Description
Bently Nevada 106765-25 Interconnect Cable
Configured for Velomitor sensor signal transmission in Bently Nevada monitoring networks, the Bently Nevada 106765-25 (106765-25 Interconnect Cable) provides direct electrical interconnection between vibration sensing assemblies and associated machinery protection hardware. The cable assembly supports extended-distance signal routing for dynamic vibration measurement circuits requiring stable low-noise continuity.
Hardware Specifications
| Parameter |
Specification |
| Model |
106765-25 |
| Brand |
Bently Nevada |
| Product Type |
Interconnect Cable |
| Application |
Velomitor sensor interconnection |
| Cable Length |
25 m |
| Weight |
5.65 lbs |
| Origin |
U.S.A |
| Operating Temp |
Not specified |
| Dimensions |
Not specified |
| Power Consumption |
Passive cable assembly; no independent power consumption |
| System Compatibility |
Bently Nevada monitoring systems |
| Signal Type |
Sensor signal transmission |
Eddy-Current Signal Stability and Cross-Talk Control
The 106765-25 cable assembly supports low-level vibration signal transport where electromagnetic stability directly affects machinery monitoring accuracy. Long-distance routing between Velomitor sensor assemblies and monitoring hardware requires controlled shield continuity to reduce signal attenuation and cross-talk propagation.
Cable routing practices influence rotor dynamic signal interpretation during transient shaft loading and vibration excursions. Separation from motor feeder conductors, switching power supplies, and variable frequency drive output cabling assists in maintaining stable waveform acquisition conditions.
For monitoring systems incorporating eddy-current probe interfaces, grounding continuity and shield integrity contribute to gap voltage validation stability relative to standard -10 VDC reference targets used in proximity transducer calibration procedures.
Frequently Asked Questions
Q: Does the 106765-25 cable require external power input?
A: No. The cable functions as a passive signal interconnect component and does not consume independent operating power.
Q: Can the cable be installed in shared conduit with AC power wiring?
A: Separate routing from high-energy conductors is recommended to reduce induced electrical noise and preserve low-level vibration signal integrity.
Q: Is shield grounding required during installation?
A: Shielded sensor cable installations typically use single-point grounding practices to minimize ground loop current and electromagnetic interference within monitoring circuits.
Field Installation Guidelines
Avoid excessive bending radius during installation, particularly near connector transition points and sensor terminations. Mechanical stress concentration may affect conductor continuity and shield stability over time.
Maintain physical segregation between vibration signal cabling and switching power circuits. Where parallel routing cannot be avoided, grounded metallic conduit or cable tray separation practices should be implemented.
Inspect cable shielding and termination integrity before energizing the monitoring system. Damaged shields or loose terminations may introduce intermittent signal behavior or elevated noise levels within vibration monitoring channels.
