1 trong số 1

990-05-50-02-00 | Bently Nevada | 990 Vibration Transmitter

990-05-50-02-00 | Bently Nevada | 990 Vibration Transmitter

Only 7 item(s) left in stock
  • Manufacturer: Bently Nevada

  • Product No.: 990-05-50-02-00

  • Country of origin:Hoa Kỳ

  • Product Type: 990 Vibration Transmitter

  • Payment: T/T, Western Union

  • Weight: 1500g

  • Shipping port: Xiamen

  • Warranty: 12 months

Số lượng
Xem toàn bộ chi tiết

Description

This two-wire, loop-powered device is designed to interface with a non-contacting 3300 NSv proximity probe and its matching extension cable. The 990-05-50-02-00 conditions the incoming proximity sensor signal into appropriate peak-to-peak vibration amplitude engineering units, converting it into a proportional 4 to 20 mA industry-standard current loop output. This analog output is transmitted directly to a machinery control system, such as a PLC or DCS, where standard protection alarming and machinery logic are performed.

The unit integrates the functionality of a Proximitor Sensor directly into its housing, requiring no separate external driver. It features a non-isolated PROX OUT coaxial connector and terminal block connection to supply a dynamic vibration and gap voltage signal for troubleshooting and machinery diagnostic operations. Built with potted construction, the device provides robust environmental protection suitable for highly humid or condensing locations.

Features

  • Integrated Proximitor Sensor: Combines full proximity probe driver capabilities inside the transmitter housing to eliminate external signal conditioning modules.
  • Standard 4 to 20 mA Output: Transmits a continuous analog current loop proportional to peak-to-peak vibration amplitude over a standard two-wire configuration.
  • Dynamic Signal Diagnostic Interfaces: Provides non-isolated PROX OUT and COM terminals plus an integrated coaxial connector for direct connection to diagnostic tools.
  • Integrated Not OK / Signal Defeat Circuit: Drops the loop current output to less than 3.6 mA within 100 microseconds of a probe or cable fault to prevent false control system alarms.
  • Non-Interacting Field Adjustments: Accessible zero and span potentiometers underneath the device label facilitate straightforward field loop adjustments.
  • Dedicated Test Input Pin: Allows for rapid on-site verification of the loop output current by using an external function generator as the input signal.
  • Potted Enclosure Construction: Fully sealed housing protects internal electronic components against up to 100% condensing humidity conditions.

Applications

  • Centrifugal air compressors
  • Small industrial pumps
  • Electric motor machinery monitoring
  • Cooling and ventilation fans
  • OEM machinery control system integration
  • Overall vibration trending and peak-to-peak amplitude data acquisition

Ordering Information

Model Full-Scale Option (AA) System Length Option (BB) Mounting Option (CC) Agency Approval Option (DD)

990-05-50-02-00

 

05 (0-5 mils pp / 0-125 um pp) 50 (5.0 meters / 16.4 feet) 02 (Bulkhead screws) 00 (Not required)

Technical Specifications

Specifications apply at +22 Celsius (+72 Fahrenheit) using a 3300 NSv Probe and Extension Cable, and an AISI 4140 steel target unless specified otherwise.

Category Parameter Specification Values
Electrical / Power Input Requirements +12 to +35 Vdc input at the transmitter terminal
  Signal Output 4 to 20 mAdc over specified full-scale range (2-wire configuration)
  Loop Accuracy Within ±1.5% over specified full-scale range across 250 Ohm loop resistance
  Maximum Loop Resistance 1,000 Ohm including cable at 35 Vdc
  Current Limiting 23 mA typical
  Power-up Inhibit Signal output stays below 3.6 mA for 2 to 3 seconds after power application
Dynamic Output Prox Out Linear Range 1.4 mm (55 mils), starting approx 0.25 mm (10 mils) from target surface
  Incremental Scale Factor 7.87 mV/um (200 mV/mil) ±6.5% typical
  Output Impedance 10 kOhm output impedance calibrated for a 10 MOhm load
  Frequency Response 5 Hz to 6,000 Hz +0, -3 dB
  Typical Noise Level 50 mV pp
Environmental Limits Operating Temperature -35 Celsius to +85 Celsius (-31 Fahrenheit to +185 Fahrenheit)
  Storage Temperature -52 Celsius to +100 Celsius (-62 Fahrenheit to +212 Fahrenheit)
  Relative Humidity 100% condensing, non-submerged (requires coaxial connector protection)
Mechanical Transducer Tip Material Polyphenylene sulfide (PPS)
  Transducer Case Material AISI 303 or 304 Stainless Steel (SST)
  Transmitter Weight 0.43 kg (0.9 lbm)
  Total System Weight 0.82 kg (1.8 lbm) typical
  Dimensions 100.1 mm x 73.9 mm x 42.6 mm (3.94 in x 2.91 in x 1.68 in)
General Manufacturer Bently Nevada (A Baker Hughes Company)
  Country of Origin United States
  Target Requirements Minimum 9.5 mm (0.375 in) diameter, AISI 4140 steel target

Connections/Interfaces

Terminal / Connector Function
Terminal E1 Power Supply (+) / 4 to 20 mA loop input
Terminal E2 Power Supply (-) / Loop return connection
Terminal E3 PROX OUT dynamic signal terminal
Terminal E4 COM terminal reference for PROX OUT
J2 BNC Connector Coaxial PROX OUT dynamic transducer signal for portable diagnostics
J3 Coaxial Interface Input connection from the 3300 NSv proximity probe extension cable

Installation Guidelines

  • Cable Specifications: Use 1.0 mm2 (18 AWG), 2-conductor, twisted, shielded cable for the 4 to 20 mA current loop and field terminal connections. The maximum loop cable run distance is 13 km (8 miles).
  • Power Supply Voltage: Maintain a minimum voltage of +17 Vdc at the transmitter terminal when accounting for full loop resistance to prevent clipping at the 20 mA limit.
  • Probe Gap Adjustment: Ensure the matched 3300 NSv proximity probe is gapped between 0.5 mm and 1.75 mm (20 and 55 mils) from the target surface during installation to ensure valid full-scale operations.
  • Diagnostic Instrument Isolation: The PROX OUT signal is not electrically isolated from the 4 to 20 mA loop. Do not connect grounded, AC-powered test equipment directly to the BNC or terminal strips as it will cause loop interference or false trips. Connect via a 122115-01 Test Adapter to safely isolate and invert the signal.
  • Bulkhead Mounting Alignment: Mount the transmitter base securely to a flat surface using the four integrated bulkhead mounting holes and the supplied 6-32 x 1.326 screws.
  • Moisture Protection: Install connector protector sleeves over all ClickLoc coaxial junctions to maintain sealing integrity in environments subject to high humidity or condensation.

Compliance and Certifications

  • FCC: Complies with Part 15 of the FCC Rules.
  • EMC Standards: EN 61000-6-2, EN 61000-6-4, and EMC Directive 2014/30/EU.
  • ATEX / IECEx: ATEX Directive 2014/34/EU; Ex ia IIC T4 Ga, and Ex ec IIC T4 Gc (Ta = -30 Celsius to +85 Celsius).
  • RoHS: RoHS Directive 2011/65/EU and China RoHS with a 15-year EFUP designation under SJ/T 11364-2024.
  • Maritime: ABS 2009 Steel Vessels Rules.
  • North American Approvals: cNRTLus Class I, Division 2, Groups A, B, C, D (T5 @ Ta = +85 Celsius, Type 4 Enclosure).

FAQ

What is the behavior of the output loop current when a proximity probe is damaged or disconnected?

The transmitter is equipped with an internal Not OK and Signal Defeat circuit. If a faulty probe or open connection is experienced, the loop output current automatically drops to less than 3.6 mA within 100 microseconds to suppress false machine alarms in the control system.

Can I run standard plant diagnostic software using the 4 to 20 mA output of this transmitter?

The 4 to 20 mA signal provides overall peak-to-peak trending data only and is not compatible with plant-wide dynamic diagnostic systems like System 1. The analog output cannot determine the phase of vibration or handle specialized parameters like gap alarms or Trip Multiply.

Why is an external test adapter required when connecting an oscilloscope to the PROX OUT terminal?

The PROX OUT signal shares a common ground reference with the non-isolated 4 to 20 mA loop current. Connecting grounded, AC-powered diagnostic tools directly to the transmitter can alter the loop current and cause accidental machinery shutdowns, so an isolating test adapter must be used

Product Documentation

Technical Datasheet (PDF) Complete specifications and technical drawings.

Technical Datasheet

990-05-50-02-00 | Bently Nevada | 990 Vibration Transmitter

Vận chuyển nhanh toàn cầu

  • Giao hàng tiêu chuẩn: 4-6 ngày làm việc qua DHL, FedEx và UPS.
  • Giao hàng nhanh: Giao hàng trong ngày cho đơn đặt hàng có sẵn trong kho trước 2:00 chiều (GMT+8).
  • Phủ sóng toàn cầu: Phục vụ hơn 150 quốc gia, bao gồm giao hàng nhanh đến Saudi Arabia và UAE.

Trả hàng & Bảo hành

  • Đảm bảo 30 ngày: Chấp nhận trả hàng cho sản phẩm có sẵn trong kho với bao bì nguyên bản, niêm phong từ nhà máy.
  • Bảo hành 12 tháng: Mỗi linh kiện công nghiệp đều được bảo hành kỹ thuật chuyên nghiệp.

Đơn hàng được xử lý và giao từ thứ Hai đến thứ Sáu (không bao gồm ngày lễ).


Để biết đầy đủ điều kiện, phí lưu kho và chi tiết trả hàng quốc tế, vui lòng xem trang chính thức của chúng tôi Chính sách Hoàn tiền & Trả hàng .

TECHNICAL SPECIFICATIONS

Color pattern
Trắng xám
Country of origin
Hoa Kỳ

Sản phẩm đã xem gần đây

Kiến thức kỹ thuật

Electric Actuators Designed to Replace Fluid Power Systems: A Practical Industrial Automation Guide

This article explains how integrated electric actuators, such as SMC’s e-Actuator series, are transforming industrial motion control by replacing traditional pneumatic and hydraulic systems. It...

Math Operations Using OpenPLC for Industrial Automation Applications

This article explains how PLC systems perform core mathematical operations such as addition, subtraction, multiplication, division, modulo, and exponentiation within industrial automation. It shows...

Advanced Boolean Logic with FBD PLC Programming: Practical Industrial Applications Beyond Basic Logic

The article explains several advanced Boolean logic functions used in PLC programming beyond basic AND, OR, and NOT operations. It covers how tools like truth tables, multiplexers, pulse generators,...

Boolean Logic in PLC Programming: Understanding FBD Logic Gates

Boolean logic is the foundation of every PLC program. From simple machine controls to complex industrial automation systems, logic gates determine how controllers respond to changing inputs and...

Deep-Dive Guide to Industrial Firewalls and OT Network Segmentation

Industrial firewalls play a critical role in OT cybersecurity, protecting PLC, DCS, and SCADA networks through segmentation, ingress/egress control, and IDS/IPS integration aligned with IEC 62443...

Guide to Robotic Grippers: From Delicate Handling to Heavy-Duty Automation

Modern robotic grippers are evolving beyond traditional mechanical jaws. From gecko-inspired adhesive systems and soft food-grade grippers to AI-powered warehouse tools, advanced gripping...