All posts tagged: LX Group

test jigsTesting is one of the most crucial parts in the manufacture of any product. It can also be expensive, and in many cases, faulty products can cost the company even more money in loss of customers and litigation. This is perhaps why in-line test jigs are so important. It just doesn’t make sense to wait until a product is fully assembled to test it. So, before a product is fully assembled, the inner workings and parts can be tested with a device (jig) to reduce the chances that it will fail. These devices make sure that each and every product on the line works 100%. Test jigs can be made to test a variety of things in any product, from television screens to microwave ovens, before it is fully assembled. There are many reasons why test jigs are important in electronics manufacturing, but these are perhaps the most compelling.

Reduce Production Time and Cost
Testing each and every product as it rolls out of the electronics manufacturing line can take time, but it can’t be avoided. In cases where a manufacturer produces hundreds or thousands of units in a day, timing is critical. If it took too long to test each and every product, it could hold up the line and delay production. Automatic test jigs can ensure that production flows smoothly by quickly weeding out any defective parts and products. They can also reduce costs, because it allows even non-technical people to perform the testing, thus saving on labour costs.

Suitable for High or Low Volume Output
Test jigs can be built and customised for any type of electronics manufacturing and almost any volume of output. They can be most helpful in mass production, especially when taking into account economies of scale. However, the great thing is, test jigs can also be modified to suit small to medium scale electronic manufacturers. These electronics manufacturers can also benefit from test jigs, without the increased cost of doing business at a large scale. In fact, many smaller operations rely on test jigs to keep costs down and quality tight.

Increased Quality
In the end, the customers are the ones who benefit most from test jigs and QA. Catching mistakes and defects early on ensures that they don’t make it into the box and into end-users’ hands. Electronics manufacturers want to ensure that they keep a stellar reputation when it comes to the quality of their products, and in-line test jigs can help them do that. Great products mean repeat customers and a better reputation in the industry.

LX is an award-winning electronics design company based in Sydney, Australia. LX services include full turnkey design, electronics, hardware, software and firmware design. LX specialises in embedded systems and wireless technologies design. www.lx-group.com.au

Published by LX Pty Ltd for itself and the LX Group of companies, including LX Design House, LX Solutions and LX Consulting, LX Innovations.

Muhammad AwaisLX Group Explores the Benefits of Test Jigs in Electronics Manufacturing

Telstra Business Awards

 

 

 

 

 

LX Group has been named as a Telstra Australian Business Awards NSW finalist in the MYOB Small Business Award category

Prestigious and coveted, the Awards program celebrates the country’s entrepreneurs and innovators. It offers a unique chance for small to medium businesses to be recognised for their hard work, commitment and of course, success.

The Awards operate in every state and territory and are open to all Australian small and medium businesses to enter, offering five Award categories.

In addition to promotional opportunities, businesses that enter the Telstra Australian Business Awards receive a 70-page report evaluating their business performance against independent benchmarking of core business indicators. The Business Health Check helps entrants to grow their business knowledge – growing their business tomorrow by knowing where it is today.

Simon Blyth, director and founder of LX, and his team received the finalist confirmation call during a recent business strategy and marketing meeting at their headquarters in Eveleigh Sydney. He said: ‘…we were all incredibly excited and honoured to find out we’d been selected as a finalist in the Telstra Business Awards, the calibre of the entrants was high and the criteria for the awards set the bar high’.

The winners of the Telstra Business Awards categories for New South Wales will be announced at the New South Wales Gala Dinner on 25 July 2012 at The Westin Hotel, Grand Ballroom.

To read more, please visit http://www.telstrabusinessawards.com/mobile/pressrelease.aspx, http://www.telstrabusinessawards.com/highlights/2012-finalists/nsw-145.aspx

–End–

Contact:
LX Group, Neala Fraser, Operations Manager,  Tel:  (02) 9209 4133  Email: [email protected]

More Information:
About LX Group, visit www.lx-group.com.au
About Telstra Business Awards, visit www.precedent.net/champions

 

Published by LX Group for itself and the LX Group of companies, including LX Design House, LX Solutions   and LX Consulting, LX Innovations.

Muhammad AwaisLX Finalist in Telstra Australian Business Awards 2012

How to contract electronic design workANY manufacturer or entrepreneur who has brought a product to market knows that just having a great idea is not enough. Progressing a product from a simple idea or customer demand to commercialisation is a long, uncertain one, and for those who do not have the engineering expertise, the path can be even more daunting.

Contract design firms can help smooth the road from concept to commercialisation, but as with any form of outsourcing, along with the opportunities come some potential pitfalls.

Electronics News talked to three electronics design contract firms, Successful Endeavours, LX Design House and RTD Circuit Design, for their perspective on how companies utilising their services can maximise their value for money, and perhaps revolutionise their product in the process.

What they do
Whether it’s an innovative start-up, entrepreneurial individual inventors who need a prototype, companies needing a next-generation iteration of an existing product, or anyone in-between, at the core of every product is a seed of an idea or need. But a special set of design and engineering skills are needed to nurture the seed and grow it into a real product.

But those skills are in short supply. “A lot of clients have let their technical capability go,” says Ray Keefe, owner and managing director of Melbourne-based Successful Endeavours. “Many don’t even know how to put a product specification together anymore.”

Industry statistics are hard to come by, but according to the Andrew Pollock of the Surface Mount & Circuit Board Association (SMCBA), figures held by the association indicate there are between 150 to 200 electronics design engineering companies in Australian industry, with around 30 percent of them being small contract operations.

The rest of the country’s design engineers are employed by larger organisations like BAE,Cochlear, Black Magic Design and CSIRO. Despite this good design base, the fact remains that a lot of development work (especially for global companies) has moved overseas. The migration of in-house engineering and product development expertise, especially from the small to medium enterprises (SME), has left gaps that electronic design contractors now attempt to fill.

The type of clients seeking contract design services can vary in size, capability and work requirements. Depending on how far along a they are in the product development process (for example, some have an idea of what the product needs to do; others may already have a schematic or partly working product), clients may subcontract part or the whole of the design process, from product specification to engineering analysis, schematic design, PCB layout, prototyping, software development, and post production support and revision.

However, outsourcing, while common, is not the only way contractors get involved with projects. According to Keefe, around a third of his company’s clients ask the contractor to augment the client’s existing design teams, to provide specialty skills. In the case of Successful Endeavours, that includes analogue design, low power design and embedded software.

Simon Blyth, director of LX Design House, says his company adopts a similar approach for a number of its clients because some cannot completely outsource their projects. “With some projects, there’s so much internal knowledge that it’s hard to write a spec and outsource it,” Blyth explained. “We go on site to act as a resource to help them complete the project and provide a specialist skill set.”

LX Design House engineersDue to the diversity of the projects contract design firms have to deal with, it’s a constant challenge for companies like LX Design House to find engineers with the right skills.

“I don’t mean [just] good engineers,” Blyth told Electronics News. “I mean engineers who are exceptionally passionate and exceptionally talented, at an elite level. As a design house, I don’t think we can afford to have mediocre engineers.

“In a design house, you are expected to go into any different company, or industry or technology, and be able to perform at a very high level. You really do need high calibre engineers to make that work.”
The quote
For many first-time clients, the quote is seen as a key part of the process, and some may pick and choose design contractors according to price.

Rob Leslie, manager of RTD Circuit Design, focuses on printed circuit board (PCB) layout services. His company also provides consulting on component selection and product manufacturability.

Leslie uses a spreadsheet to work out the amount of man hours a project will take, which he then multiplies with the hourly rate. The spreadsheet takes into account the difficulty involved in laying out the PCB (for example, a long and skinny format is harder to work with than a square or circular board with the microcontroller in the middle), placement and layering specifications, as well as constraints on things like track impedances.

Successful Endeavours understands that most customers see products as an investment, on which a return is expected. The firm offers hourly rates as an option, but derives 80 percent of its business from a fixed price for fixed deliverables model. Larger projects are usually broken up into phases, with the client buying one phase at a time, and estimated costs reviewed between phases.

According to Keefe, customers are fairly intolerant of price hikes, so contract design firms tend to be very assiduous when delivering quotes and estimates. That said, the price may be revised if during the course of the project, previously unknown factors and issues arise.

Crystal clear
Quote revisions and scope ‘creep’ are the stuff of project nightmares, and are usually symptoms of outsourced projects where the two parties have different notions of what the other wants. The solution is having clear communications from beginning to end. The responsibility for this lies with both the client and the contractor.

Contractors utilise various processes from the get go to ensure they are ‘on the same page’ as their clients. LX Design House, for example, has a formal specification procedure.

The firm draws up a separate document called an acceptance test criteria, based on the specification of a proposed product. This document clearly explains how the resulting product will be tested to ensure the objectives have been met. It is critical for a client to read, understand and agree to this document, as it will largely determine the final performance and function of their product.

“I believe that specs are … only half of the equation,” Blyth explains. “It’s only fair that once the client receives the product, if the product doesn’t meet the acceptance test criteria, then it’s something that we need to remedy.

“But if the product does meet the acceptance test criteria, and the client dreams up or realises there’s a new criteria that they want to add, that’s a change request,” he says. “It’s a fair line in the sand where both parties can agree if something is a change, or a prior requirement.”

Successful Endeavours applies a similar approach, with the specificity of the design work clearly demarcated according to stages, starting with the general user requirements progressing to product requirements (specifications and features), and engineering requirements, which guide the design team to the specific outcomes the product must deliver.

Any requests are documented and returned to the client for confirmation, and quotes are always accompanied with a clearly defined description of the work involved and the expected outcomes.

During the day-to-day workings of projects, all three contract design firms contacted by Electronics News emphasised the importance of regular face-to-face meetings, telephone calls, emails and other forms of communication to ensure both sides were fully aware of the progress of the work.

It’s clear that contracting a design job is much more than just writing a specification document and letting the contractor get on with it. Both sides must be engaged throughout the process to ensure everyone understands what needs to be done.

Equally important is for clients and design contractors to break down the ‘silo’ mentality, especially when it comes to internal and proprietary product information. If the design contractor is reputable and has signed a non-disclosure agreement (NDA), its engineers should be allowed to access the product information that is critical to the success of the project.

“Even if you’re subcontracting work, you’re essentially still part of the same team trying to achieve the same objective,” Blyth says.

Keefe agrees, but points to a larger challenge concerning the mindset of many companies “One of the issues for the Australian marketplace is that many companies are very insular,” he explains. “They don’t collaborate very well with other companies, and treat everyone with suspicion. This has really worked against the Australian industry.”

First to market
The concept of working as a team can yield tangible benefits for clients, not just in terms of the final product spec, but also from a business perspective. All three companies Electronics Newsspoke to have methodologies in place to accelerate the product development process.

For example, RTD Circuit Design utilises a quick circuit milling machine to engage in a rapid prototyping process. This is especially useful if the customer stipulates the use of a pre-manufactured enclosure without providing schematics.

“We make a dummy board on the machine with no tracks, just the profile and the critical mounting holes, solder some components on and make sure it fits on the box,” Leslie says. “That’s a way to make sure odd-shaped boards fit when they come back from the factory.”

LX Design House adopts an accelerated approach for clients who have a lower budget and prefer less documentation. “We can take the general needs of the client, deliver something quickly with a low document approach, and give it to them,” Blyth says. “They can play with it and see what they do and don’t like, then we do a new spin … and give them a quote for the changes.”

Getting the product into the customers’ hands during the development process is an effective way to short circuit issues that might come up later. While Successful Endeavours may modify a spare piece of hardware to create an early prototype, the same approach also applies to the software functionality of the product.

Circuit DesignAccording to Keefe, with the proliferation of low-power, high throughput processing chips, software has become a very important part of product development, with many functionalities moving from being hardware-based to being embedded in software. There’s no longer a clear division between software and hardware development: embedded developers are working with both.

Keefe says his firm uses PCs to create and run a complete emulation of the system, utilising high-level language to build a ‘shell’ on which the firmware or embedded software can run. Clients can then run development versions of the on-chip software on their computers and test for functionality. This can be a real life saver in some scenarios.

“One of the customers we worked with had nearly finished their circuit board design, so we were just developing software for them. We introduced this software methodology to them as part of the development process,” Keefe recalls.

“At the point where their PCB was about to be finalised, they received news from the supplier of the main processor that the component was now on 52 weeks lead time.

“They had a final PCB, but now needed to change the chip,” says Keefe. “Our process allowed us to keep developing and testing the software while they picked a new processor.

“Three months later, when they finally had a circuit board to run everything on, we had fully working software ready to load onto their system. That saved them quite a number of months in terms of time-to-market.”

Trend savvy
Because of the exposure that contract designers have to a wide variety of projects, they have a good idea about the latest technologies and capabilities on the market, and can bring a fresh perspective to a project.

While many businesses will have a fairly detailed idea of how a project should pan out, having an open mind to new ideas suggested by the contract design engineers could make the final product better, or reduce the cost of development.

“Companies come to without realising all of the options that are available to them. They can get the most value out of us by allowing us to introduce some of these ideas into the product early [in the schedule],” Keefe says.

One way to reduce the cost of the final product is to have a modern user interface. Products that use a lot of buttons and indicators LED as the interface can be expensive to manufacture, with a bulky and complex final design. “We are tending to move clients towards LCD-based interfaces with soft menus, because it makes it easier to give the user more information about the selections. It’s also more flexible to upgrade in the future,” Keefe says.

With an LCD-based interface, new features can be added in a software upgrade as additional menu options, whereas button-heavy interfaces might have to resort to complicated combination button presses.

Keefe cited another example of a company he is working with who had a development roadmap for their product, and an idea of what it should be capable of doing in three years’ time. A month into the project, he had a conversation with the client on its final goal.

“I asked them didn’t just aim for the final product now and they said because it was too much work, but I told them it’s no more work than what they’re already asking for, because there was a whole bunch of things they didn’t know [adding to the work load of the current project],” Keefe says.

“We’ve changed direction, and in about four weeks’ time, they’re going to have the product that they thought they couldn’t have for another three years,” he adds. “There’s a big advantage to being to market much earlier with the product you really wanted rather than going through a series of stages.”

If a contract design company can help differentiate a client’s product then it can result in increased sales. For example, in 2011, Successful Endeavours won the Industrial Electronics category ofElectronics News’ Future Awards for its work on the ABB CQ900R power systems controller.

The controller is commonly located on the top of poles in remote areas. Previous versions required power technicians to drive up to the pole, deploy a ladder, climb up to the unit with a laptop, and plug it in to interrogate the controller.

Recognising the possibilities afforded by low-power wireless for the application, the design contractor suggested the feature to ABB. “They asked how much it cost, and when we told them, it became a ‘no-brainer’,” Keefe told Electronics News. “The development and hardware costs were low, and it’s an up-sell option.”

The wireless feature allowed technicians to interact with the units from their vehicles, and became a winning function of the product helping win extra customers. ABB was also able to sell versions of the product with and without the wireless feature for increased market differentiation.

Contract designers are also privy to other trends that can help improve the design of products. For example, devices are increasingly being designed with self-test features which can reduce production line costs. Additionally, design contractors like LX Design House are seeing a shift from stand-alone devices to platforms which can be adapted to different functions.

“There is still a place for very specific product,” LX’s Blyth says. “But for some projects we take the approach of developing it as a platform that can be built upon in the future as opposed to just being a ‘one-hit’ wonder.”

Blyth emphasised the importance for design contractors to proactively invest in keeping up with changes. This not only helps with value adding, but can be a serious advantage when pitching for projects.

“We buy development kits or new technologies when they come out, so our guys get to [understand] them,” Blyth explains. “[So] we can speak meaningfully about it and have some experience … to take on the first project [that uses the technology].”

Transition to manufacturing
Since any successful product development cycle culminates in the manufacture of the device, design contractors place a lot of focus on manufacturability. Fortunately, new manufacturing capabilities and technologies such as 3D visualisation and increased machine precision have made designer’s job easier.

For example, RTD Circuit Design’s Rob Leslie says if need be, components can be placed at odd angles, and pick and place on both sides of the board is fairly normal these days.

“Back in the old days, components had to be loaded in boards by hand, and designers were asked to put diodes facing the same way round so the operator could check easily to make sure they’re right,” Leslie says. “Those things don’t apply anymore with machine placement and machine inspection.”

Like other design houses, Successful Endeavours employs a few basic and conservative design rules to accelerate and enhance an initial design.

Transition to manufacturing“We tend to work with larger track-to-track clearances and groundplane-to-track clearances than the industry average,” Keefe explains. “Unless the PCB design is really tight on space, its better to put more work into making sure it’s easy to make [rather than densely packed].”

While Keefe is knowledgeable about the capabilities of a number of different equipment manufacturers, he will consult with specific firms about design rules to suit their production processes. This includes considerations such as the smallest track size, clearances and SMD ‘neck-downs’ among others.

“A big constraint is called shadowing,” Keefe says, noting one typical manufacturability challenge. “For SMT boards, if you have a large, tall, or bulky component, there will be a shadow area around it where [manufacturers] don’t want us to place small flat components on the boards [because they won’t solder properly]. We will want to know what those rules are so we can lay out the board appropriately.”

Once manufacturability has been covered, testing and certification needs to be agreed. LX Design House’ Simon Blyth likens this process to insurance for the product.

“Everyone hates ‘homing pigeons’: you don’t want to get a product out there that’s going to come back,” Blyth says.

Testing is a three-stage process, starting with firmware, then standards and certifications, and finally environmental testing.

In the first stage, the software running on the unit is put through integration testing and automated test scripts to ensure proper functionality and useability. Exceptions may be included in the test procedure ensure proper error handling.

The hardware is then tested to ensure compliance with standards or certification requirements. If the device is destined for safety applications, the appropriate diligence studies must be performed. Similarly, the relevant industry standards must be tested for, as well as country-specific certifications.

The final stage, depending on the intended operating environment for the device, may involve tests for vibration, shock, thermal cycling, mean time between failure and UV exposure.

As product tests can be costly, testing usually takes place when the development process is at the material prototype stage, with few or no design changes remaining. Timing tests properly eliminates the need for re-testing.

Off-shoring
With constant communication and expertise such a critical part of product development, there’s a strong case for keeping the work with local contractors, even though design firms in regions like Asia may offer highly attractive pricing. Perhaps for this reason, work for local electronics design firms is by no means thin on the ground.

Australian contract designers have done enough rescue work for “botched” jobs to know that problems like fraud, delays or non-functional final products can have costs in lost opportunities far outweighing the initial price advantage.

However, local design companies are by no means hostile to the notion of helping clients with off-shoring the work. According to Blyth, for example, the focus at LX Design House is to ensure the client gets the best outcome, and if using an overseas design house is the solution, so be it.

“I would encourage someone who is looking to offshore to engage a local design house to help them manage the process or even ask the right question,” Blyth explains. “We’ll help them figure out whether it’s a good thing to do for a project or not. [But] there are some [mission-critical] projects that you just can’t send offshore.”

At the end of the day, effective communication and accountability is the key to successful development, whether it’s done in-house, outsourced, or off-shored.

But choosing the right contract electronics design engineer with the expertise and experience could be the difference between an ordinary product as originally specified, and a value-added, differentiated result which blows initial sales expectations out of the water.

http://www.electronicsnews.com.au/features/how-to-contract-electronic-design-work

LX is an award-winning electronics design company based in Sydney, Australia. LX services include full turnkey design, electronics, hardware, software and firmware design. LX specialises in embedded systems and wireless technologies design. www.lx-group.com.au

Muhammad AwaisHow to contract electronic design work

LX Electronic RobotIf you’ve had your eye on a career in the mining industry, which pays well and offers above average job security, here’s some advice. Brush up on your knowledge of robotics, electronics and automation. Even go a step further and obtain a relevant degree or certificate in the robotics and electronics field. The fact of the matter is simply that electronic robots are the next in the evolution of industry in general, and the in the mining industry specifically.

At What Cost?
Though improvements in excavation techniques have made mining such safer than it once was, it’s still an endevour inherent with hazards. Cave-ins, explosions and toxic gases are just a few of the better known dangers associated with mining, often with catastrophic results.

The fact that these dangers are so rampant means that it’s more difficult to attract the right people to the field, it’s harder to keep them and it costs a lot to insure them. By using electronic robots in some of the harder and more dangerous aspects of mining, the cost of all these three factors and more can be drastically reduced.

As old as the Hills?
Using electronic robots in mining is certainly not a new concept. Most mines in the world have a at least a few robots, and several mines have been using automated machinery for more than forty years. What’s new is the expanding roles robots can now take on, thanks to improvements in electronics and automation design. Just a few years ago, technology such as automated controls and virtual intelligence were not advanced enough to fully utilise robots in the roles they could best perform.

Remote Mining
The large mining firm Rio Tinto, which operates a substantial network of ore mines in Western Australia, is one of the early innovators in using electronic robots in their operation. In fact, the company envisions a time in the near future when the majority of their mining work will be performed by purpose designed and manufactured electronic robots. It is envisaged that many of these robots will be controlled from Rio Tinto’s headquarters in Perth, located hundreds of kilometers from the nearest mine. Though humans will still need to be present on site to deal with unforeseen occurrences, the on-site staff will be drastically reduced and that will translate into reduced operating costs. In addition, onsite staff will be less likely to be exposed to extreme situations; instead electronic robots will take on this role. Dig Safer.

Currently, Rio Tinto operates a small fleet of robotic trucks. The trucks are controlled by several forms of electronic technology that allows them to be aware of their environment. For general navigation, the trucks are fitted with GPS. For obstacle detection, they have laser rangefinders and avoidance radars. Vehicles fitted with the same technology currently traverse the highways of California as part of Google’s Streetview project. So far, no accidents can be attributed to the robotic vehicles.

Electronic Robots in the 21st Century
Rio Tinto is also developing a variety of electronic robotic technology to be used deep inside the mine. This includes robotic drilling devices, robotic blasting machinery and several other items to replace human labour in the most dangerous part of mining operations. Plans are already underway to increase the fleet of robotic trucks from around fifteen to well over one hundred. Dig Faster.

For modern life to function as we expect, extensive mining operations are essential. But mining has always been dangerous, expensive, labour-intensive work. As mineral deposits are depleted, the work involved becomes even more difficult. Often the mines have to be expanded thousands of feet deeper to continue to find deposits. Dig Deeper.

Electronic robots are the logical step in ensuring that mine operators can continue to extract the needed minerals without drastically increasing the costs and risks associated with the industry. If mining work is in your future plans, it’s time to become friendly with and knowledgeable about electronic robotic applications. Welcome to the 21st Century!

LX is an award-winning electronics design company based in Sydney, Australia. LX services include full turnkey design, electronics, hardware, software and firmware design. LX specialises in embedded systems and wireless technologies design. www.lx-group.com.au

Published by LX Pty Ltd for itself and the LX Group of companies, including LX Design House, LX Solutions and LX Consulting, LX Innovations.

Muhammad AwaisRobotics in Mining – Dig Deeper, Dig Faster, Dig Safer

rcmThe ACMA (Australian Communications and Media Authority) recently announced changes to the current compliance marks used by suppliers on all telecommunications, radio communications, and other devices that fall under their jurisdiction, as per the Telecommunications Act 1997 and the Radiocommunications Act 1992.

The previous marks, C-Tick, A-Tick and RCM, will now be united under one mark: RCM. The two other marks, C-tick and A-tick (used for telecommunications and radio communications, respectively) will be discontinued. The changes will be made official by March 1, 2013, in conjunction with the new Electrical Equipment Safety System (EEES) to be implemented on the same day.

It was previously reported in the latter half of 2011 that such changes would be taking place. The merging of the marks was pursued by the agency since many devices are converging in function, and various requirements are overlapping, making compliance a long, repetitive process for many suppliers. It is also hoped that this less complicated process will lower costs for both the suppliers and the ACMA and other compliance agencies.

What You Need to Know
For new suppliers entering the market after the said date, they are still required to comply with all ACMA regulatory standards to be able to use the new RCM market. They will be registered in the new ACMA database.

For previous manufacturers and importers, there will be a transition period between 2013 and 2016, particularly for those who have already been registered on the supplier database before March 1, 2013. These suppliers have this changeover period to file for registration in the new database. The C-tick and A-tick labels may be used until March 1, 2016.

Information for this article was obtained from http://www.acma.gov.au/WEB/STANDARD/pc=PC_410297. LX takes no responsibility for the accuracy of this information or the article, as it is merely a guide for readers.

LX is an award-winning electronics design company based in Sydney, Australia. LX services include full turnkey design, electronics, hardware, software and firmware design. LX specialises in embedded systems and wireless technologies design. www.lx-group.com.au

Published by LX Pty Ltd for itself and the LX Group of companies, including LX Design House, LX Solutions and LX Consulting, LX Innovations

Muhammad AwaisPrevious ACMA Compliance Marks Merging Into A Single Compliance Mark

LX Future ElectronicsConsider for a moment the rapid rate at which technology has advanced over the last ten years. Computers have made the switch from cumbersome desktops to lightweight laptops, cellular telephones no longer simply make calls but can actually mimic the performance of desktop computers of a decade ago, and now, even the laptop is in danger of being cast in the shadow of even more powerful portable devices including touch-screen tablet computers.

Interface Revolution
Now consider this. As demand for these products grows and companies rush to deliver the next great innovation, the pace at which advances can occur simply cannot continue if the concepts do not change. What this means in the field of computing and electronics is that the processing power no longer offers great innovation just by gaining a little speed and computing ability. Users are already at a point where they don’t know what to do with the power they have at their fingertips. What is needed is a new direction that will offer greater utilisation of the power available today. Enter the decade of the electronic interface revolution.

GUI to You
An interface is anything that allows a user to interact with a tool. Perhaps the most popular interface is the Windows Operating System. Windows, and its Graphical User Interface (GUI), allowed non-expert users to easily interact with computers for the first time, and led to the revolution in computing that continues today. The next step in the evolution of electronic and computer interfaces are tools that do not require direct input from the user but rather sense a user’s actions and translate that into commands.

Take as an example the Microsoft Kinect system for its XBox game console. The Kinect basically consists of an array of sensors, including cameras that can see what a user is doing physically and interpret that into computer commands. Other game console makers have been paying attention and most either have a similar product available or in the works, and most industry experts agree that the concept of the joystick and keypad controllers will soon be a distant nostalgic memory.

Sensor This
If you have a smartphone, you also have an example of these “hidden” interface sensors. By simply rotating your phone or tablet computer 90 degrees in either direction, you easily change the view from portrait to landscape. This requires no thought or specific action on the user’s part other than the natural motion of changing the object’s orientation. A gyroscopic sensor in the device senses the movement and reacts accordingly. The same interface sensor also makes many other features possible such as circuitry than can automatically detect that a person has fallen simply from the phone’s acceleration. This is the new world of medical alert products.

Manufacturing Power
There are two reasons why innovations in hidden interfaces continue to grow rapidly. One, as has already been touched upon, is that electronics manufacturers have reached a point where electronic processing power exceeds the device’s other capabilities. The second, and no less important reason, is that users can’t get enough. Devices can’t simply be faster and more powerful; they have to do more and do things never before done. Since it’s consumers that drive sales and thus product development, this will be the focus.

A Battery’s Story
Another area where interface sensors will help electronic functionality is in battery consumption. Obviously the best use of battery life occurs when the device is in a sleep or low-power state when not in use. The problem is weighing convenience with practicality. A new class of interface sensors can quickly determine when the device is about to be used and power it up without the user’s input. This will make the devices both quicker to power on when needed and power down when they are not. Anyone who works with portable electronic devices knows what an important issue battery life is.

Sensors also work well in controlling displays. Light sensors easily adjust screen brightness according to ambient light and glare. This makes it easier to view a display and also plays a pivotal role in battery conservation by automatically dimming power-hungry displays when extreme brightness isn’t needed.

Light Years
In the next few years, users can certainly expect to see an array of new interface sensors in their electronic devices, as well as novel uses for devices such as cameras that are already pervasive. By the time the iPhone 7 comes out, you can count on a wide array of gyroscopes, light sensors, infrared beams, motion-detecting and recognising cameras and many other components that will allow the next generations of electronics to offer a user experience unlike anything we currently know.

 

LX is an award-winning electronics design company based in Sydney, Australia. LX services include full turnkey design, electronics, hardware, software and firmware design. LX specialises in embedded systems and wireless technologies design. www.lx-group.com.au

Published by LX Pty Ltd for itself and the LX Group of companies, including LX Design House, LX Solutions and LX Consulting, LX Innovations.

Muhammad AwaisWill Future Electronics Read Your Mind?

NATIONAL SMALL BUSINESS CHAMPION!

2012 AUSTRALIAN SMALL BUSINESS CHAMPION AWARDSLX  Design  House from Everleigh has been named Champion Information Technology at the Australian Small Business Champion Gala Dinner and Awards Ceremony held on Saturday 21st April at the westin Sydney.

The Australian Small Business Champion Awards is the only national program of its kind to recognise the achievements and performances of small businesses.

38 small business categories including two entrepreneur categories and two business growth categories were presented on the night. Award recipients were delighted to receive their gold Champion statuette, certificate and national recognition. Having their passion, dedication, commitment and hard work celebrated amongst their peers was an experience they will never forget.

Small businesses from across Australia delivered an impressive array of entries, with winners representing a broad range of industries from all states and territories.

One of the aims of the Small Business Champion Awards is to encourage excellence. “The Small Business Champion Awards is a celebration of small business and its contribution to the Australian way of life”, said Steve Loe, Managing Director of Precedent Productions and founder of the awards. “I congratulate all the winners and finalists who entered the awards. Every business has displayed passion, innovation and entrepreneurial spirit, ” said Mr. Loe.

The Awards are proudly presented by Precedent Productions, a small business in its own right and supported by the Associate Sponsors Castaway Financial Forecasting Systems, Growth By Design, Goalstribe, Defence Force – Defence Reserves Support, Success Women’s Network and St Dalfour.

 

– Ends Media Release –

 

 

Contact:                 Precedent Productions

                   T: 02 8577 5060

                               E: [email protected]

Muhammad Awais2012 AUSTRALIAN SMALL BUSINESS CHAMPION AWARDS

futuristic carsThe idea of driverless cars is nearly as old as the car itself. Whether speaking of Night Ryder’s Kit or even of more futuristic flying versions seen in the Jetsons, the concept of leaving the driving to the car is deeply ingrained in us. For years, several companies and universities have been hard at work on the technology required to actually bring the dream into reality. Now, as we are well into the second decade of the 21st century, the dream is getting closer to that point.

Pilotless Planes? Why not Driverless Cars?
For the past several years, self-driving cars and other forms of transportation have been at the forefront of transportation technology. If it’s possible for a Boeing 747 to fly , land  and take off itself, why then should it be such a stretch of the imagination that a simple car could do the same? The U.S. military maintains fleets of unmanned aerial vehicles (UAV) and very few accidents involving the aircraft have been reported – many fewer, in fact, than those of piloted military aircraft. Of course, the skies are much less crowded than say the freeways of Southern California, but the urban terrain that the planes fly over is just as congested.

To the Moon and Beyond!
Universities, corporations and the United States military have all developed and sponsored contests utilising driverless vehicles. Time after time, these vehicles have successfully navigated over hundreds of miles of terrain without the need for a human driver. Teams that complete the various tasks of the competition the quickest are awarded with prize money to be used to further advance the electronic sensor and navigation technology. NASA has also been closely watching the developments as they plan for an eventual exploration of Mars and a return to the Moon.

Google What?
While many companies, both in the automotive industry as well as technology field, have been developing this type of electronic technology for many years, one company has recently taken the forefront of putting these technological wonders into full-scale use. The Internet giant Google Inc. has been actively testing a fleet of driverless vehicles on the streets of California. Google’s hope is to eventually unleash a mega-fleet of these automated vehicles to take over the day-to-day work of its Google Maps Street View initiative. Currently, Google employs hundreds of drivers who navigate streets and roads in countries around the world, taking photos of the scenery along the way. This is then incorporated into the Google Maps service, allowing viewers to see an actual view of the area. In the near future, the driverless cars could help increase the frequency at which these photos and videos are updated, leading to a better Google Street View product.

License and Registration Please
As things currently stand as far as driverless car laws and regulations are concerned, driverless vehicles cannot operate independently. However, the United States Department of Transportation has authorised the cars to operate on public roadways as long as a human driver is available to take over in case of an emergency. On any given day, dozens of Google’s prototype fleet can be seen driving the streets and freeways of the San Francisco Bay area. After many months of testing, the vehicles have only been involved in one reported accident. While driving down a busy San Francisco street, a cyclist darted in front of one of the cars. The automated system sensed the cyclist and, as a human driver would do, it quickly applied the brakes, avoiding the careless cyclist. Unfortunately, the car following the Google automated car was following too closely and collided with the car’s rear bumper. There were no injuries, and the driverless car was deemed not to be at fault. 

Conclusion
As testing continues and the safety and efficiency of electronically controlled cars is proven, regulations will change, eventually leading to their use on public streets totally independently, that is, without humans onboard. The technology is here and has been for several years. What remains is to prove its safety and allow people to get comfortable with the idea of self-controlled automobiles. In a few years, it’s very possible that your take-out food could be delivered to your doorstep without a delivery driver. To be facetious, the only problem this presents is the question of how much to tip the car. Indeed, we are seeing the future of driving, and the driver’s seat is empty.

LX is an award-winning electronics design company based in Sydney, Australia. LX services include full turnkey design, electronics, hardware, software and firmware design. LX specialises in embedded systems and wireless technologies design. www.lx-group.com.au

Published by LX Pty Ltd for itself and the LX Group of companies, including LX Design House, LX Solutions and LX Consulting, LX Innovations.

Muhammad AwaisThe Future of Cars

LX  Australian Small Business Champion Awards 2012 WinnerLX Design House has been recognised for its business innovation, passion and entrepreneurial prowess by being selected as a winner in the Australian Small Business Champion Awards (ASBC) 2012.

LX was named Australian Small Business Champion Entrepreneur in the Information Technology category. http://65.182.104.91/champions/forms/form_this_years_winners.aspx

Criteria to become a successful champion finalist included past business achievements, positive business culture, sustainability and future business vision.

The extraordinary calibre of this year’s finalists set the bar high and Simon Blyth, founder and director of LX, said the team at LX were “…thrilled to receive the ASBC award..it’s really great to be part of an Australian event that recognises the importance of business innovation in the fast-paced world of information technology.”

ASBC Award acceptance speech             Luke & Danielle with ASBC Award

 

LX Group is a multi-award-winning Australian electronics design house specialising in wireless and low-power electronics designs. LX’s motto, “we take your concept and make it a reality”, reflects its passion for innovative electronic product development.

The Australian Small Business Champion Awards is a prestigious and comprehensive program that supports and recognises small businesses across Australia. The awards are the pinnacle of business success. They recognise the values associated with successful businesses.

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Contact:
LX Group, Neala Fraser, Operations Manager, Tel: (02) 9209 4133 Email: [email protected]

More Information:
About LX Group, visit www.lx-group.com.au
About Australian Small Business Champion Awards, visit www.precedent.net/champions

Published by LX Group for itself and the LX Group of companies, including LX Design House, LX Solutions and LX Consulting, LX Innovations.

Muhammad AwaisLX Australian Small Business Champion Awards 2012 Winner

Medical robots performing tasks on a molecular levelNanomachines refer to robots that can perform tasks on a molecular level. The prefix “nano” describes the nanometer dimensions of these machines. They have just been introduced recently although they have been a subject of science fiction for a long time. Nanomachines are now quickly being integrated into products and industries and are projected to possibly decipher the human genome, create stronger and lighter body armor than Kevlar and many other applications in the future. With their limitless use, nanomachines are said to be the most profitable technology of this century and beyond.

The human body is filled with nanomachines, arguably making up most of its mass. A cell might be considered a nanomachine because it consists of nanoscale components. An even more obvious nanomachine would be ribosomes, molecular factories that synthesize proteins. Ribosomes are about 20 nanometers in diameter. Other biological nanomachines would be bacteria and viruses.

Applications

Health
Nanomachines can easily fit inside human cells as they are 2.5 times smaller than DNA. This means they can perform tasks such as repairing damaged tissues, destroying cancer cells or making nanoscale incisions. A nanomachine bandage that soaks into human skin and repair tissue damages brought by infection, wounds or abrasions is already available. Nanomachines have also made delivering important DNA elements to damaged cells possible and has resulted in great leaps in disease control, chronic disorder prevention, as well as reversal of various mental and physical disorders.

Besides the help it gives in bringing good health to people, nanomachines are also poised to provide biological enhancements like additional muscle tissue, stronger bones, and better senses, as well as to alter the physical makeup of human cells. What this means is that scientists could change a person’s eye color, skin color, hair color, height and weight at will. Even gender can be changed if scientists perfected the map of the human genome with the help of nanomachines. Likewise, nanomachines will soon allow cloning to be more practical and efficient and may provide a solution to the problems that cryogenics faces.

Food
Unknown to many, nanomachines have also made their mark in the food industry. These super tiny machines have the ability to alter the characteristics of food just like they can change the characteristics of human cells. Nanomachines can change the taste, texture, appearance, and most importantly, the nutrition that can be acquired from any food.

Crime
Nanomachines have helped law enforcement in Britain and other places around the world catch shoplifters by tracking nanosized RFID chips or bar codes that can only be deactivated upon purchase. Retail outlets in Europe, and now some in the United States, have recently been including these items in their products because shoplifters cannot see or deactivate them.

Sports
Nanomachines allow sports equipment manufacturers to create products that are much more flexible, durable, shock-resistant, and stronger than similar products. Athletes will soon have a much more diverse assortment of gear as nanomachines will allow many new technologies to arise, thereby allowing the development of new sports altogether.

Appliances
Nanomachines are also found in common appliances like refrigerators and washing machines. Billions of nanosized particles of colloidal silver (an antibacterial and antimicrobial solution) are continuously released inside the mentioned appliances for sterilizing their contents. The colloidal silver prevents germs and bacteria from building up on food or clothes. In fact, the washing machines that use silver nanoparticles are capable of keeping clothes sterile for up to one month after each wash. In addition to appliances, several cleansers that use colloidal silver have been introduced to the market.

Conclusion
Amidst these applications, nanomachines are still in the research stage. If nanomachines could be improved to become self-replicating, or could be built in large quantities using self-assembly, or programmed into cooperating to create objects, they could be formed into a custom manufacturing system with far more capabilities than anything in existence today.

LX is an award-winning electronics design company based in Sydney, Australia. LX services include full turnkey design, electronics, hardware, software and firmware design. LX specialises in embedded systems and wireless technologies design. www.lx-group.com.au

Published by LX Pty Ltd for itself and the LX Group of companies, including LX Design House, LX Solutions and LX Consulting, LX Innovations.

Muhammad AwaisWhat are Nanomachines?