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03 Apr / 2017

European Coatings Show this Week

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This week sees Labman exhibiting at the ever-popular European Coatings Show in Nuremberg, Germany. This year more than 1,100 exhibitors, the most ever at the show, will be showcasing the very latest in coating technologies. Beginning tomorrow, April 4th until Thursday April 6th, the show is a major event in the industry’s calendar, and our team have been hard at work over the past few weeks preparing for the exhibition. After putting the finishing touches to the stand today, our team in Nuremberg will be ready to showcase Labman’s capabilities to the tens of thousands of visitors that are expected to attend this amazing show.

Our stand will focus primarily on our TIDAS system, which was showcased to great effect last week at Coatings Korea by our distribution partners in the region, BLTec. This automated system, originally developed with Huntsman over 15 years ago, uses a Hegman gauge to measure the fineness of grind of samples, especially paint. TIDAS completely removes the objectivity and variability of results from manual operators, allowing companies with multiple users or even multiple sites to produce easily repeatable results.

TIDAS Automated Fineness of Grind Hegman Gauge

If you are attending the show in Nuremberg this week, please stop by our stand in Hall 5 (Stand 5-131). Our representatives, Jo Batey, Simon Parker and Andy Brown, will be very happy to meet you and discuss your automation requirements, whether that be TIDAS or a custom robotic system.

Jo Batey Simon Parker Andy Brown ECS 2017 European Coatings Show

We’re excited to announce that Labman’s distribution partner in South Korea, BLTec, are exhibiting TIDAS, our automated fineness of grind system, at Coatings Korea this week. The show, which runs for three days from the 29th to the 31st March, attracts exhibitors and visitors from across the world and runs in the amazing Songdo Convensia in Incheon, North East Korea. If you are planning to visit the show, you can find BLTec at stand G215 – they will be happy to give you a demonstration of TIDAS’s amazing capabilities.

Songdo Convensia Labman Automation

TIDAS automates fineness of grind testing, removing operator variation and ensuring easily reproducible results when testing samples. Originally developed with Huntsman, and now in its fourth version, TIDAS operates in the vast majority of the major paint and coatings manufacturers right across the world. It works with a wide range of samples and grind gauges, and features super sharp imaging, which is interrogated by a custom algorithm to generate a sample rating.

TIDAS Automated Fineness of Grind Hegman Gauge

Our presence at this year’s Coatings Korea exhibition highlights TIDAS’s ever growing global reach and importance in the world of coatings. Find out more about TIDAS now.

Labman Coatin Korea TIDAS

At Labman, we also spend time developing personal projects with the company’s support. One such project is a full RGB (Red-Green-Blue) laser show, capable of displaying vector-based text, static images, and ‘vector-frames’ animated displays, for example an analogue clock, a bird with flapping wings, or a rotating LABMAN logo. The laser show made its public appearance at our annual company summer party, Labfest, in August 2016, alongside an electronic test-your-strength machine and a robotic cocktail system.

How does it Work?

First, the easiest bit – the ‘laser head’. We bought an off-the-shelf 900mW 25000 points-per-second RGB stage lighting laser projector. The 900mW is not split in equal proportions, and actually comprises of 400mW Red, 100mW Green, and 400mW Blue. This is to counter the fact that the ‘spectral response’ of the human eye is four times more sensitive to the green wavelength, compared to the red and blue.

The unit has an International Laser Display Association (ILDA) compliant 25-way D-connector interface on its rear. This connector ‘breaks out’ analogue signalling for controlling the projector’s X and Y high-speed galvanometer-mirrors (galvos). This moves the beam, the safety inputs, and also the signalling that ‘beam switches’ (turns on and off) the red, green and blue lasers. This means that the laser either ‘draws’ a visible line with the beam on, or an invisible ‘retrace line’ to move between vector points with the beam switched off.

Now, the harder bit! To keep the beam moving to form an image, the laser projector requires a continuous stream of X, Y & blanking analogue signals, updated in real time 25000 times a second. To do this, I built my own custom show-controller, which is connected to the ILDA port of the projector.

The show-card is based around two main parts: A Raspberry Pi 3B quad core Linux single-board-computer, with 7″ touch screen (this is the brains behind it all – the ‘show controller’ board); and a propeller micro-controller-based output board (spits the signals out to the real world – the ILDA output card).

Show Board

This Raspberry Pi board runs a multi-threaded Python/Tk application that handles the higher level Graphical User Interface to manage the laser show. It also handles the lower level playlist scheduling, reading of vector files, packing of the data for transmission, and streaming the packed data over a high-speed USB serial port. The final project is about 4300 lines of code, and imports roughly 20 inbuilt Python libraries.

Raspberry Pi Embedded Laser Display

The application is fully featured, and allows the user to ‘drag-and-drop’, create, edit, re-order playlists, load & save playlists to file, tool-tips for user guidance, and a host of other features that help to give the feel of standard media player software. Additionally, the software has a graphical window, which can be used for effect pre-preview before adding to a playlist, or for real-time mimicking of the projector output.

Analog Output Card

The Propeller is a more traditional stand-alone micro-controller which is programmed in ‘SPIN’ and Assembler. Unlike the Raspberry Pi, it doesn’t have an operating system, which makes it more suited to real-time, time-critical tasks.

This board handles communications flow and arbitration via the 2Mbps USB serial port, receiving and unpacking vector data packets sent from the Raspberry Pi via USB. It also buffers the vector data points to generate the continuous X, Y & RGB blanking signals, at a constant rate, and without interruption, to the laser projector.

Analogue Output Card Raspberry Pi

For the analogue output stages, I used SPI Analogue-to-Digital convertors, with a 5V to +/- 12 DC-DC convertor for op-amp power, and a handful of op-amps, to make ‘correction amp’ stages. These convert the 0 to 3.3V single-ended D-to-A analogue to balanced differential analogue, compliant with ILDA specifications.

Of course the ILDA output card wouldn’t be complete without safety features. The board provides relay contact poles for the interlock inputs on the ILDA header to shut the beam off it power fails to the board, or if communication is lost, stalls or arbitration is lost. This is a ‘fail-safe’ which prevents the beam from being left on at a single point, which could be potentially hazardous.

 


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