Author Archives: jasonsoh

LV Compartment for MV Switchgear

From |
Leave a reply

Box by box towards Smart Grid 1: LV Compartment for MV Switchgear

The gradual shift towards the much vaunted Smart Grid structure has been gathering steam in the last few years. While much of the excitement has been generated from the immense potential of what a fully completed Smart Grid system can bring (for example, higher reliability at reduced cost), Grid operators, independent power producers and their team of engineers are facing real difficulties in implementing such systems today. It is easy to talk about wanting to implement technologically advanced systems, but when it comes to actually executing the projects to implement such solutions, the complexity surrounding such implementations comes to the fore.

Much of this complexity arises because of the vast variety of applications within the industry. It is particularly difficult to find the right set of products that are suitable for the application, reliable, fast to set up and easy to manage. For example in Transmission and Distribution substations, there will minimally be systems for transformers, shunt reactors, switchboards, intrusion detection monitoring systems and each of these systems can consist of smaller sub systems. For example, in monitoring a switchboard, we can monitor downstream load current for energy balancing; micro current fluctuations for signs of partial discharge or even for predictive maintenance; door contact monitoring for physical security and the list goes on. Each of these systems will require the right set of products and will have to be linked in this web of madness. Imagine the chaos!

At Phoenix Contact, we recognise this difficulty. While we have many solutions for Energy Industry that we are always sharing with the various stakeholders, in this series of blog articles, we will be examining how we help to simplify the implementation of Smart Grid. We will do so by examining the building blocks of a system – the individual panels which form up a system; and we will do so box by box. This first article will be about LV Compartment of MV Switchgear and we will delve straight into the 3 problems switchgear builders and grid operators are facing!

Problem 1: How do I collect signals from my switchgears and transform it into IEC61850?

The completed substation topology will involve decentralised controls where IEDs are placed at high voltage equipment (on transformers and switchgears) itself. Even when it is not completed, communications from the bay control cabinets and protection devices to the substation control system are being converted to IEC61850 as IEC61850 has proved to be a superior communication protocol and standard to reduce downtime and increase reliability of the grid. Therefore, it is only a matter of time before all switchgears are converting signals from the circuit breakers and all other auxiliary signals into IEC61850 data. However, examining the LV compartment of switchgears today, the signals are still being passed out with many copper wires or connected to numerical relays. These present two clear drawbacks:

  1. There are a lot of copper wires going out of the panel or into numerical relays. The associated cost includes requiring marshalling or pilot cabinets and related components and regular maintenance to check if the connections are good. In addition, it is difficult to isolate where the fault is when there is a loss of signal. In the worst case scenario, there might even be accidental shorting resulting in severe downtime!
  2. Numerical relay and its I/O cards are expensive.

These result in higher initial cost and higher eventual maintenance cost with downtime not necessarily minimized, especially in the event of loss of signal.

Using of a Bus coupler capable of communicating via GOOSE and MMS will solve both of these problems. Using Phoenix Contact bus coupler as an example, the signals can be easily inserted and aggregated as IEC61850 data. It certainly reduces the number of cables leaving the cabinet and with the light indicators, you can see clearly which connections are good without requiring extra tests. It is also of lower cost compared to numerical relays’ IOs while communicating perfectly with them.

Problem 2: There are too many wires, how can we manage them better?

Being the founder of the original ceramic terminal block, it is already tempting to say that Phoenix Contact is the best at solving this! But in the last few years, we have developed more data connectors to put us in a better position to solve this for switchgear builders!

We have an extremely wide range of terminal blocks for every applications and needs. We have demonstrated to be able to meet each and every customers’ unique demands, be it requiring pluggable solutions, fastest connection technology, space saving, you name it, we’ve done it!

In this article, we would just like to highlight how a commonly used connector for switchgears has developed to adapt to Smart Grid. In the past, our Heavycon (heavy duty connector) was often sold to connect the LCC and Bay cabinets. This enabled quick connection on site.

However, these connectors are usually for loose copper wires only. Although you can strip an Ethernet/serial connector to use such connectors, these connectors does not cater very well for the shielding required for data connector. Therefore, Phoenix Contact has developed a modular connector, allowing you to use your data connectors directly! This modular connector even allows you to have connectors which allow for high power!

Problem 3: With more signals being collected, there will be more testing to be done. How can we ensure we are safely doing the testing all the time!

Every so often, testing needs to be done on the current transformers and voltage transformers regularly. For current transformer especially, if not done right, explosions can happen. Currently, the shorting and breaking of circuits are done manually by hand (yes you read that right) and as you can imagine, explosions lead to death.

To solve this, Phoenix Contact has developed our test disconnect system (FAME) where shorting is done automatically and it is fool-proof!

Instead of using terminal blocks that are switched manually, you can replace it entirely with FAME and from then on, every testing procedure will be done how it is meant to be done: SAFELY.

We have assembled this product into a demo box along with other products that Phoenix Contact offers for LV Compartment for MV Switchgear. If you will like to have a look at the demo box up close, do contact us at marketing@phoenixcontact.com.sg and we will get in touch!

Phoenix Contact IIOT – Overcoming Challenges Together

From |
Leave a reply

In the last few months, we have shared on how IIOT is useful for Power, Oil and Gas and Water Industry: In Power Industry, IIoT is intricately linked to the implementation of Smart Grid and IEC61850. In Oil and Gas where profitability is a bigger concern than ever, IIoT can help to reduce operations cost and minimizes downtime by allowing for predictive maintenance. For the water industry, we shared a possible scenario whereby IIoT is adopted by a facilities manager to understand about his systems.

If you have not already read those articles, click on the images below.

Products for IEC 61850

IIOT for Power

Reservoir

IIOT for Water

Process Plant

IIOT for Oil and Gas

How Phoenix Contact IIOT can help you get started

After engaging our customers in this topic, we have gained further insights and in this article, we will like to share some of these concerns and how we have helped customer overcome them.

  1. How do we know for sure that we will have returns of investment from implementing IIoT?
    There are indeed risks when it comes to Industrial Internet of Things, especially when data mining (finding patterns from database of data with no seemingly no use) is involved. Compared to traditional engineering methods where an engineer spot a problem or area of improvement and work to improve it, Big Data and IIoT is very much about not knowing problems, not knowing areas of improvements, yet hoping for some “miracle” to happen.Phoenix Contact reduces this risk in several ways:

    1. We provide free demos for customers to try.
    2. We provide data analytical and preparation services for customers to greatly enhance the odds of IIoT succeeding. This may seem easy, but data preparation and combination from disparate sources with different formats and different headers is really a tougher challenge than many expected. At least that’s what we gathered from feedbacks anyway
    3. We encourage our partners to start with a system that is well known to benefit from IIoT. For example: Energy Savings, Predictive Maintenance and we help our partners along the way to achieve it.
    1. How do I collect data from many sources and combine them together! It’s so complicated. How about reliability, cybersecurity, electrical surge ……
      Phoenix Contact addresses this by:

      1. Our Phoenix Contact IIOT Connectivity Solution is a portable, plug and play box including softwares that are able to ingest data of any format.
      2. PICS is fully customizable, which means that you can add Phoenix Contact reliable and extensive range of products to form a solution just right for you. This includes a wide range of data connectors including IP67 rated connectors for wet/dusty/oily industrial areas!
      3. Phoenix Contact will partner you along this journey and overcome these difficulties with you!
  1. IIoT is expensive!!Phoenix Contact products are not only inexpensive, but the ROI it provides is way more than the initial cost! And as explained in point 1, we even provide you with full working demo and data analysis so you don’t have to spend till you are convinced!

To help you get started, we have a Phoenix Contact IIOT Quick Start Guide. Get your copy today!

If you will like to consult with us with regards to implementing IIoT, leave us your contact at marketing@phoenixcontact.com.sg and we will get in touch with you shortly.

Fastest and easiest way to connect up for IIOT

From |
Leave a reply
Data is the new oil - Connect up for IIOT

Image by Gerd Leonhard (https://www.flickr.com/photos/gleonhard/)

Have you been hearing a lot about IIOT? Do you want to kick-start IIOT quickly and easily? What is the fastest and easiest way to connect up for IIOT?

If you want to find out more about Phoenix Contact IIOT Connectivity Solution, read on!

Phoenix Contact IIOT Connectivity Solution (PICS)

Like all revolutions, the excitement surrounding the fourth industrial revolution is increasing as the pace to create working cyber-physical systems to fully integrate big data into processes gathers steam. This is evident with more system providers emphasizing on providing a solution capable to gather and analyse big data to create actionable insights for their customers.

https://www.youtube.com/watch?v=HZ07iDk7-tc

How to connect up for IIOT

The first step to create such a system will be to get the IT backbone (Data servers, Software, Enterprise cybersecurity etc) running. Once this is set up, customers and system providers often face difficulty collecting data back into said systems safely and reliably. There will be a need to look for multiple hardware specialists to obtain the necessary hardware. To make sure that the hardware is reliable and safe, companies will usually have to look for multiple hardware providers.  For example:

  1. Industrial communication products manufacturers
  2. Industrial electrical products manufacturers
  3. Industrial electronics products manufacturers
  4. Industrial Cybersecurity products manufacturers

This process is arduous and time consuming to say the least!

To address this, Phoenix Contact (SEA) Pte Ltd has launched an exclusive product for South East Asian market.  Phoenix Contact IIOT Connectivity Solutions (PICS) allows companies to explore the unknown and kick-start IIOT/Industrie 4.0/ other Future Ready Automation Trends with the fastest and easiest way to connect “Things” to Big Data Analytics Platforms.

If so, contact us today at marketing@phoenixcontact.com.sg for a free Proof of Concept/Demo box!

Let there be Light

From |
Leave a reply

Let there be light: Phoenix Contact Components for Reliable Power Grids

On 7 July 2017, Phoenix Contact Singapore Team organised a’ Dining in the Dark’ event as part of Corporate Social Responsibility.  In the short 2 hours without our sight, we experienced a range of emotions such as fear and helplessness. This event also allowed us to understand the challenges that persons with visual impairment faced daily. It is truly a meaningful event that we are thankful to be able to experience with the friends we made from work.

Phoenix Contact's 'Dining in the Dark' CSR Event

Phoenix Contact’s ‘Dining in the Dark’ CSR Event

In today’s world, it might not be an exaggeration to say that we will feel the fear and helplessness if we do not have access to electricity. For a start, life-sustaining equipment in hospitals will not be in operation. Many of life’s conveniences such as lights, entertainment, air-conditioning etc. will be stripped from us. For this, electrical grids are always considered critical infrastructure all around the world and efforts are made to ensure the grid is always operating. Phoenix Contact contributes to this reliability with our products. Below are some examples:

    1. Terminal blocks (Clipline Complete)Clipline terminal blocks
      Our terminal blocks are widely used in power industry. For quick installation in Marshalling/Pilot panel, our customers prefer the use of

      • Push-in connectionThis connection method is fast, do not require special tools, safe, ensure consistent and good connection for every insertion and ideal for areas with high vibration. Most importantly, unlike screw connection, over time, push-in connection does not loosen.
      • QTC connectionThere is no need to strip the wire using QTC connection, making it the fastest way for wire installations. Moreover, Phoenix Contact QTC terminal blocks do not require special tools!
    2. Protection terminal blocksURTK-6 Test Disconnect Terminal Block

      Especially for CT testing, where you have to make the testing circuit before breaking the transformer circuit, it is important to ensure that the “make-before-break” is done properly! Failure to do so results not just in power outage, but often death.

      Our solution is our range of test disconnect terminal blocks, clearly labelled to ensure operators know exactly what is being done. There are also ample spaces for accessories for you to do the necessary bridging and testing.

      Offering inspiring innovations, Phoenix Contact has come out with a test disconnect system. Instead of manually doing the switching, why not let our system take care of it for you with Fast And Modular Energy system (FAME).

    1. DC/DC Converter and Power SupplyQUINT DC/DC converter and Power Supplies

      Usually in substations, there will be 110VDC power supply. However, most electronics components (remote IO, network switch, RTU) requires 24VDC/48VDC power input.  For this purpose, many substations around the world choose Phoenix Contact Quint IV Power Supply.

      Your advantages

      • SFB Technology selectively trips standard circuit breakers, loads connected in parallel continue working
      • Preventive function monitoring indicates critical operating states before errors occur
      • signalling thresholds and characteristic curves that can be adjusted via NFC maximize system availability
      • Easy system extension thanks to static boost; starting of difficult loads thanks to dynamic boost
      • High noise immunity, thanks  to integrated gas-filled surge arrester and more than 20 ms mains failure buffer time. Moreover, Phoenix Contact Quint IV Power Supply comes IEC61850-3 certified. This means that the unit can be used even for IEC61850 applications!
    1. Interposing relays
      With a wide range of relays, Phoenix Contact has the right solution for all standard relay applications, such as interposing relays.

      Your advantages

      • Easy handling, thanks to modern wiring and potential distribution concept
      • Easy extension to a timer relay, thanks to plug-in special function module
      • Complete product range covering all standard relay applications
      • Reliable system for high machine and system availability
      • Available as a complete module or modular system
Easy Wire Termination  Easy Power Distribution  Complete Product Range

Test Disconnect Push-in Connection

Our relays with push-in termination technology provide fast and easy tool-free wiring. Simply push the wire into the terminal , using very little force. Remove the wire by pushing done on the release button, using a screwdriver or ballpoint pen.

Test Diconnect Terminal Block Jumper

Reduce your wiring time up to 70 percent by using our modular terminal block plug-in bridges. These time-saving bridges ensure a reliable connection and reduces the possibility of wiring errors.

RIFLINE Complete

Switch currents up to 16 A. From coupling relays to a replacement for small power contactors; the product range offers the right relay for every application. Benefit from a uniform and consistent system
  1. Heavycon (Heavy-Duty Connector)
    Substations have high EMC and electrostatic interferences. They are also generally not places that people like to hang around in! Heavycon can help to reduce installation/maintenance time and at the same time, ensure reliable power/data/signal transmission. With a modular system, you can combine Fibre, Ethernet, Serial, signals, power all in 1 connector!

HEAVYCON Modular Connector

For example,

  1. the Local control cabinet can be connected quickly to the bay cabinet
  2. The Circuit breaker compartment can be easily disconnected/connected to the switchgear

Where do you implement IIOT for Power Industry?

From |
Leave a reply

Many industries such as Building Automation (analysing of building operating parameters across various premises), Automotive (predictive warning for luxury vehicles), Land Transportation (think ERP 2.0 in Singapore!) has/will be implementing Industrial Internet of Things (IIOT) in its’ various forms for the different benefits and uses cases it provides.

If you are still confused about IIOT vs IOT vs Industrie 4.0 and other terms? Check out this link here.

The results have been intriguing and allowed those who have implemented such systems to stand out from their competitors amidst increasing competitiveness of their market.

In critical infrastructure (such as power industry), such a movement has been much slower. This is because a failure in critical infrastructure systems will have far reaching consequences unlike other industries. For example, an unnecessary power trip caused by a data packet not being received in time can affect hundreds or even thousands of residents in a large neighbourhood. Compare this to having a car breakdown in the middle of the road because the predictive warning for car servicing was not triggered!

IEC 61850 – What data can we track?

For Power Industry (Power generation, power grid operations, contestable energy market consumers etc.), we are in the infancy of a huge change, led by IEC61850 to achieve internet of things for power industry (commonly known as Virtual Heat & Power plant (VHP), Smart Grid or other variants).

IEC 61850 allows for

  1. Interoperability: with systems and products from different manufacturer designed and
    communicating in the same way, Power grid operators, Power Generators, Power Consumers can their own systems to communicate with other systems easily.
  2. Industrial hardening of equipment: Components of systems needs to comply with IEC61850-3 which require hardening of industrial components, able to withstand the harsh condition of power industry, such as high Electromagnetic Interferences.
  3. Common system architecture and easy naming nomenclature of data points, allowing for integration into one BIG virtual network to be much simpler.

And these in terms allows for some pretty cool things in line with IIOT:

Predictive maintenance

Imagine knowing exactly when to replace the switchgear/transformer parts and knowing when it will fail! Switchgear/transformer spare parts usually require lead time. Knowing in advance before the electrical assets needs replacements allows power grid operators/ power generators to prepare for the spare parts in advance, minimizing risk for downtime.

Proactive maintenance

Instead of waiting for something to happen before we fix it, there is an increasing trend that engineers worldwide are always studying and trying to understand their system better!

Increased productivity

At present, checks on health of systems and electrical assets are periodically conducted. Unfortunately, there is no real good reason why a monthly period is chosen over a bi-annual check. This is a waste of precious resources as manpower is conducted to do meaningless checks.  This time can definitely be better spent implementing a strong IIOT system that cuts down on these wastages and allows for a more advanced form of maintenance!

With these building blocks in place and obvious advantages, the last remaining challenge will be to adopt IIOT for Power Industry, i.e. where should we start to monitor and collect data from?

IIOT for Power Industry

For this, IEC is in the midst of a technical review for IEC 61850:

Part 90-3: Using IEC 61850 for Condition Monitoring Diagnosis and Analysis

This part of the standard will provide standardization for information modelling, exchange and configuration techniques for Condition Monitoring & Diagnosis for Power Utility Automation. What this mean is that in this part of the standard, there will be explicit description of how you can use IEC61850 to achieve predictive/proactive maintenance and increase productivity! There will be guides on which part of the switchgear/transformer/cables you should monitor and how exactly you should be monitoring them.

At Phoenix Contact, we have summarised IEC 61850 with regards to the portions it recommends condition monitoring and we are glad to share the summary below:

IEC 61850-90-3: Using IEC 61850 for Condition Monitoring

At Phoenix Contact, we also have a wide range of reliable IEC61850-3 industrial hardened components necessary for implementing of IEC61850 systems. Products include Network Switches, Ethernet to Fibre Media Converter, Parallel Redundancy Modules, Bus Couplers/IOs and Power Supply (AC to DC or DC to DC).

Products for IEC 61850

Do you want to know more about IEC61850/IIOT or how exactly condition monitoring can be done to stay ahead of IEC standards? Leave us your contact at marketing@phoenixcontact.com.sg and we will be in touch with you shortly.

The Smart Grid: How automation empowers the future of Electricity

From |
Leave a reply
Smart Grid plans for the future and beyond

Exemplary model of the future Smart Grid – Automation in Electricity

The “smart grid” is a rapidly growing set of technologies, processes, devices and applications that affect and enhance the traditional electric grid.

These advances are partially driven by exponentially growing demands worldwide for energy as expressed in a commonly repeated statistic that “global electricity demand is expected to increase 75% by 2030.”

What’s happening with the smart grid also reflects developments made in communications, from Internet to cellular to wireless, as well as higher expectations from consumers regarding energy availability, rising energy costs and access to their energy information.

A smarter grid will also help integrate renewable energy including wind and solar into the energy mix.

Defining the Smart Grid

To understand the smart grid, you first need to get familiar with the 125-year-old electric grid. Most people don’t think about where the electricity they’re using comes from or how it gets to their homes and offices.

The electric grid consists of several main touchpoints in an overall system that gets electricity from creation to the end user:

The main touchpoints for electricity include:

  1. Generation — the creation of electrons that make up electricity.
  2. Transmission — moving high-voltage power from generators at power plants through transmission lines, reducing it down to 12,000 volts.
  3. Distribution — where transformers convert power to the 110 volts running in residentials
  4. Retail — the metering, monitoring, and measuring of power usage that results in a bill to the consumer from a utility company.
  5. Customer/Consumption — the end user experience with the power.
Conventional Power Grid

Diagram of how a conventional grid looks like

Smart grid technologies and innovations occur at — and can affect — any and all steps of the electricity ecosystem. Some are more focused on the utility side while others address the customer.

Smart Grid Developments

In the “old days” up until the last 10 to 15 years, utility workers — meter readers — were deployed into neighborhoods to read and write down data retrieved from energy meters in people’s back yards.

The first major change to this process came in the form of Automatic Meter Reading (AMR), through which meters communicate via a one-way signal to a truck that is driven through neighborhoods to collect data.

AMR collection

Collecting data used to be arduous and manual. Requiring long man-hours.

With advancement in technology, there’s the Advanced Metering Infrastructure (AMI) going beyond just reading meters and sending data to utilities — it also sends information back to the home and to the consumer.

AMI systems, automatic data across channels

With AMI, information can be transmitted to individual homeowners as well as utility offices for record purposes.

Smart meters aren’t effective without some kind of communications method to transmit data such as cellular, Wi-Fi or other wireless protocols.

Unlike cellular systems such as GSM and GDMA, Phoenix Contact’s wireless system isn’t optimized for tens of users but instead for tens of thousands of “users” that are in actuality devices, such as meters and sensors.

Our system is designed for extremely long-range and broad coverage so utility companies can deploy these communication networks more cheaply and reach more devices more effectively.

Other interesting developments in the Smart Grid would be the availability of web portals and dashboards that present aggregated power usage data in ways that are understood even by laypersons.

Such software and services, connecting to the Internet display real-time data about the power consumption via a short-range wireless system.

Information like these was never thought of before and it can assist in regulating power consumption in homes or in industrial plants, saving tons from electricity wastage.

Eventually, with systems like this along with “time-of-day pricing,” you will know exactly how much money you’re spending down to the minute, and you’ll be able to modify your behavior to use your appliances at different times.

Or better yet, you’ll benefit from an automated system that regulates usage for you based on your usage habits and peak usage times to run certain appliances at “cheaper” times of the day.

Global Smart Grid Adoption is Going Strong

Smart grid adoption is happening across the globe. Examples are:

  • Toronto, Ontario, Canada— Ontario was the first province in Canada to introduce what is referred to as “time-of-use pricing.” The system is said to have 100% smart meter deployment.
  • Texas, U.S.— The electricity market in the state of Texas has been deregulated, and the state has close to a 100% saturation of smart meters along with an automated system to give customers their energy usage data through smart grid technology and web portals.
  • Scandinavia— At 100% penetration, citizens of Sweden and Finland are seeing the benefits of the smart grid, including in-home smart technologies.

While the United States may be spending the most money on smart grid tech innovation and deployment, other countries making significant headway with implementation include Australia, New Zealand and parts of Europe, including Germany, Spain, the United Kingdom and France.

In Asia, while Japan and South Korea are already heavily invested in the smart grid, China is poised to become a major investor. Asia and Latin America are seen as emerging smart grid markets as they roll out smart meter programs in India and Brazil.

Japan is moving towards smart electrical grids

Electric cables in Japan

In future, for Smart Grid technology to further grow exponentially, the following implementations need to be considered:

  • Data connection between demand (when you turn a light on) and generation (energy being created in a power plant). If you can get more granular data about usage, you can better forecast energy needs and usage, which then can be applied to create more efficient energy generation.
  • Electricity storage. When there’s low energy demand, excess energy should be able to be stored and then accessed or discharged during peak usage periods. For an example of storage on a small scale, consider an electric vehicle — when turned off and plugged in, it’s storing energy to be used during the day when the car is running.
  • Automated energy efficiency for consumers. Businesses do not usually have the time or inclination to proactively make their offices, factories and other environments more energy-efficient. In order to reduce energy usage and shift grid load, we need more services that automatically make smarter energy choices.
  • The private market needs to step up to the plate. Instead of relying on government-sponsored programs, the private sector needs to develop products and/or services that can be easily packaged and delivered to consumers. For example, a telecom company could add an energy efficiency program to its offerings, adding a commercial layer to the smart grid so it becomes more accessible to consumers.

Regardless of where the innovations are coming from, smart grid infrastructure serves utilities and consumers by leveraging information technology to bring advanced communications to a previously “dumb” network.

By putting a greater emphasis on information retrieval, aggregation, reporting and analysis, the potential to save on energy and modify energy consumption behavior can benefit everyone.

Feel free to contact us at marketing@phoenixcontact.com.sg to find out more!

Cybersecurity for Industrial Processes

From |

a_0043686_int

Cybersecurity for Industrial Processes

Cybersecurity has become an increasingly prevalent subject in the last decades. While the focus has been largely on IT infrastructure and online safety, more attention has now been placed on Cybersecurity for industrial processes such as factory automation, water/wastewater plants, power generation and power T&D. This can be attributed to the increased awareness that cybersecurity required for IT is very different from cybersecurity efforts needed for industrial processes.

The main difference is the priority for these two information infrastructure. In IT, it is possible to focus heavily on cybersecurity, such that emails, applications, documents can be blocked with minimal impact on a companies’ P&L. On the other hand, downtime can result if files are stopped from being passed from one device to the other for Industrial processes. Downtime for Industrial processes is very costly as one can observe below.

downtime by industry
The are explicit costs due to downtime. In the case of concerted attack on Nuclear Power Plans (stuxnet incident)  or Power T&D systems (recent Ukraine cyberattack, causing mass blackout affecting at least 200,000 citizens), prolong system downtime can lead to life being lost, severe inconveniences amongst other non-monetary, immeasurable outcomes.

With such different requirements, it is then common sense that plant owners should look beyond IT cybersecurity devices for protection of industrial processes. While firewalls, VPNs, VLans, subnet etc. works for both IT and Industrial processes; IDS/IPS (Intrusion detection system/Intrusion protection system) is not ideal for Industrial processes because they are actively monitoring the data passing through. This not only slows down data transfer and cause delays (again, not damaging in IT network) but often results in false alarms: There can be unusual data passing through which might not be malicious but are essential to operations. IPS/IDS will stop these data and can potentially lead to down time.

In particular, IPS/IDS are used to protect against zero-day attacks/advanced persistent threats where an external party remains in contact with malicious code after they infiltrate systems. These external parties then manipulate these codes further to target specific loopholes. As such, anti-virus cannot detect these codes (no known signature) and firewalls/VPNs are bypassed.

At Phoenix Contact, we recommend MGuard with CIFS Integrity Monitoring that is tailored for Industrial Processes Protection against Zero-day attacks and advanced persistent threats:

Please accept statistics, marketing cookies to watch this video.

Discover Malware on Day Zero: Integrity Monitoring

Due to the general problems with the deployment of antivirus software on industrial PCs and the timely provision of malware signatures, alternative techniques of integrity assurance are gaining relevance for the protection of industrial systems.
One solution is the CIFS Integrity Monitoring feature offered on Phoenix Contact’s FL mGuard security devices. CIFS, or Common Internet File System, is a file-sharing protocol used by Windows and other operating systems. Viewing files on network file servers and using shared network drives are common activities that utilize CIFS. With Integrity Monitoring, the user can monitor configurable sets of files for unexpected modifications of executable code. When initialized, Integrity Monitoring computes a baseline of signatures for all monitored objects and then periodically checks them for any deviations. This process works without any external supply of virus signatures, without the risk of disrupting operations through “false positives,” without installation of software, and with only a moderate load on the monitored PCs, while primarily utilizing the resources of an mGuard security appliance. The mGuard thus discovers suspect file modifications promptly, and reports them via SNMP and e-mail to network
management systems or responsible administrators.

In a test study performed at the University of Ostwestfalen-Lippe in Lemgo, Germany, researchers from the independent inIT institute for industrial IT (www.hs-owl.de/init/en/) have been able to verify that mGuard CIFS Integrity Monitoring would have recognized infections with Stuxnet on day zero as unexpected manipulations and warned asset operators against it long before any antivirus product. The device drivers installed by Stuxnet, as well as the modifications performed by the worm on the pivotal SIMATIC Manager DLL,
would have been discovered in the process.

Some other features that makes mGuard ideal:

  • Stealth mode – fast retrofitting without the need to configure/reconfigure IP addresses
  • OPC Inspectors – ability to track random ports opened by OPC Classic, which render firewall useless
  • 3G remote access
    1. If there are deviations detected with CIFS integrity monitoring, SMS alarm can be sent to system engineers.
    2. Although regular CIFS scan can be scheduled, in the event of known cyberattacks, engineers can simply SMS into mGuard to start an adhoc scan
    3. With 3G, mGuard or devices connected to mGuard can be remotely accessed from anywhere around the world

To find out more about how mGuard can help to secure your industrial systems:

Click here to download a white paper on Post-stuxnet Industrial Security

or contact us at marketing@phoenixcontact.com.sg for a demo on MGuard configuration.

What is IEC 61850 and Why is it Necessary?

From |

Why IEC61850?

Imagine having hundreds of manufacturing plants scattered across the country, all with their own brands of devices communicating in a wide spectrum of protocols. Now imagine that in order for these plants to function efficiently and effectively, there is a need for these plants to communicate with each other BUT the protocols are not interoperable; the devices are not meant to communicate with each other natively.

Replace these manufacturing plants with substations and you have an idea what is happening throughout the world with regards to power transmission and distribution. In order to maintain power quality and reliability, substations need to communicate with each other. However, with the many protocols, much engineering work is required.

Furthermore, with renewable energies and micro-grids introducing a different set of manufacturers, protocols and electricity capable of disturbing the stability of grid-supplied electricity (e.g. frequency of power supplied) and the increased emphasis on renewable energy in the energy mix of countries around the world, a pressing need for a common protocol results. This need manifested itself into IEC61850, a common protocol that facilitates interoperability and communications among “Intelligent Electronic Devices (IED)” in substations, which will be essential for developments of smart grid or Virtual Heat and Power plants (VHP).

The advantage of IEC61850 does not end there though! Other advantages include:

  • IEC61850 is built upon Ethernet communication backbones. Hence, communication bandwidth and speed is much larger and faster respectively compared to Serial communications. With more sophisticated IEDs, more data which demand faster responses than ever before are being transferred and Ethernet backbones becomes necessary.
  • IEC61850 is an object-oriented protocol as compared to older protocols which are signal-oriented. For signal-oriented protocols, in your control system, you will refer to your data points as 10004, 21015 from device 1, 2, 3 etc. This means that you will have to take time to find out what each point represents against your library of data. While this is okay for small scale systems, it becomes problematic when there are tens of thousands of data points, which is common for power.For IEC61850 on the other hand, data point’s identification is much easier. Example: status value (stval) of local value (Loc) belonging in status function (ST) for circuit breaker 1 (XCBR1) of Relay 1.
    iec61850 nomenclature
    With a standardized nomenclature structure and common abbreviations in place, we observe that as long as one is familiar with the naming rules, it will be intuitive in knowing what the point is. This will lead to drastic decrease of engineering cost as less time is spent on identifying the relevant points.Furthermore, all devices are self-describing. This means that a control software engineer does not need to enter the points individually. Instead, the control software will automatically detect and identify all data points within the IEDs.
  • Redundancy: Unlike other Ethernet redundancy methods like RSTP (rapid spanning tree protocol), the redundancy for IEC61850 provides for zero recovery time. IEC61850 utilizes Parallel Redundancy Protocol, under which each source sends out 2 copies of a frame, through 2 different routes. Hence, if one path fails, the data will still reach the destination via the alternative route, preventing downtime. PRP has since been amended, aligning it to High speed redundancy protocol which utilizes a ring network, unlike in previous version of PRP which operates in parallel network. Hence, PRP and HSR is largely equivalent today.
  • Other protocols (MMS, GOOSE, SMV) also allows for data to be communicated faster and more reliably from IEDs to central station, between IEDs and in SMV case, from PTs and CTs to the IEDs.

At Phoenix Contact, our portfolio of IEC61850 industrial communication products include:
Network switches (Ethernet, Fibre)
Parallel Redundancy Module
Fibre Patch Panels
Fibre Splicing tools
Fibre and Ethernet Connectors
IEC61850 IEDs:
IEC61850 Bus couplers

Others:
Power supplies
DC-DC Converter
Markings
Terminal blocks

To find out more,

Click here to download our IEC 61850 Products brochure or contact us at marketing@phoenixcontact.com.sg for a demo on IEC61850 configuration.

Safe Wireless Installation for Hazardous Areas

From |

a_0064853_intWireless technology has improved by leaps and bounds over the last decade. Intermittent, unstable and slow wireless connections are gradually becoming a thing of the past. At the same time, wireless technology brings about tremendous convenience to everyone, reducing clutter caused by messy wires and making hard to reach places reachable. Continue reading