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The 200152-15-10 is an original equipment manufacturer (OEM) core hardware component in Bentley Nevada's Critical Asset Protection and Predictive Maintenance System. It is specifically designed to connect industrial-grade accelerometers to backend monitoring instruments.
Physical abrasion and temperature resistance
Internally containing 4-conductor, 22 AWG wires
Utilizing a special configuration with a "connector on the accelerometer/sensor end only"
The 20015x Accelerometers are general purpose, wide frequency, case-mounted seismic transducers designed for use with Trendmaster ProTIMs. The 200150 Accelerometer also operates with the Trendmaster 2000 system. The accelerometer interfaces with the 200100 Dual Acceleration to Velocity flexiTIM Module and the 89130-01 Acceleration-to-Velocity TIM (Transducer Interface Module), as well as the 1900/25 and 1900/27 monitors. The 20015x Accelerometers feature a hermetically sealed, stainless steel case. This design provides an extremely rugged transducer that is well suited for harsh industrial environments.
The transducer’s top-mounted, 5-pin connector allows you to easily install and remove the interconnecting signal cable. A 3/8-24 threaded hole on the bottom of the sensor’s casing accommodates several mounting options. The 20015x Accelerometers contain a piezoelectric sensing device that generates a charge when it is subjected to vibration. The accelerometers electronically convert this charge to a differential voltage signal that is proportional to the acceleration that is parallel to the sensitive axis of the transducer.
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 200152-15-10 Accelerometer Interface Standard 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.
Thermal Power Generation
Transmitting dynamic vibration signals from the bearing pedestals of steam turbine-generator sets to prevent catastrophic machinery failures.
Hydroelectric Power
Collecting low-frequency swing and vibration data from the upper and lower guide bearings of hydro-turbine generator units to monitor hydraulic imbalance.
Steel & Metallurgy
Used for vibration data transmission of blast furnace blowers and main drive gearboxes of steel rolling mills to prevent unplanned production stoppages.
Wind Power Generation
Transmitting low-frequency and high-frequency vibration signals from the main shaft, speed-increasing gearbox, and doubly-fed generator inside the wind turbine nacelle.
Cement Manufacturing
Used for continuous vibration condition monitoring of rotary kiln main drive systems, large exhaust fans, and raw mill bearings.
Nuclear Power Generation
Monitoring casing micro-vibrations of conventional island turbine-generator sets and nuclear reactor main coolant pump motors.
When using the 200152-15-10, the minimum bend radius must be strictly maintained at no less than 73.7 mm, and mechanical twisting or violent flexing is strictly prohibited in extremely cold weather to prevent jacket cracking. For installations in humid or dusty environments, the coupling nut on the sensor end must reach the designated tightening torque and be properly sealed to ensure the physical interface achieves an IP67 protection rating. Since the cable utilizes a single-ended open configuration, special care must be taken to protect the internal braided shield and drain wire when tailoring and routing the opposite end through conduits on site.
The 200152-15-10 is an original, critical component within the Bently Nevada machinery protection and asset condition monitoring systems. It is dedicated to transmitting weak dynamic charge or voltage signals captured by industrial accelerometers (such as the 200150 or 200157 vibration sensors) with high fidelity to back-end monitors, such as the 3500/42M monitoring modules. The hardware fully accommodates the strict demands for electromagnetic compatibility and physical durability under harsh field conditions near large rotating machinery, including steam turbines, industrial compressors, large fans, and pump sets. The cable utilizes an asymmetrical layout featuring a "connector on the accelerometer end only". It comes equipped with the 15-meter (Option -15) high-gain transmission cable and the -10 standard coupling nut assembly as specified by the model suffixes. This configuration, combining a pre-terminated single end with a freely tailorable opposite end, greatly optimizes installation flexibility during field conduit routing.
It is an original, high-quality standard interface cable specifically utilized to connect industrial accelerometers (vibration sensors) to monitoring systems for transmitting vibration signals of rotating machinery.
How should the 200152-15-10 cable be correctly used on industrial sites?
Users must securely lock the connector end onto the accelerometer interface on the machinery side, and route the un-terminated end back to the terminal blocks of the control cabinet or Bently monitoring modules through protective conduits.
Why must heavy industrial sites choose a dedicated shielded cable like the 200152-15-10?
Because it contains a high-density braided shield and a drain wire, which effectively blocks strong electromagnetic interference (EMI) and prevents weak vibration signals from distorting over the 15-meter transmission distance.
What curing or sealing inspection should be noted for the 200152-15-10 after the signal connection is completed?
In humid or dusty areas, the coupling nut must reach the designated tightening torque, and heat-shrink or sealants should be applied to key joints as needed to maintain the high protection standard (such as IP67 rating) of the connection end.
What is the physical uniqueness of the connector configuration on the 200152-15-10?
It features a unique 'connector on the sensor end only' configuration. This means the cable has a 5-pin plug on one end to connect to the accelerometer, while the opposite end connecting to the backend instruments consists of flying leads (pigtail). This allows field technicians to hardwire it directly into terminal boxes or monitoring modules based on the site environment.
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