01: Connector configuration (top mount electrical interface)
10: Mounting base configuration (circular base with M10x1 stud)
00: Agency approval option (not required)
Hardware Specifications
Parameter
Specification
Model
9200-03-01-10-00
Brand
Bently Nevada
Origin
USA
PowerConsumption
Two-wire loop powered (exact value not specified)
Signal Type
Velocity vibration output (Seismoprobe)
Connector Type
Top mount
Mounting Base
Circular, M10 x 1 stud
Frequency Response
4.5 Hz (270 cpm) minimum operating option
Mounting Angle
90 deg ±2.5
Eddy Current Scaling and Gap Voltage Validation Architecture
Configured under Bently Nevada mechanical vibration sensing architecture, the 9200 platform aligns with eddy-current probe scaling principles where displacement-to-velocity conversion is stabilized through controlled gap voltage referencing. The sensor output behavior is referenced against standardized -10 VDC target validation thresholds used in proximity-based calibration chains, ensuring linearity under shaft radial motion conditions.
Signal integrity is maintained through cross-talk suppression design methodology, reducing electromagnetic coupling between adjacent vibration channels in multi-probe installations. The two-wire loop architecture also constrains loop impedance variation, ensuring stable transmission of dynamic vibration velocity signatures across extended monitoring runs.
Frequently Asked Questions
Q: Can the 9200-03-01-10-00 be hot-swapped during operation? A: No hot-swap design is indicated. Electrical disconnection requires loop power removal to avoid transient excitation on the measurement circuit.
Q: What is the electrical loading behavior of the two-wire loop? A: The device operates on a two-wire current loop architecture. Exact load range is not specified; loop compliance must be defined by external monitoring module input impedance.
Q: Does the transducer support multi-sensor parallel wiring? A: Parallel wiring is not recommended due to potential signal attenuation and cross-channel interference in velocity sensing loops.
Field Installation Guidelines
Ensure mechanical mounting via M10 x 1 stud with rigid base coupling to machine housing
Maintain full metallic contact surface to minimize vibration damping loss
Route signal cable away from high-current conductors to reduce induced noise coupling
Avoid sharp bending radius on top-mount connector wiring harness
Verify loop continuity before energizing monitoring system input channel
Ensure sensor orientation aligns with intended radial or axial vibration measurement axis
