The future of Industrial automation PLC SCADA technologies

Every industrial automation PLC SCADA project starts with the familiar process of counting I/O, selecting vendors, laying out PLC chassis, and distributing requests for quotes. And finally you are commissioning a system built on general standards, repeating the same mistakes as previous systems.

The conversations also repeat during bid review or negotiation meetings when someone points out inconsistent or outdated standards. Technology is changing so fast, and the past few years have brought technical advances that have breathed new life into Industrial automation groups and started great discussions around what the future holds. There is still a lot of work to be done.

Virtualization is a great example. Early adopters saw the benefits, and news spread like wildfire. As SCADA (supervisory control and data acquisition), manufacturing execution systems, and historian capabilities increased, so did the need for processing power, and virtualization was the perfect answer. Virtualization is now commonplace in Industrial automation domain. And many are asking what is next. The next big thing is waiting to happen. Industry has become more demanding asking for virtualized controllers and solution with mobility. But they are easily feasible with existing technology. The success of our industry depends on it.

HMI/PLC SCADA industrial automation applications have already secured their place as key components for any smart factory, IT-focused applications. Humans by nature are reluctant to give up control; however, fully automated facility does not mean a complete end of human interference on the factory. Considering the huge focus in industrial automation / automated equipment and intelligent HMI/PLC SCADA software, it is important that manufacturers invest in employee training, enabling talented engineers from industrial automation domain to focus on important tasks. 

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Impact on Industrial Automation with the advent of IoT

Connected Industrial Devices are known as IoT which means it is about a lot of industrial devices networked together. This technology enables us to manage everything from anywhere, reducing complexity and hardware cost, flexibility and easy expansion. More wireless modules will be added. In other words, IoT is the network of physical objects or things embedded with hardware of electronics, softwares which are connected in network either in wired or wireless mode to collect and exchange data.

The devices used in industrial automation which includes PLC, SCADA, HMI, DCS, Industrial networking, AutoCAD, Panel Design, Motors and Drives will be networked together in a better way with high levels of security and reliability.

The first impact of IoT technology is in the automation industry as they have no option left but to use the latest features and technology available in the market which increase the operational efficiency manifolds in today’s scenario. 

 

 

Relevance of Profibus Communication for Industrial Automation Engineers

Every automation engineer whether from the background of electrical or electronics or instrumentation and control knows the importance of Profibus Communication. This technical note is primarily for freshers in the field of automation covering the whole spectrum of PLC, SCADA, HMI, DCS, Industrial networking, AutoCAD, Panel Design, Motors and Drives etc.

Profibus DP stands for “Process Field Bus Distributed Peripherals”. The main advantage of profibusdp connection is that we can connect master with slaves. Here master is our main controller and slave is our field device. This comes under the study of industrial networking.

In s7-300 (Rack type controller), one rack equal to 11 slots and at a time maximum of 4 slots are controlled by one controller. s7-200 and s7-300 works on half duplex protocols. Protocol is nothing but a set of rules for sending and receiving the data. Similarly, HMI also works on half duplex protocol which supports 32 nodes ( or devices). Maximum distance between master and slave can be 32 kms. The transmission rate of profibus connection is 9.6 KBps to 12 Mbps. Repeaters are used to boost the signal. We prefer serial transmission instead of parallel transmission in long distance connection because of lesser transmission loss and reduced cost. 

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Industrial automation HMI/PLC SCADA software and Pharmaceutical companies

There has always been serious emphasis in reliable data in pharmaceutical manufacturing. In simple terms, pharmaceutical manufacturers should follow instructions and document actions correctly, so that if any deviation occurs in the product, the company can investigate it and put measures in place so that the same error does not happen again. This guarantees the repeatability and safety of the product being manufactured and protects the brand.

Data integrity refers to the completeness, consistency and accuracy of data, which needs to be attributable and legible. More importantly, drugs approved on basis of inaccurate data could pose a threat to patients’ lives. For all these reasons data integrity is at the heart of the pharmaceutical ecosystem.

Use of reliable HMI/PLC SCADA software

The pharmaceutical industry has been slowly transitioning from manual paper records to industrial automation PLC SCADA HMI based electronic records. Batch records are in electronic form today, but other systems, including production processes, documentation and sampling, are yet to be digitalised. Although paper records can work well for some companies but they leave scope for human error and data manipulation than electronic records.

The true benefits of digital records is realised when companies use reliable industrial automation HMI/PLC SCADA software that automatically records the actions at each stage. The PLC SCADA software also makes data manipulation impossible. Another advantage of using SCADA HMI software for electronic records is that there are no more gaps in the records, which in turn improves data accuracy/Integrity. HMI/PLC SCADA software can automatically log any critical event and allows users to set alarms or notifications whenever pre-defined values exceed set parameters. This ensures that any deviation in the industrial automation process is identified in real-time.

The individual login ensures data integrity

To ensure precise data integrity individual logins are assigned. The general practice used is to assign username and password to each operator/individual. With individual user login enabled, the system can record any action or change made by an operator, thus offering a clear picture of the overall industrial automation process.

Data safety Data safety is of critical importance for pharmaceutical companies. How does a manufacturer ensure that its production data is safe and cannot be manipulated? By using reliable HMI PLC SCADA Software, companies can help eliminate this issue. When exporting archives to an external database, the software uses its internal mechanisms to check whether the data has been correctly and completely transferred. The data is never lost or corrupted. To ensure data safety, the PLC SCADA software stores critical data such as audit reports, alarm and event. By integrating Industrial automation HMI/PLC SCADA software with ERP system, pharmaceutical manufacturers can achieve savings; reduce energy consumption and raw material wastage, eliminate unplanned downtime by applying predictive maintenance. Manufacturers can have optimum utilization of manpower by freeing the staff used for recording data manually and employing their skills elsewhere in the business.

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5 HMI Technology Trends

As interest in mobile access to manufacturing equipment increases for both asset management and production insight, there has been a corresponding uptick in HMI technology to facilitate this interaction.

Whether its part of a process to pave the way for an Industrial Internet of Things initiative or simply to provide more accessible insight into operational capabilities, the role of the human machine interface (HMI) has clearly moved front and center for many companies. In reaction to increasing manufacturer interest for more versatile HMI capabilities, HMI technology suppliers are actively bridging the gaps in HMI technology that long kept it affixed to the machine(s) it monitored.

To gather some insight into some of the key advances that have been changing HMI technology over the past few years, I spoke with Jeff Thornton, product manager at Red Lion Controls. He pointed to five key facets of HMI technology that are changing the common perceptions of HMI. Granted, the technologies that Thornton discussed with me are specific to Red Lion Controls’ products, but they provide important insights into the direction HMI technology is headed.

The first thing Thornton pointed out in our discussion of modern HMI technology was protocol conversion. According to Thornton, Red Lion’s Graphite HMIs, for example, can be setup as “the gateway to exchange data between all connected devices. Graphite HMIs can convert between 13 protocols simultaneously from a list of more than 300 drivers to integrate disparate devices like PLCs, drives, barcode readers and panel meters. “

The ability to manage these complex multi-vendor environments via programming software is the second technology advance Thornton highlighted. “Red Lion realized customers were spending too much time setting up HMIs, so we designed plug-in modules for our Graphite HMIs,” he said. “These modules minimize development and commissioning time over traditional systems that use an HMI paired with separate I/O, PLCs, and other controllers.”

Development of modules to ease the system integration programming process is an increasing trend throughout industry. For more information about this trend, see the article on machine design building blocks I posted a few months ago.

Thornton highlighted that fact that PID control is included in the Graphite plug-in modules. This ability can “eliminate hours of custom PLC protocol development associated with standalone controllers. Operators can use Graphite PID modules to configure multi-zone systems, such as plastic extrusion heating, and integrate everything in minutes,” he said.

With the ability to now take your HMI practically anywhere with you, how the device collects, processes, and presents data continuously for proactive monitoring and control becomes ever more important.

The Crimson programming software used to customize Graphite HMIs permits configuration of communication protocols (such as the 300 device drivers referenced earlier in the protocol discussion), definition of data tags, and creation of user interfaces. The software also has a built-in emulator for testing, data logging and web serving; and access to features such as read/write to the SD card and serial port management, Thornton said.

Web serving and data logging are two big trends in the HMI space—and the third major HMI technology advance noted by Thornton. He said that Graphite HMIs are “the only rugged HMI that web-enables any device for remote operation across a LAN or the Internet. Users can remotely monitor and control applications via PCs, tablets or smartphones to streamline operations. When problems occur, SMS text messages and email alerts can be automatically sent to maintenance teams for proactive problem resolution.”

When asked about the security concerns surrounding remote access to industrial systems, Thornton pointed out that remote access to Graphite can be setup as disabled (no access), view-only, or full control of the HMI. “Based on who is logging into the HMI, the software can dictate what level of permissions will be granted,” he said. The proprietary operating system used to run Graphite HMIs are a factor that Thornton said protects Graphite HMIs from many of the security threats affecting HMIs using a more common OS.

The ruggedness of Graphite HMIs is the fourth HMI advance Thornton noted about modern HMI technologies. “For some industries, like oil and gas, alternative energy and water/wastewater, an HMI needs to stand up to harsh conditions. It used to be tough to take an HMI out into oil fields or have it withstand very hot or cold temperatures. But with the use of cast-aluminum metal housing, such as on the Graphite HMIs, these devices can now withstand shock and vibrations and extreme temperatures between -20° to 60°C.”

With the ability to now take your HMI practically anywhere with you, how the device collects, processes, and presents data continuously for proactive monitoring and control becomes ever more important—and the fifth modern HMI technology pointed out by Thornton. “The ability collect, store, and display data for real-time analysis provides valuable insights into processes that enable operators to analyze output levels, detect valve issues, or identify temperature extremes,” he said. “By logging real-time performance data, including productivity and output comparisons, organizations can easily implement process improvements or quickly pinpoint and address bottlenecks or chokepoints.”

Source:-http://www.automationworld.com/5-hmi-technology-trends

Industrial Automation Controls Custom Car

Multiple functions on this custom car—from raising the hood and trunk to the controlling the electrical systems and windshield wipers—are powered by industrial automation components.  

Hints of the 1986 Ford XF Falcon can still be seen when viewing the purple and red custom car known as “The Psycho”. And though it’s clear from outward appearances that this car has been radically transformed from its original delivery specs, what’s not so obvious is how different this car is with respect to its operation.

Greg Maskell, the Australia-based designer of "The Psycho", turned to industrial automation technologies to control many of the car’s functions. Underneath the dash, along with the high-tension coil packs of the ignition, are a Rockwell Automation MicroLogix PLC and a ProSoft Technology Industrial Hotspot. The 802.11 a/b/g HotSpot is ProSoft Technology’s RLX2-IHW industrial-grade wireless Ethernet device rated up to 54 Mbps with Power over Ethernet and serial encapsulation.

Without the use of industrial automation controls technology, remote control of all these functions in the car would have required 18 separate toggle switches.

The controller and Industrial Hotspot are connected to a Rockwell Automation PanelView Plus 600 HMI through a Hirschmann Spider 4TX switch. The ProSoft Technology Industrial Hotspot is used for remote programming of the PLC and HMI.

Though the use remote controls via a mobile device in custom cars is not new, Maskell (who produces two the three custom cars a year) says this is the first time he has incorporated the use of a PLC.

The PLC controls all of the car’s electrical systems including “start up, shut down, fuel pump, thermo fans, water pump, windscreen wipers, windows and the stereo,” Maskell says. Without the use of industrial automation controls technology, remote control of all these functions in the car would have required 18 separate toggle switches.

Maskell relied on Gary Lomer, a Melbourne, Australia-based industrial electrician with 30 years of experience, to build the controls system for the custom car based on his industrial automation knowledge. Lomer currently works for Visy (a paper, packaging and recycling company), but has also worked at General Motors in Melbourne, as well as in many other industries. “I used my industrial background to select components that were proven with solid and reliable software and hardware,” Lomer said.

Working on "The Psycho" was an after-hours job for Lomer, who took on the extra work because “it was something different and challenging that didn’t come along every day.”

Maskell said he and the owners of the car are very happy with the performance of the equipment. He plans on using the PLC/ProSoft industrial wireless car control system more often when a customer decides they want to control their car remotely. He adds that “we are working on using ProSoft’s i-View iPhone app to operate the car via an iPhone.”

In just one car show in Australia, “The Psycho” won Top Paint, Top Undercarriage, Top Engine Bay, Top Interior, Top Coupe, Top Five, Top Street Machine and Australia’s Coolest Ride. It is considered by many to be the Top Show Car in Australia today.

Source:-http://www.automationworld.com/industrial-automation-controls-custom-car

Scalable Energy Efficient HMIs for Intelligent Building Automation Systems

Building Automation Management Solution Provider and BMS Training Provider

Known for their energy efficient, open platform and flexible building control and monitoring solutions, American Industrial Systems, Inc. (AIS), introduces their standard and custom offering of HMI panels for the building automation industry.

Known for their energy efficient, open platform and flexible building control and monitoring solutions, American Industrial Systems, Inc. (AIS), introduces their standard and custom offering of HMI panels for the building automation industry.  AIS open and flexible building control and monitoring solutions are designed for commercial and industrial facilities. By controlling building automation systems and simplifying operator interaction and engagement, AIS HMIs help building owners and operators manage their Building Management Systems (BMS), Energy Management Systems (EMS) and Building Automation Systems (BAS) more cost-effectively.  Building control systems applications suited for AIS HMI building management panels include: chiller control, boiler control, lighting control, HVAC control and access control systems.

In commercial buildings, the BMS is a computer-based control system installed in buildings that controls and monitors the building’s mechanical and electrical equipment. An EMS has software and data acquisition hardware components that are used to collect and analyze energy usage at the building or system level, mainly for monitoring decisions only. The BAS consists of stand-alone or networked hardware and embedded software that automatically controls a single building function (mechanical, electrical, or electronic).

AIS’s HMI Building Management Panels Solve Energy Challenges for Smart Building Operators

The building automation industry was an early innovator and adopter of the green movement in addressing environmental issues, reducing carbon emissions and energy costs.  Building and facilities operator embrace the need for continued energy management and sustainability.  BAS and BMS data from commercial buildings are new high-value assets and a major focus in managing energy consumption, triggered by rising energy costs, the benefits of proactive system maintenance and the need for remote property monitoring. AIS’s scalable and flexible operator interface panels deliver HMI integration and visualization of automation systems for smart buildings. Open platform HMI panels with pre-installed Windows embedded operating system from AIS offer hardware and software functional expansion capabilities with software development kits (SDK) for customer-specific applications. AIS building control management HMI panels and operator interfaces offer many benefits, including:

·       Powerful control, monitoring and targeting of energy consumption

·       Computerized and efficient maintenance scheduling

·       Effective use of maintenance staff and increased productivity

·       Reduced maintenance and energy costs

·       Remote monitoring and diagnostics of buildings and facilities

AIS’s Extensive Portfolio of Open & Rugged HMI Systems for Building Automation Control
AIS offers a broad range of flexible and versatile HMI panels and operator interface solutions for smart building control and automation systems that deliver the lowest total cost of ownership for building and facilities operators. Easy-to-use interfaces with advanced visualization capabilities and open communications platforms, AIS HMI panels are also rugged and can endure extreme conditions in HVAC environments and applications. The portfolio of HMI, operator interface terminals and touch panel PCs solutions for building control and management from AIS include:

·       Wide Temperature Touch Panel PCs feature Intel® Atom dual core processor N2800 1.86 GHz, in an industrial-grade LCD flat panel with resistive touch screen technology, and supports an extended temperature range of -20 to 60°C (-4 to 140°F). This selection of industrial and building automation displays are offered in screen sizes 10.4", 15" and 17".

·       HMI Operator Interface Terminals are web-based and ARM-based HMI solutions and one of the most versatile operator interface choices for visualization applications. They are ideal for building control applications that need information displayed in dynamic ways to help operators quickly understand machine status and make faster decisions. The displays for intelligent building automation are offered in sizes ranging from 4.3" to 15".

·       HMI Compact Thin Clients are compact web-based thin clients for faster, better and lower-cost building and HVAC applications. As standard, AIS HMI Compact Thin Clients for building control are ruggedized, and carry NEMA 12, 4X, 4, IP52, IP54, IP66 ratings and certifications. These smart building HMI displays are offered in 5.7", 10.1" and 15" size screens.

·  HMI PoE Touch Panel PCs are fully integrated, utilizing the very latest in Projective Capacitive Touch display (PCT) technology and Power-Over-Ethernet (PoE) capability in industrial-grade LCD panels. As the need for end devices continue to expand for communications, collaboration, security and productivity, the need for PoE capabilities to support these end devices with increased power requirements is essential. These smart, Multi-Touch “Room Scheduling” Panel PCs are offered in 7", 10.1” and 18.5" size screens.

The Future of Factory Automation | Industrial Automation Training at Sofcon

The concept of Factory Automation started in 1986 and dealt primarily with the automation of manufacturing, quality control and material handling processes. The idea was to employ automation to save up on the labor cost, reduce human error, save energy and materials and to improve quality, accuracy and precision. Various concepts & technologies like DCS, PLC, Industrial PC, Computer Numeric Control Network, Wireless sensor networks, Industrial Ethernet etc. have emerged and evolved over the years.

 

In today’s world, in order to remain competitive and thrive, many businesses are increasingly turning to advanced industrial automation to maximize productivity, economies of scale and quality. The increasingly connected world is inevitably connecting the factory floors. Human machine interfaces (HMI), Programmable logic controllers (PLC), Motor control and sensors need to be connected in a scalable and efficient way. The Internet of Things (IoT) is enabling machines and the automation systems to securely connect to each other, in an enterprise and to the rest of the supply chain and offer information that can be used for operative and analytical purposes.

Market & Trends

The global industrial automation market is forecasted to reach more than $200 billion by 2015, buoyed by improved economies worldwide. Purchased largely for manufacturing processes, industrial automation equipment is a key factor in a country’s gross domestic product (GDP) and, as IMS Research notes, generally indicative of economic health. As per a survey conducted by Frost & Sullivan, BRIC (Brazil, Russia, India and China) along with other emerging economies worldwide are forecast to sustain high growth in industrial automation markets. The strongest growth is expected in emerging markets, particularly in the Middle East, Southeast Asia and Eastern Europe. However, in more developed regions like North America and Western Europe, opportunities exist in the modernization of old infrastructure.

The biggest change to the factory of the future will come from technology. Future factories in the pursuit of sustainability, productivity & efficiency are adopting Factory Automation which will enable a truly integrated enterprise. Advanced controls, automation systems, and sensors are being used to improve industrial process control and energy efficiency in industrial settings. Whether reducing energy consumption or monitoring equipment for maintenance purposes, sensors, and wireless controls provide real-time data and the ability to configure and control plant related functions. The Integrated enterprise provides for an effective interaction between the factory floor and the enterprise across all end users, enabling organizations to gain a competitive edge in the global market. The organizations are also leveraging the benefits of IoT (Internet of Things) to connect data-driven devices to optimize their operations and improve decision making thus impacting revenues & profitability.

As per the latest report from IHS Technology on Industrial Automation Equipments, Motors and motor controls will be the largest segment in 2014, accounting for 40 percent of total IAE market revenue. Automation equipment is next with 31 percent, followed by power-transmission equipment with 29 percent. In the market’s biggest segment made up of motors, generators, and motor controls, energy efficiency continues to be the driver for growth and is a key care about.

One such Industry forum is the Industrial Energy Efficiency Coalition (IEEC) which is an alliance of leading Industrial organizations seeking to leverage their expertise and track record in industrial controls and automation to promote continuous energy efficiency improvements in industrial systems and processes, as well as business ecosystems.

The Anatomy of Factory Automation

Factory Automation constitute of five major components - PLC (Programmable Logic Controllers), HMI (Human Machine Interface) , Sensor,  Motor Control / Drives which are interconnected by Industrial communication protocols.

• PLC is the brain of an industrial automation system; it provides relay control, motion control, industrial input and output process control, distributed system, and networking control. PLCs often need to work in harsh environmental conditions, withstanding heat, cold, moisture, vibration and other extreme conditions while providing precise, deterministic and real-time controls to the other parts of the industrial automation system through reliable communication links.

• HMI is the graphical user interface for industrial control. It provides a command input and feedback output interface for controlling the industrial machinery. An HMI is connected through common communication links to other parts of industrial systems.

• Industrial drives are motor controllers used for controlling optimal motor operation. They are used in a very diverse range of industrial applications and come with a wide range of voltage and power levels. Industrial drives include but are not limited to AC and DC drives as well as servo drives that use a motor feedback system to control and adjust the behavior and performance of servo mechanisms.

• Sensors are the hands and legs of the industrial automation system that monitor the industrial operation conditions, inspections, measurements, and more, in real time.  A sensor in the industrial environment is either continuously or periodically measuring vital parameters such as temperature, pressure, flow, etc. Monitoring and maintaining process variables at the appropriate levels is extremely critical in industrial automation and process control. They are an integral part of industrial automation systems and provide trigger point and feedback for system control.

• Communication is the backbone of all the industrial components for efficient automation. The most common being Industrial Ethernet and Fieldbus communication protocols with master and slave functionality including EtherCAT®, Ethernet/IP, PROFIBUS®, PROFINET®, POWERLINK and SERCOS III. Wireless connectivity holds enormous promises for advance factory automation. Zigbee, Sub 1-GHz Smart Mesh, 6LoWPAN, ANT+ and evolving standards are enabling machines and the automation systems to securely connect to each other, in an enterprise and to the rest of the supply chain.

System Requirements

In today's factory automation market, new technology brings opportunities for industrial system developers to successfully address new challenges where systems require technologies to meet stringent requirements for high reliability in mission-critical environments. The success of an advance factory automation system design depends on few key factors.

Semiconductor Portfolio specific –

• Specialized product portfolio for Harsh Environments.
• Reliable and efficient communication network that connects all the components of the factory to work together effectively.
• Energy Efficiency is also a must have from a sustainability perspective.
• Long product life supply policy.
• Flexible and future-proof embedded processors.
• Solutions that meet industry safety needs (IEC61508, SIL)
• Space efficient solutions.

System specific –

• The primary challenge of sensing in industrial environments is conditioning low signal levels in the presence of high noise and high-surge voltage.
• Industrial-specific reference design and development tools.
• Production-ready comprehensive software, including communication protocols and signal chain solution.

Automation applications range from programmable logic controllers and industrial computers to human machine interface and industrial peripherals and drives. Texas Instruments is a global supplier with a broad selection of the right products and tools the complete and optimize the Industrial Automation system. TI Technology brings many new opportunities to industrial automation system developers, successfully addressing design challenges like providing high reliability products to support stringent manufacturer requirements needed for harsh environments, long product life supply policy, products optimized for industrial environments, reference design, software libraries.

The Works

Texas Instruments has a strategic commitment to the industrial automation industry, providing an extensive and reliable solution set - ranging from robust microcontrollers and ARM®-based microprocessors and wireless transceivers, complemented by a rich portfolio of analog IC's for power management, data converters, interfaces, amplifiers, industrial drivers. TI’s cutting-edge semiconductor manufacturing processes provide industrial designers with products that meet the highest standards and that are optimized for industrial environments and extend product life cycles.

Apart from the broad portfolio, TI has a rich suite of reference designs that have been introduced along with documentation on BOM, design files & test reports. There are currently 86 reference designs under the Factory Automation theme, developed by system experts in TI, targeting PLC, HMI, Machine vision, Field Transmitter & Process instrumentation & others. An example is the TI reference design targeting analog and digital I/O modules as well as power supply boards for Programmable Logic Controllers (PLCs). These boards are designed with consideration for special needs encountered with testing for EMC and surge requirements as described in industry standards like IEC61000-4. All boards undergo rigorous testing and come with full documentation, test results, design files and necessary firmware. These designs make it very easy to evaluate complete signal chain performance and help reduce time to market.

The benefits of TI's system-optimized products are immediate product availability, tools, software and hardware that ease and accelerate design time - plus the added reliability of a worldwide supplier with local expertise and support.

On the communication front, developers can get to market faster with the low-power ARM Cortex-A8 microprocessor family to incorporate multiple industrial communication protocols on a single chip. TI provides production-ready industrial Ethernet and Fieldbus communication protocols with master and slave functionality including: EtherCAT®, Ethernet/IP, PROFIBUS®, PROFINET®, POWERLINK and SERCOS III.  WiFi capability can be enabled with easy development on the IoT ready portfolio with flexible connection options, cloud support and on-chip Wi-Fi, Internet and robust security protocols.

Source:-http://www.aandctoday.com/technical-article/318-the-future-of-factory-automation

Automation Future Growth of Indian Manufacturing Sector | Industrial Automation Training With Sofcon

It is essential for current-day manufacturers to be extremely efficient and prudent in order to handle fluctuating market demand, and simultaneously ensure profitability. Clearly, Indian manufacturers are trying to achieve more with fewer resources. Therefore, they are relentlessly striving to reduce costs and remain competitive. Advances in the automation and control solutions space are also expected to maintain the same pace as evolving end-user challenges. Hence, despite the prevailing economic scenario, demand for best-in-class solutions in the manufacturing sector would remain high. Significant growth potential in the automotive segment, automotive sales and exports, sustained interest toward electronics manufacturing, and increasing investments in consumer packaged goods, among others, stand out as shining examples of the underlying potential of implementing automation in the industrial sector.

Major end users of automation technology will continue to be power, oil and gas, food and beverages, pharmaceuticals, and automotive industries, as they continue to provide significant growth potential. Other industries such as consumer packaged goods (CPG), electronics, and textiles are also expected to generate significant demand for automation in the coming years. The total automation and control solutions market in India (including DCS, PLC, MES, HMI, SCADA, and APC), which generated USD1352.4 million as revenues in 2011, is expected to generate USD 2077.3 Million in 2015; with Compound Annual Growth Rate (CAGR) of 11.3 percent.

The Industrial Automation and Process Control Practice of Frost & Sullivan will be hosting the 2012 India Industrial Technologies Summit, an annual forum focused on highlighting the evolving, discrete industry imperatives on December 11, 2012, in Bangalore. This edition of the Industrial Technologies Summit will focus on the Discrete Manufacturing Segment.; while the subsequent edition will focus on the Process Segment-which is scheduled to be held in February 2013.

Arunkumar Janarathnan, Industry Manager, Industrial Automation & Process Control Practice, Frost & Sullivan, emphasizes that, "Frost & Sullivan's 2012 India Industrial Technologies Summit reflects the sense of urgency felt amongst the Indian industrial community to be future-ready now; and seeks to address this immediate need through a forum focused on innovations and best practices."

Key focus areas to be discussed at the Summit include Anticipated Challenges and Growth Strategies, Economic Indicators and Impact of the Global Investment Climate, Vital Market Drivers, Companies Success, Consistent Innovation in Process and Technologies to Enhance Productivity as well as Shareholder Returns, and much more. The Summit will provide a strategic platform for product/solution/component providers and end users to deliberate on key factors that would ensure future readiness of Indian manufacturing.

The vision partner supporting the Summit is Mitsubishi Electric India Private Limited (MEI) and the knowledge partners are Omron Automation Private Limited and Siemens. The media partners supporting the summit are Automation and Controls Today, A&D India, Automonitor, Bizxchange.in, Industry2.0, and Manufacturing Today.

Source:-http://www.indiainfoline.com/article/news/automation%27future-growth-of-indian-manufacturing-sector-frost-and-sullivan-5547691842_1.html

Software Solution Access to any HMI, Anywhere at Any Time

Invensys has released its Wonderware InTouch Access Anywhere software solution which is said to enable users to access plant-floor data via Wonderware InTouch software.

The solution runs securely inside a web browser so users can connect to other InTouch applications at anytime from anywhere, using any mobile device. Because users are not required to install any software on their mobile device, the offering is easy to deploy, manage and maintain.

Commenting on the offering, Craig Resnick, vice president, ARC Advisory Group, said: “This new offering complements Invensys’ broader mobile strategy to provide and improve real-time visualization, collaboration and execution at multiple levels of an organization. Along with delivering mobile solutions for reporting, decision-support, dashboards, workflow and workforce execution, this new offering also brings HMI visualisation capabilities to mobile devices. 

These capabilities extend the company’s operations management software portfolio by providing plant operators and other key individuals with modern process optimisation tools, regardless of their location or the task being performed, and in real time.”

InTouch Access Anywhere software is the newest capability in the Invensys suite of mobility solutions, which now includes workflow, reporting, analytics, visualisation, maintenance management, operator training, data gathering and procedure management. 

Source:-
http://www.controlengeurope.com/article/60656/Software-solution-access-to-any-HMI--anywhere-at-any-time.aspx

Do You Know ? Next generation of Genesis HMI/SCADA Software Introduced

ICONICS, a provider of web-enabled, OPC-based, HMI/SCADA visualisation and manufacturing intelligence software for Microsoft Windows operating systems, has released v10.8 of its GENESIS64 HMI/SCADA software suite.

New enhancements include ReportWorX Express, a Cloud connector for Windows Azure, Distributed AssetWorX scalable architecture, and a new ScheduleWorX64. ICONICS has also achieved OPC Foundation certification and VMware Ready status.

ICONICS' GENESIS64 has been designed from the ground up for 64-bit operation, maximising the advantages of Intel 64-bit processors.

ICONICS President and CEO, Russ Agrusa, introduced the new 10.8 version of GENESIS64 as having “hundreds of time-saving and important new features that help transform Big Data into visual intelligence. In keeping with our technological leadership in real-time solutions for energy, industrial and building automation, GENESIS64 benefits all industries in its energy and time savings and has now also achieved the highest level of BACnet and OPC Foundation certification."

Based on its partnership with Microsoft, ICONICS has taken advantage of the Microsoft technology platform, including Microsoft .NET, SQL Server, SharePoint, Windows Server 2012 and Windows 8. Microsoft Bing, Google and Esri geospatial maps can be combined with real-time information, creating GEO SCADA solutions. Users can access information from anywhere, anytime and on any platform using the WebHMI browser-based solution and HTML5 technology.

Source:-http://www.controlengeurope.com/article/62231/Next-generation-of-Genesis-HMI-SCADA-software-introduced.aspx

DCS and PLC Scada Process in Real Industries

It may surprise you to know that PLC, HMI and SCADA implementations today are consistently proving more expensive than DCS for the same process or batch application. CEE finds out more.

Traditionally, DCSs were large, expensive and very complex systems that were considered as a control solution for the continuous or batch process industries. In large systems this is, in principle, still true today, with engineers usually opting for PLCs and HMIs or SCADA for smaller applications, in order to keep costs down.

So what has changed? Integrating independent PLCs, the required operator interface and supervisory functionality, takes a lot of time and effort. The focus is on making the disparate technology work together, rather than improving operations, reducing costs, or improving the quality or profitability of a plant.

Yet a PLC/ SCADA system may have all or part of the following list of independent and manually coordinated databases.

* Each controller and its associated I/O
* Alarm management
* Batch/recipe and PLI
* Redundancy at all levels
* Historian
* Asset optimisation
* Fieldbus device management

Each of these databases must be manually synchronised for the whole system to function correctly. That is fine immediately after initial system development. However, it becomes an unnecessary complication when changes are being implemented in on-going system tuning and further changes made as a result of continuous improvement programmes.

Making changes 

Every time a change is made in one database, the others usually need to be updated to reflect that change. For example, when an I/O point and some control logic are added there may be a need to change or add a SCADA element, the historian and the alarm database. This will require the plant engineer to make these changes in each of these databases, not just one – and get it right.

In another scenario, a change may be made in an alarm setting in a control loop. In a PLC implementation there is no automatic connection between the PLC and the SCADA/ HMI. This can become a problem during start up of a new application, where alarm limits are being constantly tweaked in the controller to work out the process, while trying to keep the alarm management and HMI applications up to date with the changes and also being useful to the operator.

Today’s DCS, which are also sometimes called ‘process control systems,’ are developed to allow a plant to quickly implement the entire system by integrating all of these databases into one. This single database is designed, configured and operated from the same application.

This can bring dramatic cost reductions when using DCS technology, when compared with PLC/ SCADA (or HMI): at least in the cost of engineering. DCS hardware has always been considered as being large and expensive. This is certainly no longer the case today. DCS hardware even looks like a PLC, and the software runs on the same specification PC, with the same networking – so why the extra cost? Is it the software? Although it is true to say that DCS software can be made to be expensive – but only by buying all of the many advanced functional features that are available – and often that you would not use or need!

Where smaller and medium systems are concerned, then price comparisons on acquiring hardware and software are comparable to PLC/SCADA. So, the real difference is actually in the costs associated with the workflow – which is enhanced and simplified by the single database at the heart of a DCS.

At this point one may think that DCS functionality is biased towards control loops, whilst PLCs are biased towards discrete sequential applications and that this, therefore, is not a like-for-like comparison. This is another myth. A DCS today is just as functionally and cost-effective as a PLC in fast logic sequential tasks.

Demonstrating advantages
ABB was able to offer CEE some examples to demonstrate how savings can be realised by using today’s DCS workflow, when compared with a PLC/HMI (SCADA) system. The company has compiled the information from decades of implementation expertise of ABB engineers, end-user control engineers, consultants and multiple systems integrators who actively implement both types of control solutions based on application requirement and user preferences. It is easier to structure this explanation along a generic project development sequence of tasks.

Step 1: System design
PLC/ SCADA control engineers must map out system integration between HMI, alarming, controller communications and multiple controllers for every new project. Control addresses (tags) must be manually mapped in engineering documents to the rest of the system. This manual process is time consuming and error prone. Engineers also have to learn multiple software tools, which can often take weeks of time.

DCS approach: As control logic is designed, alarming, HMI and system communications are automatically configured. One software configuration tool is used to set up one database used by all system components. As the control engineer designs the control logic, the rest of the system falls into place. The simplicity of this approach allows engineers to understand this environment in a matter of a few days. Potential savings of 15 - 25% depending on how much HMI and alarming is being designed into the system.

Step 2: Programming
PLC/ SCADA control logic, alarming, system communications and HMI are programmed independently. Control engineers are responsible for the integration/ linking of multiple databases to create the system. Items to be manually duplicated in every element of the system include: scalability data, alarm levels, and Tag locations (addresses). Only basic control is available. Extensions in functionality need to be created on a per application basis (e.g. feed forward, tracking, self-tuning, alarming). This approach leads to non-standard applications, which are tedious to operate and maintain. Redundancy is rarely used with PLCs. One reason is the difficulty in setting it up and managing meaningful redundancy for the application.

The DCS way: When control logic is developed, HMI faceplates, alarms and system communications are automatically configured. Faceplates automatically appear using the same alarm levels and scalability set up in the control logic. These critical data elements are only set up once in the system. This is analogous to having your calendars on your desktop and phone automatically sync vs. having to retype every appointment in both devices. People who try to keep two calendars in sync manually find it takes twice the time and the calendars are rarely ever in sync. Redundancy is set up in software quickly and easily, nearly with a click of a button. Potential savings of 15 - 45%

Step 3: Commissioning and start-up
Testing a PLC/ HMI system is normally conducted on the job site after all of the wiring is completed and the production manager is asking “why is the system not running yet?” Off line simulation is possible, but this takes an extensive effort of programming to write code which will simulates the application you are controlling. Owing to the high cost and complex programming, this is rarely done.

DCS benefits: Process control systems come with the ability to automatically simulate the process based on the logic, HMI and alarms that are going to be used by the operator at the plant.

This saves significant time on-site since the programming has already been tested before the wiring is begun. Potential savings are 10 - 20% depending on the complexity of the start up and commissioning.


Step 4: Troubleshooting
PLC/ SCADA offers powerful troubleshooting tools for use if the controls engineer programs them into the system. For example, if an input or output is connected to the system, the control logic will be programmed into utilising the control point. But when this is updated, did the data get linked to the desperate HMI? Have alarms been set up to alert operators of problems? Are these points being communicated to the other controllers? Programming logic is rarely exposed to the operator since it is in a different software tool and not intuitive for an operator to understand.

The DCS way: All information is automatically available to the operator based on the logic being executed in the controllers. This greatly reduces the time it takes to identify the issues and get your facility up and running again. The operator also has access to view the graphical function blocks as they run to see what is working and not (read only). Root Cause Analysis is standard. Field device diagnostics (HART and fieldbus) are available from the operator console. Potential savings of 10 - 40% (This varies greatly based on the time spent developing HMI and alarming, and keeping the system up to date.)

Step 5: The ability to change to meet process requirements
PLC/ SCADA: Changing the control logic to meet new application requirements is relatively easy. The challenge comes with additional requirements to integrate the new functionality to the operator stations. Also, documentation should be developed for every change. This does not happen as frequently as it should. If you were to change an input point to a new address or tag, that change must be manually propagated throughout the system.

The DCS way: Adding or changing logic in the system is also easy. In many cases even easier to change logic with built in and custom libraries of code. When changes are made, the data entered into the control logic is automatically propagated to all aspects of the system. This means far less errors and the system has been changed with just a single change in the control logic.
Potential savings of 20 - 25% on changes is not uncommon. This directly affects continuous improvement programmes.

Step 6: Operator training
With PLC/ SCADA operator training is the responsibility of the developer of the application. There is no operator training from the vendor since every faceplate, HMI screen or alarm management function can be set up differently from the next. Even within a single application, operators could see different graphics for different areas of the application they are monitoring.

The DCS way: Training for operators is available from the process control vendor. This is owing to the standardised way that information is presented to operators. This can significantly reduce operator training costs and quality due to the common and expected operator interface on any application, no matter who implements the system. This can commonly save 10 -15 percent in training costs which can be magnified with the consistency found across operators and operator stations.

Step 7: System documentation
PLC/SCADA documentation is based on each part of the overall system. As each element is changed, documentation must be created to keep each document up to date. Again, this rarely happens, causing many issues with future changes and troubleshooting.

The DCS way: As the control logic is changed, documentation for all aspects of the system is automatically created. This can save 30 - 50 percent depending on the nature of the system being put in place. These savings will directly minimise downtime recovery.

Time saving estimates are based on typical costs associated with a system using ~500 I/O, Two controllers, one workstation and 25 PID Loops.

Conclusion
If you are using, or planning to use, PLCs and HMI/ SCADA to control your process or batch applications, your application could be a candidate for the use of a DCS solution to help reduce costs and gain better control. The developer can concentrate on adding functionality that will provide more benefits, reducing the return on investment payback period and enhancing the system’s contribution for years to come. The divide between DCS and PLC/ SCADA approaches is wide, even though some commonality at the hardware level can be observed; the single database is at the heart of the DCS benefit and is a feature that holds its value throughout its life. The new economic proposal may be a DCS, says ABB.

Source:-http://www.controlengeurope.com/article/40827/DCS-and-PLC-SCADA-a-comparison-in-use.aspx

Using a Framework for a PLC Project | Sofcontraining.com

Why should I use a framework for my control and automation projects?

Before we start looking at the reasons for using a common framework, I’ll start by explaining what it is I mean by it.

Simply, a framework is a piece of software or a library that provides generic or common predefined functionality. The framework is reusable and can be extended by a user in order to provide a bespoke / custom solution.

Advantages

Efficiency and Cost

The framework will typically provide up to around 50% of the application developments features thus resulting in a huge saving in time. In addition, the use of predefined, pre-tested code will dramatically reduce development and coding time.

Improved documentation and customer support.

Once again, the use of the software framework and predefined code will speed up the production of manuals as much of the content relating to common automation tasks can be written once and used time and time again.

Quality

The use of predefined , pre-tested code dramatically improves the quality of the software product, ensuring consistency and fewer programming errors.

I’m going suggest two frameworks.

The first shall cover PLC and the second HMI.

PLC Framework

The framework should be split into program areas covering,

• Version
• Constants
• Global Code and Startup
• Input Mapping
• Safety Interface
• Interlocks
• Recipe Handling, Engineering SP
• Data mapped from the HMI or SCADA
• Data mapped to the HMI or SCADA
• Device Handlers
• Alarm Handling
• Output Mapping
• Communications setup
• Statistics
• Any program sequences.

The picture below demonstrates this. The example shown was created using Mitsubishi GXWorks 2.

Note: The program naming does not dictate program flow as this can be set elsewhere.

 

HMI Framework

The HMI framework should incorporate the following generic features:

• Security – Predefined levels of access
• Multi Language Support
• Alarm Handling
• Logging
• Trending
• Common Icons, Pushbuttons and displays

Enhanced motion control, safety and performance

Kollmorgen Automation Suite version 2.8 delivers new functions

With an embedded EtherCAT configuration tool, version 2.8 of the Kollmorgen Automation Suite (KAS) software accelerates the development of modular machine architectures.

The new release of the integrated development environment now enables users to build complete EtherCAT systems and configure all peripheral components, including HMI, I/O, controllers and motors, with a single tool. Along with ergonomic improvements, the resulting simplification makes life easier for system developers and boosts engineering efficiency.

One of the key innovations in Kollmorgen Automation Suite 2.8 is the embedded EtherCAT configuration tool, which makes it easy to integrate EtherCAT components (including those from other manufacturers) into the application. With this open architecture, Kollmorgen reduces development time for modular, multi-purpose machine architectures. Another clear advantage of this approach is that direct communication with Kollmorgen AKD PDMM servo controllers from PC-based applications is now possible using UDP and HTTP protocols.

EtherCAT, safety and visualisation: the new software release 2.8 of Kollmorgen Automation Suite (KAS) offers a variety of new functions for faster machine development.

Convenience is also enhanced by the incorporation of safety technology in the engineering process. For this purpose, the release integrates Kollmorgen's new KSM series of safety modules. These compact devices combine Safe PLC with Safe I/O in a single package and provide TÜV-certified functions up to performance level e of ISO 13849 or SIL 3 of IEC 61508.

Version 2.8 of the Kollmorgen Automation Suite also features performance enhancements for servo amplifiers. The user-programmable controllers in the AKD PDMM family form the core of KAS thanks to the "IPC inside" philosophy. Future devices feature twice as much capacity at rated currents up to 24 A and faster processors. Along with general performance enhancements, application options are expanded by the inclusion of new motion control functions.

2014 Summer Training with PLC Scada HMI Sofcon

This course is perfect for students looking for a PLC or SCADA training course. At the end of this course you will have an understanding of:

• Fundamentals of SCADA systems
• Essentials of SCADA software configuration
• Tricks and tips in installation of SCADA systems
• Essentials of telecommunications links
• Use of Industrial Ethernet in SCADA systems
• OPC and SCADA systems
• SCADA network security issues
• How to troubleshoot SCADA systems
• Specifying PLC hardware and installation criteria
• Describe PLC software structure
• How to write medium level PLC programs (using ladderlogic)
• Troubleshooting a typical PLC system
• Specifying PLC systems 

This extensive course covers the essentials of SCADA and PLC frameworks, which are regularly utilized within close relationship with one another. A choice of careful investigations are utilized to delineate the key ideas with illustrations of true meeting expectations SCADA and PLC frameworks in the water, electrical and preparing commercial enterprises.

This course will be a great chance to system with your associates, and in addition to increase noteworthy new data and strategies for your next SCADA/ PLC venture. Despite the fact that the stress of the course will be on reasonable industry points highlighting late improvements, utilizing detailed analyses, the most recent application of SCADA, PLC advances and basics will be secured.

The inexorable inquiry is which PLC is continuously utilized. We show this course concentrating on the nonexclusive PLC and utilize the open programming IEC 61131-3 standard. For particular illustrations we utilize the Allen Bradley range, yet are not offering Allen Bradley or so far as that is concerned whatever other PLC!

This course is intended to profit you with functional exceptional data on the application of PLC frameworks to the automation and methodology control commercial ventures. It is suitable for individuals who have almost no introduction to Plcs, however hope to wind up included in some or all parts of PLC installation. It means to give pragmatic counsel from masters in the field, to help you to effectively arrange, program and introduce a PLC with a shorter learning bend and more certainty. While the course is perfect for electrical technicians, experts and engineers who are new to Plcs, a great part of the material secured will be of worth to the individuals who as of now have some essential aptitudes, yet require a more extensive point of view for bigger and additionally difficult undertakings ahead. The data secured advances from the fundamentals to test even the most accomplished architect in the industry today.

PLC Scada Training | Summer Training | Sofcon

Scantime give PLC & SCADA Programming Training Courses for anybody overall who oblige industry perceived PLC & SCADA programming abilities. Understand your potential with Scantime Online and Training Center courses

We are System Integrators giving Automation Consultancy, Design and Troubleshooting administrations for the Oil & Gas, Aerospace, Automotive, Food & Drink and different commercial enterprises.

Building Services - Automation & Control Solutions

Spend significant time in PLC & HMI/ SCADA system Design and Development for Data Monitoring & Analysis, Fluid Pressure Control up to 80,000 PSI, Downtime Monitoring, Distributed Control Systems, utilizing an extensive variety of supplies, including Siemens, Allen Bradley, Mitsubishi, Omron, Schneider Plcs and Motion Control for rapid production. Programming to IEC 61131-3.

Advancement is attempted from idea and FDS to last on location Installation and Commissioning, including customer architect preparing and after deals help -

In the event that you might want to talk about any specific task with a part of our specialized staff,

if its not too much trouble

Preparing - PLC & SCADA Programming Courses

Accessible to everybody around the world. Pick up expert PLC programming building abilities from our organization who work full time in industry. Picking up expert aptitudes will help you to enhance  your vocation and future prospects.

We give industry sanction and guaranteed preparing worldwide for people and organization

engineers, and all Official Scantime Training  courses are conveyed with Industrial Certificates for Plcs programming furthermore SCADA designing outline. Programming courses are accessible Online, at our Training Center and can likewise be conveyed Onsite at your organization.

Online PLC & SCADA Training Courses:

Our preparation focus PLC & SCADA programming courses are presently accessible on the web.

Study from home or office and increase perceived proficient confirmation at your pace.

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Figure out how to program Siemens, Mitsubishi, Omron, Allen Bradley and different Plcs from

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Preparing Center & Onsite PLC & SCADA Training:

Experience an active PLC instructional class at our preparation focus conveyed by one of our industry accomplished engineers with up to 35 Years in Industrial PLC/ SCADA methodology control.