Bently Nevada 991-25-50-02-00 991 Transmetteur de poussée

Description

The 991-25-50-02-00 processed signal transmitter is designed to accept inputs from a proximity probe and sensor system to monitor micro-inch level axial shaft movement, specifically orients as a 991 Thrust Transmitter. This device functions as a self-contained, two-wire loop-powered transmitter that converts proximity probe measurements directly into a 4 to 20 mA current output proportional to the total thrust displacement. It integrates seamlessly with standard Programmable Logic Controllers (PLC), Distributed Control Systems (DCS), and Safety Instrumented Systems (SIS), allowing operators to establish thrust monitoring without the requirement of a dedicated rack-based Machinery Protection System. The transmitter provides continuous machinery protection for rotating equipment including centrifugal compressors, steam turbines, pumps, and industrial fans.

Features

• Integrates a non-contacting eddy current proximity probe sensor input into a standard 2-wire 4 to 20 mA loop interface.
• Provides a buffered voltage output via a dedicated BNC connector for direct connection to portable vibration analyzers and diagnostic instrumentation.
• Offers specialized circuitry for early detection of thrust bearing wear or potential catastrophic axial float failure.
• Features a rugged, compact housing design compatible with high-density DIN rail mounting configurations.
• Contains built-in circuit protection against reverse polarity and electrical surge anomalies.

Applications

• Axial displacement and thrust position monitoring on high-speed centrifugal compressors.
• Boiler feed pump thrust bearing wear tracking in power generation utilities.
• Steam and gas turbine rotor axial position surveillance.
• Industrial turbocharger and expander mechanical health monitoring.
• Large electric motor and gear reducer shaft displacement tracking.

Ordering Information

Technical Specifications

Connections/Interfaces

Installation Guidelines

• DIN Rail Installation: Snap the housing onto standard 35mm symmetric top-hat DIN rails, ensuring both the top and bottom clips engage securely.
• Grounding: Connect the transmitter housing directly to the local instrumentation clean ground or DIN rail ground block to avoid floating potentials.
• Shielding: Terminate the outer shield of the field wiring cable at the control system end only; ensure the probe cable shield is connected directly to the designated transmitter shield terminal and isolated from the junction box.
• EMI/RFI Mitigation: Route all low-level proximity sensor input cables in dedicated grounded metallic conduits separated from heavy AC power distribution wiring.
• Probe Gap Adjustment: Ensure the proximity probe is gapped to the correct physical voltage range before securing the transmitter loop configuration to maximize dynamic linear performance.
• Moisture Protection: Install the device within an IP65 or NEMA 4X rated enclosure when deploying into outdoor, high-humidity, or corrosive ambient environments.

Compliance and Certifications

• CSA/NRTL/C
• ATEX
• IECEx

FAQ

What is the primary function of this transmitter?

It converts high-frequency proximity probe signals into a standard linear 4 to 20 mA loop-current signal representing shaft axial or thrust position.

Does this device require a separate power supply line?

No, it is a two-wire, loop-powered device that operates using the loop voltage provided by the receiving DCS or PLC analog input module.

How is a portable data collector connected to check raw vibration data?

A portable analyzer or oscilloscope can be connected directly to the front-panel BNC jack without disturbing the 4 to 20 mA automation control loop.

What specific proximity sensor system is compatible with the 25 option code?

The 25 option designates compatibility with the Bently Nevada 3300 XL 8mm proximity probe and extension cable system.

Can this unit be mounted directly inside a harsh outdoor environment?

It requires an appropriately rated protective enclosure to safeguard its electronic terminal blocks from moisture, dust, and corrosive airborne elements.

What is the impact of reversing the input loop polarity?

The unit features internal reverse polarity protection circuits that prevent electrical damage, though it will not transmit a valid signal until wired correctly.

Does this module require routine calibration in the field?

No, the device is factory-calibrated to specific linear ranges and does not require adjustment or manual potentiometer tuning during standard installation.