Description
The Phoenix Mobilis Ultra is a battery powered robust and portable sniffer style handheld gas leak detector capable of detecting helium leaks as small as 5 x 10-6 cc/s.
Applications:
The PHOENIX MOBILIS Ultra is well suited for operators in a large variety of different applications. Anywhere where the leak tightness of a specific gas is important this device offers a great option to make sure your application is running at the same quality at all times.
- Industrial processes
- Automotive manufacturing
- Applications using refrigerants
- MRI
- use cases stretch from R&D to manufacturing, quality insurance, and maintenance departments.
Advantages:
The PHOENIX MOBILIS Ultra is designed to be easy to use with just one hand. This allows you to check for leaks in hard-to-reach positions of your equipment.
- It features a modern large LCD display that allows easy intuitive navigation and good visibility overall.
- It provides for reliable and repeatable measurements.
- It also features an audible alarm and flashing display for clear leak indication.
- … and storage of your readings on the device.
Highly sensitive
The PHOENIX MOBILIS Ultra detects leaks at low levels.
It rapidly and effectively indicates the presence of almost any gas or gas mixture and is particularly accurate to ammonia, helium, or hydrogen amongst others.
Maximum Sensitivity is provided through small internal flow rates.
Magnetic field resistant
The PHOENIX MOBILIS Ultra operates perfectly in environments showing a high magnetic field such as in MRI (Magnetic Resonance Imaging) for example.
It can be used without interruptions, even while the MRI is running.
Other features:
- When switched on the PHOENIX MOBILIS Ultra automatically zeros to the ambient surrounding air to make sure it is ready to go after startup.
- It is a very inexpensive leak detection solution both on equipment and on consumables and parts.
- It includes a large choice of readings in cc/sec, g/yr, mg/m³: you decide what’s best for you!
Manuals:
Technical Data:
Technical Data | Phoenix Mobilis Ultra |
---|---|
Detector type | Micro thermal conductivity detector (MTCD) |
Battery type | Rechargeable Li-ion battery |
Battery life | 20 hours |
Audible alarm | ≥ 90 dBa at 10 cm at 50 % relative humidity (room temperature) |
Factory calibration | 5000 ppm helium (±5 %) | Leak: 0.0005 cc/sec (±5 %) |
Data logging | 10 days continuous |
Response (T90) | 1 second |
Flow rate | 2cc/s |
Ingress protection | IP44 |
temperature | Operating: 0°C to 50°C |
Humidity | 0 to 99% R.H |
Weight | 447g (approx.) |
Dimensions – Instrument | 320 x 80 x 55 mm (approx.) |
Dimensions – Case | 950 x 340 x 100 mm |
Ordering information:
Description | Part number |
---|---|
PHOENIX MOBILIS Ultra supplied in carrying case with box spanner, flexible probe assembly, standard capillary probe, capillary probe – short (for 200 mm flexible probe), standard nozzle, communication interface cable, USB-cable |
253010V02 |
Accessories and Spares | |
Flexible Probe 200mm | 253015V02 |
Probe Sleeve (pack of 5) | 253016V02 |
Capillary Probe – standard (10 mbar restriction) | 253017V02 |
Nozzle | 253018V02 |
Communication Interface Dongle | 253014V02 |
Capillary Probe – short (for 200mm Flexible Probe) | 253019V02 |
Gas table:
Gas name | Trade name | Formula | Molecular weight | Gas group |
---|---|---|---|---|
Air | ||||
GAS GROUP 1 | 4 | |||
GAS GROUP 2 | 120 | |||
GAS GROUP 3 | 80 | |||
GAS GROUP 4 | 50 | |||
GAS GROUP 5 | 40 | |||
Helium | He | 4 | 1 | |
Hydrogen | H2 | 2 | 1 | |
Ammonia | NH3 | 17 | 2 | |
Butane | C4H10 | 58 | 2 | |
Krypton | Kr | 84 | 2 | |
Methane | CH4 | 16 | 2 | |
Neon | Ne | 20 | 2 | |
Sulfur dioxide | SO2 | 64 | 2 | |
Sulfur hexa fluoride | SF6 | 146 | 2 | |
Trichloromethane | CHCI3 | 119 | 2 | |
1,1,2-Trichlorotrifluoroethane | R113 | C2Cl3F3 | 187 | 2 |
1,2-Dichlorotetrafluoroethane | R114 | C2Cl2F4 | 171 | 2 |
Dichlorodifluromethane | R12 | CCl2F2 | 121 | 2 |
Bromotrifluoromethane | R1301 | CBrF3 | 149 | 2 |
Chlorodifluromethane | R22 | CHF2Cl | 86 | 2 |
refrigerant R 502 | R502 | CHClF2, CClF2HCF3 | 112 | 2 |
Xenon | Xe | 131 | 2 | |
Acetone | C3H6O | 46 | 3 | |
Argon | Ar | 40 | 3 | |
refrigerant R 404a | R404a | R125:143a:134a = 44:52:4 |
98 | 3 |
refrigerant R 407c | R407c | R134a: R125: R32 = 40:40:20 |
86 | 3 |
refrigerant R 507 | R507 | CF3CH3:CF3CHF2 = 50:50 |
104 | 3 |
refrigerant R 245FA | R245FA | CF3CH2CHF2 | 134 | 3 |
Boron trifluoride | BF3 | 68 | 3 | |
Carbon dioxide | CO2 | 44 | 3 | |
Deuterium oxide | D2O | 20 | 3 | |
Diethyl ether | C4H10O | 74 | 3 | |
Ethanol | C2H5OH | 46 | 3 | |
Hexane | C6H14 | 86 | 3 | |
Hydrogen chloride | HCL | 36 | 3 | |
Hydrogen sulphide | H2S | 34 | 3 | |
Methanol | CH4O | 32 | 3 | |
Nitrous oxide | N2O | 44 | 3 | |
Pentane | C5H12 | 72 | 3 | |
Perfluorocyclobutane | C318 | C4F8 | 200 | 3 |
Tetra fluoromethane | R14 | CF4 | 88 | 3 |
Trichlorofluromethane | R11 | CFCl3 | 137 | 3 |
Water | H2O | 18 | 3 | |
Acetylene | C2H2 | 26 | 4 | |
Ethane | C2H6 | 32 | 4 | |
Ethylene Oxide | C2H4O | 54 | 4 | |
Ethylene | C2H4 | 28 | 4 | |
Isobutane | R600a | C4H10 | 58 | 4 |
Propane | C3H8 | 44 | 4 | |
Tetrafluoroethane | R134a | C2H2F4 | 102 | 4 |
Carbon monoxide | CO | 28 | 5 | |
Nitric oxide | NO | 30 | 5 | |
Nitrogen | N2 | 28 | 5 | |
Oxygen | O2 | 32 | 5 |