Products

Hexatronic has a long experience in design and manufacturing of multi-fiber cable assemblies equipped with circular connectors for use in demanding applications within the aerospace and defense industry. We choose connector style according to your technical specification or we will help you to design the whole fiber optic link according to the system configuration. In our cable assemblies we use fiber optic termini in COTS (Commercial of the shelf) or MIL-qualified configuration. Commonly used connector styles for defence applications: - ARINC 801, 1.25mm termini - GHD 38999, 1.25mm termini - MIL-DTL-38999, M29504/4 & /5 termini - MIL-PRF-28876, M29504/14 & /15 termini Utilising our wide range of harsh environment fibre-optic components, Hexatronic is able to offer unsurpassed flexibility in the design and supply of ruggedised cable assemblies. Hexatronic offers build-to-print and harness design services, and can advise on the best fiber optic interconnection solution for a given environment. All assemblies are manufactured to the highest quality at our factory, supplied with a test report and are fully traceable under our ISO 9001:2015 procedures. Our services: - Component selection - Harness design - Schematic/Layout production - First Article Inspection Reports - Maintainability/Serviceability/Repair - Whole life cost

Multicore cables assembly crafted to your requirements. We are ready to assist with selecting conductors, insulation types, and shielding options to create a product that fits your project from the beginning. Our multicore cables are versatile, supporting a variety of sectors like data centers and industrial automation, delivering the flexibility and reliability needed for modern connectivity demands. These cables are processed to meet your specific needs, whether as standalone cables or part of a complete wiring harness providing a compact design that saves space and simplifies cable management.

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High-performance conformal coating As electronics continually become embedded into an endless variety of products, the need for high-precision conformal coating is greater than ever before. Automate complex coating processes, monitor process parameters and switch spray patterns without interruption. The MYC50 gives you powerful, software driven process flows that ensure years of productivity for even the most complex printed circuit boards. The MYSmart series MYC50 in-line conformal coating platform combines high-accuracy edge definition with advanced feedback systems. A wide range of process parameters can be monitored enabling high quality output. Options such as fan width control, flow monitoring, heated fluid systems and barcode readers are a few examples of process control enhancements that are possible. Wherever ruggedized electronics are required, the MYC50 helps to prevent material waste while ensuring highly controlled coating film thickness, coating area and process speed.

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- Ammeter accuracy: Up to 0.025% + 8 nA; up to 18 bits - Arbitrary waveform generator function: Bandwidth up to 100 kHz, output power up to 500 W - Data logger function: Measurement interval from 20 µs to 60 seconds, with a maximum of 50,000 readings per second - Scope function: Digitizes voltage and current up to 200 kHz, 512 kpts; up to 18 bits - Voltmeter accuracy: Up to 0.025% + 50 µV; up to 18 bits

Product data is key information for safety, identification and certification of the finished product. We offer data plates made of materials ideally suited to the conditions in which they will be used, in accordance with the customer's material specification. Nameplates are numerous markings in the energy, automotive, rail, aviation and marine industries. They come in the form of metal emblems containing key data, anodized identification plates, or aluminum emblems with serial numbers of devices, which manufacturers place in their construction. Our plates can be equipped with an adhesive layer matched to the substrate or with mounting holes.

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NAVION® is a Dewesoft inertial navigation system platform for accurate position, orientation, velocity, and acceleration measurements. Measurements are estimated by a Kalman-based algorithm that combines GNSS positioning with the measurements provided by a MEMS-based inertial measurement unit. NAVION® is the world's high-performance inertial navigation system of size and weight. It is bundled with a dual antenna for heading and RTK correction configuration which improves positioning accuracy down to 1 cm. Award-winning DewesoftX software included.

Non-destructive testing Non-destructive testing (NDT) is an important method for inspecting and ensuring the quality of materials and structures without causing damage. By using methods such as Penetrant Testing (PT) and Magnetic Particle Testing (MT), we can effectively detect surface defects such as cracks, pores, or lack of fusion on or just below the surface of welds, hardened parts, forged stock and machined materials. These methods are particularly useful for products and structures with high safety requirements, where even small defects may have serious consequences. Penetrant Testing (PT) Penetrant Testing (PT) is a method where a coloured or fluorescent liquid is applied to the surface of the object. The liquid penetrates into cracks or pores and becomes visible under UV light or with the help of a contrast colour. PT is particularly effective at finding surface defects on non-porous materials such as metal, plastic and ceramics. It is a fast and cost-effective method for identifying surface defects, making it ideal for inspecting, for example, welds and other surfaces critical to the durability of the product. Magnetic Particle Testing (MT) Magnetic Particle Testing (MT) is used to detect surface defects on ferromagnetic materials such as iron and steel. By creating a magnetic field in the inspected object and applying magnetic particles to the surface, defects such as cracks or pores can be identified. If there is a defect on the surface, the magnetic field will be disturbed, and the magnetic particles will accumulate at the defect, making it easy to see. MT is an effective method for inspecting welds, forged parts and other metal components that are critical to structural integrity.

NEMOSENSE is a tailor-made IoT device that combines a vibration data acquisition device, a data logger, and a low-noise triaxial MEMS accelerometer. It is an ideal vibration monitoring solution for permanent condition monitoring of wind turbines and structures such as bridges, buildings, antennas, and stadiums. It offers a great price-performance ratio.

Especially developed for EMC: Inductors and sensors with a high interference immunity NEOSID has added two more composite materials to the broad range of magnetically soft materials: PF1is and PFS3. The advantages at a glance: • Very low eddy current losses at frequencies of up to several MHz through isolation of the magnetic particles (see Fig. 2 in the PDF product sheet). • High current-carrying capacity thanks to special composite material with “distributed air gap” • Complex shapes and extra-thin wall thicknesses through special injection molding process • Very close tolerances—even without mechanical reworking Ferrites for sensor coils – design and properties Every design of custom-fit sensor coils needs to find a balance concerning many factors. Informed choice of ferrite material, ferrite and field shaping techniques and contacting procedures ensures optimum sensor sensitivity and stability. This ensures optimum stability and sensitivity in your application. Wireless power and data transmission expand the range of use cases of your products. Ferrite cores with metallized surface NEOSID pot cores and mushroom cores available starting immediately with metallization. The highly specialized NEOSID ferrites have proven themselves in many sectors. Our pot and mushroom cores with an ultra-thin metallization layer of nickel and tin have now been added.