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Amprobe TMA10A Anemometer with Flexible Precision Vane
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Product Details
Brand:
Amprobe
Air velocity (Range / Resolution / Accuracy):
0.40 to 25.00 m/s, 80 to 1400 ft/min
Air flow (volume) (Range / Resolution / Accuracy):
0.01 to 99.99 m³/sec, 1 ft³/min to 9999 ft³/min
Temperature (Range / Resolution / Accuracy):
0°C to 50°C (32°F to 122°F)
Operating temperature:
32°F to 122°F (0°C to 50°C)
Power:
9V battery (heavy-duty alkaline)
Dimentions:
181 mm x 71 mm x 38 mm (7.1 in x 2.8 in x 1.4 in)
Weight:
363 g (0.8 lb), including battery and sensor
Amprobe TMA10A
The Amprobe TMA10A Anemometer is a critical instrument for professionals engaged in the fields of heating, ventilation, air conditioning, and refrigeration (HVAC/R). Its design caters to the modern demands of ensuring that air systems in both commercial and residential settings function with precision and efficiency. While many may view this tool as another technical device, it is, in fact, an essential component of larger systems that touch our everyday lives.
The Vital Role of Anemometers in HVAC/R
To understand the significance of the Amprobe TMA10A, it’s necessary to appreciate the wider context of HVAC/R systems. These systems are responsible for controlling the indoor climate of buildings—whether through heating, cooling, or air purification—and are critical for human comfort, safety, and productivity. From offices to hospitals, schools to data centers, the proper regulation of air temperature and quality plays an immense role in maintaining suitable environments for a variety of needs. However, ensuring that these systems operate efficiently requires precise measurement and adjustment, which is where the Amprobe TMA10A comes into play.
Anemometers are essential in the testing and balancing process of HVAC systems. Technicians use them to measure air velocity and volume, which are critical parameters for determining whether air distribution in a system is balanced. Proper airflow guarantees that all areas of a building receive adequate heating or cooling, leading to energy efficiency and lower costs. By monitoring airflow, potential issues such as blockages or leaks in ducts can be identified and corrected, which in turn prevents overworking the system. This ensures longevity and avoids breakdowns that could result in costly repairs or downtime.
In this field, anemometers are not only used for maintenance but are also pivotal in the installation phase. For instance, when setting up a new system, measurements must be taken to ensure that the system meets design specifications. If air velocity and flow are incorrect, the system may fail to deliver the desired results, leading to energy wastage and customer dissatisfaction.
Flexibility for Difficult Environments
One of the key challenges that technicians face in HVAC/R work is the variability of the environments they operate in. Ducts and vents are often located in confined, hard-to-reach areas that make testing airflow challenging. A standard, rigid anemometer could be impractical or inefficient in such scenarios. This is where the flexible precision vane of the TMA10A proves invaluable. The flexible design allows technicians to maneuver the device into difficult positions, ensuring that measurements can be taken even in less accessible parts of a system. This flexibility not only increases the precision of measurements but also saves time and effort during inspections.
In addition to addressing confined spaces, the flexible vane design contributes to enhanced safety. When working in industrial settings or tight spaces, awkward postures or physical strain can increase the risk of injury. The TMA10A's design alleviates these risks by reducing the need for technicians to contort their bodies to take measurements, thus contributing to safer working conditions.
Supporting Sustainability and Efficiency
As concerns about energy efficiency and sustainability continue to grow, the role of tools like the Amprobe TMA10A becomes even more important. By ensuring that HVAC systems are operating efficiently, technicians can help reduce energy consumption and minimize carbon footprints. This is particularly significant given that HVAC systems account for a substantial portion of energy use in buildings. Poorly maintained systems not only consume more energy but also emit higher levels of pollutants, contributing to environmental degradation.
In the context of energy audits or sustainability assessments, the TMA10A can be instrumental in identifying inefficiencies. By measuring airflow and temperature accurately, technicians can adjust systems to ensure they are operating at optimal levels. This not only benefits the environment but also reduces energy bills for building owners and operators.
Amprobe TMA10A Specifications
| Display | Dual 4-digit (9999 count) LCD | ||
| Operation Temperature | 32°F to 122°F (0°C to 50°C) | ||
| Operating Humidity | Max. 80% RH | ||
| Power Supply | 9V battery (heavy-duty alkaline) | ||
| Battery Life | 100 hours | ||
| Dimensions (Main Instrument) | 181 mm x 71 mm x 38 mm (7.1 in x 2.8 in x 1.4 in) | ||
| Weight | 363 g (0.8 lb), including battery and sensor | ||
| Warranty | One-year | ||
| Measurement Accuracy | Range | Resolution | Accuracy |
| Air Velocity (m/s) | 0.40 to 10.00 m/s | 0.01 m/s | ±0.5 m/s |
| 10.00 to 25.00 m/s | ±0.75 m/s | ||
| Air Velocity (ft/min) | 80 to 1965 ft/min | 1 ft/min | ±100 ft/min |
| 1965 to 4900 ft/min | ±150 ft/min | ||
| Air Flow (CMS) | 0.01 to 99.99 m³/sec | 0.01 | 0 to 9.999 m³ |
| Air Flow (CFM) | 1 ft³/min to 9999 ft³/min | 1 | 0 to 9.999 ft³ |
| Air Temperature | 0°C to 50°C (32°F to 122°F) | 0.1°C/(°F) | ±0.8°C (1.5°F) |
| Additional Features | Details | ||
| Data Hold | Freezes displayed reading | ||
| Sensors | Air velocity/flow sensor: Conventional angled vane arms with low friction ball bearing | ||
| Temperature sensor: Precision thermistor | |||
| Sensor Head Diameter | 70 mm | ||
| MIN/MAX Memory | Record and view minimum and maximum readings | ||
| Average Reading Memory | Single point (up to 2 hours) or multi-point (up to 8 readings) | ||
| Automatic Power Off | Sleep mode (with bypass) after 20 minutes to conserve energy | ||
| Measurement Units | Air velocity: ft/min, m/s | ||
| Air flow: CMS (m³/sec) and CFM (ft³/min) | |||
| Temperature: °C and °F |
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Amprobe TMA10A Anemometer with Flexible Precision Vane
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