Category Archives: Technology

7 Energy Efficiency Innovations That Can Help Homeowners

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Domestic energy efficiency has advanced a long way over the last few decades. Despite our overall energy consumption increasing by just over a third since 1980, on average our homes consume around 10% less overall. How can this be the case when we have so many more electrical appliances? Back in 1980, not many homes had more than a single TV, and computers and mobile phones were essentially non-existent. Yet somehow they used more electricity!

The answer to this question comes down to one simple principle. Energy efficiency. Government regulations and technical advances led by the private sector have resulted in appliances that are simply more sustainable. Throw in a better public understanding of the importance of reducing carbon emissions, and also the use of money expert comparison sites to track the expense of powering a home, and it the picture becomes a little clearer.

Expect to see this trend become ever more prevalent in the near future, as sustainability has become a huge industry that continues to rapidly expand.

Here’s a selection of the most recent energy efficiency innovations that are already helping homeowners save money that we can expect to become common place over the coming years.

1. Smart Homes

At first glance, you may wonder what the point is in buying a new domestic appliance that is advertised as ‘internet connected/ready’. After all, who is going to need a web compatible refrigerator or air conditioning unit? It is increasingly common for newly released appliances to boast this feature because in the coming years, our homes are going to be much more connected than at present. Being able to monitor and control energy expenditure remotely via smartphone is a tech that is already with us – but these are still the early days.

The next big step forward is going to be the implementation of wireless sensors throughout the home. These will connect all the appliances in the home to a centralized control panel which will automatically instruct how they interact with the energy supply.

For instance, appliances not in use, but on ‘standby’ mode will be entirely disconnected from the power supply when nobody is at home. Heating and air conditioning use will be precisely measured according to the ambient temperature. Just these two examples – and there are many more in the pipeline – are set to shave a considerable amount of household energy consumption in the very near future.

2. Next Generation Home Insulation

The US Industrial Science & Technology Network takes the approach that heating and cooling costs can best be reduced by simply developing superior insulation. While still at the development stage, these are promised to be far more efficient at preventing heat from escaping.

As may be expected, they are also going to be environmentally sound and most likely comprised of recycled foam materials. Should these be proven to work, there is a very good chance they will become the industry norm for new build and redeveloped housing in the years to come.

home-insulation

3. Reflective Roofing Materials

While insulation is ideal for maintaining an ambient temperature what about those who live in warmer climes? Everyone knows how expensive it is to run air conditioning 24 hours a day, but there have been considerable recent advances in reflective rooftop materials. Currently, these work by using special pigments that are coated onto the roof in order to reflect sunlight and heat.

The next generation in development will use fluorescent pigments that look likely to be up to four times more efficient. So for those who reside in areas where effective air conditioning is essential around the year, these new materials may well be an absolute godsend.

4. Magnetocaloric Refrigerators

A fridge powered by magnets? Close, but not quite. Refrigeration technology has barely changed or advanced since they were first introduced. Modern fridges still rely on vapor compression, which unfortunately requires chemical coolants that are notoriously bad for the environment.

Next generation models are going to be able to make use of water-based coolants that make use of the magnetocaloric effect. In layperson’s terms, this is the use of magnets to alter the magnetic field which can provide an extremely energy efficient cooling effect. Expect this to become commonplace in the coming years, thanks to their potential in enormously reducing energy expenditure and carbon emissions.

5. Much More Efficient Heat Pumps

Considerable progress has been made by the US Building Technologies Office in developing heat pumps that essentially move heat throughout the home. There are three models in design that promise to considerably reduce expenditure on heating while also significantly reduce carbon emissions. Standard gas boilers/furnaces are notoriously expensive and inefficient.

  • A low-cost gas-based heating pump could massively increase efficiency and result in lowering heating costs by a staggering 45%.
  • Multiple function fuel based pumps designed for domestic use can still save an estimated 30% with the added bonus of also providing more efficient water heating.
  • Natural gas based heating pumps connected with air conditioners aim to use a very low emission boiler to cater for all domestic needs regardless of the season. Of all three options, this is the most complete package and the one most likely to become widespread in the coming years.

These styles of heat pumps are also going to be used to significantly reduce the energy used by clothes drying machines. General Electric has been already near completing their first gas pump compatible dryer. This is intended to reduce the energy consumption of perhaps the least efficient appliance in the home by up to 60%.

heating-radiator

6. Even Better LED Lighting

Energy saving lighting may have become the accepted norm in many households, and the good news is that it is set to become even better. At present these are up to 85% more efficient than old fashioned incandescent bulbs, but the next generation – scheduled for a few years time – promise to double their efficiency. An improvement up to 230 lumens (from the current 115) is forecast.

8% of all electricity consumption in the USA are due to lighting homes and businesses. Having that figure will make for a huge national saving and reduction of energy costs across the board.

LED-lighting-workplace

7. Advanced Window Insulation

While still in development this may not sound like a huge advance, but could well result in enormous net energy savings down the line. Using microprocessors and sensors to measure sunlight and radiant heat, these are going to automatically provide shading to assist with providing ideal natural lighting and also assist with heating. Expect these to be integrated with the general smart home system outlined above in due course.

Final Thoughts

So there we have seven of the most exciting and interesting energy efficiency innovations that we can expect to see in the home over the coming years. While some are already in production while others are just passing the prototype phase, the future is looking positive in terms of reducing emissions and better managing energy consumption.

Energy efficiency is here to stay and these developments will likely only be the tip of the iceberg compared to what we can look forward to over coming decades.

MySQL Alternatives and Competitors for Small Businesses

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MySQL is a popular technology in the extensive data ecosystem. Anyone dealing with data or general IT must familiarize themselves with MySQL. It’s also essential to identify MySQL alternatives and competitors when considering circumstances and potential growth for your small business.

What Is MySQL?

This is a relational database management system (RDBMS) established by Oracle. This system is based on structured query language or SQL. A database is a collection of data. It could involve anything as simple as a picture gallery or shopping list. It’s a place where you hold vast amounts of information. A digital store collects data and organizes it according to a relational model. 

MySQL Alternatives for Small Businesses

MySQL is a crucial system for data classification. This analyzes data and organizes it into defined categories based on its contents, type, and other characteristics. Many organizations use MySQL for data classification because it allows them to answer queries about their data, and use this data to make critical business decisions. Analyzing data helps organizations mitigate risk by safeguarding data based on criteria like sensitivity, secrecy, and confidentiality.

Some popular organizations that have employed MySQL backends include Facebook, Twitter, YouTube, Flickr, and Wikipedia. The following are some alternatives and competitors of MySQL.

1. Microsoft SQL Server

SQL Server 2017 supports Windows, Linux, and Docker containers. It allows developers to create applications using their preferred language. This system comes with innovative security features and built-in AI. SQL Server is also capable of delivering insights through mobile BI.

2. Azure SQL Database

Azure SQL Database uses the Microsoft SQL Server Engine. This relational database has a high-performance, secure database and is reliable. You can use this system to create data-driven websites and applications in the programming language of your choice without the need to manage infrastructure.

3. IBM Informix

IBM Informix is a database optimized for Internet of Things (IoT) and OLTP data. This system can integrate SQL, NoSQL, and JSON. It’s reliable, flexible, and easy to use. It’s also affordable. IBM Informix works with both structured and unstructured data. It’s a hybrid database system that allows flexibility and easier development. You can run OLTP queries and workloads and use the Informix warehouse accelerator for predictive analytics. 

4. MariaDB

MariaDB was created by the same people who developed MySQL. The MariaDB foundation supports this open-source relational database. Some capabilities of this system include Galera Cluster 4, Temporal Data Tables, and Oracle Database.

5. SQLite

SQLite is a database library that implements a serverless, self-contained, transactional, and zero-configuration database engine. SQL lite is the most famous database in the world. The code used for SQLite is in the public domain and is free for use, whether for private or commercial purposes. 

6. Amazon Relational Database Service (RDS)

Amazon Relational Database Service (RDS) is a web service you can easily set up. Operating and scaling a relational database in the cloud is also easy. Some supported database systems include Amazon Aurora, MySQL, Microsoft SQL Server, Oracle, MariaDB, and PostgreSQL.

7. SAP HANA Cloud

SAP HANA Cloud combines database and application platform capabilities to transform transactions, text analysis, analytics, and predictive and spatial processing. This allows businesses to operate in real time.

8. LibreOffice Base

This is a full-featured desktop front-end database that addresses the needs of different users. LibreOffice Base supports drivers for the most popular multi-user database engines. These include MariaDB, MySQL, PostgreSQL, and MS Access. Additionally, the built-in support for ODBC and JDBC standard drivers enables you to connect to virtually any existing database engine.

9. PostgreSQL

PostgreSQL is an open-source and free object-relational database system. This database boasts many years of active reliability, robustness, development, and performance. PostgreSQL supports SQL and is designed for various workloads.

10. Firebird

Firebird is a relational database system offering ANSI SQL features. The system runs on Windows, Linux, and Unix platforms.

What To Consider When Choosing a Database Management System

When choosing a database management system, some essential features include data model, data consistency, and data security. When looking at the data model, you need to determine whether you are dealing with a relational model or unstructured data. Furthermore, consider how to retrieve and manipulate data. For example, it’s faster to analyze hierarchical data in sequential files in a NoSQL database than in a relational one.

Data consistency is another factor you must consider when choosing a database management system. Maintaining data consistency is essential as more sources tap into the database. You should consider consistency rules and define them when selecting a DBMS.

Lastly, you should think about the ability to back up and restore databases. Therefore, when choosing a database management system, you need to be able to set up a plan for data security to ensure minimal downtime in case of a security threat.

Wrapping It Up

The efficiency of any small business relies on the ability to store large amounts of crucial information securely and in an organized manner. This is why many corporations today have adopted MySQL and other related alternatives for database management. Choosing the appropriate system will ensure your data’s integrity and allow business processes to run smoothly.

Impact Of Vacuum Technology On The Growth Of Electric Mobility

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Electric mobility is the newest trend in today’s highly competitive market. Electric vehicles have already been defined as the future of transportation, and are on the increase. They are predicted to inevitably take over the car industry by the next decade.

Through technical innovation, e-Mobility is prepared to address today’s concerns linked with climate change, fossil fuel dependency, and environmental protection. Today, a slew of big auto manufacturers have not only begun building their own electric vehicles — alongside the industry’s pioneer, Tesla — but have also planned to discontinue the production of gas-powered vehicles in the next decades.

Vacuum technology has been – and still is – essential in this process.

vacuum technology for electric car production

 

Vacuum technology and mobility: a lifelong interest

Vacuum technology is not new in the mobility sector: it has been around for more than 60 years to support the creation and production of vehicle batteries.

It began as an industry-wide innovation and has been in use for decades. Despite this, it will continue to be utilized for many years to come, as it is still playing a huge role in the most recent e-mobility innovation.

Agilent, a supplier of vacuum and leak detection equipment and services, is dedicated to providing concrete solutions in the approach to sustainable mobility. It assists manufacturers all over the world in both the core, fundamental procedures of developing renewable battery technology and the secondary processes that are equally significant. Vacuum and leak detection technologies, for example, are important components in new industrial processes for vehicle electrification.

Agilent is significantly involved in the development of electric mobility in general, with a variety of equipment and brilliant solutions. Examine the most recent vacuum technology by yourself at https://www.agilent.com/en/product/vacuum-technologies.

What is the role of vacuum technology in the development of electric vehicles?

Vacuum is already used in various functional stages and processes associated with electric mobility.  From the electrolyte-filling stage of a lithium-ion battery (to ensure that the cell is evenly saturated with the electrolyte) to assisting in the shaping of the electric motor with constantly innovative generator technologies, to make them modular, lighter, more affordable, quieter, and more efficient. Agilent is involved in the development and production of a vast majority of electric vehicle components.

In addition to lithium-ion batteries, the most known and utilized rechargeable batteries, Agilent concentrates as well on the advancements in hydrogen fuel cells, one of the future trends for innovative technologies in electric vehicles.

What are lithium batteries?

Modern lithium-ion batteries are the favoured technology for electric vehicles right now. Unlike other batteries, lithium-ion batteries are among the most often used rechargeable batteries because they have a much higher energy density and a slow discharge rate, allowing them to maintain a charge for significantly longer.

They are innovative battery technologies that utilize lithium ions as a key component in the battery’s operation and electrochemistry.

Lithium-ion batteries, in addition to appearing in electric cars, can also be found in small portable electronics such as laptops and smartphones, and are frequently utilized in military and aerospace applications.

EV production technology

Vacuum Technology is driving electric mobility!

Vacuum is already used in various functional stages and processes associated with electric mobility. Let’s go deep together in the stages where vacuum is the dominant player.

1. Battery production: vacuum technology in more than half of the battery manufacture processes!

Agilent’s vacuum specialists assist lithium-ion battery manufacturers with their procedures and technological challenges in production processes, quality control, and safety measurements. As a result, they have been significantly involved in the development of electric mobility, with their vacuum tech currently accounting for more than half of the processes in battery creation.

Battery performance, longevity, and overall quality are all highly influenced by the quality of the manufacturing process. Agilent solutions and experience optimize resource usage and reduce process time while ensuring product quality goals are fulfilled.

2.  Battery Cooling

As batteries get more efficient and powerful, car companies are being pressed to develop new heat management systems. Cooling systems must keep battery temperatures between 20 and 40 degrees Celsius. Liquid coolers have been shown to be the most efficient approach for keeping the battery pack at the proper temperature range.

The biggest disadvantage of liquid coolers is the potential of a leak or spillage. Undetected leaks significantly reduce the battery’s service life and/or allow highly reactive electrolytes to escape. Water leakage in battery coolers is a severe problem that affects battery durability and battery pack safety. To ensure long battery life, the cell must be completely leak-proof.

To confirm leak-proofness, a leak test is performed using a vacuum leak detection instrument, which can detect even the slightest leak using helium as tracer gas and detecting it by means of an embedded mass spectrometer. Highly sensitive helium leak detection systems play an important role in the production of lithium batteries and bear a significant amount of responsibility in terms of safety.

3.  Heating, Ventilation, and Air Conditioning (HVAC) systems

There isn’t a heat-producing engine in an electric vehicle. Differently to low efficiency thermal engines, high-performance electric motors generate very little heat. The vehicle cabin temperature must be raised by other means.  So, how do electric vehicles generate heat?

Well, it needs to produce interior heat using — you got it — electricity. Often via one or more resistive heating elements. Early electrical automobiles in fact employed basic resistive heaters, while contemporary vehicles have heat pump systems that transport thermal energy from the outside into the interior.

These technological HVAC systems necessitate extensive vacuum and leak detection solutions in order to create strong and dependable components capable of successfully capturing and directing heat. Look at how the leak-proofness is tested here.

4. Electric motor

Electric vehicle manufacturers research innovative motor/generator technology to make them more modular and efficient, lighter, quieter and even cheaper than typical electric motors. Water is the principal enemy of electric and electronic parts, hence leak detection and humidity tightness are an absolute priority in all of them. Agilent helium leak detectors enable faster and more exact leak location and monitoring for completely sealed electric vehicle motors.

5.  Electric and electronic components

The operating range of an electric vehicle is not just determined by battery capacity. New materials and procedures are being applied to manage higher voltage, temperatures, and insulation difficulties in order to improve the efficiency of a car’s internal electrical distribution.

In propulsion-grade power electronics, inverters, connections, filters, busbars, and safety devices all play important roles.

Insulating or environmental coatings are required for all of these components. Agilent is proud to supply diffusion and turbomolecular pumps for innovative coating equipment. Browse the Agilent website to find the best turbopumps and turbomolecular pumps.

https://www.agilent.com/en/product/vacuum-technologies/turbo-pumps-controllers/turbo-pumps

6.    The latest fuel cell for e-mobility

Fuel cells are another zero-emission alternative to combustion engines and even to lithium batteries. This intriguing technology works with hydrogen gas: hydrogen is employed in fuel cells to generate power through a chemical process instead of combustion, with just water and heat as byproducts. Hydrogen reacts electrochemically in fuel cells to produce electricity and power the car. Brake energy is also absorbed and stored in a battery to offer extra power during short acceleration occurrences.

To prevent leaks that could impair performance and safety, fuel cell generators, gas tanks, and distribution lines must be hermetically sealed and leak-checked by means of specific leak detectors. Vacuum technology and processes also play a key role here.

electric-mobility-vacuum-technology

Future Trends for Green  Technology in Vehicles

According to Bloomberg New Energy Finance, by 2040, more than half of all built and sold passenger cars will be electric. As public concern about climate change grows, governments throughout the world are stepping up efforts to reduce carbon emissions. Agilent is committed to supporting this change by providing the finest, more innovative and performing vacuum technology equipment and machinery.

The Role of IT in the Bioenergy Sector

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The bioenergy sector is growing rapidly, and it’s widely seen as a key solution to the global challenge of climate change. It has great potential to reduce greenhouse gas emissions while also providing energy security through renewable sources. However, a lack of IT can be an obstacle to further developments in this sector. That’s because IT is essential to accessing real-time data that helps make more informed decisions about production and distribution processes for bioenergy products, including biogas and ethanol.

IT in the bioenergy sector

If you’re in the bioenergy sector, you’re going to find that having robust IT systems set up for you by professionals is going to do most of the heavy lifting for you. To browse what this set up may entail, you can head over to https://tenecom.com/ where they go in much more detail.

In this article, the focus will be on the specific role that IT plays in the bioenergy sector:

1. Gives Access To Real-Time Data

In an industry as dynamic and rapidly changing as bioenergy, it’s important to have access to real-time data. Real time data allows stakeholders to always have their eyes on their plants and monitor close growths, threats and changes as they come.

A farmer may want a system that allows them to monitor their crop growth rate over time by using satellite imagery of their land; this type is called ‘remote sensing.’ This would help them determine when they need more fertilizer or irrigation water, so they don’t waste money on things that aren’t necessary at certain times (or too much of either). They could also use remote sensing technology on their crops during specific seasons when pests tend to attack certain plants and then use this information along with other sources like weather forecasts.

2. Improved Decision-Making Capabilities

In the bioenergy sector, information technology can be used to make better decisions. It can help you to make them faster and with more accuracy.

For example, a company that has its own fleet of trucks may want to use an application on a tablet-style device to monitor the location of its drivers at any given moment. With this technology in place, they could see when one of their drivers is running late or if they arrive at work before they’re supposed to (or not). This would allow them to make adjustments as necessary because they’ll have access to accurate information about what’s happening on the road at the moment.

3. Improved Processes

Bioenergy is becoming a more important part of the energy industry, but it’s still in its early stages. As the bioenergy sector grows, so will the need for IT professionals who can help manage and improve processes.

The creation of bioenergy requires a lot of complicated processes that must be monitored and managed to ensure efficiency. For example, if a company wants to build an ethanol plant from scratch, it must make sure that each step in its manufacturing process works as intended—from growing plants to distilling alcohol out of them on an industrial scale—and that nothing goes wrong along the way. If anything goes wrong (and it often does), then there will be delays or even complete stoppage until repairs are made or new equipment is installed.

hazards of biofuel production

With modern technology at their disposal via IT solutions such as data analytics software or sensor networks, companies can make sure that everything runs smoothly before something bad happens, and they lose valuable time trying to fix problems after-the-fact rather than preventing them beforehand. This can be done through better planning beforehand with proper data collection methods such as sensors placed all over production facilities throughout entire supply chains.

4. Increased Operational Efficiencies

As more and more businesses turn to IT, it’s becoming clear that technology is critical for improving efficiencies across the board. In the bioenergy sector, there are many ways that IT has improved operations:

  • Reduced Cost of Operations: Improved communication means less time between management and employees, which means reduced labor costs. Additionally, better data management allows you to make smarter decisions about your business plan moving forward. This might involve reducing inventory or cutting back on energy consumption in order to save money on capital expenditure (CAPEX).
  • Reduced Time To Market: By implementing automation tools like artificial intelligence (AI), big data analytics can now accelerate product development cycles by providing insights into what customers want before they even know they want them. AI also improves operational efficiency by helping you reduce waste by predicting when certain products will go bad so they can be replaced before expiration dates arrive—all while increasing overall operational efficiency at every step along this process through automation tools like AI, which provide insights into what customers want before even knowing themselves.

5. Improved Control Of Biogas Processes And Automation

Automation provides better control of the biogas process and helps to avoid human error. This results in more reliable and consistent production, as well as reduced costs, increased safety, and improved efficiency and productivity.

biogas-enrichment

An automated control system may also include an alarm system that alerts operators of any issues or problems with the process taking place. The information provided by this system can help operators troubleshoot issues quickly and efficiently so that they do not have to wait too long before remedying them. In addition to saving time, this can also prevent delays that might cause customers who rely on your service to go elsewhere for their needs (especially if you’re providing bioenergy).

Conclusion

We’ve covered a lot of ground in this article, but there is still more to explore. IT in the bioenergy sector has the potential to make a significant impact on our environment and our lives. The integration of new data, automation, and communication systems will be key to success. But as we’ve seen with solar panels, wind turbines, and other renewable energy endeavors—the benefits are worth it!

IMS PCB: Everything You Need to Know

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The metal substrate of IMS PCBs improves mechanical and thermal conductivity. Copper and aluminum are common materials used because they are both inexpensive and light. Copper is more suitable for high-density designs, but it has a lower CTE. A single electrical layer must be sandwiched between a metallic substrate and a prepreg layer in the Integrated Metal Substrate PCB design layout. Typically, these boards are used for simple circuits.

applications of IMS boards

IMS PCBs are suitable for a wide range of applications, including high-power, flammable, and high-temperature environments. They can serve as ground layers to protect sensitive electronic components and directly absorb heat produced by SMD components. These boards are particularly useful in the fields of LEDs, solid-state relays, and power electronics. They do, however, provide additional benefits. If you’re not sure whether IMS PCBs are the right choice for your next project, keep reading to learn more about IMS PCBs and how they can help you make your next project.

IMS PCBs is used in automotive applications because they aid in the cooling of surface-mount components. The dimensional stability of the IMS PCB allows it to operate without cracking in temperatures ranging from 140 to 150 degrees Celsius. Furthermore, its thickness does not increase significantly with temperature, and it can withstand high temperatures. IMS PCBs is frequently more expensive than FR4 PCBs, so choose PCB May if you need high-quality IMS PCBs.

To help manage heat, an IMS PCB has a copper-based base material and a copper-based layer. This layer is made of a copper-based alloy and is either 1.0mm or 1.6mm thick. A single-sided IMS PCB is clear, whereas a double-sided IMS PCB has an aluminum layer on the board’s outside. The IMS PCB is a multilayer PCB regardless of the materials used.

Thermal vias can be counterproductive in some cases because they must be drilled through large areas of well-conducting aluminum. Thermal insulation is insufficient in such cases, and the aluminum cladding alone may suffice. IMS PCBs without thermal vias may be more efficient in this regard because heat is transferred by the aluminum within the carrier. It could even be more efficient than FR4 PCBs.

The thermal management properties of an IMS PCB are one of its most common advantages. A thermally conductive base metal, for example, is a good thermal conductor, reducing the amount of heat that must be transferred. The manufacturer will design and manufacture the board in accordance with these guidelines, and using a standard thickness can help to reduce costs. It is critical, however, to ensure that the material used for the base metal is thermally conductive in order to avoid excessive heat buildup.

Copper, aluminum, and other metals are commonly used to make IMS PCBs. Because of its excellent thermal and electrical properties, copper is frequently used in IMS PCBs. Aluminum is the most common metal substrate and is significantly less expensive than copper. Aluminum is also electrically and thermally conductive, making it an excellent choice for a wide range of applications. However, keep in mind that aluminum is much less resistant to corrosion.

The Advantages of IMS PCBs

When considering the advantages of IMS PCBs, it is useful to understand what distinguishes them from standard boards. A single copper layer is present on a single-layer PCB. On the other side, they are insulated by a metal substrate that also serves as a heatsink. However, if a circuit requires two copper layers, more complex circuits can be integrated. IMS PCBs also include heat transferring vias, which allow heat to be transferred from the top-side components to the bottom-side substrate.

It is critical to consider both the physical and electrical properties of IMS PCBs when using them. The dielectric constant, for example, is used to measure the electrical properties of an IMS PCB by comparing the capacitance of the metal substrate to that of the vacuum. The rate at which the metal substrate changes along the z-axis is another important parameter known as the thermal expansion coefficient. Finally, another important feature is the temperature at which the material transitions to a glass state and decomposition, which determines the material’s heat resistance.

IMS PCBs is constructed from several layers of thermally conductive dielectrics. The circuitry is buried in one or more dielectric layers that serve as thermal and signal vias. Multilayer printed circuit boards are more expensive than single-layer printed circuit boards, but they provide simple heat dissipation for complex circuits. They are an excellent choice for high-end PCs.

Applications of IMS Boards

Because they keep surface-mount components cool, IMS Boards are ideal. The electrical and mechanical properties of IMS PCBs must be thoroughly examined, and the copper thickness must be 0.5 oz. The benefits of the metal substrate and thermal conductivity are completely negated by thick copper. To create the holes for the components, the board must be precisely drilled. The components are then soldered or bonded to the copper surface. Desmearing is required after drilling to remove any melted resin from the drilled holes.

what is IMS PCB

A motherboard and two IMS evaluation modules, which can be configured as a full or half-bridge, comprise the IMS evaluation platform. The evaluation modules support both power levels and include GaN E-HEMTs, gate drivers, DC bus decoupling capacitors, and a heatsink. The evaluation modules can be used to prototype high-power GaN intelligent power modules and in-systems. The board is also intended for high-power applications, making use of vertical space.

Hundreds of control units in modern cars are located around the engine area and are subject to extreme temperatures. Because they can transport heat without the use of discrete heatsinks, industrial IMS PCBs are the ideal solution for applications like this. Solid-state relays, which are small circuits made up of an optocoupler and a MOSFET, are an excellent example of how IMS PCBs are used to transfer heat.

IMS PCBs is also well-known for providing effective thermal dissipation. They can reduce power losses and improve overall product performance because they can be made of thin copper sheets. This allows for higher packing densities on the board, improved overall security, and longer operating times. It is also suitable for use in single-board computers. This simplifies the production of double-sided boards with metal cores.

High-power IMS printed circuit boards are ideal for high-power, high-temperature, and combustible environments. IMS PCBs also serves as an electromagnetic shield and a ground layer. Because of these benefits, IMS PCBs is a popular choice for a variety of applications, including power electronics, solid-state relays, and LEDs. IMS PCBs also enables more compact designs that are less prone to catching fire.

IMS PCBs is more expensive than FR4 PCBs, despite their superior thermal conductivity. Copper-based PCBs have more layers than FR4 PCBs, which can also have multiple layers. PCBs of various thicknesses can be produced using standard machinery. Copper-based boards, on the other hand, are more expensive than their counterparts and have inferior thermal and electrical properties.

The Impact of Machine Learning on Renewable Energy

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Machine learning, as well as its endgame, artificial intelligence, is proving its value in a wide variety of industries. Renewable energy is yet another sector that can benefit from machine learning’s smart data analysis, pattern recognition and other abilities. Here’s a look at why the two are a perfect match.

Predicting and Fine-Tuning Energy Production

One of the biggest misconceptions about solar power is that it’s only realistic in parts of the world known for year-round heat and intense sunshine. According to Google, around 80% of rooftops they’ve analyzed through their Sunroof mapping system “are technically viable for solar.” They define “viable” as having “enough unshaded area for solar panels.”

Even with this widespread viability, it’s useful to be able to predict and model the energy yield of a renewable energy project before work begins. This is where machine learning enters the equation.

Based on the season and time of day, machine learning can produce realistic and useful predictions for when a residence or building will be able to generate power and when it will have to draw power from the grid. This may prove even more useful over time as a budgeting tool as accuracy improves further. IBM says their forecasting system, powered by deep learning, can predict solar and wind yield up to 30 days in advance.

Machine learning also helps in the creation of solar installations with physical tracking systems, which intelligently follow the sun and angle the solar panels in order to maximize the amount of power they generate throughout the day.

Balancing the Smart Energy Grid

Predicting production is the first step in realizing other advantages of machine learning in clean energy. Next comes the construction of smart grids. A smart grid is a power delivery network that:

  • Is fully automated and requires little human intervention over time
  • Monitors the energy generation of every node and the flow of power to each client
  • Provides two-way energy and data mobility between energy producers and clients

A smart grid isn’t a “nice to have” — it’s necessary. The “traditional” approach to building energy grids doesn’t take into account the diversification of modern energy generation sources, including geothermal, wind, solar and hydroelectric. Tomorrow’s electric grid will feature thousands and millions of individual energy-generating nodes like solar-equipped homes and buildings. It will also, at least for a while, contain coal and natural gas power plants and homes powered by heating oil.

Machine learning provides an “intelligence” to sit at the heart of this diversified energy grid to balance supply and demand. In a smart grid, each energy producer and client is a node in the network, and each one produces a wealth of data that can help the entire system work together more harmoniously.

Together with energy yield predictions, machine learning can determine:

  • Where energy is needed most and where it is not
  • Where supply is booming and where it’s likely to fall short
  • Where blackouts are happening and where they are likely
  • When to supplement supplies by activating additional energy-generating infrastructure

Putting machine learning in the mix can also yield insights and actionable takeaways based on a client’s energy usage. Advanced metering tools help pinpoint which processes or appliances are drawing more power than they should. This helps energy clients make equipment upgrades and other changes to improve their own energy efficiency and further balance demand across the grid.

Automating Commercial and Residential Systems

The ability to re-balance the energy grid and respond more quickly to blackouts cannot be undersold. But machine learning is an ideal companion to renewable energy on the individual level as well. Machine learning is the underlying technology behind smart thermostats and automated climate control and lighting systems.

Achieving a sustainable future means we have to electrify everything and cut the fossil fuels cord once and for all. Electrifying everything means we need to make renewable energy products more accessible. More accessible renewable energy products means we need to make commercial and residential locations more energy-efficient than ever.

Machine learning gives us thermostats, lighting, and other products that learn from user preferences and patterns and fine-tune their own operation automatically. Smart home and automation products like these might seem like gimmicks at first, but they’re actually an incredibly important part of our renewable future. They help ensure we’re not burning through our generated power, renewable or otherwise, when we don’t need to be.

Bottom Line

To summarize all this, machine learning offers a way to analyze and draw actionable conclusions from energy sector data. It brings other gifts, too. Inspections powered by machine learning are substantially more accurate than inspections performed by hand, which is critical for timely maintenance and avoiding downtime at power-generating facilities.

Machine learning also helps us predict and identify factors that could result in blackouts and respond more quickly (and with pinpoint accuracy) to storm damage.

Given that the demand for energy is only expected to rise across the globe in the coming years, now is an ideal time to use every tool at our disposal to make our energy grids more resilient, productive and cost-effective. Machine learning provides the means to do it.

The Impact of Smart Homes on Generations

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America is already feeling the impact of smart homes. A large industry based on this technology is forming. But, what is the effect of it on the different generations? Here you can find a brief discussion of the impact of smart homes on generations.

What is a Smart Home?

Smart homes consist of all the different smart products owned by the user. These products are interconnected. It makes use of the internet to connect to other products. This technical feature is called the Internet of Things (IoT).

There are all kinds of products. Every room or space in a home can be automated by smart home products. You can even install smart devices into your backyard like smart lawnmowers and irrigation systems.

Benefits for all generations

Smart home products are designed to benefit its users. The technology is developed for all generations. So there are benefits to its use that applies to everyone.

These benefits include:

  • An increase in comfort of the user’s lifestyle.
  • Increased life expectancy caused by the usage of these products (i.e. smart security products).

Impacts on different generations

Three larger generation groups have been defined for the purpose of this discussion. It’s been split into the retirees, the working force, and the youth.

Retirees

Smart home products can connect to all kinds of services and devices. Elderly people can enjoy minor medical check-ups from the comfort of their homes. Video calls and domestic smart medical equipment can supply all the information a doctor needs. Doctors can keep an eye on patients that are too far from their offices.

Retired people can make use of smart home technology to automate simple tasks. Grocery shopping and other basic services are accessible through these products. Retirees will enjoy the improved elderly care and greater access to basic services caused by smart homes. Stairlifts install will make life easier for the elderly.

The working force

Smart home products like smart thermostats have been known to save its users an average of 20% in yearly warming and cooling costs. According to a study conducted by SafeAtLast, 57% of American smart home owners save about 30 minutes per day. Automating your home will save you lots of time and effort in the process.

The working force who owns smart home products will be more productive. They will also have more cash on hand due to extra savings. Smart homes can help to create a wealthier economy by assisting the working force.

The youth

The youth of today is the promise for tomorrow. Smart home technology is indirectly designed to increase the life expectancy of its user. All these benefits will help to cultivate a better tomorrow. The youth who grow up with smart home technology will have an advantage over their lesser privileged youths. Though, the psychological effects of this technology (over the long term) is yet to be studied.

Conclusion

This technology wants to make your life better. It will benefit every generation. Give it a try to experience the benefits yourself. Read on to for interesting facts on smart homes.

How Digital Technologies Enable Efficient Waste Management

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Computer-based technology continues to transform our lives and lead to innovation in industries crucial to the earth’s ecological balance. One such sector benefiting from new inventions is waste management, which is responsible for keeping communities clean through waste removal and recycling. This sector utilizes digital tools that work together to advance global sustainability efforts and ensure the smooth running of operations at waste management companies.

To learn more, here’s how digital technology enables efficient waste management:

Benefits of Digital Technologies in Waste Management

Management Through Cloud-Based Software

The waste management process has become more streamlined thanks to smart waste management software and cloud computing. These computer applications help in tracking, customer service, controlling, monitoring, scheduling, organizing, and optimizing waste collection and administration. They give a digitized outline of locations where waste needs to be managed. It means displaying real-time data on bin waste levels, dumpster truck routing, and overall waste inventory.

This technology can also be used in entire districts on a large scale or by a single waste collection company. The whole management operation can be done in a semi-automated process between a waste collector and an IT company, such as https://fusioncomputing.ca/ and similar ones for running and management. The information generated by these programs creates a large volume of data that requires cloud services to transmit and store. Thus, it becomes necessary to be on a cloud-based platform to maintain efficiency.

Pneumatic Sorting

Separating waste is essential to reducing the chances that its byproducts don’t end up in a landfill and pollute the environment. It’s also necessary to classify waste according to recyclable materials and those that need a different disposal method.

While waste management industries mostly still use manual labor to carry out this process, the ongoing development of digital technology is likely to change this in the form of robots. Industrial robotics is an emerging science where robots are created to use pneumatic or sensor-based sorting to deconstruct waste into its simplest parts.

waste-management-sweden

These robots use detectors and computerized image recognition to identify what rubbish can be dismantled to reuse or throw away its components. Doing this increases waste sorting efficiency and operational effectiveness by saving time, labor, and floor space in waste management plants.

Automation Through AI

Artificial intelligence can improve the waste management industry by providing solutions on how to optimize operations. These AI and neural networks can, among many things, use data to pinpoint the causes of waste within a particular sector. It then uses this information to configure the best possible model for a waste management company to reduce the amount of waste produced or give sustainable solutions on how to dispose of it.

For instance, an AI system can weigh food ingredients in a restaurant against usage frequency. Then, it can be used to determine how much product is needed to reduce waste and improve food waste management. Another AI application is through autonomous waste cleaning machines such as street sweepers. These processes are completed through automation and machine learning algorithms to minimize human involvement.

Smart Technology Products

It’s no secret that the internet of things is revolutionizing how people live. This constant connection of physical devices and goods to the internet and computer software also impacts waste management. Technology products such as smart bins, e-waste recycling kiosks, and waste level sensors have become commercially available for consumers, businesses, and high-density cities.

smart waste management

AI-based waste management systems can help in route optimization and waste disposal

These devices can process materials for recycling faster and eliminate the human error that comes with incorrect recycling. Sensors can detect the levels of waste in a dumpster or trashcan to inform waste management when bins need to be collected. Doing this maximizes resource use, leading to cleaner urban environments by preventing overflowing rubbish from polluting the surrounding area.

Data Analysis

Data analysis is key to utilizing digital technology in waste management optimization. Information collected through cloud services, smart technology, and AI can optimize waste management. It can be done by discovering patterns that lead to developing a more efficient business model, enhancing accuracy, and reducing costly errors.

For instance, data analysis can help identify better routes for refuse removal trucks or how to eliminate the amount of unrecyclable waste that mistakenly lands up in landfills. It can also calculate and estimate trends and the volume of waste produced within an area and evaluate how efficient the current management system is to make improvements where applicable.

Conclusion

Smart waste management technologies enables efficient waste management through computer software, data utilization, and artificial intelligence. These systems can be integrated and automated using smart devices that work together to improve operations such as waste sorting and waste level detection.

Furthermore, digital technology in waste management contributes to greater efficiency by using data analytics to discover trends and identify patterns that can be used to construct a better business model for the waste management company. In the end, although humans will always play a role in waste management, future technology will increasingly take over most of the labor involved.

Building Metaverse with Blockchain, VR and AR

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We all have become quite attached to the digital world as it not only provides a great medium to go beyond the orthodox methods but also helps us grow holistically in the scenario. The increased relevance of cryptocurrency trading in the digital market is just one facet of the overall trend. It is high time for the users to capitalize on the opportunity through the trustpedia.io/crypto/ to witness the pool of opportunities that is available today. The advent of blockchain technology, AR, and VR has only propelled such activities in the digital market. This blog aims to reflect on the idea of building the kind of Metaverse that people had anticipated while exceeding the expectations through the implementation of AR, VR and blockchain into it.

How to Build Metaverse with blockchain, VR, and AR

Unmatched and refined experience

The pace at which Metaverse is currently thriving is a spectacle in itself, as none of the emerging technologies have been able to spread as much impact as Metaverse did. This corroborates the fact that people are more drawn toward the kinds of technologies that reduce the gap between physical and virtual reality. The constant and unending activities on Metaverse are growing in relevance and so has been witnessed in other emerging technologies as well.

The blockchain, augmented reality, 5G networks, cloud computing, virtual reality as well as 3D content creation have become a staple in the digital ecosystem. Furthermore, the idea behind such disruptive technologies is also becoming clearer as to where the world and technology is headed. The convergence of such aerodynamic technologies is bringing a significant change in the way people socialize, interact, transact, entertain and work with each other.

The progress that lay ahead

The center of the conversation is primarily dominated by the immersive experience that Metaverse aims to facilitate for its users. In addition to this, AR and VR are going to play an indispensable part in this scenario. The specialty of AR to usher in the digital objects into the real world, which is accessed by the smart glasses and smartphones, is worth paying attention to.

Moreover, a large majority of experts believe that the overall potential that AR carries far outweighs what VR has to offer. The underlying reason for such a perception is that humans tend to grow weary of a completely virtual environment. They rather prefer to stay in a hybrid model of physical and virtual reality.

There is no denying the fact that prominent AR applications such as Google Maps’ function of finding the direction of Pokemon Go have been in the market for quite some time now. However, the wider adoption of such applications was somehow limited to an extent. It happened because of an increasing rate of privacy concerns, paucity of profitable applications, and increased cost of required devices.

Nonetheless, the hopes are high for reforming and restructuring such a scenario with the latest developments that have been witnessed in the blockchain ecosystem. AR clouds can underpin such AR applications, and NFTs can easily facilitate the users with unique ownership of the required digital assets. Also, the open-source creation of content can also serve the purpose quite seamlessly.

What is in store for the users?

3D digital twins and AR clouds have been successfully supplemented with information and virtual objects today. They are almost similar to the apps and websites as they incorporate the feature of data streaming. They also make use of other prominent geological features for delivering valuable AR content in the physical environments, and it is all done remotely. Organizations can easily leverage this golden opportunity of delivering refined experiences to their users through the growing prominence of AR. They can do so in an immersive fashion instead of making users search it on some internet browser or applications.

Among other digital assets, NFTs have also earned a great reputation in the Metaverse. This is indicated by the fact that leading brands like Walmart, Adidas, and Nike are currently dabbling in this technology. They aim to develop new and untapped business models for their respective digital play. NFTs are believed to have gained maximum traction in augmented reality.

5 Best Premier League Football Apps for 2022

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Football is as much about fans as it is about the players on the field. It is not easy being an ardent football fan. You have to be updated on all the news, transfer speculations, critical injuries, takeovers, and much more throughout the season. Thankfully, you have dozens of apps that meet all your needs of football fandom. Here are concise reviews of the 5 best Premier League Football Apps for 2022:

Best Premier League Football Apps

1. Buaksib – Live Football Scores, Results & News

For thousands of football fans, this ecosystem is one place to go for news, games, transfers, as well as in-depth articles. It has a great UI/UX, which means the interface is intuitive for the users. The design and aesthetics are appealing as well as convenient for you to know where everything is.

You can follow multiple teams and be updated on their upcoming games and livescore while not being perturbed by too many notifications as you can set your preferences. There are also detailed statistics for super enthusiasts. However, you cannot save articles for reading later, which we hope will be introduced soon.

2. Premier League – Official App

The official app of Premier League is found in almost every football fan during the season. You get regular updates, detailed statistics, and in-depth profiles of all the players who have played for a Premier League club. Besides features and news from the Premier League, you also get results, fixtures, and tables from Champions League, U18, and PL2. Further, this is the place where you get to watch some of the greatest moments in the history of the Premier League and in-action video highlights of the best players of the universe.

Finally, you also get to create your Fantasy Premier League team and enjoy the virtual game and its rewards with this app.

3. Sky Sports Football Score Centre

If you are interested in matches from Europe, Sky Sports Football Score Centre is the best app for you to follow. It provides exceptional coverage of all the top leagues in Europe, domestic, European, and international Cups, especially in England and Scotland. The news feed keeps you informed on news, takeovers, transfers, injuries, etc., all in one place. While, for the matches that are important to you, you can use the “My Scores” features which allows you to be updated on the matches that you choose.

4. BBC Sport – News & Live Scores

This BBC app does its job of providing news and updates pretty well. You get timely notifications, updates, scores, and everything you need to know during the season. However, if you try to tune to the commentary, you would be a bit disappointed as it drops out every 10 minutes or so. Also, many users experience bugs and problems with the interface. We hope these issues will be improved soon.

5. World Football League

You might not be expecting this here, but we know you install one or the other football video game every season. This is a 3D game where you play for all the players on the team and d everything on the field. The interface of the game is wonderful, and the game is highly enjoyable. The overall game resembles a lot with the Pro Evolution Soccer saga. Playable in several different modes, this game app is a must-try for Android users.