VibeIQ-Gen 1 Datasheet
Product Overview
VibeIQ is an industrial-grade LoRaWAN® vibration and condition monitoring sensor designed for predictive maintenance and machine health monitoring in demanding industrial environments.
Built around a high-resolution tri-axial vibration sensor, VibeIQ continuously measures vibration behavior across X, Y, and Z axes, enabling early detection of mechanical issues such as imbalance, misalignment, looseness, and bearing wear before they lead to equipment failure.
It also incorporates surface temperature measurement, ambient temperature sensing, and humidity monitoring, enabling comprehensive environmental and thermal context alongside vibration data for more accurate condition assessment and diagnostics.
In addition to vibration, VibeIQ supports velocity-based metrics, frequency-domain (FFT) analysis, and intelligent edge-level processing*, allowing meaningful condition indicators to be generated directly at the device level. This significantly reduces unnecessary data transmission while improving fault detection accuracy.
Designed for large-scale deployments, VibeIQ uses ultra-low-power LoRaWAN® communication to deliver long-range, reliable connectivity to private or public networks, SCADA systems, and cloud-based analytics platforms. BLE-based configuration via the Macnman Maya App enables fast commissioning, diagnostics, and parameter tuning in the field.
VibeIQ transforms rotating and structural assets—such as motors, pumps, gearboxes, conveyors, compressors, pipelines, and industrial structures—into continuously monitored smart assets, helping industries reduce downtime, extend equipment life, and move confidently toward Industry 4.0 and condition-based maintenance strategies.
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Key Parameters
Vibration Measurement High‑resolution tri‑axial vibration sensing (X, Y, Z) for complete machine motion analysis.
Vibration Metrics Acceleration‑based vibration data with derived velocity indicators for machine health assessment.
Frequency Analysis FFT‑based frequency‑domain analysis* to identify fault‑specific vibration signatures.
Fault Detection Enables early detection of imbalance, misalignment, mechanical looseness, and bearing faults.
Surface Temperature Monitoring Direct surface temperature sensing to detect overheating, friction, and abnormal thermal behavior.
Ambient Temperature Continuous ambient temperature measurement to correlate environmental impact on machinery.
Humidity Measurement Relative humidity monitoring to assess moisture‑related risks and operating conditions.
Edge‑Level Processing On‑device signal processing reduces raw data transmission and improves fault accuracy.
Sampling & Reporting Modes Supports time‑based, threshold‑based, and event‑driven data acquisition strategies.
Wireless Communication Ultra‑low‑power LoRaWAN® connectivity for long‑range condition monitoring deployments.
Suited Applications
Motor & Pump Condition Monitoring Continuous vibration, temperature, and FFT analysis for early detection of bearing wear, imbalance, and misalignment in industrial motors and pumps.
Gearbox & Conveyor Monitoring Detects abnormal vibration patterns, looseness, and mechanical degradation in gearboxes, conveyor systems, and material handling equipment.
Predictive Maintenance for Rotating Equipment Enables condition-based maintenance for compressors, fans, blowers, and rotating machinery to reduce unplanned downtime.
Manufacturing & Smart Factory Real-time machine health monitoring for CNC machines, presses, mixers, and production-line assets in Industry 4.0 environments.
Power Plants & Energy Infrastructure Vibration and thermal monitoring for turbines, generators, cooling systems, and auxiliary equipment in power generation facilities.
Oil, Gas & Process Industries Condition monitoring of pumps, compressors, pipelines, and rotating assets operating in harsh and remote industrial locations.
Mining, Cement & Heavy Industry Rugged vibration sensing for crushers, mills, kilns, and heavy-duty machinery exposed to dust, shock, and continuous operation.
Remote & Unmanned Sites LoRaWAN®-based long-range monitoring for isolated plants, substations, water treatment facilities, and remote industrial assets.
Structural & Asset Health Monitoring Monitoring vibration and surface temperature of industrial structures, frames, supports, and critical mechanical assemblies.
Technical Specification
General
Specifications
Part Order Number
VibeIQ-Gen 1
Product Brand
Macnman Technologies Pvt Ltd
Vibration
Measurement
Sensor Type
Triaxial MEMS Accelerometer
Measurement Axes
X, Y, Z (Tri-axial)
Acceleration Range
±16 g
Frequency Bandwidth
5 Hz to 2500 Hz (±1 dB)*
Sampling Capability
Up to 2500 Hz
Velocity Measurement Range
0 to 100 mm/s
Vibration Output Data
RMS (average), Kurtosis, Crest Factor, Skewness, FFT high‑energy samples (Amplitude + Frequency)*
Vibration Metrics
Acceleration & Derived Velocity
FFT Analysis
Frequency‑domain analysis for fault identification*
Calibration
Factory calibrated
Temperature
Measurement
Range
-30°C to +70°C
Accuracy
0°C to +70°C: ±0.3°C & -30°C to 0°C: ±0.6°C
Resolution
0.1°C
Calibration
Factory calibrated
Element
Internal
Humidity
Measurement
Range
0% to 100% RH
Accuracy
10% to 90% RH: ±3% RH & <10% or >90% RH: ±5% RH
Resolution
0.5% RH
Calibration
Factory calibrated
Surface
Temperature
Range
-40 to +80 °C
Accuracy
+/-2 °C
Resolution
0.01°C
Atm.
Pressure
Range
-40 to +80 °C
Accuracy
+/-2 °C
Resolution
0.01°C
Wireless
Transmission
Wireless Protocols
LoRaWAN® (v1.0.4)
Macnman MacTalk Protocol
Antenna
Internal high-efficiency antenna
Supported Bands
IN865 / RU864 / EU868 / US915 / AU915 / KR920 / AS923-1/2/3/4
Tx Power
26 dBm @ 868 MHz / 20 dBm @ 915 MHz / 19 dBm @ 470 MHz
Sensitivity
-137 dBm @ 300 bps
Activation
OTAA
LoRaWAN® Class
Class A (default)
Configurable to Class C via Maya
LED
Status
LED Type
1 Internal Multi-Color LED
Solid Blue
Device is connected with Maya App
Flashing Blue
OTA (Over-the-Air) update in progress
Slow Blinking Green
Attempting to connect to the LoRaWAN® network
Single Red Blink
A confirmed parameter of MacSync is being modified
Device
Configuration
Configuration
Via Macnman Maya Android App
Uplink Modes
Time Based / Threshold Based / Sampling Based
Stored Records*
30,000 Records
Remote Configuration
JSON Format Data - from server
Battery
Performance
Battery Type
Li-SOCl₂ Cell (19Ah) Industrial grade
Power Consumption
~100 µA in sleep mode
~50 mA during transmission
Battery Life
Up to 10 years (10 Mins Uplink Interval)
Supported
LNS
Supports Major LNS
Private LNS
Chirpstack
The Things Networks
MQTT
Orbiwise
LORIOT
Direct PLC On-Prim Installations
Physical
Characteristics
Power Supply(Optional)
9-36 V DC
Operating Temperature
-40°C to +80°C
Humidity Range
0% to 100% RH (non-condensing)
Ingress Protection
IP65 standard (IP67 optional variant)
Housing Material
Glass field Nylon
Color
Matte White
Weight
~110g
Mounting Options
Magnetic Mounting
Screw Mounting
Adesive Mounting
Electrical
Characteristics
Input Voltage Range (Optional Varient)
9-36 V DC (External Supply)
Power Consumption
~100 µA in sleep mode
~50 mA during transmission
Input Impedance
>10 MΩ for voltage inputs
Communication
Options
BLE Connectivity
For local configuration and diagnostics via Maya App
Cloud Protocols
MQTT / HTTPS / TCP IP (Gateway Dependent )
Serial Interface
RS485 Modbus RTU support (optional)
Certifications &
Compliance
WPC
Compliant
RoHS
Conforms to RoHS directive
Security &
Encryption
Data Encryption
AES-256 end-to-end encryption
Authentication
OTAA activation modes
Firmware Protection
Secure boot and signed OTA updates
VibeIQ-Gen 1 Variants
| Variant Name | Power Source | Battery Capacity | Solar Support | External Flash | Ideal For |
|---|---|---|---|---|---|
| VibeIQ-Gen 1-BO | Battery | 19 Ah | ✖️ | ✔️ | Remote or portable deployments with low power |
What's in the box ?
Make sure box contains following items before installations
Accessories must be purchased separately & may not be included in the box.