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[I366]Integrated Safety Management System

by Samuel P. Whittle, Sam

For those of you who have been entrusted with the task of selecting a safety instrumented system for use in your plant, often run into a perplexing question. Should I go for an integrated Safety Instrumented System, which will be totally different from my Distributed Control system (or DCS for short)? Or should I select one of the newer “integrated systems”, that comprise of both the Distributed Control System and a Safety Instrumented System in one package?

A Safety Instrumented System (or SIS) is a special kind of control system that is used for the safety critical parts of process plants, turbo machinery, boilers and other machinery or equipment that has to be controlled with a very high degree of reliability in order to run it safely, as well as bring it to a safe state if something goes wrong. Emergency Shutdown Systems (ESD for short), can be considered a subset of the SIS category of control systems.

On the other hand DCS (Distributed Control Systems) are those control systems that are used for normal control and monitoring operations of process plants, oil refineries, oil & gas production platforms, power plants and so on. The DCS is the main system that measures, monitors and controls various process parameters like flow, temperature, pressure and so on. In standards related literature, this system is also referred to as the BPCS (short for Basic Process Control System).

In the view of the standards bodies (like IEC and ISA), these two systems have to be completely separate, as these safety instrumented systems have to be dedicated to controlling only the safety critical parts of the plant .The ordinary DCS cannot be said to be robust, fail-safe and sure to operate the safety critical instruments at all times. This distinction between the DCS and SIS, led to separate markets for both types of systems with separate suppliers for both, initially. Thus companies like Triconex, HIMA, Pilz and ICS Triplex were the traditional vendors of these Safety Instrumented Systems, whereas the BPCS or DCS market belonged to the companies like Emerson, ABB, Honeywell, Yokogawa and Invensys.

This obviously, meant that now, if a plant had instruments and controls that were designated as safety critical, it necessarily required a separate SIS; the DCS would not do at all because of what the standards state. Thus now, one control room had two control systems, completely different as chalk and cheese. The SIS had separate power supply (or a UPS), separate panels, monitoring stations, separate programming software and of course totally separate hardware from the DCS. The same Instrument engineer who maintained the instruments and controls of this process plant, now had to be adept at both systems simultaneously. Plant modifications and changes were a pain as any change had to be implemented in both systems, with a lot of testing to ensure that the original interlocks and loops worked as designed to.

Making the two systems communicate with each other, also proved not so simple, since even after DCS vendors had come out with open systems, the Safety Instrumented System vendors were reluctant to migrate to such systems, due to the extensive proof testing required to ensure that the “open” systems were bug free.

Hence, most instrument engineers in these situations started wishing for a new deal, whereby both the SIS and the DCS could talk to each other seamlessly (even while remaining separate to conform to the standards) . Also, what if they could share a common engineering /programming platform as well? That would be the icing on the cake!

The DCS vendors sensed this mood of the users and many of them came out with “integrated” DCS/SIS systems, where the DCS and SIS controllers are different, but part of the same overall system. Some recent examples are Emerson's Delta V with SIS and Siemens Safety Integrated system. These reportedly have become popular, due to the fact that most of these integrated systems have got third party (most commonly TUV) certificates for the SIS part, so users can have a worry free installation of these for safety critical applications. However, I have not yet seen any debate in the technical media, regarding this issue. Are these systems doing great, or are users now longing for the earlier separate DCS/SIS systems? I think we need some more time and more data, to arrive at any definitive conclusion. The advantages of an integrated DCS/SIS are obvious, as stated above. The disadvantages are somewhat less obvious. One disadvantage is that if the SIS portion is really easy to program, then there is a chance that unauthorized users (say a savvy DCS operator) might end up changing protected settings like interlock bypasses and setpoints, which is really dangerous. Plus the thought of having an SIS with a standard “open” OS like Windows, is rather uncomfortable, as the last thing one wants is a system freeze during an emergency.

Only time will tell, if the integrated SIS/DCS systems were a better choice than the stand-alone SIS, as then we would have enough data to have a balanced view.

Most likely, vehicle owners experience great distress with the loss of such an important possession. But according to a National Insurance Crime Bureau survey conducted in 2007, consumers are often unaware of the extent of the cost involved with a stolen vehicle. For starters, there's the insurance deductible and the further expense of replacing uninsured or underinsured vehicles. Additional costs can also come in the form of insurance premium increases, the cost of time spent dealing with police, vehicle rental costs and the cost of time off from work.

While it's imperative that car owners observe security measures to discourage theft, vehicle manufacturers possess a visionary understanding of automotive safety and security that reaches far beyond keyless entry and theft-deterrent systems. The concept of seamless blending of multiple products into one Integrated Safety System may further increase automotive security and a car owner's peace of mind.

Perhaps one of the most reliable theft protection systems available, Vehicle Immobilization Systems use an electronic code transmitted from a transponder (tag) located in the vehicle's ignition key to allow or disallow the engine management system to start the vehicle. To start a vehicle equipped with such a system, the driver places the tag near the ignition lock. Stored within the tag is a unique security code. The security code signal is sent via a transponder. When the correct code is received, the vehicle is allowed to start up.

In addition, the system can also allow personalized settings by an individual driver for memory seats, mirrors and keyless vehicle features.

Unlike Remote Keyless Entry (RKE) systems which operate with an ultra-high-frequency (UHF) carrier, immobilization systems operate at low frequency (125kHz). In most designs, the transponder is located within the head of the ignition key. However, vehicle manufacturers might also locate the tag in a key fob or card.

Another opportunity to increase automobile security and convenience may be the elimination of keys. Since the inception of the automobile, drivers have fumbled around in pockets and purses, trying to locate their keys - a potentially dangerous task in a dark parking lot. With RKE systems technology, the vehicle recognizes a driver's fob and unlocks the door. The system also allows drivers to start and drive cars without inserting a key. For additional security, proprietary communication algorithms help ensure that the authentication codes contained in the fob will not be intercepted.

One keyless vehicle system uses a start/stop button enabled with a fob. Another uses a fingerprint scanner that allows only people whose fingerprints are stored in the system to start the vehicle. Systems also offer seat and steering column position and radio station features. A passive entry back-up provides for low-battery conditions.

Another choice for automobile buyers, RKE systems may assist in reducing car theft. Among the vehicle features that can be controlled from a distance are central door locking/unlocking, a panic alarm, an anti-theft warning system, a courtesy light and seat/mirror adjustment. Additional conveniences include integration of keyless actuation and tire pressure monitor and a variety of button configurations for customization.

Drivers not only have to be concerned with theft of a vehicle but also theft of its content and components, such as wheels, radios, and personal possessions. Technology for an Ultrasonic Interior Protection system triggers an alarm when movement in the vehicle's interior is detected. Any changes in inclination (tilting) also trigger a warning. The microprocessor with digital signal processing requires low power consumption and is integrated into one control unit - making it an attractive safety feature for manufacturers and consumers.

Products and new automotive design features can help consumers protect their vehicles from theft and improve safety. From simple components to fully integrated systems, safety technology continues to be explored and innovated.

Article Source : Used Cars Sale By Owner

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Both Samuel P. Whittle & Mike Trudel are contributors for EditorialToday. The above articles have been edited for relevancy and timeliness. All write-ups, reviews, tips and guides published by EditorialToday.com and its partners or affiliates are for informational purposes only. They should not be used for any legal or any other type of advice. We do not endorse any author, contributor, writer or article posted by our team.

Samuel P. Whittle has sinced written about articles on various topics from Cars. Samuel P. Whittle is a technical expert working with Abhisam Software. His interests include and their design. He ha. Samuel P. Whittle's top article generates over 480 views. to your Favourites.

Mike Trudel has sinced written about articles on various topics from Cars, Shopping and Cars. Mike Trudel, Freelance Writer for Delphi. Delphi Corp. is a leading innovator of automobile safety equipment and technology. To learn about Delphi's safety advancements, visit