The Agilent HLD MR30 Leak Detector uses a mass spectrometer tuned to detect helium, which is used as a tracer gas to locate and/or measure very small leaks in enclosed devices or systems. The mobile HLD MR30 is both a precise instrument and a robust workhorse, featuring an easy-to-use touch screen interface and menu structure that quickly connect users to powerful leak detection capabilities. Built-in application setups shorten test cycles, and setups can be saved to assure repeatability. It is easily rolled to convenient locations on its four wheels. The MR30 includes an Agilent DS-602 Rotary Vane Pump, with a pumping speed of 30 m3/hour, for very rapid evacuation of test parts and systems and rapid clean-up of ambient helium between test cycles.
Features
User interface |
21 cm (8.4 in) touch screen |
Primary pump and pumping speed |
DS 602 Rotary Vane Pump, 30m3/hour (21 cfm) |
Sensitivity |
5x10-12 mbar•L/s, 5x10-12 atm•cc/s, 5x10-13 Pa•m3/s |
Maximum Test Port Pressure |
13 mbar (10 Torr, 1333 Pa) 200 mbar (150 Torr, 20000 Pa) in Gross Leak Mode |
Calibration |
- Automatic internal and external - Able to check calibration while in test |
Languages |
Chinese, English, French, German, Japanese, Korean, Russian, Spanish |
Communication capabilities |
Analog output and Serial communications are standard. Optional discrete IO interface. |
Available options |
Wireless remote (100 m), discrete IO interface, Harsh Environment Probe, automated test fixture. |
Built-in application setup guides |
- Sniffing - Spray Helium - Auto Sequencer (programmable test cycle) - High Sensitivity - Split Flow - PPM Sniffing |
Brochures | Data Sheets | Technical Overviews |
HLD Helium Leak Detector Brochure HLD Helium Leak Detector Brochures / English / 26 Feb 2019 / 1.38 MB / PDF |
HLD MR30 Helium Leak Detector Data Sheet HLD MR30 Helium Leak Detector Data Sheets / English / 04 Mar 2019 / 197.53 KB / PDF |
Leak Checking Large Vacuum Chambers Investigating real leaks on large vacuum chambers with a helium leak detector Technical Overviews / English / 23 Apr 2018 / 2.39 MB / PDF |