Product showcase


solutions for an increasingly broad range of treatments. Today, ultrasound imaging is not only a diagnostic tool. Ultrasound scanners are now also being used with other imaging, surgical and therapeutic devices to improve diagnosis and treatment. Telemed offers a range of ultrasound solutions, from ready-to-market to custom- designed options. Telemed hardware


includes various beamformers, customisable ultrasound keyboards and many different ultrasound transducers. Ultrasound beamformers are capable of controlling linear, convex and phased array transducers. Each beamformer module includes front-end transmit/receive circuitry, power supply and a signal processing module. It is possible to interface with PCs using a USB 2.0 controller. Imaging modes include B, M, 4B (standard and colour), power, pulse wave and continuous wave (probe and system-dependent). Telemed’s software development kit (SDK), provided with the system, offers an easy and fast way to develop a customised user interface for stand-alone imaging systems or application- specific devices, or to add ultrasound capabilities to existing equipment. The SDK is a set of C++ libraries providing user access to most system parameters. Headquartered in Vilnius, Lithuania, Telemed has been designing and manufacturing ultrasound components and complete scanners since 1992.


Production quality is confirmed by an ISO/EN 13485 quality system and US FDA 510k-cleared products.


Telemed www.pcultrasound.com


164


The future of extensometry


Vector uses non-contact, high- accuracy measurement techniques.


Tinius Olsen introduces Vector, a step change in extensometer technology capable of replacing multiple contacting and non- contacting sensors with a single, industry specific instrument. Integrating adaptive AI capabilities with optical hardware, Vector reduces test throughput times and complexity, automating the process of capturing strain, improving measurement accuracy, data consistency and operator safety. Vector eliminates the challenges of traditional contacting and non- contacting extensometers by utilising intelligent non-contact, high-accuracy measurement techniques to: ■ increase testing efficiency by reducing the need for operator intervention


■ measure strain through failure, however violent


■ measure simultaneously longitudinally and transverse


■ test in harsh environments or challenging light conditions


■ test highly fragile specimens ■ avoid introducing stress concentrations, such as damage from knife- edge contact


■ improve test success rate by eliminating contact- point slippage


■ eliminate the cost of consumable parts


■ on larger test frames, locate below the moving member used to apply the test force viewing the test specimen across the test zone


Vector is delivered pre- configured and both instrument setup and changes to accommodate varying gauge lengths, sizes and profile test specimens are eliminated. On-board processing delivers seamless and simple integration and eliminates all external control platforms. Clear and simple visual status feedback and laser alignment guides reduce operator training requirements and significantly improve test throughput. By automating specimen detection, Vector speeds up and simplifies test throughput. Supporting multiple gauge lengths, Vector removes the need for multiple, traditional sensors. A large working optical volume also provides a forgiving operating envelope, making Vector suitable for use on almost any test frame. On-board AI enables a zero-touch operation, with dynamic response to different specimen appearance and behaviour as well as switching seamlessly between test and validation mode. Vector’s smart design means there is no need to alter the setup for specimens of different sizes, shapes and thicknesses. Full integration into UTM control software removes the need for an external interface and simplifies the user experience. Vector represents a


significantly reduced capital investment compared to incumbent video-type extensometers, while also offering a comparable lifetime cost to that of a single mechanical clip-on extensometer system.


Tinius Olsen www.tiniusolsen.com


High-quality electronic


manufacturing and design


TRICOR Systems, a US full-


TRICOR Systems provides award- winning contract manufacturing.


service contract manufacturer, is an FDA-registered, ISO 9001:2015, AS9100D and ISO 13485:2016-certified electronic design and medical manufacturing facility. Founded in 1976, TRICOR has successfully provided high- quality products and services to the medical marketplace. TRICOR possesses the expertise to design, develop, verify and manufacture Class I, II and III medical devices. It offers a wide variety of services, ranging from short- run prototypes and pre- production units to long-range production. Value-added services include experienced engineering staff to develop electromechanical and electro- optical equipment, from concept to full production; hardware and software design; packaging; qualification testing; and printed circuit board layout, from through-hole to surface-mount. Whether a client is looking for a complete turnkey solution or is just supplementing its internal capabilities, TRICOR has the background and flexibility to meet every requirement. TRICOR offers customers the opportunity to confidently outsource project needs.


TRICOR Systems www.tricor-systems.com


Medical Device Developments / www.nsmedicaldevices.com


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