveyors and many other variable and constant torque applications.

Reliability and efficiency throughout the entire life cycle

Built-in energy efficiency calculator ensures optimal energy use

Performance-based reliability thanks to power failure ride-through and auto-restart features

Simple to operate and safe to use

User-friendly, intuitive control panel

Start-up and maintenance tools

Communication with all major automation networks

Advanced diagnostics and warning systems enable users to analyse and solve problems efficiently

Power range: 200 kW to 6.3 MW

Voltage range: 3.3 to 11 kV

Reliable drives for a wide range of applications

The ACS580MV general-purpose cabinet drive is designed to control pumps, fans, and many other applications such as compressors, conveyors, mills, and can also be used for process control in different industries. The drive is equipped with a wide range of functions that simplify ordering and delivery and reduce commissioning costs, as all functions are concentrated in one compact assembly.

Reduced commissioning costs as all functions are concentrated in one compact assembly.

All the essential functions for reliable operation The drive utilises a new generation of cascaded h-bridge technology, which has been combined with the design of the drive to achieve excellent harmonic suppression in a compact design. Other built-in features, such as power loss ride-through, ensure reliable, trouble-free operation and high robustness in the event of weak network performance.

Robustness.

Features such as IP42 protection, redundant cooling fans and an advanced preventive alarm system ensure maximum reliability even in harsh industrial environments. Plug-in fieldbus adapter modules allow connection to all major automation systems, and an integrated remote monitoring device provides condition monitoring services and secure remote access to the hard disc.

Additional options such as manual bypass provide high quality fit-for-purpose functionality for the ACS580MV’s target industries and applications. The drive and all options come standard with coated circuit boards for increased durability in harsh environments.

Easy-to-Use Control Panel and PC Tools The control panel and PC tools provide efficient drive operation, monitoring and maintenance functions. The control panel’s easy-to-understand setup menus and many built-in auxiliary functions ensure ease of use.

The Drive Composer PC tool provides extensive drive monitoring and process adjustment functions.

Improve energy efficiency The built-in energy efficiency calculator, including kWh used and saved, CO2 reductions and money saved, helps the user to fine-tune the process to ensure optimal energy utilisation.

ACS580MV Go digital With the ACS580MV control panel, you can connect the drive to a mobile device, simplifying troubleshooting and maintenance tasks.

The ACS580MV also features remote assistance and condition monitoring. If a problem arises in the field, you can get a quick response from an ABB expert or even a preventive fault alarm.

ABB Robotics Basics

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 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, www.honeywell-diver.com 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.

speeddate Speed data: defines the movement rate of the robotic arm and the axes, and contains four parameters:

v_tcp denotes the tool centre point rate in mm/s; v_ori denotes the TCP repositioning rate in mm/s.

v_ori denotes the TCP repositioning rate in (°)/s; and

v_leax denotes the linear external axis rate in mm/s; v_reax denotes the rotary external axis rate in (°)/s; and

v_reax denotes the rate of rotational external axis in (°)/s

zonedata: also known as turn radius, this is used to define how close the robot axis will be to the programmed position before moving towards the next travelling position

tooldata Tool data: Used to define the characteristics of the tool, including the position and orientation of the tool centre point (TCP), and the load of the tool

wobjdata Workpiece data: used to define the position and state of the workpiece

loaddata load data: used to define the load of the robot arm mounting interface

4、Data storage type

ABB robot data storage type is divided into three kinds

CONST Constant: The data has been given a value at the time of definition, and cannot be modified in the programme unless it is manually modified.

VAR Variable: The data will keep the current value when stopped during programme execution. However, if the programme pointer is moved to the main programme, the data will be lost

PERS Variable: data maintains the last value given regardless of the program pointer. Assignment operations can also be performed on the variable storage type in a robot-executed rapid program, and the result of the assignment is maintained after program execution until it is reassigned.

ABB Measurement and Analyser DHH805G Handheld Communicator

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 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 www.honeywell-diver.com 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

Use Cases

The Mobility DHH805 supports a wide range of features that help to reduce costs by saving time in start-up, routine operation and maintenance activities.

It powers up quickly, typically in less than 2 seconds, and can be easily connected to equipment terminals and/or wiring, making it ready to begin configuration and/or troubleshooting.

On power-up, the Mobility DHH805 searches for connected devices and when found, the DHH805 display recognises the device and shows a wealth of information about the device in the display area, including the device’s key variables and status.

A large memory capacity of 1000 devices allows the Mobility DHH805 to be used for long periods of time in the field without the need to return to uploading saved data.

The Mobility DHH805 has a review/edit function that allows the user to scroll through each accessible HART parameter online or offline.

This allows users to scroll through each accessible HART parameter online or offline without having to remember the different menu structures offered by different instrument suppliers.

This time-saving feature, along with thumb key access and the ergonomic design of the Mobility DHH805 allows it to fit comfortably in the hand, allowing one-handed operation in any position.

This makes one-handed operation the preferred method of use in any location, including hard-to-reach places.

Below are some typical uses of the Mobility DHH805.

Commissioning the device

– Step by Step Configuration

– Left hand side of document configuration

– Electronic Birth Certificate

Operation

– Reconfiguration for process changes

– Reconfiguration for batch runs

– Record “when found” and “when left” configurations

Device Maintenance

– Troubleshooting devices using HART

– Viewing Device Error Messages

– Cloning devices to commission replacement devices

– Preventive review of device status

ABB DSCL110A Accuray Advant Smart Platform DCS PM3 Redundant Control Unit

The ABB DSCL110A Accuray Advant Smart Platform DCS PM3 is a state-of-the-art distributed control system that combines the latest hardware, software and communication protocol technologies.

Designed for industrial automation environments, the system is designed to enable efficient and reliable automation control for control needs of varying size and complexity.

Below is a more detailed description of the ABB DSCL110A Accuray Advant Smart Platform DCS PM3:

1. **Highly integrated and scalable**:

* The system has excellent integration and can be easily integrated with existing industrial automation environments.

* According to the actual application scenarios and needs, www.honeywell-diver.com the system can be flexibly expanded, both in terms of control scale and complexity.

2. ** Advanced control algorithms**:

* A variety of well-designed and optimised control algorithms are built-in. These algorithms can achieve precise control of industrial processes and ensure the stability and efficiency of the production process.

* Through precise control, the system can help enterprises improve production efficiency while reducing energy consumption and realising the goal of energy saving and emission reduction.

3. **Powerful communication capability**:

* The system supports a variety of communication protocols, allowing for seamless connection with various devices and systems, and high-speed data transmission and sharing.

* Through the remote monitoring function, users can understand the operating status and parameters of the system in real time, discover and solve problems in time, and ensure the continuity and stability of production.

4. **High reliability and safety**:

* Adoption of redundant design and fault diagnosis function ensures that the system can be automatically switched to the standby state in case of failure or abnormality to guarantee the continuity of production.

* At the same time, the system also has perfect data encryption and access control functions to ensure data security and privacy.

5. **Easy to use and maintain**:

* Provides an intuitive user interface, making it easy for operators to get started without the need for lengthy training and learning.

* The system is also equipped with powerful diagnostic tools that can help users quickly locate and resolve faults, reducing maintenance costs and time.

6. **Wide range of application scenarios**:

* In the field of logistics and warehousing, DSCL110A can optimise the processes of cargo handling, storage and distribution, and improve the overall logistics efficiency.

* In addition, the system can also be widely used in other industrial automation fields, such as food and beverage processing, petrochemicals, pharmaceuticals, etc., providing strong support for the intelligent transformation of enterprises.

Overall, the ABB DSCL110A Accuray Advant Smart Platform DCS PM3 is a powerful, easy-to-use and highly reliable distributed control system. It

can bring significant economic and social benefits for enterprises, helping them to stand out in the fierce market competition.

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 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.

ABB Motor Protection Relay REM610 Product Features and Applications

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 www.honeywell-diver.com 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 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

Applications

The REM610 is a multifunctional relay protection device designed primarily for the protection of standard medium and large medium voltage asynchronous motors in a variety of motor applications.

It handles fault conditions during motor start-up, normal operation, idling and shutdown cooling in applications such as pumps, fans, mills or crushers.

A large number of integrated protection functions enable the REM610 to completely prevent motor damage. The relay can be used with both circuit breaker-controlled and contactor-controlled drives.

The REM610 can also be used to protect equipment such as feeder cables and power transformers that require thermal overload protection and protection against single-phase, two-phase or three-phase overcurrents or non-directional earth faults.

A large number of digital input and output contacts allow a wide range of applications.

ABB ACS800-07 (+V992) is a cabinet-mounted drive for controlling AC motors

ACS800-07 (+V992)

ACS800-07 (+V992) is a cabinet-mounted drive for controlling AC motors.

Cabinet line-up

The drive consists of several cubicles that contain the supply and motor terminals, 1 to 4 diode supply module(s), 2 to 6 inverter modules, and optional equipment. The actual arrangement of the cubicles vary from type to type and the selected options.

Swing-out frame

The swing-out frame inside the auxiliary control cubicle provides space for the inverter unit control board, control electronics of the drive, I/O terminal blocks, and optional electrical equipment. The lead-throughs for I/O cables, the auxiliary voltage transformer, and further space for additional equipment are available behind the frame. The frame can be opened by removing the two locking screws and moving the swing-out frame aside. (Depending on selected options, actual equipment of the drive may differ from what is depicted below.)

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 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 www.honeywell-diver.com 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.

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