Philips FMU-100 user manual Schedule, How often, Time

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4.2.5Schedule

RX Radiator uses very strong tool - scripts for scheduling of the recordings. It is not necessary to write commands in some obscure programming language - everything is intuitive, easy and pleasant.

Both Global scheduling active and Current script enabled checkboxes have to be checked for script to run.

Scripts have following (intentional) restrictions:

-only one script can run at the same time (You can define as many scripts as you want. Nevertheless when the 1st script is set to start at 8:00 and will run for 2 minutes and the second one is set to start at 8:01, the second one will not run.)

-recording commands are ignored if you are currently recording something

-recording stops sleep timer

See also Script editor description.

-Global scheduling active Turns on/off the scheduling system. When disabled then no script will run.

- When to run

This section changes for each script chosen in List of created

scripts

 

oCurrent script enabled If checked and Global scheduling active is checked too, then script will run in its scheduled time. When unchecked then only this script will not run.

o List of created scripts

Select a script to modify here.

o

How often

Periodicity of repeating of the script.

o

Time

Set time for script to run. When Hourly is chosen in How

often combo box then only minutes and seconds part is used – i.e. in this case 12:00:00 and 15:00:00 has the same result.

User Manual

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Contents RadioXtreme Table of contents Introduction Hardware SetupSoftware Setup RX RadiatorUsing remote control Appendix 3 Messages for remote controlling RX RadiatorHow to expand the frequency range? Getting HelpSpecifications Package ContentsIntroduction Minimum System RequirementsHardware Setup Description of the radio connectorsSoftware Setup InstallationChoosing the installer language Welcome screenInstallation folder Choosing componentsDetail features, function and usage of RX Radiator Installation progressCompleting setup window RX RadiatorRX Radiator interface Standard RX Radiator windowThin window Tray icon menuVolume settings area TuningStations storing and setting ScanningRecording Next stationLast station Start/stop recordingMiscellaneous Configuration windowHardware settings Volume control Tuning Tuning rangeTuning step RadioXtreme plugin configurationIndicate recording using LED More information about the plugin Save and exit CancelGet firmware version Get DLL versionRecording settings File size limitWindows audio codecs smaller than PCM Recording formatRecord to PCM wave format no compression Show hints OptionsMiscellaneous Other recording options Stations list Time ScheduleHow often Menu Script editor Script LCD Editor Mouse operations Controlling RX Radiator from keyboard Frequency LCD label in full windowTray icon List of hot keys shortcutsDirect tuning using numerical keypad Using remote control Remote Control Keys and FunctionsRX Commander RX KeyComDefining a new program for remote controlling Page How can I schedule recording? FAQ for RX RadiatorGetting Help Website for Update Acknowledgement Contacting supportAppendix 1 Command-line switches Sound List of parametersStations Other Appendix 3 Messages for remote controlling RX Radiator

FMU-100 specifications

The Philips FMU-100 is an innovative patient monitoring solution designed to enhance clinical efficiency and patient safety in various healthcare environments. As a part of Philips' extensive portfolio of medical devices, the FMU-100 stands out due to its advanced features, reliable performance, and user-friendly interface.

One of the key features of the FMU-100 is its multi-parameter monitoring capability. This device can seamlessly track vital signs such as heart rate, blood pressure, respiratory rate, and oxygen saturation levels in real-time. By providing comprehensive monitoring capabilities, healthcare professionals can quickly assess a patient's condition and make informed decisions, especially in critical care settings.

The FMU-100 is equipped with state-of-the-art connectivity options, allowing for easy integration with existing hospital information systems. With wireless and wired connectivity capabilities, data can be transmitted securely to central monitoring stations, electronic health records, or remote access devices. This ensures that clinicians have access to up-to-date information at their fingertips, further enhancing patient care while reducing the chances of data loss or errors.

Another significant aspect of the FMU-100 is its user-centric design. The device features a clear and intuitive interface, making it easy for healthcare staff to navigate and operate. The display offers high-resolution graphics and customizable layouts, allowing users to prioritize the information most relevant to their practice. In addition, the FMU-100 is designed to be portable, enabling it to be used effectively in a variety of settings, including emergency departments, transport applications, and patient rooms.

Moreover, the Philips FMU-100 incorporates advanced alarm management features. It utilizes smart alarm technology to reduce alarm fatigue among clinicians by delivering clinically relevant alerts while filtering out non-critical notifications. This sophisticated alarm system contributes to a more efficient workflow and ensures that healthcare providers focus on urgent patient needs.

The FMU-100 is also built with durability and environmental adaptability in mind. With its robust design, the device functions efficiently in diverse healthcare settings, whether in a bustling hospital ward or a mobile unit. The device is tested for various conditions, ensuring reliable performance under different operational circumstances.

In conclusion, the Philips FMU-100 represents a significant advancement in patient monitoring technology. With its multi-parameter tracking, seamless connectivity, intuitive design, superior alarm management, and durability, the FMU-100 is an invaluable tool for healthcare professionals aiming to provide optimal patient care. Its ability to enhance clinical workflows while ensuring patient safety positions it as a preferred choice in modern medical facilities.