• Very robust device for quick and efficient cutting of flat cables
• Exact adjustment of the sample thickness (depending on material)
• Thin, evenly and parallel cut samples with a smooth surface (especially the very small and many cores require a very thin cut to avoid shadows)
• Precise and repeatable measuring results due to reproducible samples

High insulation resistance reed relays are designed for ultra-low leakage current performance, making them ideal for precision applications where signal integrity and isolation are critical. Engineered with specialized materials, extended creepage distances, and optimized internal geometry, these relays achieve insulation resistance levels up to 100 tera-ohms (TΩ) and in some cases, even 1,000 TΩ resulting in leakage currents in the picoampere range or lower.

These relays are available in configurations that support switching voltages up to 1,000 VDC and breakdown voltages up to 4,500 VDC, with custom options reaching 10,000 VDC switching and 15,000 VDC breakdown. Their high isolation and dielectric strength make them ideal for automated test equipment (ATE), semiconductor testing, and precision measurement systems where even the smallest leakage can impact results.

Compact, reliable, and built for demanding environments, High Insulation Resistance reed relays offer unmatched performance in high-voltage, low-leakage applications.

• Calibration scale 0.5 - 12 mm (0.02 to 0.5“) polygon
  • 9 different circles from 0.5 to 12.0 mm outer diameter (0.02 to 0.5“)
  • Distance measurements are possible with the polygonal inner shape→ Available with DAkkS- or factory calibration certificate
• Calibration scale 20 / 60 mm (0.8 / 2.4“) polygon
  • 2 different circles (20 / 60 mm (0.8 / 2.4“) outer diameter)
  • Distance measurements are possible with the polygonal inner shape
  • Available with DAkkS- or factory calibration certificate
• Calibration rings 65 / 95 mm (2.5 / 3.7“)
  • 2 different circles (65 / 95 mm (2.5 / 3.7“) outer diameter)
  • Available with DAkkS- or factory calibration certificate
• Calibration case - practical storage of calibration scales

• Quick and efficient cut
• Thin, evenly and parallel cut samples with a smooth surface
• Very robust device made of aluminum and stainless steel - no corrosion
• By using special chuck jaws it is even possible to cut larger samples with an outer diameter up to 200 mm (7.87“)
• Light to illuminate the cutting process
• Precise and repeatable measuring results possible with the cut samples

• Ideal cutting results
• Improved sample quality through an exact and reproducible sample thickness
• Suitable for a wide variety of materials
• Robust and durable blade with double wear time (2-sided usable)
• Exact adjustment of the rotating speed
• The influence of the operator is minimized by the predefined blade feed
• Fine, manual dosing of the progressive feed
• Easy exchange of the wire grips possible, with standard tooling
• Intelligent control electronics ensure an intuitive and safe operation

• 2 in 1: device contains the Hot Set Test as well as the Heat Pressure Test
• Robust and compact set including the device and an equipment case
• Possibility to attach a thermometer directly near the sample
• Measurement according to the cable standards IEC 60811 -507 (Hot Set Test) and IEC 60811 -508 (Heat Pressure Test) regarding sample attachment and weight attachment
• Precise choice of weights due to practical containers
• Simultaneous measurement of up to 3 cable or tube samples

• Easy separation of cable jackets from the electrical conductor
• Suitable for samples with a high strip force
• Also designed for larger sample outer diameters (depending on wall thickness)
• Suitable preparation before cutting cable samples for measuring (e.g. with the ORC-series)
• Robust, stable construction
• Easy to use

UV curing is a photopolymerization process in which UV energy is used to solidify liquids. UV LED curing systems are now the technology of choice across a wide range of applications including printing, 3D printing, coatings, and adhesives due to the inherent value of an LED solution. They offer vastly improved lifetimes, reduced maintenance costs, significant energy savings, and with no ozone emissions or mercury content, offer more benefits than traditional technologies. In addition, the “cold cure” offered by LED-based systems is ideal for heat-sensitive substrates or thin films.

• Motorized device for removing extruded sheaths
• No damage to underlying materials (shielding braid, tape, cores, wires, etc.)
• Easy positioning between winding and unwinding systems
• Reproducible and easily adjustable working depth of the blade
• Signal light as status display
• Emergency stop function for winding and unwinding systems possible via control circuit
• Automatic synchronization of the haul-off speed
• High operational stability thanks to robust construction