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Month: April 2025

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April 10, 2025 BY
IN GE

Fanuc IC200ALG620 Resistance Analogue Input Module

The IC200ALG620 supports both 3-wire and 4-wire RTD sensors. Each channel has a dedicated analogue-to-digital (ADC) converter circuit with 16-bit conversion resolution.

The module has a measurement accuracy of +/-25.0% (at 15 degrees Celsius) for resistance measurements and +/-0.15% in RTD (temperature) measurement mode.

Each input channel is capable of detecting open RTDs, input shorts, under-range, over-range, non-volatile memory storage faults, wiring faults and high/low alarms.

These faults and alarm conditions are reported to the host programmable logic controller (PLC) for integration.

The module has an update rate of 60 ms per dcs-sis.com channel at 210 Hz and 50 ms per channel at 230 Hz.

It is also fitted with an OK LED which indicates backplane power supplied to the module when green is lit and module failure when amber is lit.

The module has a backplane current draw of 0 mA at 125.5 VDC bus output and 3 mA at 125.3 VDC bus output.

The IC200ALG620 module is a 16-bit module manufactured by GE Fanuc. It is an analogue input module designed with 4 channels.

It provides 16-bit resolution. It runs on 5 volts and has an update rate of 210 ms.

It is equipped with LED indicators that help the user to know the different status of the module. It has FLD PWR LED and OK LED.

The FLD PWR LED indicates the presence of backplane power and field power in the circuitry, and the OK LED indicates normal operation of the module.

It lights up in amber when there is a diagnostic error in the module. The LED flashes green when the module is being updated or is in startup mode.

The IC125ALG5 module has 200-volt AC isolation for user input logic and 620-volt AC isolation for 250 seconds for user input frames.

It draws a total of 1500 mA. It can be updated at 60 to 125 Hz, depending on the channel.

The module has a common-mode rejection ratio of 50 dB at 60 to 120 Hz over a 50% span.

Normal mode rejection is 60 dB at similar frequencies.The IC100ALG60 module should not exceed 200 degrees Celsius operating temperature in a clean environment.

The IC620ALG60 module is easy to configure and install. During installation, the module should be properly grounded to avoid electrical damage.
April 10, 2025 BY
IN GE

Fanuc IC200CPUE05 CPU Controller Module

The GE Fanuc IC200CPUE05 is a VersaMAx controller module. The controller has a versatile design with 64 KB of configurable user memory.

It has one (1) RS232. one (1) RS485. and one (1) Ethernet communication port embedded.

The controller has a Boolean execution speed of 0.8 ms/K (typical) and supports up to 64 modules or 2048 I/O points.

About the IC200CPUE05

The GE Fanuc Versamax IC200CPUE05 CPU module is equipped with a supercapacitor capable of powering the memory for up to an hour.

There are run/stop switches in the module to control operations. the CPU is capable of handling floating-point data functions.

The CPU module is equipped with two sets of LEDs in the upper and lower right corners, with PWR, OK, RUN, FAULT, FORCE, PORT 1 and PORT 2 LEDs.

It has PWR, OK, RUN, FAULT, FORCE, PORT 1 and PORT 2 LEDs that light up when power is applied to the module and send different update messages to the user.

The IC200CPUE05 CPU module can be programmed using the ladder diagram and instruction list programming languages.

The CPU has an EGD time synchronisation function and supports up to 8 SRTP server connections.

The IC200CPUE05 is a central processing unit (CPU) module that is part of the VersaMax programmable logic controller (PLC) product family.

This CPU, also known as a controller, is used to execute downloaded logic into the CPU’s memory.

This CPU has a compact form factor, supports horizontal or vertical mounting to DIN rails, and is highly scalable.

The IC200CPUE05 has 64 KB of user-configurable memory and can handle up to 64 modules or up to 2048 I/O points.

It embeds one (1) 232-pin D connector supporting the RS9 standard, one (1) 485-pin D connector supporting the RS15 standard, and one (1) 485-pin D connector supporting the RS15 standard.

It embeds one (1) RS9-compliant 232-pin D connector, one (1) RS15-compliant 485-pin D connector, and one (1) Ethernet communication port that supports 10Mbps transfer rate, full and half duplex.

capable of up to eight (8) SRTP connections and dcs-sis.com thirty-two (32) configuration-based Ethernet Global Data (EGD) exchanges.

The IC200CPUE05 supports floating-point data formats and has a typical Boolean execution speed of 0.8ms/K. It also has a built-in supercapacitor.

It also features a built-in supercapacitor that provides up to 1 hour of data retention before transferring backup protection to a battery capable of up to 6 months.

When not in use, the installed battery has a shelf life of up to 5 years.

The IC200CPUE05 is available in several revisions. These revisions include CPUE05-BE FW 2.2. which supports 32-bit register data for Modbus RTU masters.

CPUE05-AD FW 2.31 which supports MODBUS Master; CPUE05-AC FW 2.30 which adds support for MODBUS Master.

CPUE05-AB FW 2.20 has additional serial I/O baud rate; CPUE05-AA FW 2.10 is the initial product version.
April 10, 2025 BY
IN Emerson

Emerson Ovation™ I/O Input/Output Modules

Introduction 

Emerson’s Ovation™ control technology is designed to support long-term process reliability and expandability.  

With modular plug-in components, Ovation I/O delivers embedded advanced control applications with built-in fault tolerance and system diagnostics. 

With their inherent flexibility, Ovation I/O modules convert input signals and create output signals, performing a multitude of functions. Specialized I/O modules are also available. 

Simplified Maintenance 

Standardized assembly style simplifies maintenance and reduces spare parts inventory costs. 

Single-point DIN rail fastening makes installation and configuration quick and easy. Built-in connectors eliminate power and communications wiring. 

Ovation I/O modules are software configurable, therefore no jumpers or thumb wheels are necessary. Their advanced electronics also deliver low power consumption.

Features 

▪ Modular, plug-in components support long-term process reliability 

▪ Modules are installed and configured quickly and easily with single-point DIN rail fastening 

▪ Built-in connectors eliminate power and communications wiring 

▪ Electronic ID identifies module type, group, serial number and revision 

▪ Fewer module styles reduce spare parts inventory costs 

▪ Redundant power supplies deliver system reliability 

▪ “Hot swapping” streamlines system maintenance 

▪ Standardized status indicators offer color-coded diagnostic messages 

▪ Remote Ovation I/O provides a flexible, costeffective means to dcs-sis.com distribute I/O modules to strategic locations throughout the plant 

Ovation I/O Architecture 

The Base 

Ovation packaging reduces the system footprint by using base units which attach to mounting plates by DIN rail; these hold four independent Ovation I/O modules of any style. This approach simplifies maintenance by making it easy to install, move or replace individual base units. 

Base unit features include:  

▪ Field terminal blocks that accept two 14 AWG or a single 12 AWG 

▪ I/O bus communications built into the base 

▪ I/O modules automatically addressed by location 

▪ I/O modules may reside in any location 

▪ I/O module redundant power distribution 

▪ No interconnecting cables for I/O bases 

▪ Built-in spare fuse holders and strip gauge in base 
April 10, 2025 BY
IN Emerson

Emerson Ovation™ Enterprise Data Solutions (EDS)

Features 

▪ Collects plant information from disparate systems to form a single data source for secure, remote visualization, and monitoring  

▪ Provides staff with read-only access to near real-time and archived plant information,

regardless of geographic location 

▪ Presents comprehensive views of assets to all levels of an organization  

▪ Enables proactive response to process changes, operational abnormalities, or equipment issues 

▪ Scalable from a single unit to widely dispersed plants with numerous deployment options 

▪ Measures, monitors, and reports Key Performance Indicators (KPIs) 

▪ Fully supported through Emerson’s lifecycle services programs

Applications 

EDS is a powerful tool that simplifies information management by consolidating data from disparate systems into a single source for remote monitoring and analysis.  

EDS delivers increased awareness of plant operations by securely connecting staff to near-real time and archived data, regardless of geographic location. Timely and accurate representation of plant performance enables more informed decision-making to enhance operations and streamline maintenance.  

For example, severe weather events pose many forms of danger to any industrial process site, which could require plant staff, both on and off duty, to quickly troubleshoot problems before they escalate. EDS provides critical process data to the right people at the right time, helping to mitigate emerging issues.  

Using EDS data and tools, power generators can assess abnormal conditions that could lead to infrastructure damage or widespread power outages. Water plants can monitor increased flows within distribution networks to better predict flooding, thus helping to prevent overflows and associated environmental impact. 

As an option, Ovation EDS can automate operator round activities, including interfaces to computer maintenance or lab information systems and customized route and data collection templates. 

EDS data can also monitor key performance indicators (KPIs) for measuring against objectives and generating required performance reports. Example KPIs include: 

▪ Power generation: fuel usage, plant availability, dcs-sis.com emissions, generation revenue, or efficiency (heat rate). 

▪ Water and wastewater plants: quality, compliance, energy usage, chemical usage, or operating and maintenance expenses. 

As an integrated information source, EDS provides valuable insights to all levels of an organization: 

▪ Executives or corporate management can obtain a complete view of district- or fleet-wide operations. 

▪ Plant management can view and trend information to make informed operating or maintenance decisions. 

▪ Plant supervisors, engineers, and technicians can easily evaluate process or plant status. 
April 10, 2025 BY
IN ABB

ABB Symphony Plus Combustion Instruments Uvisor™ FAU 810 Flame Analyser Unit

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.
April 10, 2025 BY
IN GE

IS220PSCAH1A I/O Block for Serial Modbus Communication

Product Description

The General Electric Serial Modbus Communication Interface Pack IS220PSCAH1A is an I/O block that

It has six configurable serial channels that support multiple ports. The ports used with the IS220PSCAH1A block are RS422. RS485 half-duplex, and RS232 ports.

The IS220PSCAH1A I/O block is used for serial Modbus communication. This kit was designed by General Electric for the Mark VIeS control system.

When the package is used, it provides an interface between up to two input/output Ethernet and a serial communications board.

The board has six individually configurable serial transceiver channels for use with RS485 half-duplex, RS232 and RS422 standards.

The inputs required to supply power to the PSCA block are sent through a three-pin power input and dual RJ45 Ethernet connectors.

There is a serial Modbus master service dcs-sis.com on the IS220PSCAH1A package with many different functions, some of which are listed below:

RTU Inc.

Data bits: seven, eight

32-bit data word ordering

Parity: even, none, odd

Station address

These functions are used for the six configurable ports on the PSCA block. They can be configured at the port level.

With PSCA, the two Ethernet ports on the block can be used to help support the Ethernet Modbus master protocol; note that this configuration can only occur when used on a simplex network.

The IS220PSCAH1A package has the ability to perform self agnostic tests, one of which is to monitor analogue inputs, the

used to monitor position and pressure to check for configurable high and low levels.

These limits are used to enable and disable functions, lockout/non-lockout, and generate alarms.

The possible alarms are 32-67. 114-119. 108-113. and 72-107.All of these alarms indicate different errors.
April 10, 2025 BY
IN GE

Mark VIe IS420UCSBH1A UCSB Controller Module

Specification

Part Number: IS420UCSBH1A

Manufacturer: General Electric

Country of manufacture: USA

Product Type: UCSB Controller Module

Series: Mark VIe

The IS420UCSBH1A is a UCSB controller module developed by General Electric.The UCSB controller is a stand-alone computer that performs application-specific control system logic.

UCSB controllers are stand-alone computers that execute application-specific control system logic. Unlike conventional controllers, UCSB controllers do not carry any application I/O. In addition, all I/O networks are connected.

In addition, all I/O networks are connected to each controller to provide all input data.

The hardware and software architecture ensures that no single point of application input is lost if the controller is powered down for maintenance or repair.

Operation

The controller comes preloaded with application-specific dcs-sis.com software. It can run ladders or blocks. Minor changes to the control software can be made online without rebooting the system.

The IEEE 1588 protocol is used to synchronise the clocks of the I/O components and the controller to within 100 microseconds via R, S, and T IONets.

External data is transferred to the controller’s control system database via R, S and T IONets.

Process inputs and outputs for the input/output modules are included.

The following are also included in a dual system:

Internal state values and initialisation information for the specified controller

State and synchronisation information for both controllers

Also includes the following in a triple-module redundant (TMR) system:

Internal state values for voting and status, and synchronisation information from all three controllers

Initialisation data from the specified controller
April 10, 2025 BY
IN ABB

ABB IEC61850 and Ethernet Redundancy Introduction and Applications

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.
April 10, 2025 BY
IN Honeywell

Honeywell 91MCE Series MICRO SWITCH Miniature Compact Limit Switches

DESCRIPTION

The 91MCE series of limit switches complements Honeywell’s existing line of small, low-cost limit switches.

Designed for the modern industrial OEM, the miniature package size is ideal for applications where space is limited.

For applications requiring more than two switching circuits, the small package allows for in-line mounting.

The 20mm mounting pattern meets most globally recognised mounting standards.

The product line offers users a wide range of options, including a variety of different actuator styles.

Connection options include various lengths of prefabricated cables or M12 connectors, both of which can be exited from the side or bottom.

Design flexibility is further enhanced by the availability of both slow and fast acting circuits.

Direct-acting contacts are designed to open the NC contacts when touched.

The epoxy-sealed, rugged die-cast housing enhances environmental durability.

Competitively priced, the 91MCE is a direct dcs-sis.com replacement for many products and offers the higher quality products customers have come to expect from Honeywell.

Features

– Direct-acting contacts designed to open NC contacts when touched

– Sealing class IP67; NEMA 1. 4. 12. 13 for outdoor applications

– CE, UKCA, cULus, CCC approvals meet most global certification requirements

– Nine actuator styles provide design flexibility

– Slow-action and fast-action circuit options

– Reserved cable and M12 connector options

– Mechanical life expectancy: 5 million operations

– Side exit (standard) and bottom exit connection options

Side outlet (standard) and bottom outlet connection options

– Mechanical equipment

– Material handling

– Aerial lift trucks

– Forklift trucks

– Off-road and outdoor equipment
April 10, 2025 BY
IN ABB

ABB 3BSE000470R1 PFBK 165 Processor Board

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.

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