The Bently Nevada 330190-085-00-05 is a 3300 XL 8mm Proximity Transducer System extension cable (8.5 meters, standard cable) designed for vibration, position, and speed monitoring, primarily used in industrial turbomachinery.
- Armored and Unarmored Options
- Multiple Connector Options
- Complete Interchangeability of Units and Cabling
The system provides an output voltage directly proportional to the distance betweenthe probe tip and the observed conductive surface. It is capable of both static(position) and dynamic (vibration) measurements, and is primarily used for vibrationand position measurement applications on fluid-film bearing machines, as well asKeyphasor® and speed measurement applications2.
Important Notice:
Other accessories, manuals, cables, calibration data, software, etc. are not included with this equipment unless listed in the above stock item description.
Bently Nevada 330190-085-01-05 3300 XL Extended Temperature Range(ETR) Extension Cable Manuals, Datasheets, Drivers, Link
Important Notice: Other accessories, manuals, cables, calibration data, software, etc. are not included with this equipment unless listed in the above stock item description.
Its core value lies in the use of high-performance fluoropolymer insulation materials, ensuring that the cable maintains extremely high electrical parameter stability in the ultra wide temperature range of -51 ° C to+260 ° C, effectively suppressing signal drift caused by environmental temperature differences; With a precise electrical length design of 8.5 meters, it can perfectly match with a 0.5 meter probe to form a standard 9.0 meter measurement circuit, ensuring that the output linear sensitivity of the preamplifier is not distorted.
The core wire is fully wrapped with a high-temperature resistant fluoropolymer insulation layer, which enables it to withstand extreme temperature differences from -51 ° C to+260 ° C without performance degradation; The high-density metal shielding mesh integrated on the outer layer effectively isolates external electromagnetic interference (EMI), ensuring the long-distance transmission of weak eddy current signals without distortion.
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