Bentley 3300/16-02-01-01-01-01-01-00 XY / Dual Vibration Monitoring Module with Gap Detection. Detailed Product Description

I. Product Overview

Bentley 3300/16-02-01-01-01-01-01-00 is a 3300-series rack-mounted dual-channel vibration and shaft position monitoring module under the Bently Nevada brand of Baker Hughes. It is used to simultaneously monitor the X/Y bidirectional radial vibration and the average shaft-bearings clearance (shaft position) of rotating machinery. This model is of standard range, low-frequency response, with local display, dual-channel analog output, ordinary certification, and no safety barrier configuration. It can replace the old 3300/15 (only vibration, no gap alarm), and is widely used in steam turbines, gas turbines, centrifugal compressors, generators, etc. in power, petrochemical, metallurgy and other industries. It provides continuous online monitoring, fault warning and safety interlock protection, in accordance with API 670 standards.

II. Model Decoding (3300/16-02-01-01-01-01-01-00)

3300: Bentley 3300 modular TSI system, rack-mounted installation, supports hot swapping and multi-module combination;

16: Function code, XY / Gap Dual Vibration Monitoring Module, dual channels, simultaneously measure vibration and shaft gap;

02: Range and sensitivity, 0–2 mm (0–80 mil) peak-to-peak, 8 V/mm (200 mV/mil), compatible with 8 mm probe;

01: Frequency response, 1–600 Hz (60–36,000 CPM), compatible with low-speed, variable-frequency units;

01: Display and operation, with local LCD display + LED status lights, can read locally, view alarms and configure;

01: Output configuration, dual isolated analog output (-1~-17 VDC) + dual alarm relays, independent channel output;

01: Certification and safety, basic CE certification, no built-in safety barrier, non-explosion-proof, suitable for ordinary industrial areas;

00: Special functions, no additional customized functions, standard factory configuration.

III. Core Functions

Dual-channel independent monitoring: Two channels, each connected to an X or Y eddy current probe, simultaneously measure the peak-to-peak radial vibration and the average shaft-bearings clearance (static position);

Vibration + Gap Dual Alarm: Each channel independently sets vibration high / extremely high alarm, gap too large / too small alarm, avoiding shaft rubbing or bearing failure;

Intelligent signal processing: Built-in OK circuit monitoring, can distinguish probe break / short circuit / signal out of tolerance and real vibration faults, prevent false shutdown;

Local display and status indication: LCD real-time displays X/Y vibration values, gap values, alarm status; LED indicates OK (normal), ALERT (warning), DANGER (danger), BYPASS (bypass);

Standard signal output: Backplane provides isolated analog output (-1~-17 VDC), can be connected to DCS/PLC; each channel is equipped with warning / danger relay contacts, used for interlock protection;

Parameters can be programmed: Range, sensitivity, frequency response, alarm threshold, gap alarm delay (default 6 seconds) can be set through software or local buttons;

Suitable for ordinary industrial environment: No built-in safety barrier, suitable for non-explosion-proof areas, sturdy structure, strong anti-interference ability.

IV. Technical Parameters

(1) Measurement Parameters

Channels: 2 independent (X, Y);

Vibration range: 0–2 mm (0–80 mil) peak-to-peak; Sensitivity: 8 V/mm (200 mV/mil), linear error ≤ ±1% FS;

Gap measurement range: 0.25–2.3 mm (compatible with 8 mm probe);

Frequency response: 1–600 Hz (-3 dB), suitable for low-speed units and variable frequency equipment;

Gap alarm delay: 6 seconds (to prevent transient false alarms);

Accuracy: vibration ±0.5% FS, gap ±1% FS;

Resolution: 0.01 mm.

(II) Electrical parameters

Power supply: -24 VDC (±10%), programmable to -18 VDC; power consumption approximately 2 W;

Probe input: compatible with 3300 XL 8 mm eddy current probe (330101/02/03/04), input impedance 10 kΩ;

Analog output: -1 to -17 VDC isolation, output impedance 100 Ω;

Relay output: 1 channel ALERT (warning) and 1 channel DANGER (danger) per channel, contacts 250 VAC/3A passive dry contacts;

Signal isolation: electrical isolation between input/output/power supply, anti EMI/RFI interference.

(III) Environmental and mechanical parameters

Operating temperature: -40℃ to +70℃;

Storage temperature: -40℃ to +85℃;

Relative humidity: 0%–95% (no condensation);

Installation: 3300 standard 19-inch rack slot, hot-swappable;

Size: approximately 220 mm (depth) × 120 mm (width) × 83 mm (height);

Weight: approximately 1.1 kg;

Protection: IP20 (in the rack);

Shell: metal panel + flame-retardant plastic, shock-resistant, corrosion-resistant.

(IV) Certification and compliance

Electromagnetic compatibility: CE (EN 61000-6-2/4);

Industry standards: API 670 Fourth Edition;

Explosion-proof certification: none (for ordinary areas).

V. Structural design

(1) Rack-mounted modular

Standard 3300 rack compatible, directly inserted into the slot, supports hot swapping, no need to stop for replacement. Front panel has LCD, LED and operation keys; back panel has probe input, analog output, relay contacts, power interface, clear layout.

(2) Dual-channel independent circuit

Two signals are completely independent and processed without interference; each channel contains signal conditioning, linearization, alarm comparison, OK monitoring circuits, high stability.

(3) Anti-interference and reliability

Input/output/power isolation; built-in electromagnetic shielding; OK circuit real-time diagnoses probe/cable faults; gap alarm delay 6 seconds, suppresses transient fluctuations false alarms.

VI. System compatibility

(1) Hardware compatibility

Compatible with 3300 series racks, power supply (3300/12/13), system monitoring (3300/03);

Compatible with 3300 XL 8 mm eddy current probe and preamplifier;

Analog output connected to DCS/PLC; relay contacts connected to interlock circuits.

(2) Software compatibility

Support System 1 status monitoring software, for data acquisition, trend, diagnosis, historical storage;

Parameters can be set through 3300 configuration software, supports local key configuration.

VII. Typical application scenarios

Power: thermal power / nuclear power turbine, generator, feed pump of X/Y vibration and shaft gap monitoring to prevent rubbing;

Chemical industry: centrifugal compressor, process turbine, large pump group vibration protection and bearing position monitoring (non-explosion-proof area);

Metallurgy: blast furnace fan, large motor, rolling mill transmission of low-speed rotating equipment monitoring;

General industry: papermaking, cement, pharmaceuticals and other key rotating equipment preventive maintenance and fault warning. VIII. Installation and Maintenance

(1) Installation Key Points

Rack Installation: Insert into an available slot and ensure good contact;

Probe Wiring: Connect the X and Y probes to the corresponding channels respectively. The probes should be perpendicular to the surface with a gap of 1.27 mm (standard);

Output Wiring: Connect analog signals to the DCS and relay contacts to alarms/interlocks;

Power On Configuration: Set the range, alarm threshold, and gap limit, and save the settings.

(2) Daily Maintenance

Inspection: Check LCD display, LED status, and wiring tightness;

Calibration: Once a year, calibrate the vibration and gap accuracy using a standard gap block;

Cleaning: Regularly clean the panel and slot dust to maintain good heat dissipation;

Spares: Use original probes, cables, and modules to avoid deviations caused by non-original components.

IX. Usage Precautions

Non-explosion-proof Design: Do not use in flammable and explosive hazardous areas;

Probe Matching: Must be paired with the 3300 XL 8 mm system. Do not mix 5 mm/11 mm probes;

Gap Setting: Install the static gap strictly at 1.27 mm to avoid excessive proximity for rubbing or too far for weak signal;

Do Not Modify: Do not privately modify cable length, dismantle modules, or replace non-original accessories. Otherwise, it will result in failure and loss of warranty;

Power Off Operation: Cut off the rack power supply when connecting, inspecting, or replacing modules to prevent short circuits / electric shock.