MIR Desk Spirometer Rechargeable & Printer Spirolab








Specifications for MIR Desk Spirometer Rechargeable & Printer Spirolab
The MIR Desk Spirometer Rechargeable & Printer Spirolab is a highly portable and compact solution for diagnostic respiratory measurement. It is ideal for use in various clinical and professional health settings. The device can operate on electrical power or independently with its internal rechargeable battery, providing several hours of use.
This electronic spirometer is powered by software specifically designed and developed for respiratory healthcare professionals. It features an easy-to-use interface on a large, high-resolution color touchscreen display. Real-time graphs and configurable results can be viewed clearly, including flow-volume and volume-time graphs, which can be displayed side by side during direct testing.
The device is fully compliant with the latest standards and can intelligently display advisory messages when tests do not meet the guidelines, prompting the user on what is required to achieve optimal spirometry measurement. It includes a high-resolution printer and large storage memory, allowing test results to be stored for later viewing on the screen or printed immediately.
The spirometer comes with a reusable turbine for use with adult one-way valve mouthpieces. A disposable turbine option is also available, factory-calibrated individually with a pre-attached mouthpiece and individually packaged to eliminate the need for device calibration. The product comes with a 12-month warranty.
FAQ
What is the MIR Desk Spirometer Rechargeable & Printer Spirolab used for?
The MIR Desk Spirometer Rechargeable & Printer Spirolab is used for diagnostic respiratory measurement in various clinical and professional health settings.
Is the MIR Desk Spirometer Rechargeable & Printer Spirolab suitable for daily use?
Yes, the MIR Desk Spirometer Rechargeable & Printer Spirolab is designed for regular use in clinical and professional environments, providing reliable and accurate respiratory measurements.











