Sunday, 24 May 2015

BACnet Veins of Building Automation

Building Automation Training Institute

The simple mathematical word integration makes things easier to understand that we can add several domains in one system.  But picture becomes blurring when we see this to implement to our daily building requirements together. In building automation main domain for working is Climate control (temperature and humidity), safety, public addressing, and security.

Individually we have many systems to perform these tasks but these systems shrinks when intelligent and efficient buildings are in talk. BACnet is a communication protocol for building automation and control network. The BACnet protocol provides mechanisms for computerized building automation devices to exchange information, regardless of the particular building service they perform. Proper communication between building automation devices is critical for maximizing building energy efficiency, indoor air quality, and other aspects of "green" buildings.

 In green buildings generally concept come from its individual domains (HVAC, FireDetection Alarm and Suppression, CCTV and Public addressing systems) and its efficient use.

·         Heating Ventilation and Air Conditioning system has work to maintain our ambient temperature at desired value, with certain level of humidity and freshness or air. It includes automatic control of HVAC system i.e. temperature of different   part of Air Conditioning unit and automatic Ventilation. It includes both the exchange of air to the outside as well as circulation of air within the building. It is one of the most important factors for maintaining acceptable indoor air quality in buildings.

·         Fire is most destructive disaster for life and resources. That is why we use fire detection alarm and suppression system to make our building safer. Detection of fire, Alarm and Suppression should be Automatic so controlling is required.

·         Access Control Authorizes people to operate or access to given area or process, so that this secures our place from unauthorized entry. Access control system can be programmed as per requirement .Access control system can be used in parking area, attendance management, intrusion detection, and to operate automatic doors.

·         CCTV is now a days most common thing for surveillance and its data is useful for many ways .But most of the people are not aware of its wide application. CCTV can be used as face recognition, traffic controller, counter, and high speed detection.

Above domains are key to automatic building but until we do not integrate these systems it would not be efficient and cost effective. For communicating on same platform we use BACnet it integrate these domain and makes things easier.

In building automation many companies have stepped in and there is wide scope for engineers.
Honeywell, Johnson and controls,Schneider, carriermidea ,Bajaj Electricals and many more are looking into this systems .Many projects in India is going on by Johnson and Control, Honeywell  and Bajaj As well.





Tuesday, 5 May 2015

The Connected Smart Bottle Is Calling

Thinfilm and Diageo plc partner on a prototype that uses printed sensor tags and near field communication to deliver personalized messages from a bottle on the store shelf to consumers’ smartphones.


A guy walks into a liquor store, heads to the whiskey aisle and stops for a second to contemplate which of the many brands on the shelf he will buy. Suddenly, his smartphone pings him with a message: “Johnnie Walker Blue Label has layers of big flavor and a deep richness that has a smoky smooth finish.”

He nods, puts his phone back in his pocket, and grabs a Blue Label bottle. At home, as he uncaps the beverage, his smartphone alerts him of another new message. “Start by serving the Blue Label neat in a tumbler, nosing the whiskey carefully.”

He slowly pours his first glass, as instructed, and then reads the next message on his phone. “Take a sip of iced water before your first sip of whiskey to make sure the palate is cooled and refreshed.” Ah, good advice, he thinks as he heads to the kitchen.

These mysterious messages may seem a bit eerie as they pop up at just the right moment, giving the impression that this guy is under surveillance. But, he’s not being watched, he’s being sensed—by a smart bottle.


These mysterious messages may seem a bit eerie as they pop up at just the right moment, giving the impression that this guy is under surveillance. But, he’s not being watched, he’s being sensed—by a smart bottle.

Welcome to the world of omni-channel marketing where manufacturers can engage directly with a consumer regardless of where they are (online or in the physical store) or what communication method they are using (printed catalog, website, mobile app, or social media). In this scenario, Diageo plc, a global beverage provider with a large collection of alcohol brands-- including Crown Royal, Captain Morgan, Ketel One, and Johnnie Walker-- is taking multi-channel marketing to the next level with the addition of the Blue Label smart bottle.

Together with Thin Film Electronics ASA, a supplier of printed electronics and smart systems, the company is testing the connected “smart bottle” designed to enhance the customer experience through real-time interaction. Thinfilm’s new OpenSense technology includes near field communication (NFC) which enables smartphones and tablets to communicate with other close-range devices containing a NFC tag.

The OpenSense tag covers the seal of the bottle’s cap and carries digital information that can be accessed by NFC smartphones. OpenSense is designed with dynamic detection of a product’s “sealed” and “open” states that supports a variety of real-time marketing, product authentication, and security applications. The manufacturer, for example, can push targeted messages, such as promotional offers, cocktail recipes, and exclusive content, to the consumer at just the right time.

Thinfilm’s printed electronics, which support memory, sensing, and logic, is a low-cost and highly scalable alternative to traditional silicon systems. (Technology Watch: Printed Electronics.) Couple the technology with NFC and the ability to sense different product states, and there are new opportunities for food and beverage, pharmaceutical, and healthcare industries to track product location, temperature, movement, moisture, and more. It can even help control inventory and identify if a product has been tampered with.

Unlike conventional static QR codes that are often difficult to read, easy to copy, and do not support sensor integration, OpenSense tags can ensure product authenticity as they are permanently encoded at the point of manufacture and cannot be copied or electrically modified, Thinfilm officials say.

In addition, while RFID tags are the common way to track perishable products during distribution, they are attached to a shipping crate. Smart labels with printed electronics can be attached to individual items. This opens the door to help manufacturers easily—and affordably—adopt wireless sensing capabilities throughout the supply chain as well as build out an Internet of Things (IoT) network that includes smart bottles.

“The Internet of Things is huge for us,” says Jennifer Ernst, Thinfilm’s Chief Strategy Officer. In the Blue Label set up a simple sensor tells the NFC device if the seal is broken. “But we are also beginning to introduce temperature sensors for use as industrial process monitors.”

The affordability of printed electronics in high volume quantities is what will drive adoption in the future. “For a few dimes you can add intelligence to products,” Ernst says.

The high-quality consumer experience, however, is what will enable manufacturers to innovate outside of the plant floor.

Diageo will unveil its smart bottle prototype this week at the Mobile World Congress in Barcelona, Spain. “Our collaboration with Thinfilm allows us to explore all the amazing new possibilities enabled by smart bottles for consumers, retailers, and our own business,” says Helen Michels, Diageo’s Global Innovation Director. “Mobile technology is changing the way we live, and as a consumer brands company, we want to embrace its power to deliver amazing new consumer experiences in the future.”



Source:- http://www.automationworld.com/connected-smart-bottle-calling

Wednesday, 22 April 2015

How Building Energy Management Can Help Your Factory

Building automation advancements have provided facility managers greater visibility of actionable energy data. With robust plant networks and smarter devices, can manufacturers learn lessons and apply better asset management practices?



Finding and leveraging energy savings in commercial buildings has accelerated over the past 10-15 years largely because of modern building automation systems (BAS) and the BACnet standard development in the U.S. and globally. Direct digital control (DDC) has kicked pneumatic control systems to the curb, and energy data is now readily presented to facility managers, bringing noticeable energy savings for larger companies.
Modern BAS and energy management systems (EMS), along with the proliferation of room and zone monitoring via sensors in modern or retrofitted buildings, present facility managers with opportunities most did not have 20 years ago—namely, through actionable data.

However, best-in-class manufacturers are already roadmapping plant strategies that include much more data from the shop floor. So when does energy management become part of the discussion?Is there an opportunity for manufacturers to leverage the BAS and EMS strategies used in the building space? Compared with building automation, it’s fair to say manufacturers are presented with different types of energy saving challenges because of unique and varied industry applications and manufacturing footprints. For years, electricity costs have been viewed as a fixed cost in the operations world, with building management usually not in the discussion.
Where to start?
“We recommend the top-down approach over a period of time, where we tell manufacturers and building managers to start with your main building profile,” says Arun Sinha, director of business development at Opto 22. “Monitor, learn and find anomalies in energy footprint.”
Building control is quite uniform. BAS resides as software on an operator workstation or is available as a web page, while various controller types manage equipment and portions of the network. Meanwhile, zone sensors provide input data to the controllers. All of this is done through a BACnet communication protocol, ANSI certified, or on a LonWorks network. Monitoring at the subpanel level allows for motion sensing and automated lighting schedules to conserve energy when rooms are empty.
However, the inherent variety of manufacturing applications and control architectures does not allow for a simple plug-and-play handbook for industrial energy monitoring. For example, warehouses or refrigerated storage facilities may lean on a traditional automation system to control compressors and chillers for heating, ventilating and air conditioning (HVAC) and production equipment. These applications include control and monitoring.
“If we’re in the boiler room and there’s 10 energy loads right in the same room with chillers, boilers, pump and circulation pumps, then I’d say it’s better to use a programmable automation controller (PAC) system,” Sinha says.
Energy, a fixed cost?
A particularly challenging aspect of industrial energy management is ownership by operations. Energy management or the cost of electricity has mostly been viewed as a fixed cost, with plant operations focused on meeting output and continuous improvement.
“Historically, production people really haven’t had the resources to look at energy monitoring because 15 different machines on the plant floor have different load requirements and demands, and it was just overwhelming to try to have a production manager really think about energy management," says Doug Ferguson, vice president of Americas Operations Services for Phoenix Contact.
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However, that’s changing as more equipment data moves from the plant floor to third-party energy management software solutions.
“The current trend we’re seeing is a lot of the building automation companies, hardware vendors and the energy management application providers for standard commercial buildings move into the manufacturing space,” says Erik Dellinger, product manager for Internet of Things solutions at Kepware Technologies. The systems they provide often export energy data via XML from conveyor motors via OPC communication drivers into the cloud or energy dashboards for real-time visibility.
Seeing energy data is not a problem. “There’s a lot of options now,” Sinha says. “A lot of companies have emerged offering cloud-based visualization systems that are very easy to use.”
There are numerous third-party energy integrators with dashboard solutions, such as Pulse Energy and eSight Energy, but automation suppliers are in this space too. Siemens andSchneider Electric, for example, both offer cloudbased software with vertical integration of building and automation systems to manufacturers, aiding in business intelligence strategies for larger organizations.
Studying energy loads
One company taking a holistic approach to energy use in manufacturing, while updating its building controls systems with DDC, is automotive engine manufacturer Cummins. The company has been working with its local utility, Duke Energy, to better see the energy loads at its Rocky Mount, N.C., manufacturing facility.
The 1.2 million square foot facility makes about 150,000 engines a year, and compressed air—used to blow off chips from machining the engine blocks and heads—is a major energy factor. Some characterize compressed air as the fourth utility for industrial manufacturers, after electricity, gas and water. For Cummins, there’s no question about its importance.
At the Rocky Mount plant, Duke Energy helped design an energy management system that ties into the company’s existing building management system, where it looks at the cubic feet per minute (CFM) of compressed air used per engine line. The company has a dedicated staff watching air compressors in real time and compiling data logs of energy loads. About 12 main compressed air drops within the plant are metered.
“Rocky Mount is compressing about 20,000 CFM. It is the largest energy-consuming system within our plant,” says Mark VanDam, facilities engineer at Cummins’ Rocky Mount plant. “It accounts for about 25 percent of the electrical energy we use on a daily basis to compress air.”
At the Rocky Mount plant, they’re trying to pinpoint leaks or other equipment problems that could drive compressed air use up, VanDam says. “That data is logged every 15 minutes and then it logs the average every 15 minutes for us to see.”
Cummins is developing its own energy dashboard that drills down to plant floor lines to provide data for more Six Sigma improvements. “We’ll be able to give each individual business unit within the plant a CFM per part that they produce—basically, a measure so they can understand whether their usage is going up or down per part, and drive our energy cost down,” VanDam says. “We’re up to six different Six Sigma projects now, and there is a total savings of about $135,000 annually based on straight energy savings, including electrical energy as well as compressed air savings.”
Rocky Mount isn’t the only Cummins plant moving toward better energy visualization. The engine plant in Jamestown, N.Y., is at the end of a five-year plan to retrofit its entire building management system that will support a BACnet open architecture. Similar to Rocky Mount, compressed air use makes up about 20 percent of the plant’s electricity use.
“At Jamestown, there are three shift operations, but second shift is a maintenance shift. So one of the things we look at is to make sure that our load drops proportionally when production goes home for the second shift,” says David Burlee, plant engineering leader at the Jamestown facility. “With our metering program, we’re able to see a lot of things that we didn’t know existed around energy waste, particularly if the lines or areas are not working.”
Asset management
Data coming from the shop floor can lead to energy savings, certainly, but it can also provide equipment insights or better asset management practices. One opportunity comes from looking at power quality on the factory floor. Poor power quality management can increase power usage and damage devices, such as electrical motors, computers and industrial control equipment.
Three-phase power modules are a common solution and they monitor energy behavior for motors, production lines and motor control centers while transmitting data using industrial protocol standards such as Profibus, EtherNet/IP, CANopen and others.
The modules measure active, reactive and apparent power, total power consumption, power factors and phase shift angles, to name a few.
More importantly, energy data is just a dashboard away. “Our three-phase power measurement modules have an energy management dashboard that provides the engineer or technician with a quick view of the energy use of the system,” says Charlie Norz product manager at Wago.
Energy use at the device level is providing more real-time energy data, but networking solutions also allow plant managers to view bigger plant energy consumption patterns. For example, recent energy profile developments with Profinet and EtherNet/IP provide manufacturers with easier access to a bigger systems view.
The ProfiEnergy communication profile can transmit power demand information back to the controller to support more sophisticated energy savings strategies, including peak load management. Specific examples of peak load management include energy savings during brief and longer production pauses, and unscheduled downtime.
A white paper from ODVA called “CIP Energy Profiles” discusses the importance of a bigger view—a top-down approach—afforded by industrial networks. “Some devices may report very accurate energy data, but high accuracy is not really needed at the device level. There will usually be revenue-accurate meters upstream in the energy distribution network,” the paper notes. “This more complete energy picture provides valuable information on the energy behavior of a machine, zone, line or area, allowing users to make decisions that result in reduced energy usage and cost.”

Source:-http://www.automationworld.com/energy-management/how-building-energy-management-can-help-your-factory

Saturday, 24 January 2015

Turck: Compact Temperature Transmitters | Sensors

The TTM sensor line has been expanded to include dynamic programmability and special features via IO-Link.


These fully programmable sensors allow a user to program the temperature range required, rather 
than be constrained to specific ranges, for more specific temperature control. This new functionality also allows the sensor to be programmed and used as a temperature switch. 

The line includes several models, including remote-mount transmitters, transmitters with integral Class A RTDs, as well as all stainless steel configurations to meet different measurement, space and material needs. To eliminate problems associated with conventional transmitter assemblies, all are factory assembled with an overmolded or welded housing, and come ready for installation. 

The overmolded remote transmitters are suitable for applications with limited clearance because they ensure electronics stay out of harm's way. Remote versions can also be mounted separately from the RTD, for improved temperature readings by isolating the transmitter circuitry from the temperature being measured. 

The stainless version offers a more robust package without an overmolded housing suitable for food and beverage applications. The sensors feature a 4-20 mA transmitter. They are pre-scaled 0 to 150 ÂșC but can easily to programmed to specific temperatures within those ranges via IO-Link.

Thursday, 22 January 2015

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

Market for IAE Expected to Show Strong Growth

The market for industrial automation equipment is expected to show strong growth in 2014, with global revenue reaching $185.3 billion. 

IAE Course at Sofcon with 100% Placement Assistance



So says a recent report from information and analytics source IHS Technology.

The $185.3 billion represents a 7% increase over the $173 billion racked up in 2013. This year marks the return of more vigorous activity after the industry managed only middling revenue increases of 1.2% in 2012 and 3.4% in 2013. Prior to those two years, expansion had been in the double digits in a heartening show of force after the recession. Healthy expansion is set to continue after this year, says IHS, with industry revenue forecast to hit $225 billion by 2017.

Motors and motor controls will be the largest segment in 2014, accounting for 40% of total industrial automation equipment revenue. Automation equipment is next with 31%, followed by power-transmission equipment with 29%.

The automation equipment sector will be affected substantially this year by technological innovation, says IHS. Specifically, demand for more communication and more sophisticated machine control will drive technical advancements, especially in the discrete controller markets. Controllers overall are at the hightest risk of cybersecurity attacks, and this will prompt product development seeking solutions to forestall or prevent unauthorized incursions altogether.

Three distinct market developments will help the industrial automation equipment market continue to grow in the future. First, manufacturing will be transformed from a productivity-driven process to one that is controlled by digital information; IHS refers to this trend as "convergence." Second, 3-D printing could also represent another turning point, offering possibilities likely to alter the manufacturing landscape in sweeping ways. And third, the combination of an aging workforce of skilled engineers along with low rates of replacement will pose a significant concern for manufacturers, particularly in the West. Increasing levels of automation and semiautonomous robots will ultimately drive a transition to more and more automation.