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Monnit Enterprise Accelerometer – Advanced Vibration Wireless Meter

Manufacturer:
This sensor uses an accelerometer to capture g-force on all axes and then calculates vibration, frequency, and crest factor from that acceleration data.
Part Number: MNS2-4-W2-AC-AV2-L10
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$827.00 ex GST
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Delivery date: 3-4 weeks

If it moves or vibrates, know when and how much.

Predict the maintenance of machinery and structures to improve performance by continuously measuring fluctuating vibration. The award-winning Enterprise Advanced Vibration Meter uses an accelerometer to wirelessly monitor oscillation on three axes to capture vibration frequency, crest factor, velocity, displacement, or acceleration. The meter also reports duty cycle and temperature, helping protect vital assets and perform end-of-life analysis.

Install the data-logging meter in 15 minutes and configure the frequency measurement range within 0.4 Hz–4,200 Hz (24 RPM–252,000 RPM) to track a subtly swaying bridge or high-RPM machinery. If a monitored variable exceeds thresholds, the Advanced Vibration Meter issues an alert via text, email, or voice call.

The Enterprise Wireless Advanced Vibration Meter uses an accelerometer to measure a suite of tri-axis vibration data in addition to sensor duty cycle (a percentage of activity) and temperature. It reports this data on a user-configurable time interval or Heartbeat. In addition, the sensor can report the current, max, or average data. These measurements are sent to the gateway, making the data available in iMonnit or another approved data service.

The standard version of this sensor is powered by two replaceable 1.5 V AA sized batteries (included with purchase). The typical battery life is up to 10 years. This sensor can be ordered in both a leaded and non-leaded option.


Key Features

  • Three-axis measurement:
    • Acceleration root mean square (RMS), Velocity (RMS), Displacement, or Acceleration Peak
    • Frequency
    • Crest Factor
  • Measures Duty Cycle and Temperature
  • Configurable Frequency Range
  • Configurable Hanning filter
  • Measure up to 4200 Hz / 252,000 RPM
  • Configurable measurement interval as low as 1 second
  • Configurable thresholds for critical condition monitoring


Features

  • Impressive wireless range of up to 1,200 feet through walls
  • Frequency-hopping spread spectrum (FHSS)
  • Improved interference immunity
  • Improved power management for longer battery life
  • Encrypt-RF® Security (Diffie-Hellman Key Exchange + AES-128 CBC for sensor data messages)
  • Stores 2000 to 4000 readings if gateway connection is lost (non-volatile flash, persists through the power cycle)
    • 10-minute heartbeats = ~ 22 days
    • 2-hour heartbeats = ~ 266 days
  • Over-the-air updates
  • Free iMonnit basic online wireless sensor monitoring and notification system to configure sensors, view data and set alerts via SMS text and email


Applications

  • Manufacturing—Monitoring machines, assembly lines, and equipment to help predict wear and failure, maximizing uptime through scheduled maintenance.
  • Energy field services—Low-frequency monitoring of motor mounts on crude pumps. Remote monitoring replaces in-field checks, trimming operational expenses while preventing bearing blowouts.
  • Field maintenance—Detecting abnormal vibrations (or temperature changes) within a duty cycle that may point to failing components. Plus, remotely monitoring high-RPM brushless motors and smart materials or structures within production facilities.
  • Civil engineering—Tracking seismic activity on high-rise structures or oscillation-related stress on critical infrastructure, such as bridges. After-hours monitoring of tower cranes, generators, and other equipment on construction sites. Understanding the loads (and subsequent movement) placed on retaining walls along interstates and other vital infrastructure.
  • Freight management—Collecting movement and stress placed on loading docks after being struck by cargo ships or semis. The data helps engineers buttress older installations and shapes new designs.


IMPORTANT - Sensor Operation 

Please note: this sensor requires both an applicable Gateway and iMonnit software to operate. For further information, please refer to the tabs above or related products below.


Monnit Gateway Options

An integral component of any IoT network is the gateway. A gateway device allows for data from sensors to be transmitted to the iMonnit software platform.


Monnit Ethernet Wireless Gateway 4

Monnit’s Ethernet Gateways allow your Monnit Wireless Sensors to communicate with the iMonnit™ Online Wireless Sensor Monitoring and Notification System without the need for a PC. Simply provide power and plug the gateway into an open Ethernet network port with an internet connection. It will then automatically connect with our online servers, providing the perfect solution for commercial locations where there is an active internet connection.

Learn more about the Ethernet Wireless Gateway 4>>



Monnit 4G + Ethernet IoT Gateway

The ALTA® by Monnit Wireless IoT Gateway combines a 4G LTE CAT-M1/NB2 cellular engine and Ethernet platform with Monnit’s wireless access point network to aggregate and communicate data from Monnit ALTA Wireless Sensors. The ALTA IoT Gateway allows ALTA Sensors to operate on the world’s leading cellular networks and stay connected to the Internet. The gateway uses AC main power but also has redundant power through a battery backup lasting up to 60 hours.

To meet the global demand for enterprise IoT deployment, the IoT Gateway communicates with the cloud-based iMonnit® monitoring software via cellular transmission, making it ideal for remote locations or where the Internet isn’t available. The RJ-45 Ethernet jack allows local device configuration, diagnostics, and connectivity backup. The IoT Gateway is instrumental in sending sensor notifications via text, email, or call if user-defined conditions are met or exceeded.

Learn more about the 4G + Ethernet Wireless Gateway 4>>


Online Sensor Monitoring Software

iMonnit is a cloud based mobile internet platform and central hub for managing Monnit and ALTA products. All data is secured on dedicated servers operating Microsoft SQL Server. This online user interface is where all your device settings can be arranged, supervised, and modified to reflect your unique environment. OneTemp will look after the activation and setup of your new online iMonnit account free of charge. There is also a free mobile app for you to stay in control at all times. Start with the basic version or upgrade to iMonnit Premiere to enjoy the full features your Monnit experience can offer.


iMonnit Basic Vs Premiere:

  • Basic - Free with no ongoing costs
    Monnit Basic is included for free with all wireless sensors, providing basic features for you to configure and monitor your sensors online. These basic features only support one network and one registered user on an account.
  • Premiere - Minimal Annual Fee
    iMonnit Premiere allows for enhanced functionality of your wireless sensors and includes an advanced software feature set at a low annual cost. All of iMonnit's advanced features are availble for configuration. You can have more sensors on your account, support multiple users, and view floorplans for all your sensors.

Learn more about the iMonnit Premier Online Software>>

 


Monnit Video Support - Mounting of the NEW ALTA Advanced Vibration Sensor


Keep your business running smoothly with Monnit's accelerometers

Monnit’s range of wireless accelerometers are a digital, low power, low profile capacitive sensor that can measure acceleration on three axes. Accelerometers are used in all types of electronic devices today, most notably in smartphones to change the screen orientation when rotated. Monnit offers 5 different types of accelerometers that be particularly useful in heavy mechanical environments.


Get real-time data to protect assets

The first type of accelerometer sensor is Monnit’s Tilt Sensor. This accelerometer activates at a set time interval (defined by the user) and converts measurements to pitch and roll in terms of degrees. If you think about a flying plane, pitch refers to the up and down movement, and roll refers to the clockwise or counter-clockwise rotation of the plane around the x-axis.

See the Monnit Enterprise Tilt Wireless Sensor for more information


Next are Monnit’s G-Force Snapshot and G-Force Max/Average Sensors. These sensors measure g-forces (up to 8G) on the X, Y, and Z axes. Based on the sensor you select, readings are displayed as either a single ‘snapshot’ when the sensor activates at its set interval or the ‘max/average’ of the movement since the last reading.

See the Monnit G-Force Snapshot and G-force max/Average Sensors for more information


Finally, Monnit offers an Advanced Vibration Meter. Like other accelerometers, this sensor measures G-force on 3 axes to determine speed and frequency. Sensors can be set to only capture when a vibration occurs and sleep when no vibrations are present or to measure at a given assessment interval regardless of whether a vibration has occurred or not.

See the Monnit Enterprise Advanced Vibration Wireless Meter for more information


Drop-in for deeper machine insight

These accelerometer sensors are very useful for manufacturing environments as they are primarily used to predict, and consequently prevent mechanical failure. For example, if a motor experiences increased vibration levels, this can be a good indicator that bearings are worn, and the motor is close to failure. An alert will allow engineers to respond in time to a malfunctioning machine before it completely breaks, ultimately saving time and money. Monnit’s range of accelerometers paired with an applicable Gateway and iMonnit software, make it easy to set up a system that can do this.


A complete wireless network does not have to be complicated or confusing. Monnit wants to make it as easy as possible to implement a secure cloud network into your daily business operations. Simply place these sensors on a few critical components in your factory and evaluate the results over the first week to establish a proper rhythm. Once users know what is considered normal mechanical movement, notifications can then be set up and sent to any internet-enabled device when preset parameters happen to change.


Gain deeper insights to your company’s machines today and help eliminate problems early before they become expensive and time-consuming.


Technical Information

Accelerometer

Vibration Variation over Temperature 0.01 %/°C (0.018%/°F)(xy), 0.03 %/°C (0.054%/°F)(z)
Cross Axis Sensitivity 2%
General Noise1 RMS 0.7 mg
Density 130 μg/√(SampleRate)

Temperature

Transducer Type 10 KOhm NTC Thermistor (β = 3455 K)
Calibrated Accuracy ± 1°C (±1.8°F)
Resolution 0.1°C (0.18°F)
Response Time 50 seconds (10 second time constant)2

Cube

Dimensions 0.75'' x 0.75'' x 0.75''
Weight 17g (cube with electronics and epoxy)
Mounting Hole M4 x 0.7 Tapped Threads, 7mm hole depth
Composition Aluminum and accelerometer potted with black epoxy
Operating Temperature -40°C to 105°C (-40°F) to 221°F) (Electronics only)
Operating Humidity 0 to 100% (Electronics sealed inside)

Lead

Wire Details 6-conductor, 28 AWG, stranded copper
Operating Temperature -25°C to 85°C (-13°F to 185°F)
LEngth 3 m (10 ft)
Insulation / Jacket PVC (black), 0.010"
Shield Yes
Overall Diameter 4.5 mm (0.177")
Ratings / Approvals UL AWM STYLE 2464, cUL AWM I/IEC RoHS/Reach Compliant
Temperature Rating -20°C to 85°C (-4°F to 185°F)3
Voltage Rating 300 V Max
Dielectric Stength 1500 V RMS

ALTA Wireless

Data Logging Sensor logs 2000 to 4000 readings if gateway connection is lost
(non-volatile flash, persists through power cycling): 10-minute
Heartbeats = ~22 days - 2-hour Heartbeats = ~266 days
Wireless Protocol ALTA Proprietary Frequency-Hopping Spread Spectrum (FHSS)
Wireless Transmission Power (EIRP) 50 mW (900MHz), 25 mW (868 MHz), 10 mW (433 MHz)
Wireless Range 2,000+ ft. through 18+ walls with the ALTA XL® Gateway
Security Encrypt-RF® (256-bit key exchange and AES-128 CTR)

General

Battery Voltage Range 2.0 to 3.8 VDC
Operating Altitude (non-pressurised environments) -15.2 to 1,982 m (-50 to 6,500 ft)4
Storage Altitude (non-pressurised environments) -15.2 to 3,048 m (-50 to 10,000 ft)4
Operating Humidity 5 to 85% RH (non-condensing)
Certifications 900 MHz sensors: FCC ID: ZTL-G2SC1 and IC: 9794A-G2SC1.
868 and 433 MHz sensors tested and comply with: EN 55032:
2015/A11:2020; EN 55035:2017/A11:2020; ETSI EN 300 220
V3.2.1 (2018-06); ETSI EN 301 489-3 V2.2.0. (2021-11); and
ETSI EN 303 645. All sensors tested and comply with: EN
61010-1 and EN 60950 and meet RoHS 2015/863 and REACH


1. Noise increases as sample rate increases. Noise spikes of 2000 mm/s^2 are not uncommon when measuring at 12800 Hz sample rate. See typical noise tables for more information on noise.
2. Response time defined as five time constants for 99.3% of actual temperature.
3. Temperatures colder than the rating are acceptable if the cable is not moving or vibrating.
4. Operating and storage altitude without DC power supply is -30.48 to 9144 m (-100 to 30000 ft).



Enterprise Model | Technical Specifications

Battery1 2x 1.5V AA Alkaline, 1500 mAh, (standard)
2x 1.5V AA Lithium, 3000 mAh, (optional)
Battery Life 10+ years expected
External line-power option2 Input voltage: 5.0-12.0 V
Power jack: 2.1 x 5.5 mm barrel, center positive
Operating temperature range3 -18°C to 55°C (0°F to 130°F) - AA Alkaline Batteries
-25°C to 60°C (-13°F to 140°F) - AA Lithium L91 Batteries
0°C to 40°C (32°F to 104°F) - US 5V Power Supply
10°C to 40°C (50°F to 104°F) - International 5V Power Supply
Wireless antenna type 1/4-wave, 20 gauge wire whip, 3.5" (900/868MHz), 7" (433MHz)
Weight 5.53 oz (157 g) without batteries


1. Hardware cannot withstand negative voltage. Please take care when inserting and removing batteries.
2. Batteries will provide backup power in the case the external power is removed.
3. Operating below 0°C (-32°F) degrees will reduce battery life.

If it moves or vibrates, know when and how much.

Predict the maintenance of machinery and structures to improve performance by continuously measuring fluctuating vibration. The award-winning Enterprise Advanced Vibration Meter uses an accelerometer to wirelessly monitor oscillation on three axes to capture vibration frequency, crest factor, velocity, displacement, or acceleration. The meter also reports duty cycle and temperature, helping protect vital assets and perform end-of-life analysis.

Install the data-logging meter in 15 minutes and configure the frequency measurement range within 0.4 Hz–4,200 Hz (24 RPM–252,000 RPM) to track a subtly swaying bridge or high-RPM machinery. If a monitored variable exceeds thresholds, the Advanced Vibration Meter issues an alert via text, email, or voice call.

The Enterprise Wireless Advanced Vibration Meter uses an accelerometer to measure a suite of tri-axis vibration data in addition to sensor duty cycle (a percentage of activity) and temperature. It reports this data on a user-configurable time interval or Heartbeat. In addition, the sensor can report the current, max, or average data. These measurements are sent to the gateway, making the data available in iMonnit or another approved data service.

The standard version of this sensor is powered by two replaceable 1.5 V AA sized batteries (included with purchase). The typical battery life is up to 10 years. This sensor can be ordered in both a leaded and non-leaded option.


Key Features

  • Three-axis measurement:
    • Acceleration root mean square (RMS), Velocity (RMS), Displacement, or Acceleration Peak
    • Frequency
    • Crest Factor
  • Measures Duty Cycle and Temperature
  • Configurable Frequency Range
  • Configurable Hanning filter
  • Measure up to 4200 Hz / 252,000 RPM
  • Configurable measurement interval as low as 1 second
  • Configurable thresholds for critical condition monitoring


Features

  • Impressive wireless range of up to 1,200 feet through walls
  • Frequency-hopping spread spectrum (FHSS)
  • Improved interference immunity
  • Improved power management for longer battery life
  • Encrypt-RF® Security (Diffie-Hellman Key Exchange + AES-128 CBC for sensor data messages)
  • Stores 2000 to 4000 readings if gateway connection is lost (non-volatile flash, persists through the power cycle)
    • 10-minute heartbeats = ~ 22 days
    • 2-hour heartbeats = ~ 266 days
  • Over-the-air updates
  • Free iMonnit basic online wireless sensor monitoring and notification system to configure sensors, view data and set alerts via SMS text and email


Applications

  • Manufacturing—Monitoring machines, assembly lines, and equipment to help predict wear and failure, maximizing uptime through scheduled maintenance.
  • Energy field services—Low-frequency monitoring of motor mounts on crude pumps. Remote monitoring replaces in-field checks, trimming operational expenses while preventing bearing blowouts.
  • Field maintenance—Detecting abnormal vibrations (or temperature changes) within a duty cycle that may point to failing components. Plus, remotely monitoring high-RPM brushless motors and smart materials or structures within production facilities.
  • Civil engineering—Tracking seismic activity on high-rise structures or oscillation-related stress on critical infrastructure, such as bridges. After-hours monitoring of tower cranes, generators, and other equipment on construction sites. Understanding the loads (and subsequent movement) placed on retaining walls along interstates and other vital infrastructure.
  • Freight management—Collecting movement and stress placed on loading docks after being struck by cargo ships or semis. The data helps engineers buttress older installations and shapes new designs.


IMPORTANT - Sensor Operation 

Please note: this sensor requires both an applicable Gateway and iMonnit software to operate. For further information, please refer to the tabs above or related products below.