首页
冠军彩票appRanger Pro Plant-wide Condition Monitoring

Wireless Vibration Monitoring Solutions

Ranger Pro - Wireless Condition Monitoring Sensor

Leverage the internet of things (Iot) to improve uptime, productivity, and safety with our compact and powerful wireless vibration sensor and condition-based monitoring system.

 

When you need real-time vibration monitoring combined with rapid, simple deployment of multiple sensors in a wireless network, encrypted data transmission, long battery life, and the ability to work in hazardous environments - the Ranger Pro condition monitoring sensor from Bently Nevada is the answer.

Our efficient and rugged Ranger Pro† provides real-time, condition monitoring data that is critical to an effective predictive maintenance program. The Ranger Pro can be used to gather important machine health data from a broad range of machinery across multiple industries including power generation, oil & gas, mining, pulp & paper, metal processing, and more. More than just a vibration sensor, the Ranger Pro allows for 24/7 monitoring of velocity, acceleration, and temperature plus timebase waveforms, spectra, and PeakDemod spectrum on important machine assets. Decrease unplanned downtime, increase machine life through predictive, condition-based maintenance with Ranger Pro wireless vibration sensor.

 

冠军彩票appranger pro wireless vibration sensor condition based monitoring

Bently Nevada Ranger Pro wireless vibration sensor and condition monitoring system offers these benefits:

  • Cost-Effective 

    By eliminating “reporting by walking around” via accurate, real-time data collection, your Ranger Pro Wireless system will save you labor costs, erroneous diagnoses, and unplanned production outages.
  • Easy to Install

    Our compact, wireless design coupled with an extended battery life makes the Ranger Pro the obvious choice for ease of installation, even in hazardous or hard to reach settings

  • Long Battery Life

    The Ranger Pro boasts an impressive battery life (up to five years in some configurations) also means increased protection and condition monitoring for all of your machinery.
  • Expandable

    Wireless (star or mesh), battery-powered, and compact (88mm by 40mm), the Ranger Pro Wireless vibration sensor can be set up in either uniaxial or tri-axial vibration detection configurations with temperature and can be provisioned and configured over the air.
  • Condition Monitoring Software 

    While the Ranger Pro is compatible with many third-party software solutions, it is now fully integrated with Bently Nevada's flagship condition monitoring softwareSystem 1†, which allows for seamless, real-time, and fully customizable machine health data. System 1 is the only software suite that has been designed from the ground up to work with the Ranger Pro Wireless, leveraging the sensor's powerful data collection abilities so you can get the most accurate reporting on your overall machine health.

Supporting Products and 冠军彩票app

Get In Touch

Don’t leave your machinery unprotected!

Ranger Pro Specifications

冠军彩票appbently nevada ranger pro wireless vibration sensor, online condition monitoring, machine health monitoring, predictive maintenance
  • Accelerometers
    • Characteristics
      • Axis
        • 1 or 3 axis
      • Sensing element 
        • Piezoelectric ceramic 
      • Amplitude range 
        • ±20 g peak 
      • Measurement accuracy 
        • ±5% (160 Hz) Z-axis ±10% (160 Hz) X and Y axis 
      • Transverse sensitivity (Typ.) 
        • 7% (160 Hz) 
  • Trending Variables
    • Acceleration
      • Acceleration frequency range 
        • Z axis: 5 Hz (±3dB) to 10 kHz (±3dB) X and Y axis: 5 Hz (±3dB) to 4 kHz (±3dB) (tri-axial sensor only) 
      • Acceleration amplitude range 
        • 0 – 200 m/s2(0 - 20 g) 
      • Acceleration units / sub units 
        • g or m/s2 / peak or rms 
      • Fmin 
        • 2, 5, 10, 100, 200 (Hz) 
      • Fmax 
        • 200, 500, 1000, 2000, 5000, 10000‡Hz‡ 10,000 only on Z-axis 
    • Velocity
      • Velocity frequency range 
        • 5 – 1000 Hz 
      • Velocity amplitude range 
        • 0 – 50 mm/s (0 - 2 in/s) 
      • Velocity units / sub units 
        • in/s or mm/s peak or rms 
      • Fmin 
        • 5, 10 Hz 
      • Fmax 
        • 200, 500, 1000 Hz 
    • Peak Demod
      • Peak Demod Pk
        • Z axis only
        • Parameters based on PeakDemod Spectrum settings below
      • Measurement interval 
        • 6, 8, 12, 24, 48, 168, 336, 672 hours 
      • Output data - Overall values using: 
        • Modbus from device gateway
        • Generic Client Interface (GCI) into System 1 
  • Waveforms and Spectra
    • Acceleration
      • Acceleration waveform 
        • X, Y and Z axis depending on sensor model 
      • Fmin 
        • 2, 5, 10 Hz 
      • Fmax 
        • 200, 500, 1000, 2000, 5000, 10000 ‡ Hz‡ Z-axis only 
      • Number of samples 
        • 1024, 2048, 4096, 8192 
      • Units/Sub units 
        • g or m/s2 / peak or rms 
    • Velocity
      • Velocity spectra 
        • X, Y and Z axis depending on sensor model 
      • Fmin 
        • 5, 10 
      • Fmax 
        • 200, 500, 1000 
      • Number of lines 
        • 400, 800, 1600, 3200
      • Units/sub-units
        • in/s or mm/s / rms 
    • Peak Demod
      • Peak Demod spectrum 
        • Z-Axis only 
      • Fmax 
        • 200, 500, 1000, 2000, 5000 Hz 
      • Demod Band Min 
        • 500, 1000, 2000, 5000 Hz Max 40000 Hz 
      • Units 
        • g, m/s2
      • Waveforms and spectra measurement intervals 

        • 6, 8, 12, 24, 48, 168, 336, 672 hours 

      • Output data 

        • Waveforms and spectra via gateway Generic Client Interface (GCI) into System 1 

  • Temperature Sensor
    • Characteristics
      • Measurement range
        • -40 °C to 120 °C (-40 °F to 248 °F) (Temperature sensor range. Not to be confused with allowable operating temperatures. Limited by battery and ambient conditions.) 
      • Resolution
        • 0.1°C
      • Output data 
        • Overall temperature values via Modbus from device gateway 
  • Wireless
    • Characteristics
      • Network standard 
        • ISA100.11a or WirelessHART
      • Radio standard 
        • IEEE 802.15.4 
      • Radio frequency 
        • 2.45 GHz ISM band 
      • Provisioning/ firmware updates 
        • Over-the-air using ISA100 network or via the USB docking station. 
      • Encryption/ security 
        • 128-bit AES encrypted packets 
      • Output power (peak) 
        • 10 mW, maximum 
      • Maximum RF Output Power
        • 4 mW/MHz
      • Wireless range 
        • 150 meters sensor to access point, 100 meters sensor to sensor, line of sight. (Actual range depends on obstacles present, gateway antenna type, and orientation of the sensor relative to the gateway antenna.) 
  • Battery Power
    • Type

      Replaceable D size 3.6V lithium-thionyl chloride.

      Warning: Use only one of the following batteries: Tadiran TLH-5930/S, Tadiran TL-5930/S, Tadiran SL-2780, or Xeno Energy XL-205F.

       

       

        

    • Hazardous area temperature range (Ta)

      Battery Models

      • TLH-5930/S
        • -40 °C < Ta < 80 °C 
      • TL-5930/S, Xeno XL-205F, Tadiran SL-2780
        •  -40 °C < Ta < 70 °C 

       

        

    • Battery Life

      Up to five years depending on the operating mode and configuration. 

  • Operating Conditions
    • Specs
      • Operating temperature 
        • -40 °C to 85 °C (-40 °F to 185 °F) (Operating at extreme temperatures or beyond negatively affects battery life and may damage the sensor.) 
      • Vibration limit 
        • 20g peak 
      • Chemical resistance 
        • Stainless steel and high temperature, solvent-resistant PPS plastic. 
      • Shock resistance 
        • 0.5 meter drop onto concrete 
      • Altitude
        • Maximum 3,000 m (9,842 ft.) outdoors 
  • Physical Specifications
    • Physical Characteristics
      • Weight 
        • 230 grams (without battery; 300 grams with battery) 
      • Dimensions 
        • Height: 88 mm; diameter: 40 mm 
      • Case material 
        • 316 stainless steel body and glass-reinforced, impact-resistant PPS top 
      • Mounting hole 
        • M6 x 1mm X 5mm deep internal thread 
      • IP rating 
        • IP67 dust and water resistant (pending) 
  • Regulatory Complicance
    • EMC conformity standards

      IEC 61326-1, ETSI EN 301 489-1, CISPR22, ETSI EN 301 489-17 

    • Radio spectrum

      ETSI EN 300 328 

    • Safety

      ETSI EN 61010-1, IEC 62479 

    • Hazardous atmosphere

      CSA Class 1 Division 1 Groups A, B, C, D T4ATEX/IECEx Zone 0 

    • Conformity

      Compliant with all CE and FCC/IC requirements 

    • Applies to RangerPro BN P/N:

      121M6466, 121M6469, 121M6470

  • Compatible Gateways
    • Yokogawa
      • YFGW 410 Field Wireless Management Station 
      • YFGW 510 Field Wireless Access Poi 
    • Honeywell
      • WDM Wireless Device Manager 
      • FDAP Field Device Access Point 
冠军彩票appRanger Pro Plantwide

Advantages of Wireless Condition Monitoring Systems

  • Limit machine failure rate through 24/7 vibration monitoring 

Bently Nevada's Ranger Pro Wireless temperature and vibration sensing system reduces the frequency of sudden equipment failures by way of accurate and early detection of an issue. Turn unplanned outages into manageable, predictive maintenance. With the addition of the Ranger Pro's wireless condition monitoring capabilities to your detection arsenal, you can expand your existing reliability program to gain a greater advantage in keeping your systems up and running.

  • Extend equipment life through predictive maintenance planning

When it comes to machinery protection, the more data, the better. The caveat is that your data needs to be accurate as well; otherwise, it's useless - or worse - detrimental to your efforts. Ranger Pro is a vibration and temperature monitoring system that provides you with real-time data you need to drive an effective predictive maintenance program.

  • Improve reliability programs through accurate, real-time data collection

Use Ranger Pro Wireless Condition Monitoring for immediate notifications of an issue, the acquisition of short- and long-term trending data, and diagnostic reporting. With real-time, accurate data, you can eliminate the extra costs associated with "reporting by walking around" – and any potential misdiagnoses from mere observation.