VisioCablePro - Cold Impact Test CIT
- Device and operation are according to the standard IEC 60811-506 (IEC 60811-1-4) point 8.5
- Case set offers all required weights for the test
- Easy operation
- Very robust and solid construction
- Steel impact piece included
- Up to 3 Samples can be tested simultaneously
- Device suitable for positioning in a cold chamber - Product No.: 402.0020.02
Options:
- Cold Impact Test „one sample“
- Cold Impact Test „up to 3 samples“
- Cold Impact Test „1 x photovoltaics“ (VDE PV01:2008-02)
- Laboratory freezer - technical specifications on request
- Cold chamber - up to -55 °C (-67 °F) - technical specifications on request- Cold chamber without raised floor - Product No: 402.0020.02- Cold chamber including raised floor (for Cold Bend Test) - Product No 402.0020.04
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Technical Details |
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Size (W x L x H) |
200 x 200 x 520 mm 7.9 x 7.9 x 20.5 Inch |
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Weight |
15 kg 33.1 lbs |
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Material |
Stainless steel |
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Measuring according to standards |
IEC 60811-506 (IEC 60811-1-4 point 8.5) VDE PV01:2008-02 |
More Product Information
- Vacuum pump to pick up small cable samples
- Suitable for the cable measuring device VCPLab and the cable o ring cutter ORC Micro
- Measuring device to detect the twist/lay/pitch length of sheathed cables
- Measurements according to the standards LV212 und LV122
- The twist length of the sample is measured without removing the sheath → this ensures a precise measurement
- Traditional methods manipulate the sample (cable stripping or unwinding of conductors) → a precise measurement is not possible anymore
- Via a PC connection, the measuring results can directly be exported
- Fully automatic: By clicking one button, the measuring sensor automatically moves along the sample
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.
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.
- 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
- Preparation of cable samples for further processing
- Applicable for cable types with solid core cross-sections
- E.g. Sample preparation for cutting with ORC family
- Device is according to the standard IEC 60811 -501, -507 (heat elongation test, tensile test)
- The samples are taken from the inner side of the sheath and isolator
- All grooves and/or conductive layers are removed
- Developed to slice samples according to IEC 60811 with a thickness between 0.8 and 2.0 mm (0.04” – 0.08”)
- Robust case seals against extraneous light
- Central control unit
- Semi-automatic focussing and illumination
- Safe from impacts and vibrations
- Quasi shadow free transmitted light
- Optimal system status for lighting, optics and camera
- A measurement with 2 cameras is possible
- Adjustable operation distance for 2D measurements in laboratories
- Very precise measurement due to high resolution sensors
- Standardised individual components
- Very easy measuring procedure
- Suitable software VELOX and CAQ-System ProCable available
- Standard-compliant, fully automated measurement
- Your guarantee for secure quality testing of geometrical attributes of cables, isolated conductors and hosepipes
- Excellent traceability and repeatability
- Reliable evaluation of obtained measuring results
- Intuitive operation – designed for use directly next to the extrusion line
- Operation possible without training – highly complex in the background – but easy, safe and quick to use
- All measurements are performed with image processing algorithms of the latest generation
- Modularly expandable (database interfaces, special geometries/shapes …)
- Clear, individually configurable and comprehensive result display
- The report design can be modified on an Excel basis
VisioCablePro
VisioCablePro® is a brand of iiM GmbH - by Exaktera.
VisioCablePro® - Cable measurement engineering has especially been developed to carry out geometrical measurements, which specifically fulfill cable producers requirements to measure the geometrical features of insulating skins and cable sheaths.
Contact Details
iiM GmbH - VisioCablePro
Neuer Friedberg 5, 98527 Suhl, Germany
Phone: +49 3681 / 455 19-0
Email: info@iimag.de