Safety and the environment ..............5 2.1. About this document ................ 5 2.2. Ensure safety................... 6 2.2.1. Safety and the testo 510i/605i/915i ................6 2.2.2. Safety and the testo 605i ..................... 6 2.2.3. Safety and the testo 549i/552i..................6 2.2.4.
2 Safety and the environment Safety and the environment 2.1. About this document > Please read this documentation through carefully and familiarize yourself with the product before putting it to use. Pay particular attention to the safety instructions and warning advice in order to prevent injuries and damage to the products.
Not for condensing atmospheres. For continuous application in high humidity (> 80 %RH at 30 °C for > 12 h, > 60 %RH at > 30 °C for > 12 h), contact us via www.testo.com. • The sensor must not be exposed to volatile chemicals such as solvents (e.g.
2 Safety and the environment > Use with A2L refrigerants Testo measuring instruments (as of July 2020) can be used in compliance with the prescribed laws, standards, directives and safety regulations for refrigeration systems and refrigerants as well as regulations of the manufacturers of refrigerants of safety group A2L as per ISO 817.
3 Specifications Specifications Testo Smart Probes are different hand-held measuring instruments for various applications that communicate with your mobile terminal devices by means of an app. The respective Smart Probe performs the measurement and is operated by your mobile terminal device.
3 Key 4 Battery compartment (at the back) 5 Direction of flow testo 405i / testo 410i (not shown) (An arrow on the top of the housing displays the direction of flow in which the measuring instrument has been calibrated and which achieves the best measurement results.
Establishing Bluetooth connection ® You need a tablet or smartphone with the Testo SMART App already installed on it to be able to establish a Bluetooth connection. You can get the App for iOS instruments in the App Store or for Android instruments in the Play Store.
5 First steps The connection between the Smart Probe and your mobile terminal device is established. 5.3. Transmitting readings The Smart Probe is switched on and connected to your mobile terminal device via Bluetooth. The current readings are automatically displayed in the App.
6 Using the App Using the App 6.1. Overview of operating controls Choice of applications. 2 Switch between the views (list, graphic diagram, table) 3 Display of connected Smart Probes including readings 4 Start/stop Measurement configuration (the menu changes depending on the Smart Probe connected and the application selected) Smart Probe configuration 6.2.
6 Using the App 6.2.2. Display Tutorial Tutorial guides you through the first steps when operating the Testo SMART App. 1. Tap -> Help & Information -> Tutorial Tutorial is displayed. In Tutorial, swipe to display the next page. 2. Tap X to close the Tutorial.
6 Using the App 6.4. Smart Probe settings 1. Press -> Sensors. 3. Select the Smart Probe to display the details you would like to see. A list with details about the Smart Probe appears in the Information tab. 4. You can activate the damping in the Settings tab.
6 Using the App 6.5. testo 115i/915i - Surface increment Surface probes withdraw heat from the measured surface immediately after the initial contact. This makes the measurement result lower than the true surface temperature without the probe (or the reverse if the surface is colder than the environment).
6 Using the App • Table view In the Table view, all readings are displayed in sequence according to date and time. The different readings from the individual Smart Probes can be selected by pressing 6.7. Settings view 1. Press and select Edit View.
Create PDF with all readings is only possible up to 30 pages, due to the resulting file size and number of pages. In the testo DataControl software, however, PDF reports can be created for all measurements without any restrictions. A report containing all the information is created.
> Keep connections clean and free of grease and other deposits, clean with a damp cloth as required. Ensuring measuring accuracy > Testo Customer Service would be glad to further assist you if you so wish. > Keep within the permissible measuring range! >...
9.2. General technical data All accuracy specifications apply at a nominal temperature of 22 °C. 9.2.1. testo 905i Feature Values Measuring range -50 to 150 °C / -58 to 302 °F Accuracy ± 1 digit ±...
9 Technical data 9.2.2. testo 410i Feature Values Measuring range 0.4 to 30 m/s / 80 to 5,900 fpm -20 to 60 °C / -4 to 140 °F Accuracy ± 1 digit ± (0.2 m/s + 2% of m.v.) (0.4 to 20 m/s) ±...
Probe tip diameter 9 mm Directives, standards EU guideline: 2014/30/EU and tests RED: 2014/53/EU RoHS: 2011/65/EU + (EU) 2015/863 9.2.4. testo 549i Feature Values Measuring range 0 to 60 bar (rel) / 0 to 870 psi (rel) Overpressure 65 bar Accuracy ±...
152 mm x 35 mm x 35 mm Directives, standards EU guideline: 2014/30/EU and tests RED: 2014/53/EU RoHS: 2011/65/EU + (EU) 2015/863 9.2.5. testo 805i Feature Values Measuring range -30 °C to 250 °C / -22 to 482 °F Accuracy ± 1 digit ±...
9 Technical data 9.2.9. testo 915i Feature Values Measuring range: -60 to +1000 °C handle (0560 1915) -76 to +1832 °F Measuring range with -50 to +400 °C TC probe 0602 1093 -58 to +752 °F Measuring range with -50 to +350 °C TC probe 0602 2093 -58 to +662 °F...
129 x 31 x 31 mm Directives, standards EU Directive: 2014/30/EU and tests RED: 2014/53/EU RoHS: 2011/65/EU + (EU) 2015/863 9.2.10. testo 552i Feature Values Measuring range 0 to 26.66 mbar 0 to 20000 microns ±10 microns + 10% of m.v. (100 to 1000 microns) Accuracy ±...