Wireless 2-Channel Vibration Temperature Sensor V3 C1D2 Certified for Hazardous Environments
Highlights
- C1D2 Certified Temperature Sensor for Hazardous Locations
- Group A, B, C, and D Certification
- Dual Sensor Probe for Multi-Machine Monitoring
- Industrial Grade 3-axis Vibration Sensor with ±16g Range
- Calculates RMS and MAX g Vibration
- Calculates RMS Velocity Vibration
- Calculates RMS Displacement
- Calculates Peak Vibration Frequency
- Raw Time Domain Data for FFT analysis
- In Built FFT Analysis
- Noise Removal using Low-pass And High Pass Filter
- Frequency Range (Bandwidth) 1.56Hz ~ 6.4kHz
- Frequency Range (Bandwidth) up to 8,000 Hz In Time Domain Mode
- Sample Rate up to 25,600Hz
- Encrypted Communication with 2 Mile Wireless Range
- Internal Antenna for Long Range 900MHz Communications
- Vibration Probe Operating Temperature Range -40 to +125 °C
- Wall-Mounted or Magnet Mounted IP65 Rated Enclosure
- Vibration Sensor with External Probe Option
- Multiple Probe Mounting Option 1/4 NPT, 1/4-28 UNF, And Magnet Mount
- Many Gateway and Modem Options Available
Vibration Sensors for Predictive Maintenance
Discover the fascinating world of vibration sensors for predictive maintenance and control. Join us as we delve into the cutting-edge technology that empowers system integrators to optimize performance and prevent downtime.
Industrial IoT Wireless 2-Channel Vibration Temperature Sensor V3 for Hazardous Environments
NCD’s new C1D2 certified long range wireless Dual-Channel vibration sensor represents a first for long range wireless IoT sensors designed specifically for use in hazardous environments. With C1D2 Group A, B, C, and D certification, this long range wireless vibration sensor is specified for use in hazardous environments where potentially explosive gasses, dust, fibers, or flammable vapors may be present. This includes hazardous gases and vapors that may contain Acetylene, Hydrogen, Ether, Ethyl, Ethelene, Gasoline, Acetone, Ammonia, Benzene, Butane, Methanol, and Propane. NCD’s C1D2 certified sensors are the only long range wireless products available on the market today that may be used in chemical plants, oil and gas refineries, paint shops, cleaning facilities, mills, flour silos, mining, and loading facilities for flammable gases, liquids, and solids.
With an integrated antenna and up to a 2-mile range using a wireless mesh networking architecture, this sensor incorporates a 900MHz 128-Bit AES encrypted transceiver that sends data at user-defined intervals over long distances to a wireless gateway. This IoT Vibration Sensor goes to sleep between transmissions to minimize power consumption and prolong battery life. Incorporating a 16-bit Vibration and Temperature sensor, this sensor transmits highly accurate vibration data at user-defined intervals. These all-in-one vibration sensors can send computed results thanks to inbuilt FFT and also RAW data for further processing on the user end.
The Industrial IoT Wireless Vibration Temperature Sensor V3 is packed with features like Acceleration calculation, Velocity Calculation, and Time Domain Data Analysis For FFT. User configurable Data aggregation interval ranging from 1 second to 10 seconds.
The Industrial IoT Wireless Vibration Temperature Sensor V3 samples 2048 samples each Axis and then calculates RMS and maximum vibration readings. This sensor combines the information with temperature data in a data packet, and transmits the result to modems and gateways within wireless range. Once transmission is complete, the vibration sensor goes back to sleep – thus minimizing power consumption.
The on-board IoT Vibration Sensor is rated for -40°C to 85°C or -40°F to 185°F. This Industrial IoT Wireless Vibration Sensor Transmitter is Powered by just 6 AA batteries (included) with an operational battery life 5 Years. This sensor includes a programmable transmission interval. Between transmissions, this sensor will go to sleep, extending the life of the batteries. This sensor typically sends a transmission every 10 minutes with a 600 Second transmission interval. Up to 5 years of battery life may be achieved depending on environmental conditions and the transmission interval you choose.
The NCD Long Range Industrial Wireless IoT Vibration Sensor has one of the longest ranges, highest accuracies, longest battery life, and best security features on the market today. NCD is the only manufacturer of a complete ecosystem of C1D2 certified long range wireless sensors with an open protocol for integration into any software system. To help get you started, use a NCD Gateway running Node-RED to receive and decode the long range wireless transmissions generated by this sensor. Use Node-RED to patch into any cloud platform with minimal programming. Communicate to your own MQTT server or use a common IoT platform such as AWS® and Microsoft Azure®. Node-RED offers the flexibility to handle just about any cloud platform imaginable or keep your data on your own server without using a 3rd party ecosystem. NCD wireless sensor protocols allow you to keep data secure and private or integrate with any cloud platform of your choice!
NOTE — RMS is calculated using Parseval’s theorem.
Vibration Sensor Monitoring Applications
- Ideal for Wireless Vibration Measurement of Motors, Pumps, Compressors
- Wireless Industrial Vibration of Robotic Equipment, Conveyors, and Transport Vehicles
- Machine Health Monitoring for a Predicative Maintenance System
- Future Fail Detection for Industrial Machines
- Vibration Monitoring of Conduits, Pipes, and Air Passages
- Vibration and Temperature Monitoring for AWS, Azure, and Losant
Read more about Mems Vibration Sensor
- Preventive Maintenance of Industrial Conveyor Belt Failure Analysis
- Harnessing The Power of Predictive Maintenance in HVAC Systems
- Vibration Analysis Data in Detail
- Understanding Wireless Vibration Analysis
- Monitoring Pumps Health Using Wireless Vibration Sensors
General Vibration Guidelines
Here are some recommended vibration standards, you can compare these readings with our Long Range IoT Wireless Vibration Temperature Sensor to determine if your device is operating properly or if it may require service (note that actual equipment and application may vary):
A. 0.01g or Less & 0.5mm/sec or Less — Excellent condition, No action required
B. 0.35g or less & 0.8mm/sec or Less — Good Condition, No action required unless the machine is noisy or running at abnormal temperature
C. 0.5g or less & 2.0mm/sec or Less — Fair Condition, No action required unless the machine is noisy or running at abnormal temperature
D. 0.75g or More & 5mm/sec or Less — Rough Condition, possible action required if machine is noisy and also check the bearing temperature
E. 1g or More & 7.5mm/sec or Less — Very Rough Conditions, further analysis and see if its doing this continuously. Also check for noise and temperature
F. 1.5g or More & 12.0mm/sec or Less — Danger Level, there is definitely a problem in the machine or installation. Also check the temperature Log
G. 2.5g or More & 18mm/sec or Less — Shut-down the Machine immediately and look for possible causes. Call a technician for immediate repair
For Heavy Machinery these readings could be 1.5 times to 2 times more than listed above.
D. 0.75g or More— Rough Condition, possible action required if machine is noisy and also check the bearing temperature
E. 1g or More — Very Rough Conditions, further analysis and see if its doing this continuously. Also check for noise and temperature
F. 1.5g or More — Danger Level, there is definitely a problem in the machine or installation. Also check the temperature Log
G. 2.5g or More — Shut-down the Machine immediately and look for possible causes. Call a technician for immediate repair
For Heavy Machinery these readings could be 1.5 times to 2 times more than listed above.
ISO 20816-1:2016
1X — Normal ( if the peak is at 1 times of motor running frequency)
1X — if increase over time — unbalance
1X,2X,3X — 2X max — Misalignment
1X,2X,3X,4X,5X — Looseness
3X,6X,9X,12X — Bearing
1X — period will increase — resonance
Change in velocity — unbalance, misalignment or looseness
Change in Acceleration — indicates issues with bearing
Industrial Wireless Vibration Monitor vs Long Range IoT Vibration Monitor
We realize that the Industrial Wireless version and the Long Range IoT version seem very similar and in fact are. The Industrial Wireless line has a few improvements over its counterpart in the Long Range Wireless line in form and fit, but maintain the same function. Industrial Wireless versions may have a longer battery life, optional off-board sensors, more accurate readings, and other frequency ranges.
Feature | Industrial Wireless | Long Range IoT | Industrial Wireless V3 |
---|---|---|---|
900 MHz | X | X | X |
868 MHz Option | X | X | |
2-Mile Range | X | X | X |
Battery Powered | X | X | X |
Optional External Power | X | X | X |
Wireless Mesh Capabilities | X | X | X |
IP65/Outdoor Rated | X | X | |
Magnetic Mounting Attachments | X | Optional | X |
External Sensor Probe | Optional | X | |
Acceleration Measurement | X | X | X |
Velocity Measurement | X | ||
Displacement | X | ||
Time Domain | X | X | |
FFT | X | ||
Frequency Measurement | X | ||
OTA | X | ||
FIIR Filters | X | ||
Configureable Frequency Range | X | X | |
Configurable Sample Duration | X | ||
1/4 NPT Housing | X | ||
1/4 – 28 UNF Houseing | X |
What is Class 1 Division 2 Certification?
Class 1, Division 2 is a hazardous location rating system that indicates where flammable gases, vapors, or combustible dust may be present. It also specifies the types of technology that are safe to use in these environments. Class 1, Division 2 locations are places where flammable liquids or gases are used, processed, or handled. These liquids or gases are usually kept in closed systems or containers, and can only escape if the systems or containers deteriorate or rupture. Under normal operating conditions, a Class 1, Division 2 location shouldn’t have an explosive atmosphere, but it may occur briefly during maintenance or repair activities, or if a container or vessel accidentally ruptures.
Class 1, Division 2 equipment must meet strict hazardous location rating requirements to ensure it can safely operate in these environments. This compliance can help improve workplace safety and reduce the risk of accidents. Select NCD sensors are Class 1, Division 2 certified for hazardous environments and can prevent ignition in atmospheres that may contain explosive gases or vapors.
NCD C1D2 Certified Sensors are certified for use in groups A, B, C, and D. A list of groups and their associated environments are listed below.
Group A contains only acetylene.
Group B includes hydrogen, gases with more than 30% hydrogen by volume, butadiene, ethylene oxide and propylene oxide.
Group C includes acetaldehyde, cyclopropane, diethyl ether, and dimethyl hydrazine.
Group D includes gasoline, acetone, ammonia, benzene, butane, methane, propane, alcohols and other more commonly encountered compounds.
Who Requires C1D2 Certification?
- Chemical plants
- Oil and gas refineries
- Paint shops
- Cleaning facilities
- Mills
- Flour silos
- Mining
- Loading facilities for flammable gases, liquids, and solids
- Glue factories
- Oil rigs
- Oil pipelines
IoT Vibration Sensor Applications
- Hazardous Location Long Range Temperature Vibration Sensor
- C1D2 Certified for Use in Hazardous Environments
- Factory Floor Temperature and Vibration Monitoring
- Oil and Gas Industrial Vibration Monitoring
- Factory Machine Vibration Monitoring System
- Motor Temperature Vibration Monitoring System
- Wireless Temperature Vibration Sensor for Machine Monitoring
- Temperature Vibration Sensor For Device Control Application
- For Use with NCD Long Range Wireless Gateways
- Wireless Temperature Vibration Monitoring for AWS® and Azure®
Mechanical Drawing
Wiring Diagrams
Essential
Documentation Downloads
C1D2 Certification Documents for NCD Long Range Wireless Sensors
Not for use in outdoor applications or for use in excessive temperature conditions. Prolonged freezing will prevent batteries from functioning until thawed, using extended temperature range industrial batteries may improve the useful temperature range. Extended freezing applications should use a full-time powered solution. Prolonged exposure to extreme humidity conditions may damage this device. The sensing element is rated for use for 5 years and may be replaced. Exposure to high temperatures may cause the batteries to leak, causing permanent damage to this device. NCD Warranty does not cover battery corrosion or use in excessively smoky environments under any circumstances.
900HP-S3B Wireless Compatibility Notes
Notice: Compatibility Notes Does NOT Apply to the Following Products:
- NCD Enterprise Solutions
- NCD Wireless Sensors
- NCD Enterprise Modems and Gateways
Notice: Compatibility Notes Applies to NCD Industrial Products, Including Fusion, ProXR, ProXR Lite, Taralist, and Reactor Series Products.
Compatibility Notes
When using an 900HP-S3B communication module, it is essential that you use the ZIGMO_PCB to configure the module settings. Long-Range wireless sensors may be programmed over the air without removing the communications module.
A 900HP-S3B Modem or a gateway of some kind that support the 900HP-S3B communications module will also be required.