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Vaisala has developed a number of precise humidity and temperature transmitters for industrial use, which come in various types depending on the environment. These instruments are known for their precision and robust construction, making them suitable for critical control and monitoring in various fields.
Some of the common types found include:
Vaisala Digital Humidity and Temperature Probe DTR
This is an easy-to-use portable instrument that provides precise humidity and temperature readings. Its small size makes it suitable for measurements in small spaces, and it works well in both storage and transport. With wireless data transmission and a user-friendly interface, it is a flexible solution for industrial measurement needs.
Vaisala Humidity Temperature Transmitter GMT220
This is intended mainly for industrial use and can work under such tough conditions as high temperature and pressure, humidity or dry air, and even oxygen-rich environments. The GMT220 delivers stable long-term measurements and is suited for continuous monitoring.
Vaisala Humidity Temperature Transmitter MRT220
Designed for hot and humid process environments, the Vaisala MRT220 can endure temperatures up to 180 °C. Its robust design makes it suitable for critical measurements in the food and pharmaceutical industries, where precision is vital for product safety and quality control. Its high measurement accuracy eliminates error in these demanding applications.
Vaisala Custom Transmitter
Vaisala also offers customizable options for temperature and humidity transmitters, allowing industries to meet their specific measurement needs. Whether integrated into a system or designed for a certain application, these bespoke transmitters provide the accuracy for demanding industrial environments.
Vaisala's humidity and temperature transmitters come in several different models, each intended for a different industrial application. Below are some typical specifications:
| Model | Measurement Range | Temperature Range | Output | Power Supply | Ingress Protection | Features |
|---|---|---|---|---|---|---|
| GMT220 | 0 to 100% RH | -40 to +60 °C | Current, voltage, and frequency | Battery or external power | IP66 | Stable, long-term tracking |
| MRT220 | 0 to 100% RH | -40 to +60 °C | Current, voltage, and frequency | Battery or external power | IP66 | |
| HM40 | 0 to 100% RH | -40 to +60 °C | Current and voltage | Battery or external power | IP66 | Portable, rugged |
| Vaisala Custom Transmitter | Varies | Varies | Varies | Varies | Varies | Application-specific |
As precise and reliable measuring devices, the Vaisala humidity and temperature probes are widely used to monitor and control humidity and temperature in key industries.
Pharmaceuticals
These probes ensure stable environmental conditions during storage and transport of drugs. In such probe-sensitive industries, accurate measurements are necessary for maintaining product quality and efficacy. This makes the probes essential for compliance with regulations.
Food Industry
In food processing, storage, and transport, temperature, and humidity control is critical for safety and quality. The Vaisala probes help maintain stable conditions during these processes to prevent spoilage, extend shelf life, and keep the product quality high.
Industrial Manufacturing
The stability of production processes often depends on precise humidity and temperature control. The probes are used in such industries as electronics and aerospace to safeguard sensitive materials and components from environmental damage.
Facility Management
The probes are used in facility management to ensure the comfort of occupants while optimizing energy use. Accurate monitoring helps improve HVAC systems, reduces energy costs, and prolongs the lifespan of buildings by preventing mold and other humidity-related problems.
Research and Development
In laboratories, precise control of temperature and humidity is essential for reproducibility in experiments. The Vaisala humidity and temperature instruments are employed in R&D across various fields, from material science to environmental studies, to maintain the conditions necessary for successful experimentation.
The appropriate humidity and temperature meter can make a considerable impact on both accuracy and efficiency when choosing one for industrial use, especially when working with humidity and temperature sensitive materials.
Measurement Accuracy
In industries where precision of the environment is critical, such as pharmaceuticals or food processing, users should choose meters with high measurement accuracy to get accurate data and maintain quality control. The meters are recommended to have resolution and calibration certificates for additional assurance.
Measurement Range
Users should ensure the meter can measure the required range of humidity and temperatures in the user's working environment. It should also be able to withstand fluctuations in those conditions without losing accuracy or functionality.
Response Time
Depending on the industry, users may need a meter that quickly responds to changes in temperature and humidity, especially in dynamic environments. Short response times are critical for quick adjustments in process control or in storage conditions for sensitive goods.
Durability and Ingress Protection
In harsh industrial environments, users should select meters that are durable and have adequate ingress protection ratings to resist water, dust, and other contaminants. Moreover, robust construction helps guarantee long-term stability and reliability in hazardous environments.
Customization and Data Capability
If required, users should choose meters with customizable settings to match specific industrial applications, as well as advanced data logging and transmission capabilities for real-time monitoring, analysis, and integration into digital management systems.
A1. No. While the meters can function efficiently in most outdoor conditions, it is sometimes necessary to calibr after long periods spent in extreme settings.
A2. The optimal temperature conditions depend on the particular device. Generally, the meters are effective in both hot and cold environments, extending their working range. However, particular models may have specific limitations for endurance and accuracy in extreme conditions.
A3. While many models can function with an external electric source, battery endurance is usually designed to last for several years before needing a recharge or replacement. Wireless models help with flexibility but remember to check battery levels regularly to avoid measurement disruptions.
A4. Yes, the sensors have been developed for durability and have often received IP protection ratings against dust, water, and other environmental contaminants. Endurance of the materials used for the sensors also improves durability and keeps users risk-free from frequent maintenance or replacement of the sensors.
A5. Yes, many models support wireless transmission of data to mobile or fixed devices for real-time monitoring, logging, and analysis.
