テクネ計測 Product Lineup

In underground parking lots, the increase in CO2 concentration due to exhaust gases is a problem, and proper ventilation management is required. In particular, to maintain a safe environment, it is important to measure not only CO2 concentration but also temperature, humidity, and differential pressure. The EE894 contributes to the optimization of ventilation systems by measuring these elements simultaneously. 【Usage Scenarios】 - Ventilation control in underground parking lots - Monitoring of exhaust gas concentration - Air conditioning management 【Benefits of Implementation】 - Energy savings through ventilation control based on CO2 concentration - Maintenance of a safe air environment - Increased efficiency of ventilation systems

• Other electronic parts

In the protection of museum exhibits, appropriate environmental management is essential. By properly managing temperature, humidity, and CO2 concentration, we can prevent the deterioration and mold growth of exhibits, enabling long-term preservation. In particular, an increase in CO2 concentration can accelerate discoloration and deterioration of exhibits. EE894 accurately measures these environmental factors and contributes to the optimization of the display environment. 【Usage Scenarios】 * Environmental monitoring in exhibition rooms * Control of air conditioning systems * Environmental management of storage rooms 【Effects of Implementation】 * Suppression of exhibit deterioration * Prevention of mold and condensation * Long-term preservation of exhibits

• Other electronic parts

In health management within residential settings, indoor air quality is extremely important. Specifically, properly managing CO2 concentration, temperature, and humidity is essential for maintaining the health of residents. High concentrations of CO2 can cause drowsiness and headaches, while excessive humidity can promote the growth of mold and dust mites, potentially leading to allergies and respiratory issues. The EE894 was developed to address these problems. It simultaneously measures CO2 concentration, temperature, humidity, and differential pressure, enabling the optimization of ventilation systems and the efficient operation of air purifiers. This helps create a healthy indoor environment and supports comfortable living. 【Usage Scenarios】 - Living rooms, bedrooms, and children's rooms within homes - Control of ventilation systems - Performance evaluation of air purifiers - Monitoring for health management purposes 【Benefits of Implementation】 - Increased health awareness through visualization of indoor air quality - Energy-saving effects through optimization of ventilation and air conditioning - Reduced risk of mold and dust mite growth - Creation of a comfortable living space

• Other electronic parts

In an office environment, a comfortable indoor environment is essential for improving employee productivity. At the same time, proper ventilation and air conditioning management also lead to enhanced energy efficiency. By accurately measuring CO2 concentration, temperature, humidity, and differential pressure, it is possible to maintain a comfortable environment while reducing energy costs by optimizing ventilation and air conditioning. The EE894 was developed to address these challenges. 【Usage Scenarios】 - Air conditioning management in office buildings - Ventilation control in conference rooms and workspaces - Air conditioning optimization as an energy-saving measure 【Benefits of Implementation】 - Achieving a comfortable indoor environment - Improving employee focus and productivity - Reducing energy costs - Enhancing overall operational efficiency of the building

• Other electronic parts

In school classrooms and facilities, maintaining air quality through appropriate ventilation is important for improving the health of students and the quality of the learning environment. In particular, an increase in CO2 concentration can lead to decreased concentration and health issues. The EE894 simultaneously measures CO2 concentration, temperature, humidity, and differential pressure to support the optimization of ventilation systems. This ensures that appropriate ventilation conditions are maintained at all times, providing a comfortable and healthy learning environment. 【Usage Scenarios】 - Classrooms - Gymnasiums - Staff rooms - Libraries 【Benefits of Implementation】 - Energy savings and comfort achieved through ventilation control based on CO2 concentration - Visualization of air quality through real-time environmental monitoring - Improved health management and learning efficiency for students

• Other electronic parts

In a clean room, proper management of CO2 concentration, temperature, humidity, and differential pressure is essential for maintaining product quality and ensuring a safe working environment. If these factors are not managed appropriately, it can lead to product contamination, performance degradation, and health hazards for workers. The EE894 can simultaneously measure CO2 concentration, temperature, humidity, and differential pressure, allowing for comprehensive monitoring of the environment within the clean room. 【Usage Scenarios】 - Air quality monitoring in clean rooms - Clean room environments for semiconductor manufacturing, pharmaceutical production, food processing, etc. - Control of ventilation systems 【Benefits of Implementation】 - Improved quality management through visualization of environmental data - Energy savings through optimization of ventilation efficiency - Enhanced work efficiency through improvement of the working environment

• Other electronic parts

In the food processing industry, accurate monitoring of environmental factors such as temperature, humidity, and CO2 concentration is required to maintain product quality. Particularly in the storage and manufacturing processes of food, these elements significantly influence the quality and safety of the products. Inadequate environmental management can lead to food deterioration, the occurrence of off-odors, and mold growth. The EE894 simultaneously measures CO2, temperature, humidity, and differential pressure, supporting quality control in food processing. 【Usage Scenarios】 - Food storage rooms - Manufacturing lines - Quality control rooms 【Benefits of Implementation】 - Reduced risk of food quality deterioration - Improved product safety - Optimization of manufacturing processes

• Other electronic parts

In a data center, proper cooling of servers is crucial, and accurate monitoring of indoor temperature, humidity, and air pressure is essential for this. Inadequate environmental management can lead to server overheating or failure, potentially resulting in increased operational costs. EE894 accurately measures these factors and supports the efficient operation of data centers. 【Usage Scenarios】 - Environmental monitoring of server rooms - Optimization of air conditioning systems - Reduction of energy consumption 【Benefits of Implementation】 - Stable operation of servers - Reduction of operational costs - Decrease in environmental impact

• Other electronic parts

In infection control at medical institutions, it is important to properly manage the indoor air environment. In particular, monitoring CO2 concentration, temperature, and humidity is essential for determining the appropriate timing for ventilation. Proper ventilation reduces the concentration of viruses and bacteria in the air, thereby lowering the risk of hospital-acquired infections. The EE894 simultaneously measures CO2 concentration, temperature, humidity, and differential pressure, contributing to the optimization of ventilation systems. 【Usage Scenarios】 - Patient rooms - Waiting rooms - Operating rooms - Intensive care units - Other spaces with large gatherings of people 【Benefits of Implementation】 - Visualization of CO2 concentration to optimize ventilation timing - Monitoring temperature and humidity to maintain a comfortable environment - Understanding air flow through differential pressure measurement - Reduction of hospital-acquired infection risk - Energy-saving effects

• Other electronic parts

In the agricultural sector, accurate monitoring of environmental factors such as CO2 concentration, temperature, and humidity is essential to optimize the growth environment for crops. In particular, CO2 concentration directly affects plant photosynthesis, while temperature and humidity significantly influence the occurrence of pests and diseases as well as growth rates. Improper environmental management can lead to reduced yields and lower quality. The EE894 simultaneously measures CO2, temperature, humidity, and differential pressure, addressing these challenges in agricultural environmental control. 【Usage Scenarios】 - Plant factories - Greenhouses - Livestock facilities - Warehouses 【Benefits of Implementation】 - Real-time monitoring of CO2 concentration, temperature, and humidity to maintain optimal conditions - Energy savings through automatic control of ventilation systems - Improvement in crop growth conditions - Reduction of pest and disease risks

• Other electronic parts

In the building management industry, there is a demand for balancing energy conservation with a comfortable indoor environment. In particular, it is important to manage indoor air quality appropriately while keeping energy consumption low. Inadequate ventilation can lead to wasted energy, while excessive ventilation can improperly affect indoor temperature and humidity, potentially compromising comfort. The EE894 achieves optimal ventilation control by simultaneously measuring CO2 concentration, temperature, humidity, and differential pressure, contributing to both energy conservation and a comfortable indoor environment. 【Usage Scenarios】 - Office buildings - Commercial facilities - Schools - Hospitals 【Benefits of Implementation】 - Energy savings through optimized ventilation - Realization of a comfortable indoor environment - Health management through air quality monitoring - Reduction of building management costs

• Other electronic parts

● The detection principle recommended by the Ministry of Economy, Trade and Industry for CO2 measuring devices is an optical sensor. ● Equipped with automatic calibration function (automatic correction function). ● Revolutionary long-term stability. ● Temperature/pressure compensation function. ● Low power consumption. ● Compact (45 mm * 22 mm * 15 mm). ■ The EE894 is a digital sensor module suitable for ventilation control and general building air conditioning management applications for CO2/temperature/humidity/differential pressure. ■ To compensate for aging degradation, it adopts E+E's unique dual-wavelength NDIR CO2 sensor. ■ It is resistant to contamination and provides long-term stability. In addition to CO2 measurement, it can also measure humidity (RH), temperature (T), and differential pressure (p). For more details, please download the catalog or contact us.

• Other electronic parts

In the drying process of the textile industry, it is essential to enhance energy efficiency while maintaining product quality. In particular, the amount of air used in the drying process significantly affects the final product and costs. Improper air flow management can lead to uneven drying and excessive energy consumption. The EE771/EE772 mass flow meter accurately measures the amount of compressed air used and contributes to energy savings by maintaining optimal drying conditions. 【Usage Scenarios】 - Drying process of textile products - Air flow management in dryers - Energy-saving measures 【Effects of Implementation】 - Optimization of air usage - Improvement of drying quality - Reduction of energy costs

• Flow Control

In the glass molding industry, there is a demand for improved product quality and production efficiency. The amount of compressed air used in the molding process significantly affects product quality and yield. Variations in air pressure can lead to molding defects and product variability. The EE771/EE772 mass flow meters accurately measure the amount of compressed air used, enabling stable supply. This contributes to reducing molding defects and optimizing energy costs. 【Application Scenarios】 - Glass molding factories - Compressed air supply lines - Energy-saving measures 【Benefits of Implementation】 - Visualization of compressed air usage - Reduction in energy costs - Stabilization of molding quality

• Flow Control

In the aerospace industry, accurate flow measurement is essential for testing purposes. Particularly in the performance evaluation tests of aircraft engines and components, accurately understanding the flow of compressed air and other gases significantly affects the reliability of test results. Errors in flow measurement can lead to inaccuracies in test results and potential safety issues. The EE771/EE772 mass flow meters enhance the reliability of tests through high-precision flow measurement. 【Application Scenarios】 * Performance testing of aerospace components * Engine testing * Wind tunnel experiments 【Benefits of Implementation】 * Improved reliability of test data * Cost reduction through energy savings * Enhanced quality through high-precision flow management

• Flow Control

In the shipbuilding industry's welding process, accurate flow management of compressed air and gas is crucial for achieving high-quality welds. Welding quality is greatly influenced by the flow rate of the gas, and inappropriate flow rates can lead to welding defects and material waste. EE771/EE772 accurately measures the flow of compressed air and other gases, supporting the optimization of gas usage in the welding process. This contributes to cost reduction and quality improvement. 【Usage Scenarios】 - Welding booths - Gas supply lines - Shipyard factories 【Benefits of Implementation】 - Reduction of waste through visualization of gas usage - Stabilization of welding quality - Cost reduction

• Flow Control

In the metal processing industry, proper flow rate management of cooling water is essential to maintain processing accuracy and product quality. Inadequate flow rates of cooling water can lead to processing defects and reduced tool lifespan. EE771/EE772 can measure the usage of compressed air, nitrogen, CO2, oxygen, argon, or other non-corrosive, non-flammable gases. This allows for accurate monitoring of cooling water flow rates and maintaining them in optimal condition. With a high precision indication of ±1.5%, it also contributes to energy savings. 【Usage Scenarios】 - Monitoring cooling water flow rates in metal processing - Management of cutting oil and grinding fluid usage - Abnormal detection in cooling systems 【Benefits of Implementation】 - Improved processing accuracy - Extended tool lifespan - Cost reduction through optimization of cooling water usage - Energy-saving effects

• Flow Control

In the water treatment industry, particularly in aeration processes, efficient oxygen supply is essential. Aeration is crucial for breaking down organic matter in water and purifying water quality, but excessive air supply can lead to energy waste and increased costs. The EE771/EE772 accurately measures air flow in the aeration process, enabling optimal oxygen supply and facilitating energy savings and efficient water treatment. 【Application Scenarios】 - Monitoring air flow in aeration tanks - Optimizing air usage in wastewater treatment facilities - Adjusting aeration levels in water quality management 【Benefits of Implementation】 - Energy savings through visualization of air usage - Improved water quality due to enhanced aeration efficiency - Reduction in operating costs - Stable water treatment through process optimization

• Flow Control

In the energy industry, it is essential to accurately grasp the usage of compressed air and other resources to reduce waste. Particularly in response to rising energy costs, efficient energy management is crucial. The mass flow meters EE771/EE772 measure flow rates in pipes ranging from DN15 (1/2”) to a maximum of DN80 (3”), visualizing air usage to promote energy savings. With high-precision measurements, they contribute to reducing energy costs. 【Usage Scenarios】 - Management of compressed air usage in factories - Monitoring of gas flow rates in plants - Improvement through visualization of energy consumption 【Benefits of Implementation】 - Optimization of energy usage - Cost reduction - Contribution to energy savings

• Flow Control

In the chemical industry, accurate flow measurement of reaction gases is essential for ensuring the efficiency of reactions, the quality of products, and safety. Particularly in processes with delicate reaction conditions or when using expensive gases, precise flow management becomes crucial. Inadequate flow management can lead to dangerous situations such as reaction stoppage, increased by-products, or even explosions. The EE771/EE772 mass flow meters support the optimization of reaction processes through high-precision flow measurement. 【Usage Scenarios】 - Gas supply lines for chemical reaction processes - Flow monitoring of reaction gases - Safety management in plants 【Benefits of Implementation】 - Improved reaction efficiency - Stabilization of product quality - Enhanced safety in plants

• Flow Control

In the pharmaceutical industry's sterilization process, it is crucial to accurately manage the flow of compressed air and gases to minimize the risk of contamination. In particular, precise measurement and control of flow are essential to maintain air cleanliness in the manufacturing environment and ensure product quality. Improper flow management can lead to product contamination and decreased efficiency in the manufacturing process. The EE771/EE772 mass flow meters support quality management in the sterilization process through high-precision flow measurement. 【Usage Scenarios】 - Aseptic filling process - Gas supply to culture tanks - Air supply in clean rooms - Gas flow management in pharmaceutical manufacturing 【Benefits of Implementation】 - Improved quality management through high-precision flow measurement - Cost reduction through energy savings - Stabilization and efficiency of processes - Reduced risk of contamination

• Flow Control

In the food industry’s filling process, maintaining product quality and reducing costs are crucial. In particular, it is essential to accurately grasp the amount of compressed air used for driving and cleaning filling machines and to eliminate waste. Variations in air pressure can lead to errors in filling amounts and a decline in product quality. The EE771/EE772 accurately measures the amount of compressed air used and supports the optimization of the filling process. 【Usage Scenarios】 - Measuring the amount of compressed air used in food filling lines - Monitoring the air consumption of filling machines - Managing air usage as an energy-saving measure 【Benefits of Implementation】 - Promoting energy savings through the visualization of compressed air usage - Improving the efficiency of the filling process and reducing costs - Stabilizing product quality

• Flow Control

In the automotive painting industry, stabilizing paint quality and reducing costs are important challenges. The amount of compressed air used in the painting booth greatly affects the finish and efficiency of the paint job. By accurately understanding the usage of compressed air and reducing waste, it is possible to decrease paint waste and keep energy costs down. The EE771/EE772 accurately measures the amount of compressed air used and supports the optimization of the painting process. 【Usage Scenarios】 - Compressed air supply line to the painting booth - Supply line to the air spray gun - Supply line from the compressor 【Benefits of Implementation】 - Energy savings through visualization of compressed air usage - Stabilization of paint quality - Cost reduction

• Flow Control

In the semiconductor manufacturing industry, the presence of minute foreign substances during the manufacturing process significantly affects product quality. In particular, the management of the cleanliness of compressed air and various gases is a crucial factor that influences yield. The mass flow meters EE771/EE772 accurately measure these gas flows and assist in cleanliness management. By providing high-precision measurements and reliable data, they contribute to the optimization of the manufacturing process. 【Usage Scenarios】 - Compressed air supply lines in clean rooms - Various gas supply lines (nitrogen, oxygen, argon, etc.) - Gas supply to semiconductor manufacturing equipment 【Benefits of Implementation】 - Strengthened quality control through accurate monitoring of gas flow - Cost reduction through optimization of gas usage - Stabilization of the manufacturing process and improvement of yield

• Flow Control

● ±1.5% of high-precision indication value ● Measurement under pressure set before shipment ● Excellent reproducibility ● Quick sensor replacement under line pressure (EE772) ● Bus interface for Modbus RTU/M-BUS ■ The EE771/EE772 adopts the thermal mass flow principle and is suitable for measuring flow rates in pipes ranging from DN15 (1/2”) to a maximum of DN80 (3”). ■ It can measure the usage of compressed air, nitrogen, CO2, oxygen, argon, or other non-corrosive, non-flammable gases. ■ The unique installation concept, which combines a measurement valve and a shut-off function, allows for quick installation and removal during regular calibration, and ensures accurate and reproducible positioning within the pipe, guaranteeing high precision. For more details, please download the catalog or contact us.

• Flow Control

In the sports industry, particularly in athletics and sailing, accurate measurement of wind speed significantly impacts competition results. Wind speed data is essential for determining the validity of records and is also an important factor in analyzing athlete performance. If the accuracy of the anemometer is low, the reliability of records may be compromised, and appropriate training may not be possible. The EE75 achieves high-precision measurements across a wide range of wind speeds, supporting accurate wind speed measurement in sports scenarios. 【Usage Scenarios】 * Measurement of tailwind and headwind in athletics * Measurement of wind speed and direction in sailing * Meteorological observations * Evaluation of wind environments in sports facilities 【Benefits of Implementation】 * Improved reliability of competition records through accurate wind speed data acquisition * Utilization in athlete performance analysis * Support for safe competition management * Development of competition strategies considering the effects of wind

• Other measurement, recording and measuring instruments

In the aviation industry, especially on runways, accurate wind speed measurement is essential for safe takeoffs and landings. Gusts and changes in wind direction can significantly impact aircraft operations and increase the risk of accidents. The EE75 covers a wide range of wind speeds from a few micro-units to 40 m/s, accurately measuring wind speed on runways to support safe operations. 【Usage Scenarios】 * Wind speed monitoring on runways * Wind speed measurement during aircraft takeoffs and landings * Wind speed data collection at meteorological observation stations 【Benefits of Implementation】 * Ensuring safe aircraft operations * Optimizing operational schedules * Reducing accident risks

• Other measurement, recording and measuring instruments

In the shipbuilding industry, wind pressure measurement is essential for hull design and ensuring safety. In particular, accurate wind speed data is required for evaluating the structural strength of the hull under strong winds and for the efficient operation of ventilation systems. If the measurement accuracy of wind speed is low, there is a risk of overestimating the safety margin in design, which could lead to increased costs. The EE75 achieves high-precision measurements across a wide range of wind speeds, addressing the challenges of wind pressure measurement in shipbuilding. 【Application Scenarios】 - Wind pressure testing of hull structures - Measurement of airflow in ventilation systems - Safety management for cranes and other equipment 【Benefits of Implementation】 - Optimization of design through accurate wind speed data acquisition - Improved safety - Cost reduction

• Other measurement, recording and measuring instruments

In experiments conducted in research facilities, accurate wind speed measurement significantly affects the reliability of the experimental results. Particularly in environments susceptible to micro wind speeds and temperature changes, a high-precision anemometer is essential. The EE75 accommodates a wide range of wind speeds and temperatures, and its convection error cutoff function enables accurate wind speed measurements. This contributes to the enhancement of the reliability of experimental data. 【Application Scenarios】 * Wind speed measurement in clean rooms * Performance evaluation of ventilation systems * Airflow measurement in air conditioning equipment * Wind speed management in various experiments 【Benefits of Implementation】 * Improved accuracy of experimental data * Enhanced reproducibility of experiments * Energy-saving effects through equipment optimization * Increased research efficiency

• Other measurement, recording and measuring instruments

In the plant industry, accurate measurement of wind speed is essential for safe operations. Particularly when monitoring the dispersion of explosive gases and hazardous substances, it is necessary to accurately grasp changes in wind speed and take appropriate measures. Measurement errors in wind speed can lead to serious accidents and are a significant challenge in plant safety management. The EE75 supports plant safety management with its wide range of wind speed and high-precision measurement capabilities. 【Application Scenarios】 - Wind speed monitoring during explosive gas leak detection - Wind speed measurement during hazardous substance dispersion - Airflow management in ventilation systems 【Benefits of Implementation】 - Improved plant safety - Reduced accident risk - Ensured safety for workers

• Other measurement, recording and measuring instruments

In the building management industry, the efficient operation of air conditioning systems is crucial for energy conservation. In particular, the management of airflow in ventilation systems significantly impacts energy consumption. Improper airflow management can lead to excessive energy consumption and deterioration of indoor air quality due to inadequate ventilation. The EE75 achieves high-precision measurements across a wide range of airspeeds, enabling optimal airflow control for air conditioning systems. This contributes to both improved energy efficiency and a comfortable indoor environment. 【Usage Scenarios】 - Measuring airflow speed in air conditioning ducts - Monitoring airflow in ventilation systems - Managing airflow in clean rooms 【Benefits of Implementation】 - Reduction in air conditioning energy consumption - Optimization of ventilation efficiency - Improvement of indoor environment

• Other measurement, recording and measuring instruments

In the field of meteorological observation, the collection of accurate wind speed data is essential. Wind speed data is utilized for various purposes such as weather forecasting, environmental monitoring, and research, and high-precision data enhances the quality of these activities. The EE75 meets these needs by providing high-precision measurements across a wide range of wind speeds and temperatures. 【Usage Scenarios】 - Meteorological observation stations - Research institutions - Environmental monitoring 【Benefits of Implementation】 - Acquisition of accurate wind speed data - Measurement in a wide range of environments - Streamlining of data collection

• Other measurement, recording and measuring instruments

In the field of agricultural environmental control, understanding the appropriate wind speed is crucial for optimizing the growth environment of crops. Particularly in greenhouses and plastic houses, ventilation efficiency and temperature management significantly affect yield. Inaccurate wind speed measurements can lead to insufficient ventilation, resulting in disease outbreaks, or excessive ventilation, causing temperature drops. The EE75 achieves high-precision measurements across a wide wind speed range of 0 to 40 m/s, allowing for accurate assessment of wind speed in agricultural environments. 【Usage Scenarios】 - Ventilation control in greenhouses - Temperature and humidity management in greenhouses - Ventilation management in poultry farms and livestock barns 【Benefits of Implementation】 - Optimization of the crop growth environment - Reduction of disease risk - Improvement of energy efficiency

• Other measurement, recording and measuring instruments

In the wind power generation industry, accurate measurement of wind speed is essential for optimizing power generation efficiency. Wind speed data is used for adjusting the angle of wind turbines and for operational control, contributing to maximizing power output. If accurate wind speed measurements cannot be made, it may lead to decreased power generation efficiency and increased maintenance costs. The EE75 achieves high-precision measurements across a wide range of wind speeds and temperatures, supporting the efficient operation of wind power plants. 【Use Cases】 - Monitoring wind conditions at wind power plants - Evaluating the performance of wind turbines - Optimizing power generation efficiency - Developing maintenance plans 【Benefits of Implementation】 - Maximizing power output - Reducing maintenance costs - Ensuring stable operation of wind power plants - Accurate operation based on data

• Other measurement, recording and measuring instruments

In tunnel ventilation systems, accurate wind speed measurement is essential for efficient ventilation. Particularly, understanding the airflow within the tunnel and ensuring appropriate ventilation levels is crucial for the safety of workers and the maintenance of the tunnel. If the accuracy of wind speed measurement is low, ventilation efficiency may decrease, potentially leading to the accumulation of harmful substances and poor visibility. The EE75 achieves high-precision measurements across a wide range of wind speeds, contributing to the optimization of tunnel ventilation systems. 【Usage Scenarios】 - Monitoring wind speed inside tunnels - Controlling ventilation systems - Safety management 【Benefits of Implementation】 - Improved ventilation efficiency through accurate wind speed measurement - Enhanced working environment - Increased safety

• Other measurement, recording and measuring instruments

In a cleanroom environment, managing airborne particles and contaminants is crucial, and appropriate airflow management is essential to maintain cleanliness. Abnormal airflow can lead to a decrease in cleanliness, potentially adversely affecting product quality and the manufacturing process. The EE75 accommodates a wide range of airflow speeds and, through high-precision measurements, accurately monitors airflow within the cleanroom, supporting cleanliness management. 【Usage Scenarios】 - Airflow monitoring within cleanrooms - Airflow measurement in clean benches and air showers - Airflow management in manufacturing processes 【Benefits of Implementation】 - Maintenance of cleanroom cleanliness - Improvement in product quality - Stabilization of manufacturing processes

• Other measurement, recording and measuring instruments

In the air conditioning system industry, optimizing energy efficiency and maintaining a comfortable environment are essential. In particular, accurate measurement of airflow is crucial for maximizing the performance of air conditioning equipment and reducing unnecessary energy consumption. If the measurement accuracy of wind speed is low, proper ventilation may not occur, potentially leading to temperature unevenness and deterioration of indoor air quality. The EE75 achieves high-precision measurements across a wide range of wind speeds, supporting the efficient operation of air conditioning systems. 【Usage Scenarios】 - Airflow adjustment of air conditioning equipment - Wind speed measurement in ducts - Airflow management in clean rooms - Optimization of ventilation systems 【Benefits of Implementation】 - Reduction of energy costs - Achievement of a comfortable indoor environment - Improvement of air conditioning equipment performance - Quality enhancement through accurate airflow management

• Other measurement, recording and measuring instruments

● Measurement range: 0 to 40 m/s, temperature range: -40 to +120℃ ● Software with configurable settings ● Four types tailored for installation locations (wall-mounted type, duct insertion type, remote probe type, remote probe type with maximum pressure of 1 MPa) ● Convection error cutoff function ■ The EE75 is a wind speed transmitter developed for high-precision measurements across a wide range of wind speeds and temperatures. ■ In narrow piping, convection due to temperature differences can be a factor in wind speed measurement errors. The EE75 has a cutoff function that prevents the detection of this convection error wind speed. The cutoff point and hysteresis at startup can be set using configuration software. For more details, please download the catalog or contact us.

• Other measurement, recording and measuring instruments

In the aerospace industry, accurate wind speed measurement is essential for aircraft design and performance evaluation during wind tunnel experiments. In particular, visualizing airflow and understanding the wind speed distribution around the aircraft in detail is required. Inaccurate wind speed measurements can undermine the reliability of experimental results and lead to design errors. The EE671 enhances the reliability of wind tunnel experiments through high-precision wind speed measurement. 【Usage Scenarios】 * Evaluation of aircraft wings and fuselage shapes * Performance evaluation of engines and related components * Measurement of airflow distribution within the wind tunnel 【Benefits of Implementation】 * Acquisition of accurate wind speed data * Improved experimental efficiency * Optimization of the design process

• Other measurement, recording and measuring instruments

In the shipbuilding industry, accurate measurement of wind pressure is essential for the design of hulls and ensuring safety. To accurately understand the loads on the hull during strong winds and ensure structural safety, a high-precision and reliable anemometer is required. The EE671 addresses the challenges of wind pressure measurement in shipbuilding through high-precision wind speed measurement. 【Application Scenarios】 * Strength evaluation of hull structures * Assessment of the impact of wind pressure on the hull * Ensuring safety 【Benefits of Implementation】 * Acquisition of accurate wind pressure data * Improved safety during the design phase * Enhanced reliability through long-term stability

• Other measurement, recording and measuring instruments

In the painting industry, accurate measurement of exhaust air velocity is crucial for ensuring a safe working environment and quality control. In particular, the proper discharge of paint mist is essential for protecting the health of workers, reducing fire risks, and improving painting quality. If the exhaust air velocity is inadequate, mist can accumulate, leading to health hazards and poor painting results. The EE671 accurately measures the exhaust air velocity in painting booths, addressing these challenges. 【Usage Scenarios】 - Painting booths - Exhaust ducts - Ventilation systems within factories 【Benefits of Implementation】 - Improved safety of the working environment - Stabilization of painting quality - Compliance with regulations - Cost reduction

• Other measurement, recording and measuring instruments

In food factories, it is important to accurately understand air flow and maintain a hygienic environment to ensure product quality. In particular, proper ventilation and air flow management are essential to reduce the risk of foreign matter contamination and prevent the growth of mold and bacteria. Inadequate air flow can lead to product quality deterioration and health hazards for employees. The EE671, a small probe type, supports hygiene management in food factories through high-precision air velocity measurement. 【Usage Scenarios】 - Clean rooms - Production lines - Air velocity measurement in ventilation systems - Foreign matter contamination countermeasures 【Benefits of Implementation】 - Strengthened hygiene management through accurate air velocity measurement - Improved product quality - Reduced risk of foreign matter contamination - Enhanced working environment

• Other measurement, recording and measuring instruments

In a data center, proper air conditioning management is essential to prevent server overheating. Accurate wind speed measurement is crucial to maximize cooling efficiency and reduce energy costs. By early detection of wind speed irregularities and anomalies, and taking appropriate measures, stable server operation can be maintained. The EE671 addresses the challenges of wind speed measurement in data center air conditioning management. 【Usage Scenarios】 - Inside data center air conditioning ducts - Around server racks - Measuring wind speed of cooling fans 【Benefits of Implementation】 - Optimization of cooling efficiency - Reduction of energy costs - Stable server operation

• Other measurement, recording and measuring instruments

Accurate wind speed measurement is a crucial factor that affects the reliability of experimental results in research facility experiments. Particularly in experiments where subtle airflows can influence outcomes or in situations requiring monitoring of ventilation conditions, a high-precision anemometer is essential. Inaccurate wind speed measurements can compromise the reproducibility of experiments and lead to incorrect conclusions. The EE671 achieves high-precision wind speed measurement, contributing to the enhancement of experimental reliability. 【Application Scenarios】 - Wind speed measurement in clean rooms - Airflow measurement within experimental apparatus - Performance evaluation of ventilation systems - Wind speed measurement in environmental testing 【Benefits of Implementation】 - Improved reliability of experimental data - Enhanced reproducibility of experiments - Optimization of experimental environments - Increased research efficiency

• Other measurement, recording and measuring instruments

In a clean room, it is important to manage airborne particles and contaminants to maintain product quality. Abnormal wind speeds can lead to a decrease in cleanliness, potentially causing product defects and issues in the manufacturing process. The EE671 accurately measures wind speed, allowing for precise monitoring of airflow within the clean room and supporting cleanliness management. 【Usage Scenarios】 - Wind speed measurement within the clean room - Monitoring airflow distribution in the clean room - Maintaining cleanliness in the clean room 【Benefits of Implementation】 - Accurate understanding of wind speed in the clean room to maintain cleanliness - Improvement in product quality - Stabilization of the manufacturing process

• Other measurement, recording and measuring instruments