Testo Smart Probes testo Smart Probe user manual Chapter 1 Project overview Testo Smart probe project involve development on APP and eight types of probe which APP can get measurement data from probe and also realize extend function on refrigerant/VAC/heating system. Page 1 last saved: 2021-12-29 Testo Smart Probes Chapter 2 Product description 2.1 Smart Probe App Control of the Smart Line instrument via smartphone / tablet Check measured data wireless on smartphone / tablet Do trendings as graph or table on smartphone / tablet Send measured values in protocol as .pdf or excel file Wireless connection Bluetooth Low Energy Range 20 m (unobstructed field), 5m for handhold probe Compatibility Android 4.3 or higher / iOS 7.0 or higher Page 2 last saved: 2021-12-29 Testo Smart Probes 2.1 Smart Probe testo 405i Measures air velocity, volume flow and temperature Easy set up for volume flow measurement via APP Easy determination of timed or multi-point average via APP Telescopic probe that can be extended up to 400 mm Determine BTUh in combination with testo 605i Check measured data wireless on mobile device Send measured values in protocol as .pdf or excel file Measuring range Accuracy Resolution Dimensions Measuring cycle Battery life Battery type Operating temperature Storage temperature 0 to 20 m/s / 0 to 3940 fpm
-20 to 60 C / -4 to 140 F
(0.05 m/s + 2.5% o. mv.) (0 +2 m/s)
(0.15 m/s + 2.5% o. mv.) (2 +15 m/s)
(10 fpm + 2.5% o. mv.) (0 +394 fpm)
(29.5 fpm + 2.5% o. mv.) (394 +3.940 fpm) 0.5 C / 0.9F 0.01 m/s / 1 fpm 0.1 C / 0.1 F 200mm x 30 mm x 41 mm Extendable telescope up to 400 mm 1/sec 15 h 3x AAA
-20 C + 50 C / -4 to 122 F
-20C to 60C / -4 to 140 F Page 3 last saved: 2021-12-29 Testo Smart Probes 2.2 Smart Probe testo 410i Measures air velocity, volume flow and temperature Easy set up for volume flow measurement via APP Easy determination of timed or multi-point average via APP Comparison of volume flows of different registers on one screen for balancing Check measured data wireless on mobile device Send measured values in protocol as .pdf or excel file Measuring range Accuracy Resolution Dimensions Measuring cycle Battery life Battery type Operating temperature Storage temperature 0,4 to 30 m/s / 78.74 to 5905.51 fpm
-20 to 60 C / -4 to 140 F
(0.2 m/s + 2% of mv) (0,4 to 20 m/s)
'(40 fpm + 2% of mv) (80 to 4.000 fpm) 0.5 C / 0.9F 0.1 C / 0.1 F 0.1 m/s / 1 fpm 154mm x 43mm x 21mm 40mm vane diameter 1/sec 140 h 3x AAA
-20 C + 50 C / -4 to 122 F
-20C to 60C / -4 to 140 F Page 4 last saved: 2021-12-29 Testo Smart Probes 2.3 Smart Probe testo 510i Can be used to determine differential pressure, air velocity and volume flow Easy set up for volume flow measurement via APP Easy determination of timed or multi-point average via APP Menu to perfom tightness / leak test on gas pipes Check measured data wireless on mobile device Do trendings as graph or table on mobile device Send measured values in protocol as .pdf or excel file Measuring range Accuracy 0 150 hPa / 60 in wc 0.05 hPa (0 ... 1.00 hPa) /
0.02 in wc (0 ... 0.4 in wc) Resolution Dimensions Measuring cycle Battery life Battery type Operating temperature Storage temperature 0.2 hPa + 1.5 % o. mv. (1.01 ... 150 hPa) 0.08 in wc + 1.5 % o. mv. (0.41 ... 60 in wc) 0.01 hPa / 0.01 inch wc 148mm x 36mm x 23mm 2/sec 130 h 3x AAA
-20 C + 50 C / -4 to 122 F
-20C to 60C / -4 to 140 F Page 5 last saved: 2021-12-29 Testo Smart Probes 2.4 Smart Probe testo 549i No / minimal refrigerant loss due to no hoses required Fast and easy installation Work on systems with pressure ports that have larger distance in between Automatic calculations of vapor and saturation temperature on smartphone Calculate all necessary refrigeration parameters in App in combination with smart temperature probes Check measured data wireless on mobile device Do trendings as graph or table on mobile device Send measured values in protocol as .pdf or excel file Measuring range Accuracy Resolution Dimensions Measuring cycle Battery life Battery type Operating temperature Storage temperature Refrigerants 0 60 bar / 0 870 psi 0.5% full scale 0.01 bar / 0.1 psi 125mm x 32 mm x 31mm 1x 7/16" UNF female connection 2/sec 130 h 3x AAA
-20 C + 50 C / -4 to 122 F
-20C to 60C / -4 to 140 F CFC, HFC, HCFC, N, H20, CO2 as pressure media Page 6 last saved: 2021-12-29 Testo Smart Probes 2.5 Smart Probe testo 605i Automatic calculation of wet bulb and dew point in App Determine BTU/H in combination with testo 405i Check measured data wireless on mobile device Do trendings as graph or table on mobile device Send measured values in protocol as .pdf or excel file Measuring range Accuracy Resolution Dimensions Measuring cycle Battery life Battery type Operating temperature Storage temperature
-20 to 60 C, -4 to 140F, 0 to 100 %rH 1.8 %rH + 3% of rdg. at +25 C (5 to 80 %rH) 0.03 %rH / K (0 to 60 C) 0.8 C (-20 0 C) / 1.44 F (-4 32F) 0.5 C (0 +60 C) / 0.9 F (32 140F) 0.1 F / 0.1 C 0.1 %rH 243mm x 30mm x 24mm 100mm probe tip 1/sec 280 h 3x AAA
-20 C + 50 C / -4 to 122 F
-20C to 60C / -4 to 140 F Page 7 last saved: 2021-12-29 Testo Smart Probes 2.6 Smart Probe testo 115i Work on systems with measuring points for temperature that have big distance in between Calculate all necessary refrigeration parameters in App in combination with smart temperature probes Check measured data wireless on mobile device Do trendings as graph or table on mobile device Send measured values in protocol as .pdf or excel file Measuring range Accuracy Resolution Dimensions Measuring cycle Battery life Battery type Operating temperature Storage temperature
-50 to 150C / -58 to 302 F 1.3 C (-2085 C) 2.34 F (--4185 F) 0.1 C / 0.1 F 183mm x 90 mm x 30mm max. 35mm pipe diameter 1/sec 240 h 3x AAA
-20 C + 50 C / -4 to 122 F
-20C to 60C / -4 to 140 F Page 8 last saved: 2021-12-29 Testo Smart Probes 2.7 Smart Probe testo 905i Check measured data wireless on mobile device Do trendings as graph or table on mobile device Send measured values in protocol as .pdf or excel file Measuring range Accuracy Resolution Dimensions Measuring cycle Battery life Battery type Operating temperature Storage temperature
-50 to 150C / -58 to 302 F 1 C / .1.8 F 0.1 C / 0.1 F 222mm x 30mm x 24mm 100mm probe tip / Diameter: 4mm 1/sec 190 h 3x AAA
-20 C + 50 C / -4 to 122 F
-20C to 60C / -4 to 140 F Page 9 last saved: 2021-12-29 Testo Smart Probes 2.8 Smart Probe testo 805i Diffractive optic as laser marker (laser circle) Picture with temperature marking can be generated in App for documentation Check measured data wireless on mobile device Send measured values in protocol as .pdf or excel file Measuring range Accuracy Resolution Optics Laser Sighting Measuring cycle Dimensions Battery life Battery type Operating temperature Storage temperature
-30C to 250 C / -22 to 482 F 1.5 C or 1.5 % of m.v. (rest) 2.0 C (-20.0 to -0.1 C ) 2.5 C (-30.0 to -20.1 C) 2.7 F or 1.5 % of m.v. (rest) 3.6 F (--4 to 32 F ) 4.5 F (-22 to --4 F) 0.1 C / 0.1 F 10:1 Diffractive optics (laser circle) 2/sec 140mm x 36mm x 25mm 25 h 3x AAA
-10 C + 50 C / 14 to 122 F
-20C to 60C / -4 to 140 F Page 10 last saved: 2021-12-29 Testo Smart Probes Chapter 3 Safety 3.1 Safety with testo 510i and testo 605i 3.2 Safety with testo 549i Risk of injury caused by pressurized, hot, cold or toxic refrigerants/media!
- Only to be used by qualified staff.
- Wear protective goggles and safety gloves.
- Before applying pressure to the measuring instrument: always fix the instrument tightly onto the pressure connection.
- Comply with the permissible measuring range (0 to 60 bar). Pay particular attention to this in systems with R744 refrigerant, since these are frequently operated with higher pressures!
- 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. Regional standardization and interpretation must always be observed. For example, DIN EN 378-Part 1-4 applies to the scope of the EN standards. During maintenance work, the employer must ensure that a hazardous explosive atmosphere is prevented (see also TRBS1112, TRBS2152 VDMA 24020-3). A hazardous and potentially explosive atmosphere must be anticipated during maintenance and repair work on refrigeration systems with flammable refrigerants (e.g. those of category A2L and A3). Maintenance, repairs, removal of refrigerants and commissioning of systems may only be carried out by qualified personnel. Page 11 last saved: 2021-12-29 Testo Smart Probes 3.3 Safety with testo 805i Page 12 last saved: 2021-12-29 Testo Smart Probes Chapter 4 Operation principle 4.1 App operation principle App which install in smart phone shall be received and display measurement value from Smart probes when its opening via Bluetooth. Customer also can configure units or other parameters by App. 4.2 testo 405i operation principle testo 405i has a NTC sensor, which shall change resistant value related ambient temperature. Circuit is response for detect NTCs resistant and calculate ambient temperature through NTCs feature by MCU .. Then MCU control the Bluetooth module to send data to smart phone via Bluetooth and also received parameter changed and action protocol from smart phone. Key is use for start ,stop and hold value. Led is use for indicate status of device. Red : warning, such as low battery level Yellow: finding App in smart phone via Bluetooth Green: communication success. 4.3 testo 410i operation principle testo 410i has a vane, which can recognize flow velocity by vanes speed of revolution. Speeds analog signal from vane can transform to digital signal for MCU deal. Then MCU control the Bluetooth module to send data to smart phone via Bluetooth and also received parameter changed and action protocol from smart phone. Key is use for start ,stop and hold value. Led is use for indicate status of device. Red : warning, such as low battery level Yellow: finding App in smart phone via Bluetooth Green: communication success. Page 13 last saved: 2021-12-29 Testo Smart Probes 4.4 testo 510i operation principle testo 510i has a differential pressure sensor, which can recognize differential pressure signal from gas pipes. Sensor can transform Pressure signal to electronic signal automatically, and transform analog signal from sensor to digital signal for MCU by A/D. Then MCU control the Bluetooth module to send data to smart phone via Bluetooth and also received parameter changed and action protocol from smart phone. Key is use for start ,stop and hold value. Led is use for indicate status of device. Red : warning, such as low battery level Yellow: finding App in smart phone via Bluetooth Green: communication success. 4.5 testo 549i operation principle testo 549i has a high pressure sensor, which can recognize high pressure from gas pipe. Sensor can transform Pressure signal to electronic signal automatically, and transform analog signal from sensor to digital signal for MCU by A/D. Then MCU control the Bluetooth module to send data to smart phone via Bluetooth and also received parameter changed and action protocol from smart phone. Key is use for start ,stop and hold value. Led is use for indicate status of device. Red : warning, such as low battery level Yellow: finding App in smart phone via Bluetooth Green: communication success. 4.6 testo 605i operation principle testo 605i has a temperature senor and humidity sensor, which can recognize ambient temperature and humidity in air. Sensors can transform temperature and humidity signals to electronic signal automatically, and transform analog signal from sensor to digital signal for MCU by A/D. Then MCU control the Bluetooth module to send data to smart phone via Bluetooth and also received parameter changed and action protocol from smart phone. Page 14 last saved: 2021-12-29 Testo Smart Probes Key is use for start ,stop and hold value. Led is use for indicate status of device. Red : warning, such as low battery level Yellow: finding App in smart phone via Bluetooth Green: communication success. 4.7 testo 115i operation principle testo 605i has a NTC sensor in clamp, which shall change resistant value related surface temperature. Circuit is response for detect NTCs resistant and calculate surface temperature of pipe, which clamp catch, through NTCs feature by MCU. Then MCU control the Bluetooth module to send data to smart phone via Bluetooth and also received parameter changed and action protocol from smart phone. Key is use for start ,stop and hold value. Led is use for indicate status of device. Red : warning, such as low battery level Yellow: finding App in smart phone via Bluetooth Green: communication success. 4.8 testo 905i operation principle testo 905i has a TC sensor, which shall change electronic capability value related ambient temperature. Circuit is response for detect TCs capability and calculate ambient temperature in air through TCs feature by MCU. Then MCU control the Bluetooth module to send data to smart phone via Bluetooth and also received parameter changed and action protocol from smart phone. Key is use for start ,stop and hold value. Led is use for indicate status of device. Red : warning, such as low battery level Yellow: finding App in smart phone via Bluetooth Green: communication success. Page 15 last saved: 2021-12-29 Testo Smart Probes 4.9 testo 805i operation principle testo 805i has a IR sensor, which can recognize surface temperature by IR reflect. Analog signal from sensor shall be transformed to digital signal by ADC for MCU. Laser shall be turn on automatically when measuring. Then MCU control the Bluetooth module to send data to smart phone via Bluetooth and also received parameter changed and action protocol from smart phone. Key is use for start ,stop and hold value. Led is use for indicate status of device. Red : warning, such as low battery level Yellow: finding App in smart phone via Bluetooth Green: communication success. Testo SE & Co. KGaA Celsiusstr. 2, 79822 Titisee-Neustadt, Germany Tel.: +49 7653 681-0 E-Mail: info@testo.de www.testo.com Page 16 last saved: 2021-12-29 see KCC Warning testo 405i: R-R-te2-05601405 testo 410i: R-R-te2-05601410 testo 510i: R-R-te2-05601510 Japan Bluetooth module:
Bluetooth Information See Japan information Feature Values Bluetooth range radio type Bluetooth company RF Band power output
[E.I.R.P]
typical 80 m 80 Bluetooth Low Energy (BLE) 4.2 Lierda Science &
Technology Group Co., Ltd 2402 2480MHz 8.29dBm Bluetooth SIG Listing Feature Values Declaration ID member company D043363 Testo SE & Co. KGaA Approval and Certification Korea Product Mat.-No. Date testo 405i testo 410i testo 510i 0560 1405 0560 1410 0560 1510 04.15.2022 The use of the wireless module is subject to the regulations and stipulations of the respective country of use, and the module may only be used in countries for which a country certification has been granted. The user and every owner has the obligation to adhere to these regulations and prerequisites for use, and acknowledges that the re-sale, export, import etc. in particular in countries without wireless permits, is his responsibility. Country Comments Australia Canada Europa + EFTA
(Lnderliste einfgen) United Kingdom
(UK) E 1561 testo 405i: IC: 6127B-05601405 testo 410i: IC: 6127B-05601410 testo 510i: IC: 6127B-05601510 see IC Warnings The EU Declaration of Conformity can be found on the testo homepage www.testo.com under the product specific downloads. EU countries:
Belgium (BE), Bulgaria (BG), Denmark
(DK), Germany (DE), Estonia (EE), Finland
(FI), France (FR), Greece (GR), Ireland (IE), Italy (IT), Latvia (LV), Lithuania (LT), Luxembourg (LU), Malta (MT), Netherlands (NL), Austria (AT), Poland
(PL), Portugal (PT), Romania (RO), Sweden
(SE), Slovakia (SK), Slovenia (SI), Spain
(ES), Czech Republic (CZ), Hungary (HU), United Kingdom (GB), Republic of Cyprus
(CY). EFTA countries:
Iceland, Liechtenstein, Norway, Switzerland The UK Declaration of Conformity can be found on the testo homepage www.testo.com under the product specific downloads. USA testo 405i: WAF-05601405 testo 410i: WAF-05601410 testo 510i: WAF-05601510 See FCC Warnings to try to correct the interference by one or more of the following measures:
Reorient or relocate the receiving antenna. Increase the separation between the equipment and receiver. Connect the equipment into an outlet on a circuit different from that to which the receiver is connected. Consult the dealer or an experienced radio/TV technician for help. Caution Changes or modifications not expressly approved by the party responsible for compliance could void the user's authority to operate the equipment. Shielded interface cable must be used in order to comply with the emission limits. Warning This device complies with Part 15 of the FCC Rules. Operation is subject to the following two conditions:
(1) this device may not cause harmful interference, and
(2) this device must accept any interference received, including interference that may cause undesired operation. Caution: Radio Frequency Radiation Exposure The device has been evaluated to meet general RF exposure requirement, The device can be used in portable exposure condition without restriction. Federal Communication Commission (FCC) Radiation Exposure Statement Power is so low that no RF exposure calculation is needed. Co-Location:
This device must not be co-located or operated in conjunction with any other antenna or transmitter. Japan Information KCC Warning IC Warnings CAN ICES-003(B)/NMB-003(B):
This Class B digital apparatus complies with Canadian ICES-003. Cet appareil numrique de la classe B est conforme la norme NMB-003 du Canada. RSS-Gen & RSS-247 statement:
This device contains licence-exempt transmitter(s)/receiver(s) that comply with Innovation, Science and Economic Development Canadas licence-exempt RSS(s). Operation is subject to the following two conditions:
(1) this device may not cause interference, and
(2) this device must accept any interference, including interference that may cause undesired operation of the device. Lmetteur/rcepteur exempt de licence contenu dans le prsent appareil est conforme aux CNR dInnovation, Sciences et Dveloppement conomique Canada applicables aux appareils radio exempts de licence. Lexploitation est autorise aux deux conditions suivantes:
(1) Lappareil ne doit pas produire de brouillage
(2) l'appareil doit accepter tout brouillage radiolectrique subi, mme si le brouillage est susceptible d'en compromettre le fonctionnement. Caution: Radio Frequency Radiation Exposure The product comply with the Canada portable RF exposure limit set forth for an uncontrolled environment and are safe for intended operation as described in this manual. The further RF exposure reduction can be achieved if the product can be kept as far as possible from the user body or set the device to lower output power if such fuction is available. Co-Location:
This device must not be co-located or operated in conjunction with any other antenna or transmitter. Attention : exposition au rayonnement de radiofrquences Le produit est conforme aux limites d'exposition pour les appareils portables RF pour les Etats-Unis et le Canada tablies pour un environnement non contrl. Le produit est sr pour un fonctionnement tel que dcrit dans ce manuel. La rduction aux expositions RF peut tre augmente si l'appareil peut tre conserv aussi loin que possible du corps de l'utilisateur ou que le dispositif est rgl sur la puissance de sortie la plus faible si une telle fonction est disponible. Co-location Ce dispositif ne doit pas tre utilis proximit dune autre antenne ou dun autre metteur. FCC Warnings Information from the FCC (Federal Communications Commission) For your own safety Shielded cables should be used for a composite interface. This is to ensure continued protection against radio frequency interference. FCC warning statement This equipment has been tested and found to comply with the limits for a Class B digital device, pursuant to Part 15 of the FCC Rules. These limits are designed to provide reasonable protection against harmful interference in a residential installation. This equipment generates, uses and can radiate radio frequency energy and, if not installed and used in accordance with the instructions, may cause harmful interference to radio communications. However, there is no guarantee that interference will not occur in a particular installation. If this equipment does cause harmful interference to radio or television reception, which can be determined by turning the equipment off and on, the user is encouraged