Testo 405 - Thermal Anemometer

Brand: Testo

Use the Testo 405 thermal anemometer to measure air velocity, volumetric flow and air temperature.

It is suitable for carrying out quick check measurements in ventilation ducts and for measuring the air velocity in rooms, e.g. at draughty windows.

If, in your capacity as an HVAC engineer, you carry out fast check measurements in ventilation ducts or in rooms, then our Testo 405 thermal anemometer is a must-have.

The anemometer features a permanently mounted telescope and enables you to measure air flow, volumetric flow and air temperature.

The measuring range for flow is between 0 to 10 m/s, volumetric flows are calculated up to 99,990 m³/h.

The extendible telescope (up to 300 mm) makes the thermal anemometer particularly suitable for flow measurements in ventilation ducts.

The illuminated display can be swiveled into various positions, ensuring that the readings can be read off comfortably.

The duct bracket (included in the delivery) offers key practical advantages.

You can use this to optimally position the telescope in the ventilation duct and obtain precise measurement results.

Since the Testo 405 thermal anemometer measures particularly accurately in the range between 0 and 2 m/s, you can also use it to measure the air velocity in rooms.

Low air velocities, at draughty windows for example, are quickly located and accurately measured using the anemometer.

Integrated sensor protection: when you are not using the Testo 405 thermal anemometer, the rotating protective cap protects the flow sensor from mechanical stress.
Features
  • Measurement of air velocity, volumetric flow and air temperature
  • For measurements in ventilation ducts and in rooms
  • Particularly precise in the range between 0 and 2 m/s
  • Telescope extendible to 300 mm

Specifications

Brand

Delivery Scope

  • Testo 405 Thermal Anemometer with permanently mounted Telescope, including Duct Bracket, attachment Clip and Batteries

Temperature - NTC

  • Measuring Range: -4° to 122° F / -20° to +50° C
  • Accuracy: ± 0.5° C
  • Resolution: 0.1° C

Velocity -Thermal Anemometer

  • Measuring Range: 0 to 5 m/s (-20° C to 0° C) | 0 to 10 m/s (0° C to +50° C) | 0 to 99990 m³/h
  • Accuracy: ± (0.1 m/s + 5 % of mv) (0 to 2 m/s) | ± (0.3 m/s + 5 % of mv) (Remaining Range)
  • Resolution: 0.01 m/s

Weight

  • 115 g (with batteries, without packaging)

Dimensions

  • 490 x 37 x 36 mm

Operating Temperature

  • 32° to 122° F / 0° to +50° C

Battery Type

  • 3 AAA micro batteries

Battery Life

  • Approx. 20 h

Display Type

  • LCD (Liquid Crystal Display)

Length Probe Shaft

  • 300 mm

Diameter Probe Shaft

  • 16 mm

Diameter Probe Shaft Tip

  • 12 mm

Storage Temperature

  • -4° F to 158° F / -20° C to +70° C

  • Measurement of Indoor Air Velocity
  • For workers to feel comfortable in their indoor working environments, "thermal comfort" has to prevail. The EN 13779 describes this as a state that prevails when people are satisfied with the air temperature, humidity, air movement and thermal radiation in a room, and require neither hotter, colder, nor drier or more humid indoor air. The Testo 405 is particularly well suited to measuring indoor flow velocity. Low air velocities, such as at draughty windows, can therefore be precisely located and measured extremely accurately.
  • Measurement in Ventilation Ducts
  • Observance of air flows in the ventilation duct is of utmost importance for the function of the ventilation and air conditioning system. If the air flows are smaller than intended, the removal of room loads (heating, cooling and substance loads) may not be ensured in certain circumstances. Therefore, the most accurate recording of air flows as possible is particularly important. Our thermal anemometer Testo 405 allows particularly cost-effective measurement of low air velocities. It enables the accurate and parallel measurement of air flow, volumetric flow and temperature. The extendible telescope allows measurement at a depth of up to 300 mm. The display can be swiveled into various positions, enabling optimum measurement readout.
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