`n `n TSRAI NANOZ | Complete Weather Stations - Wind, Temperature, Humidity, Pressure, Rain, Solar & Gas Monitoring
Home / Applications / Weather Stations

Complete Weather Stations with Gas Sensing

TSR Messtechnik delivers complete weather stations combining traditional meteorological sensors with TSRAI NANOZ MEMS MOX gas detection. Wind, temperature, humidity, pressure, rain, solar radiation — plus real-time air quality and greenhouse gas monitoring. Swiss precision for comprehensive atmospheric monitoring.

15+
Meteo Parameters
50+
Gases & Compounds
24/7
Continuous Monitoring
🌬️

Wind Speed & Direction

With Heating Element

🌡️

Temp / Humidity / Pressure

Dew Point & Altitude

🔬

NANOZ Gas Sensors

CO₂, O₃, NO₂, VOCs...

🌧️

Rain & Solar Radiation

Particle Detection

Complete Solutions

TSR Complete Weather Station Portfolio

All meteorological parameters from one source — Swiss precision instrumentation with NANOZ gas sensing integration

🌬️
Wind Speed
0-60 m/s
±0.3 m/s accuracy
🔥 With Heating
🧭
Wind Direction
0-360°
±2° accuracy
🔥 With Heating
🌡️
Temperature
-40°C to +60°C
±0.2°C accuracy
Radiation shield
💧
Humidity
0-100% RH
±2% accuracy
+ Dew Point calc
📊
Baro Pressure
300-1100 hPa
±0.3 hPa accuracy
+ Altitude calc
🌧️
Rain Sensor
0-300 mm/h
Tipping bucket
0.2mm resolution
☀️
Solar Radiation
0-1500 W/m²
Pyranometer
UV index option
💡
Brightness
0-150,000 lux
Light sensor
Dawn/dusk detect
🔬
Particles PM
PM1 / PM2.5 / PM10
0-1000 µg/m³
Laser scattering
🧪
NANOZ Gases
50+ compounds
ppb detection
AI pattern recognition

📐 Calculated Parameters (Derived from Sensors)

💧
Dew Point
from T + RH
⛰️
Altitude
from Pressure
🌡️
Heat Index
Felt temperature
❄️
Wind Chill
from T + Wind
🌬️
Wind Gusts
Peak detection
📊
AQI Index
from NANOZ

🔥 Heated Sensors for All-Weather Operation

  • ✓ Wind sensors with integrated heating element
  • ✓ Prevents ice/snow accumulation
  • ✓ Operates reliably at -40°C
  • ✓ Automatic temperature-controlled heating
  • ✓ Low power consumption design

🔗 Integrated Solution from One Source

  • ✓ All sensors from TSR Messtechnik
  • ✓ Single data logger / controller
  • ✓ Unified communication (Modbus, 4-20mA)
  • ✓ Cloud connectivity & API access
  • ✓ Swiss quality & calibration
NANOZ Gas Detection

Adding Atmospheric Chemistry to Your Weather Station

NANOZ MEMS MOX sensors add 50+ gas compounds to traditional meteorological parameters — creating truly comprehensive atmospheric monitoring

🌬️
CO₂ | O₃ | NO₂
Core air quality gases for AQI calculation and health advisories
🌡️
CH₄ | N₂O | SF₆
Greenhouse gas monitoring for climate research and carbon reporting
🏭
SO₂ | CO | H₂S
Industrial pollutants for environmental compliance and public alerts
🧪
VOCs | NH₃ | BTEX
Volatile organics, odors, and benzene compounds for air quality
Applications

Weather Stations for Every Need

From city streets to mountain peaks — NANOZ sensors enhance meteorological infrastructure worldwide

🏙️

Urban Weather Networks

Smart City Air Quality Monitoring

NO₂ O₃ CO₂ CO SO₂ VOCs
  • Real-time AQI for public health alerts
  • Traffic pollution hot spot mapping
  • Heat island effect monitoring
  • School & hospital zone protection
  • Low-emission zone enforcement
🌍

Climate Research Stations

GHG Monitoring & Carbon Cycle

CO₂ CH₄ N₂O SF₆ O₃
  • Baseline GHG concentration tracking
  • Carbon source/sink identification
  • Long-term trend analysis (decades)
  • WMO/GAW network compatibility
  • IPCC reporting data support
✈️

Aviation Meteorology

Airport & Runway Operations

O₃ CO CO₂ VOCs Jet Fuel
  • Visibility affecting pollutant levels
  • Ground-level ozone monitoring
  • Jet exhaust dispersion tracking
  • METAR/SPECI enhancement
  • Crew & ground staff protection
🌾

Agricultural Weather

Precision Farming & Crop Protection

CO₂ O₃ NH₃ N₂O Ethylene
  • Crop-damaging ozone alerts
  • Fertilizer emission monitoring (NH₃, N₂O)
  • Greenhouse CO₂ enrichment control
  • Frost and disease condition warning
  • Livestock heat stress indicators
🔬

Research Platforms

Universities & Science Institutions

All GHGs VOCs Oxidants Custom
  • Multi-parameter research campaigns
  • Atmospheric chemistry studies
  • Boundary layer investigations
  • Sensor inter-comparison projects
  • Student teaching & training
🏭

Industrial Fenceline

Emission Monitoring & Compliance

SO₂ NO₂ H₂S VOCs NH₃
  • Perimeter air quality monitoring
  • Fugitive emission detection
  • Odor complaint correlation
  • Regulatory compliance evidence
  • Community transparency reporting
Atmospheric Gases

Comprehensive Gas Detection Portfolio

NANOZ sensors measure the key atmospheric constituents for weather, climate, and air quality applications

🌍 Greenhouse Gases

Carbon Dioxide CO₂
Primary climate forcing agent
Range: 0-10,000 ppm | Ambient: ~420 ppm
Methane CH₄
28× stronger than CO₂ (100-year GWP)
Range: 0-50,000 ppm | Ambient: ~1.9 ppm
Nitrous Oxide N₂O
265× stronger than CO₂, agricultural source
Range: 0-1,000 ppm | Ambient: ~0.33 ppm
Sulfur Hexafluoride SF₆
22,800× GWP, electrical industry tracer
Range: 0-100 ppb | Ambient: ~10 ppt

🏙️ Air Quality Pollutants

Ozone O₃
Ground-level smog, crop damage, respiratory
Range: 0-500 ppb | Limit: 120 µg/m³ (8h)
Nitrogen Dioxide NO₂
Traffic pollution marker, smog precursor
Range: 0-10 ppm | Limit: 40 µg/m³ (annual)
Sulfur Dioxide SO₂
Industrial emissions, acid rain precursor
Range: 0-100 ppm | Limit: 350 µg/m³ (1h)
Carbon Monoxide CO
Combustion product, traffic indicator
Range: 0-500 ppm | Limit: 10 mg/m³ (8h)

🔬 Specialized Detection

Ammonia NH₃
Agricultural emissions, PM2.5 precursor
Range: 0-100 ppm | Olfactory: 25 ppm
Hydrogen Sulfide H₂S
Odor complaints, volcanic monitoring
Range: 0-100 ppm | Olfactory: 0.5 ppb
VOCs TVOC
Benzene, toluene, xylene — urban/industrial
Range: 0-50 ppm | ppb sensitivity
Formaldehyde HCHO
Forest fire marker, photochemical product
Range: 0-10 ppm | ppb sensitivity
Air Quality Index

Real-Time AQI Calculation

NANOZ sensors enable automatic calculation and reporting of standardized Air Quality Index values

0-50
Good
Air quality is satisfactory
51-100
Moderate
Acceptable quality
101-150
Sensitive
Unhealthy for sensitive groups
151-200
Unhealthy
Health effects for everyone
201-300
Very Unhealthy
Emergency conditions
301+
Hazardous
Serious health risk
Key Benefits

Why Add NANOZ to Weather Stations

Extend meteorological infrastructure with atmospheric chemistry for comprehensive environmental monitoring

🎯

Measurement Accuracy

±2-5%

Reference-grade accuracy for regulatory-quality air quality data and climate research

Detection Limit ppb level
Response Time <30 seconds
Drift <2%/year
Calibration Interval 6-12 months
📡

Network Coverage

10×

Deploy 10× more monitoring points at fraction of reference station cost

Cost per Node 80% less
Installation 1 day vs. weeks
Power Solar compatible
Data Transmission Cellular/LoRa
🔗

Easy Integration

Plug & Play

Seamless integration with existing weather station infrastructure and data systems

Protocols Modbus, SDI-12, MQTT
Power Supply 12-24V DC / Solar
Housing IP65 Outdoor
Operating Temp -40°C to +60°C
Deployment Options

Weather Station Types

NANOZ sensors integrate with all types of meteorological infrastructure

🏛️

National Reference

WMO/GAW baseline stations for climate monitoring

🏙️

Urban Networks

City-wide distributed sensor grids

🛣️

Roadside Stations

Traffic pollution monitoring

✈️

Airport AWOS

Aviation weather enhancement

🌾

Agricultural

Crop and farm weather services

⛰️

Mountain Stations

High-altitude background monitoring

🏭

Industrial Fenceline

Perimeter emission monitoring

🌊

Coastal/Marine

Maritime and port monitoring

🏫

School Networks

Educational weather stations

🏠

Personal/Hobby

Citizen science integration

🚂

Railway Corridors

Transportation weather

🌲

Forest Stations

Fire weather & ecology

Technology

Swiss Precision for Global Meteorology

TSRAI NANOZ MEMS MOX sensors engineered for outdoor weather station deployment in all climates

🌡️

All-Weather Operation

-40°C to +60°C operating range covers Arctic to desert deployments. Heated inlet prevents condensation in cold, humid conditions.

☀️

Solar Power Compatible

Ultra-low power consumption (<1W typical) enables solar-only operation. Ideal for remote climate stations without grid power.

🔬

Multi-Gas Single Sensor

AI-powered pattern recognition detects 50+ gases with one sensor array. Reduces complexity and cost vs. dedicated analyzers.

📡

Standard Protocols

SDI-12, Modbus, and MQTT for seamless integration with Campbell Scientific, Vaisala, and other weather station platforms.

⚙️

Field Serviceability

3+ year sensor lifespan, 6-12 month calibration intervals. Self-diagnostics and remote health monitoring minimize site visits.

🎯 NANOZ Meteo Specifications

<30s
Response Time (T90)
ppb
Detection Sensitivity
50+
Detectable Gases
±2-5%
Measurement Accuracy
IP65
Outdoor Protection
<1W
Power Consumption
3+ years
Sensor Lifespan
-40/+60°C
Operating Range
Standards & Compliance

Meeting Global Meteorological Standards

NANOZ sensors help weather services meet international air quality and climate monitoring requirements

🌍

WMO/GAW

World Meteorological Organization Global Atmosphere Watch compatibility

🇪🇺

EU AQD

European Air Quality Directive for indicative measurements and networks

🇺🇸

EPA AQS

US EPA Air Quality System compatible data formats and QA/QC

🌡️

IPCC/UNFCCC

GHG monitoring for climate reporting and Paris Agreement compliance

✈️

ICAO/WMO

Aviation meteorology standards for airport weather systems

📊

ISO 17025

Laboratory accreditation compatible calibration and traceability

🔌

CE / FCC

Electromagnetic compatibility and safety certifications

🏭

EN 14212/14211

European reference methods for SO₂ and NO₂ measurement