Hoya OM-25A manual Exposure to Anesthetic Gases, Calibration Techniques in Pressurized Systems

Page 19

8. APPLICATIONS

8.1 Exposure to Anesthetic Gases

Because of the unique chemistry of the oxygen sensors provided with the MAXO2 analyzer, there are no significant effects when exposed to commonly used anesthetic gases, however, the analyzer is not designed for exposure to flammable gas mixtures. (See WARNING page i)

8.2 Calibration Techniques in Pressurized Systems

Similar to other oxygen sensors, the MAX series sensors measure the partial pressure of oxygen in a gas stream. This is correlated to read “percent oxygen” on the MAXO2 analyzer. It is important to note that the sensor output is directly proportional to the pressure of oxygen. Thus, one must take into consideration the effect of exposing the sensor to various gas sample pressures.

For example, if an analyzer is calibrated to read 20.9% in ambient air (atmospheric pressure) and then exposed to a pressurized gas sample containing a known concentration of oxygen, the analyzer will display a reading greater than the actual oxygen percentage. This is because the analyzer was originally calibrated at atmospheric pressure (0 psig) then exposed to a higher pressure sample (eg, 5 psig). The greater the difference in pressure, the greater the difference in sensor signal (oxygen reading on the analyzer).

By the same token, if an analyzer is calibrated on a pressurized gas sample containing a known concentration of oxygen and then exposed to ambient air (atmospheric pressure), the analyzer will display a reading less than the actual oxygen percentage.

To avoid confusion, the analyzer can be calibrated at a single point on a gas stream similar to the application. If, for example, the purpose of the analyzer is to measure oxygen in a concentrator or anesthesia application, the optimal results may be attained by calibrating the instrument on a gas of similar concentration and pressure. This would typically be done by connecting to a cylinder of a known high concentration of oxygen calibration gas and adjusting the flow and pressure to match the application before calibrating the instrument.

13

Image 19
Contents Model OM-25A Page Thank YOU PrefacePage Iii Spare Parts and Accessories Warranty Table of Contents System OverviewSET-UP Procedure Base Unit Specifications Sensor SpecificationsBase Unit Description CD Readout Components Description please refer toLCD Readout a Keypad Sample Inlet Connection OM-25ASample Inlet Connection Calibrating the MAXO2 Analyzer 2.2.1 Before You Begin Battery InstallationTo Calibrate the MAXO2 Analyzer Automatic Calibration to Room Air Pressure Effect Effects of TemperatureOperation Instructions Humidity EffectPage Problem Solving Base Unit Specifications Calibration Techniques in Pressurized Systems Exposure to Anesthetic GasesCalibration Errors Accessories Spare Parts and AccessoriesWarranty Page Email sales@maxtecinc.com

OM-25A specifications

The Hoya OM-25A is a state-of-the-art optical microscope designed for advanced microscopy applications. Renowned for its precision and versatility, the OM-25A is ideal for professionals in various fields, including biology, materials science, and nanotechnology.

One of the main features of the Hoya OM-25A is its high-resolution imaging capabilities. The microscope is equipped with a powerful objective lens system that allows users to achieve magnifications of up to 2500x. This high degree of magnification makes it suitable for observing intricate details of specimens, from cellular structures to the fine characteristics of materials.

The OM-25A incorporates advanced illumination technologies, including LED and halogen light sources, which provide bright and stable lighting necessary for clear imaging. The innovative lighting system not only enhances the visibility of specimens but also reduces heat production, protecting sensitive samples from damage during prolonged observation.

Another significant feature of the Hoya OM-25A is its ergonomic design. The microscope includes a comfortable viewing angle and adjustable eyepieces, which facilitate extended use without causing strain to the user. Additionally, the intuitive control knobs and well-placed buttons ensure ease of operation, making the microscope accessible even to those who are not highly experienced in microscopy.

The OM-25A also integrates digital technology for enhanced functionality. It is compatible with various imaging software that allows users to capture, analyze, and document their findings effortlessly. This feature is particularly advantageous for educational settings and research laboratories, where documentation and data sharing are crucial.

Moreover, this model is designed with durability in mind. Its sturdy construction in combination with high-quality materials ensures longevity and reliability in demanding environments. The easy maintenance procedures also contribute to its practicality, allowing users to keep the microscope in optimal condition over time.

In summary, the Hoya OM-25A is a remarkable microscope that excels in delivering high-resolution images, advanced lighting technology, user-friendly design, and digital compatibility. With its robust build and versatile features, the OM-25A is a preferred choice for scientists and researchers aiming to explore the microscopic world with clarity and precision. Whether for routine examinations or specialized studies, this microscope meets a diverse range of needs in modern optical microscopy.