The OCAH 940181103 is a high-performance processor unit designed for the System 800xA distributed control system.

The OCAH 940181103 processor unit has the following key features:

High performance: Equipped with a powerful multi-core processor and a large amount of memory, it can handle multiple tasks together and process large amounts of data quickly to meet the needs of various industrial control applications.

High reliability: The processor has built-in redundancy to ensure high system availability and reliability even in the case of hardware defects.

Communication talent: Supporting various communication protocols such as Ethernet, Profibus and Modbus, it is convenient to communicate with various I/O modules and other device interfaces.

Diagnostics and Defect Cleanup: The processor unit features advanced diagnostics and defect cleanup functions, including comprehensive work logging

and a built-in Web server for remote access and monitoring, helping to quickly identify and address potential problems.

940181103 OCAH processor units are used in a wide range of applications in oil and gas, power generation, chemical processing, electrical power systems, metal processing,

Food and Beverage, Pharmaceutical, Paper, Textile, Automotive, Railroad, and Marine jobs to meet the needs of chaotic control and automation applications.

Please note that product parameters and features may be updated due to changing skills and market conditions.

The counter of the ABB OCAH 940181103 has three inputs count, reset and set value; and two outputs-complete value and current value.

A count input is required to provide a counter for counting pulses, a resetinput is required to reset the counter, and a set value is required to provide a set count for the counter.

The done output is used to indicate that the counter has finished counting, and the Current Value shows the current value that the counter has counted so far.

Contrac – Electric Actuators

Introduction

The water injection valve on a steam boiler controls the amount of cooling water injected into the superheated steam in the superheater and reheater.

The amount of water injected is decisive for the temperature of the steam inside and at the output of the superheater.

Too much water injection can lead to excessive cooling of the steam, which negatively affects efficiency.

On the other hand, insufficient water injection leads to excessive steam temperature and pressure.

The risk of damage to the superheater, turbine and downstream components increases as a result.

For optimal operation of the superheater at the lowest possible steam temperature and the highest possible hot steam temperature, the

continuous and precise mass flow control of the injected cooling water is first required.

Depending on the operating conditions, this requirement means that very small amounts of water need to be supplied, thus requiring highly accurate positioning in disproportionate areas of the valve.

The operating environment is extremely harsh.

In addition, the ambient temperature in the superheater area can be very high.

Measurement made easy

To run any process efficiently, measurement, execution, recording and control are essential,

Record and control. By choosing ABB, you are choosing a partner that can provide the best measurement and analysis solutions for your needs.

thereby maximizing the return on your investment. When you invest in ABB’s measurement and analysis solutions, you get the best technology, reliability and service in the industry.

R&D is a key source of ABB’s technological leadership.

ABB is constantly developing new applications based on existing technologies and continues to develop the breakthrough technologies needed to meet the challenges of the future.

ABB is constantly developing new applications based on existing technologies and continues to develop the breakthrough technologies needed to meet the challenges of the future.

Comprehensive measurement solutions Tailored to each industry

ABB’s measurement and analytics products provide world-class measurement solutions for any industry, utility or municipality. Latest

Innovations provide technical solutions that make running your plant easier.

ABB’s measurement and analysis products are based on universal technology, offering a common look and feel and method of operation. As a result, products are easy to configure, easy to integrate and easy to maintain.

ABB’s measurement and analysis portfolio

– Analytical Measurement

– Flow measurement

– Pressure measurement

– Temperature measurement

– Level measurement

– Actuators and Positioners

– Recorders and Controllers

– Device Management, Fieldbus and Wireless

– Force Measurement

– Services

Functional Features

– Modular hardware

– Selectable protection functions

– Multiple applications

– Computerized menu-assisted setup

– All-digital signal processing

– Continuous hardware self-monitoring

– Cyclic test program mainly performed by software

– Parameterization and recording of set values via PC

– Display of measured values

– Event display, acknowledgement and printing

– Interference logging

– Self-logging

– Long-term stability

– Communication and coordination with control stations

– Available in two design versions: REG216 / REG216 Classic

Areas of application

The REG216 is used to protect generators and transformers.

The modular hardware and software design allows extremely flexible installation.

The combination of software libraries and hardware allows simple adaptation to the size of the primary system and the required protection scheme.

The combination of software libraries and hardware modules allows easy adaptation to the size of the primary system and the required protection scheme.

Modules. As a result, economical solutions can be realized in a wide range of applications.

Economical solution.

The REG216 software system provides a library of protection functions. The following table lists the functions applicable to generator and transformer protection.

Different levels of redundancy can be selected.

The availability and reliability of the protection can be selected according to the application in the following ways

For example, the auxiliary power supply unit for the entire system can be replicated.

Standard interfaces make the REG216 compatible with different process control systems.

Construction

Hardware

The REG216 device consists of two main components, which are physically separated from each other and connected by standard prefabricated shielded cables

Connected by standard prefabricated shielded cables:

– The main system interface (CT, PT and auxiliary relays), which provides DC isolation and EMI barriers.

Isolation and EMI barrier

– Parallel bus and associated electronic units (e.g. analog inputs and data processors / for signal conditioning and processing).

The complete protection scheme consists of a relatively small number of hardware modules, allowing subsequent expansion of the electronic units and interfaces. Each device frame provides 21 rack spaces.

All hardware can be housed in a single compartment, which provides further shielding against inductive interference and physical protection against dust, etc.

All hardware can be accommodated in a single compartment, which provides further shielding from inductive interference and physical protection from dust.

The REG216 is available in 17 predefined rack configurations with a limited number of I/Os, but is equipped with the same SW library as the classic system.

Protective relays for other functions are not part of the EG216 and can be installed in compartments and interconnected with the REG216 accordingly.

Interfaces to the main system

The following modular components provide the interface between the REG216 and the power system.

Input transformer assembly

216GW62 This assembly is used to adjust the signal level and to isolate the primary system CT and PT circuits from the electronic circuits of the protective devices.

One PT and two CTs are available to meet different accuracy and dynamic performance requirements.

Up to 12 transformers can be accommodated, selected according to application requirements. Up to four components, i.e. 48 inputs, can be used.

Auxiliary relay and optocoupler assembly 216GD61a

This assembly is for use with the REG216 version. It provides eight trip relays,

Each relay has powerful potential-free trip contacts (with surge circuit), 16 auxiliary relays and 16 optocouplers.

relays and 16 optocoupler input circuits. Up to four assemblies are available.

Input Auxiliary Relay Assembly 216GE61

Up to 16 auxiliary relays to provide full potential isolation for digital input signals.

Output Auxiliary Relay Assembly 216GA61

Up to 16 auxiliary relays providing full potential separation for digital output signals (two contacts per signal).

Trip Auxiliary Relay Assembly 216GA62

Provides up to 8 powerful potential-free trip contacts and circuits that provide high-speed operation (surge circuits) and reduced consumption after operation (economy circuits).

The Trip Auxiliary Relay Assembly is available with an optional trip logic diode matrix for direct coupling of external signals.

Matrix for direct coupling of external signals The REG216 can also read and process external signals via digital inputs.

Different trip circuit monitoring arrangements for use with output unit 216DB61 and input auxiliary relay assembly 216GE61 are available.

Product overview

3.1 Purpose of the relay

The feeder protection relay REF610 is a multifunctional protection relay primarily used to protect incoming and outgoing lines in various feeder 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 relays can be controlled locally via serial communications from a computer connected to the front communication port.

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

3.2. Features

* Three-phase non-directional overcurrent protection with timing or IDMT characteristics and low rectification phase.

* Three-phase non-directional overcurrent protection, high rectification phase

* Three-phase non-directional overcurrent protection, instantaneous stage

* Non-directional ground fault protection with timing or IDMT characteristics, low setting stage

* Non-directional ground-fault protection, high-calibration phase.

* Phase discontinuity protection

* Three-phase cable thermal overload protection

* Arc protection

* Two lens sensors for arc detection (optional)

* Automatic adjustment of reference level according to backlight intensity

* Arc detection by remote light signal

* Automatic reclosing 1…. .3 times

* Circuit breaker fault protection

* Trip counter for circuit breaker status monitoring

* Trip circuit monitoring with routing of warning signals to signal outputs

* Trip lockout function

* Four accurate current inputs

* User selectable rated frequency 50/60 Hz

* Three normally open power output contacts

* Two change-over signaling output contacts and three additional change-over signaling output contacts on optional I/O module

* Output contact functions can be freely configured according to requirements.

Outputs

The relay is equipped with

* three power output contacts PO1. PO2 and PO3

* two signal output contacts SO1 and SO2

* three optional signal output contacts SO3. SO4 and SO5

Switch group SGR1…. .8 is used to route internal signals from the protection stage, external trip signals and signals from the automatic reclosing function to the required signal or power output contacts.

The minimum pulse length can be configured as 40 or 80 ms and the power output contacts can be configured as latching.

Trouble Logger

The relay has a built-in disturbance logger that records the instantaneous measured value or the RMS curve of the measured signal.

and up to eight user-selectable digital signals: digital input signals and internal signals from the protection stage.

Any digital signal can be set to trigger the recorder on the falling or rising edge.

Front Panel

The relay front panel consists of

* 2 × 16 character alphanumeric LCD with backlight and automatic contrast control Controls

* Three LED indicators (green, yellow, red) with fixed functions

* Eight programmable LED indicators (red)

* HMI button section with four arrow buttons as well as clear/cancel and enter buttons for navigating through the navigation bar.

HMI button section with four arrow buttons as well as clear/cancel and input buttons for navigating through the menu structure and adjusting setting values

* Optically isolated serial communication port with LED indicators.

HMI passwords are divided into two levels: the main HMI setup password for all settings and the HMI communication password for communication settings only.

HMI passwords can be used to protect all user changeable values from being changed by unauthorized personnel.

Both the HMI setup password and the HMI communication password are inactive and are not required to change parameter values until the default HMI password is changed.

Non-Volatile Memory

The relay can be configured to store various data in non-volatile memory, even in the event of loss of auxiliary voltage (as long as the battery is inserted and charged), the

The non-volatile memory retains data even in the event of loss of auxiliary voltage (as long as the battery is inserted and charged). Operation indication messages and LEDs, interference logger data,

The EEPROM does not require a battery backup.