34-45
Description Fuse [ ] blown.
Possible Cause
• I/O pack fuse status feedback indicates a possible blown fuse.
• Consult the relay terminal board help documentation on fuse configuration.
Solution Do the following in order:
• Check the indicated fuse.
• Check the power input to the terminal board.
• Check the terminal board configuration.
• Check the I/O pack configuration.
• Confirm that all connectors are aligned and fully seated.
• Replace the I/O pack.
• Replace the terminal board.
46
Description All Fuses Blown or No Terminal Board Excitation.
Possible Cause All fuse sensing indicates an open fuse. This may be due to loss of input power to the terminal board.
Without power to the fuses, the sensing may indicate a false open-fuse condition.
Solution
• Confirm the correct input power to terminal board.
• Check the pack connector alignment and seating.
• Check the pack configuration.
• Check all fuses.
• Replace the I/O pack.
• Replace the terminal board.
47-58
Description Relay Coil [ ] Failure.
Possible Cause Indication that relay feedback does not match commanded state.
Solution
• Clear the voter disagreements (for TMR).
• Check the I/O pack connector alignment and seating.
• Check the I/O pack configuration.
• Replace the terminal board.
59-70
Description Relay Output Driver [ ] Failure.
Possible Cause Relay command signal as seen at the I/O pack output connector to the terminal board does not match the
commanded state.
Solution The command signal feedback requires a properly connected terminal board.
• Check the pack-terminal board connector alignment and seating.
• Replace the I/O pack.
• Replace the terminal board.
72-95
Description Contact Input [ ] not responding to self-test mode
Possible Cause The input hardware internal to I/O pack has experienced a failure.
Solution
• Replace the I/O pack
120
Description Excitation Voltage not valid, Contact Inputs not valid.
Possible Caus
• The contact excitation may not be connected to the terminal board.
• The contact wetting voltage applied to the terminal board is not within the acceptable range for the board.
Solution
• Check the contact excitation voltage connections to the terminal board.
• Check the power distribution and wiring to ensure that correct wetting power is applied to the terminal board.
1050-1210
Description Logic Signal [ ] Voting Mismatch.
Possible Cause In a TMR application, the values for the specified signal do not agree between the R, S, and T I/O packs.
Solution
• Verify that the R, S, and T I/O packs are equal with the ToolboxST configuration.
• Check the I/O pack power and networking.
• Check the I/O pack mounting on the terminal board.
• Replace the I/O pack.
ABB launched Procontrol™ P14 more than 35 years ago in 1977. Throughout its long life Procontrol P14 has proven to be one of the most reliable and efficient power plant automation systems on the market. With 500 installations in 46 countries all over the world it has a large, long-standing and loyal customer base.
Procontrol P14 is a complete power plant control system with a simple and flexible architecture that enables customers all over the world to meet the diverse operating and business needs of their markets.
It comprises a total system solution:
· Instrumentation and control
· Operations and information management
· Engineering and documentation
· Configuration and programming
· Diagnosis and maintenance
· Turbine control
Topteng Technology offers a large number of Procontrol system components, we understand the importance of your needs and are committed to minimizing lead times, the following items are available and ready for ship:
89NU04B-E GKWE853000R0200 Coupling Module
81AA03A-E GJR2394100R1210 Output Module
81AB03B-E GJR2392500R1210 Output Module
88QB03B-E GJR2393800R0100 Bus Termination
88TR01 GJR2391100R1210 Redundancy Control Module
88TK05C-E GJR2393200R1220 Bus Coupling Module
88QT03C-E GJR2374500R2111 Bus Coupling Module
88FN02C-E GJR2370800R0200 Bus Coupling Module
89XV01A-E GJR2398300R0100 Fusing Module
83SR51C-E GJR2396200R1210 Control Module
88FV01F GJR2332300R0200 Frequency Module
88VT02B-E GJR2363900R1000 Telegram Handling Module
88VA02B-E GJR2365700R1010 Control Module
87WF01G-E GJR2372600R1515 Control Room Coupling Module
81ET03K-E GJR2389800R1210 Input Module
88VK01B-E GJR2312200R1010 Coupling Module
70PR05b-ES HESG332204R0001 Programmable Processor
87TS50E-E GKWE857800R1214 Coupling Module
70AB01C-ES HESG447224R2 Digital Output Module
87TS01K-E GJR2368900R1313 Coupling Module
70EB01b-E HESG447005R2 Digital Input Module
70BK03B-E HESG447270R0001 Coupling Module
70BT01C HESG447024R1 Bus Isolation Amplifier
70EI05a-E HESG447427R1 Input Module
70EA02a-ES HESG447308R1 Input Module
81AR01A-E GJR2397800R0100 Relay Output Module
70EA01b-ES HESG447307R1 Analog Input Module
70BV05a-E HESG447245R1 Bus Traffic Director
70AA02b-E HESG447388R1 Output Module
81EA04C-E GJR2393400R1210 Analog Input Module
88UM01B GJR2329800R0100 Annunciation Module for Monitoring Station
88UB01B GJR2322600R0100 Selection Module for Remote Bus Operation
89NU01D-E GJR2329100R0100 Voltage Monitoring Module
EEA-PAM-U1 HTGZ401553R1 HE199100-954/29 Relay Monitor Card
89AS30 Analog Signal Multiplier Module
89AR30 Relay Unit
70SG01R1 Module
VDE0160 GHR5220300R1 Logic Card
88FT05C-E GJR2393100R1200 Coupling Module
88VP02D-E GJR2371100R1040 Master Station Processor Module
88VU01C-E GJR2326500R1010 Coupling Module
89NG03 GJR4503500R0001 Power Supply Module
GKWE602380R0090 System Cable
216NG63A HESG441635R1 HESG216877 Auxiliary DC Supply Unit
216DB61 HESG324063R100 Binary I/P And Tripping Unit
216VE61b HESG324258R11 Processing Unit
216AB61 HESG324013R100 Digital Output Unit
216EA61b HESG324015R1 Analogue Input Unit
89IL07A-E GJR2394300R0100 Backplane
88TB07B GJR2394400R0100 Bus Terminations
GKWE602437R0600 Terminal
2002NZ10801C MODCELL Multiloop Processor
1KHF401313R3
1KHF401313R1
1KHF401313R2
1KHF401316R1
1KHF401316R2
89IL05B-E GJR2391200R0100 Station-bus p.c.b.
88TB03D GJR2391700R0200 Module
GKWE602296R0100
89IL01/R3e CEAG60363110001/B
81EU01E-E GJR2391500R1210 Universal Input Module
81EU01G-E GJR2391500R1210 Universal Input Module
81EU01F-E GJR2391500R1210 Universal Input Module
216MB62 HESG112803R2 Equipment Rack
89IL01/R3a GKWA632780R2
89NG08R1000 GKWN000297R1000 Power Supply Module
89NG08R0300 GKWE800577R0300 Power Supply Module
89NG08R1200 GKWN000297R1200 Power Supply Module
GKWE602389R0100 (backplane 89IL06A-E GJR2393500R0100) Equipment Rack
GKWF504625 Equipment Rack
GKWF504623 Equipment Rack
GKWF504621 Equipment Rack
GKWF504129-7 Equipment Rack
GKWE602353R0400 Equipment Rack
GKWE602439R0100 Equipment Rack
GKWE602439R0200 Equipment Rack
216GA61/N14 HESG112800R1(HESG216845R1 18351/10) Output Auxiliary Relay Assembly
216GA61/N10 HESG112800R1(HESG216845R1 18351/17) Output Auxiliary Relay Assembly
216GE61/N9 HESG112800R1(HESG441431R1 HE023099-390/45) Input Auxiliary Relay Assembly
216GA62/NB HESG112799R1(HESG324024R1 HESG324067/B) Tripping Auxiliary Relay Assembly
216GE61/N18 HESG112801R1(HESE441431R1) Input Auxiliary Relay Assembly
216GA61/N11 HESG112800R1(HESG216845R1) Output Auxiliary Relay Assembly
216GA61/N7 HESG112800R1(HESG216845R1) Output Auxiliary Relay Assembly
216GA61/N15 HESG112800R1(HESG216845R1) Output Auxiliary Relay Assembly
216GA61/N6 HESG112800R1(HESG216845R1) Output Auxiliary Relay Assembly
216GA62/N17 HESG112799R1(HESG324024R1) Tripping Auxiliary Relay Assembly
88TK05C-E GJR2393200R1210 Bus Coupling Module
88TK05B-E GJR2393200R1210 Bus Coupling Module
83SR07A-E GJR2392700R1210 Analog Control Module
83SR07B-E GJR2392700R1210 Analog Control Module
83SR07D-E GJR2392700R1210 Analog Control Module
83SR07A1-E GJR2392700R1210 Analog Control Module
83SR07E-E GJR2392700R1210 Analog Control Module
83SR04E-E GJR2390200R1210 Relay Module
REX010 1MRK000811-AA Earth Fault Protection Unit
83SR04B-E GJR2390200R1411 Relay Module
83SR04G-E GJR2390200R1210 Relay Module
83SR04F-E GJR2390200R1210 Relay Module
83SR04A-E GJR2390200R1411 Relay Module
83SR04C-E GJR2390200R1411 Relay Module
ABB and Microsoft are collaborating to integrate generative AI capabilities into industrial digitalization solutions, creating safer, smarter, and more sustainable operations.
The collaboration aims to deploy Copilot functionality, making ABB Ability™ Genix Industrial Analytics and AI Suite and its applications more intuitive for user interaction, further unlocking the value of associated data to improve efficiency and sustainability.
ABB will leverage Microsoft Azure OpenAI Service to further optimize ABB Ability™ Genix.
Based on their long-term partnership, ABB and Microsoft will integrate Azure OpenAI Service into the ABB Ability™ Genix Industrial Analytics and AI Suite. Both parties will focus on implementing generative AI technology to help industrial clients unlock hidden insights in operational data. Enhanced data collection and governance capabilities will significantly improve efficiency and productivity, enhance asset reliability and operational safety, reduce energy consumption, and minimize environmental impact.
ABB will integrate generative AI into the Genix platform and applications via Azure OpenAI Service, including GPT-4 and other large language models (LLM), enabling code, image, and text generation, among other functionalities. After its release, the new Genix Copilot application will offer intuitive features and simplify associated data flows for various processes and operations, enhancing user experience. By providing real-time executable insights to industry managers, functional experts, and plant engineers, decision quality will be improved, and productivity will be increased. Such insights could potentially extend asset lifecycle by up to 20% and reduce unexpected downtime by up to 60%.
Additionally, the solution will provide advanced monitoring and optimization insights for industrial greenhouse gas emissions and energy utilization, helping customers achieve sustainable development and energy transition goals.
Genix Copilot will also capture the experience of operators, promoting joint decision-making among different roles and emphasizing the protection of internal data and cognitive security within the enterprise.
ABB Ability™ Genix is a comprehensive, modular industrial IoT, analytics, and AI platform that embeds specific domain knowledge to drive business performance while preserving customers' existing investments. Companies running Genix have witnessed up to 40% savings in operational and maintenance costs, up to 30% improvement in production efficiency, and 25% improvement in energy efficiency and emissions optimization. With the addition of generative AI capabilities, Genix is expected to further expand these advantages.
"This is an important step in the strategic partnership between ABB and Microsoft, which will accelerate the pace of digital transformation in the industrial sector," said Rajesh Ramachandran, Chief Digital Officer of ABB's Process Automation business unit. "We believe that Genix Copilot will help industrial customers achieve comprehensive goals in sustainability, operational excellence, and asset performance. By expanding generative AI capabilities in ABB's industrial digitalization solutions, we will lead customers into a new era of AI-empowered decision-making on a massive scale."
"We believe that the modernization and scalability of data platforms are key to ensuring long-term success for businesses," said Ralph Haupter, President of Microsoft Europe, Middle East, and Africa. "Applying advanced digital capabilities such as Azure OpenAI Service will enhance ABB Genix to effectively manage associated data and drive digital transformation, injecting momentum for continuous improvement and innovation."
Genix automates the integration of data from operational technology (OT), information technology (IT), and engineering technology (ET), unleashing the power of data and applying industrial AI to further enhance analytics and optimization capabilities. The platform can seamlessly scale from assets to factories and enterprises, with deployment options across cloud, hybrid, edge, or on-premises. It is designed to be secure and reliable, using Microsoft Azure for integrated cloud connectivity and services.
ABB is a technology leader in the field of electrical and automation, committed to enabling a more sustainable and efficient future. ABB combines engineering expertise with software technology to create solutions that optimize manufacturing, transportation, energy, and operations. With a history of excellence spanning more than 130 years, ABB's approximately 105,000 employees worldwide are dedicated to driving innovation and accelerating industrial transformation.
What is modicon quantum?
Modicon Quantum is a programmable logic controller (PLC) product line developed by Schneider Electric. A PLC is a digital computer used to control and automate industrial processes. The Modicon Quantum series was designed specifically for complex and high-performance applications that require fast processing speeds and extensive input/output (I/O) capabilities.
Modicon Quantum PLCs offer a wide range of features and are known for their scalability, reliability, and flexibility. They can handle large numbers of I/O points and support various communication protocols to integrate with other devices and systems. The Quantum series includes several different models, allowing users to choose the one that best suits their application requirements.
Some key features of Modicon Quantum PLCs include:
1.High processing speed: Quantum PLCs are capable of executing complex logic and control algorithms quickly, enabling them to handle demanding applications with fast response times.
2.Extensive I/O capacity: These PLCs support a large number of digital and analog I/O points, allowing for seamless integration of sensors, actuators, and other devices.
3.Communication capabilities: Modicon Quantum PLCs can communicate with a wide range of devices and systems through various protocols, such as Ethernet, Modbus, PROFIBUS, and more. This enables them to interact with other automation equipment and exchange data effectively.
4.Redundancy and fault tolerance: The Quantum series provides options for redundancy and fault tolerance, ensuring high system availability and minimizing downtime in critical applications.
5.Programming flexibility: These PLCs can be programmed using different programming languages, including ladder logic, function block diagram (FBD), structured text (ST), and more. This flexibility allows users to choose the most suitable programming method based on their expertise and application requirements.
Modicon Quantum PLCs are widely used in industries such as manufacturing, energy, transportation, and process automation, where robust and high-performance automation solutions are needed.
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Why Bently Sensors?
Here are a few benefits of our proximity sensor systems:
1.Reduces Costs - When you use our proximity sensors as part of your plant wide monitoring program, your costs associated with insurance, maintenance, and unscheduled repairs will go down significantly.
2. Increases Revenue - Conversely, when you use our proximity sensors as part of your plant wide monitoring program, revenue will increase through increased uptime and production quality.
3. Minimizes Unplanned Outages - You can convert unplanned and costly outages into planned, manageable downtime.
Product Specifications:
The 3300 XL Proximitor Sensor incorporates numerous improvements over previous designs. Its physical packaging allows you to use it in high-density DIN-rail installations.
① Operating Temperature -52°C to +100°C (-62°F to +212°F)
② Storage Temperature -52 °C to +105 °C (-62 °F to +221 °F)
③ Probe Relative Humidity - Less than a 3% change in Average Scale Factor (ASF) when tested in 93% humidity in accordance with IEC standard 68 2 3 for up to 56 days.
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About GE
GE is a diversified global infrastructure, finance and media company that is built to meet essential world
needs. From energy, water, transportation and health to access to money and information, GE serves
customers in more than 100 countries and employs more than 300,000 people worldwide.
what's GE digital?
GE Digital focuses on developing and providing digital solutions and software to help industrial companies optimize their operations and enhance productivity. It offers a range of software products and services designed to enable digitization, automation, and data analytics in various industries such as power generation, oil and gas, manufacturing, healthcare, and transportation.
GE Digital's offerings include software platforms for industrial Internet of Things (IoT) connectivity, data analytics, and machine learning. These solutions help companies collect, analyze, and utilize data from industrial equipment and processes to improve efficiency, reduce downtime, and make more informed decisions. GE Digital also provides services and expertise in areas such as cybersecurity, software development, and digital transformation consulting.
GE Digital's portfolio includes popular software products like Predix, a cloud-based industrial IoT platform, which helps connect and manage industrial assets, and Asset Performance Management (APM) software, which assists in monitoring and optimizing the performance of industrial equipment.
Overall, GE Digital aims to help companies leverage digital technologies to drive operational excellence, enhance asset performance, and achieve better business outcomes in the digital age.
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