Setting Up the Philips amBX PC Scenes

Starting point

End point

You decrease the range by sliding the handles towards each other.

The moment you move the starting handle over the end handle (the handle on the bottom of the slider) the colored bar of the slider will flip and the outside color range is selected.

By changing the direction of the handles, you select the inside color range. You change the direction of the handles by double-clicking one of the handles.

How to...

Start a Scene

1.Select the Scene Setting tab.

The 'Scene Settings' screen appears.

2.Select the preferred scene in the Scene Selector.

3.Click the Start Scene button.

The selected scene starts and the Philips amBX™ PC Gaming Peripherals operate as programmed.

The Start scene button is a toggle button. When you press the button, an action starts and the label of the button changes, describing the opposite action.

Toggled State 1

Pressed

Toggled State 2

To stop the Scene, you click the same button in the Scene Settings screen that is now labeled 'Stop Scene'.

Tip

You can also use the On/Off button on the hardware to start and stop a selected scene.

Change a Scene

You can only change the available scenes in the Scenes Selector. You cannot add new scenes to the Scenes Selector, you can only customize the existing scenes by:

Changing the Peripheral Scene Settings of a static scene,

Add an animation to a static scene,

Changing the Animation Settings of an animated scene.

27

Page 27
Image 27
Philips SGC5101BD manual Start a Scene, Change a Scene

SGC5101BD specifications

The Philips SGC5101BD is a versatile and innovative healthcare device designed to enhance patient care and streamline processes in medical environments. This equipment integrates advanced technology to provide healthcare professionals with the tools necessary for effective monitoring and assessment of patients' health.

One of the main features of the SGC5101BD is its intuitive user interface, which allows healthcare providers to navigate easily through its functions. This user-friendly design minimizes the learning curve for new users, ensuring that staff can quickly become proficient in operating the device. The display is clear and customizable, providing essential information at a glance, which enhances workflow efficiency.

The device is equipped with multi-modal monitoring capabilities that allow it to track a variety of vital signs and physiological parameters essential for patient assessment. This includes heart rate, blood pressure, respiratory rate, and oxygen saturation. Such comprehensive monitoring is vital in critical care settings, where real-time data can significantly impact patient outcomes.

The SGC5101BD utilizes cutting-edge wireless technology, allowing data to be transmitted seamlessly to central monitoring systems or mobile devices. This feature ensures that healthcare professionals can access patient information from virtually anywhere within a healthcare facility, enabling timely decision-making and improving patient response times.

This model also emphasizes durability and reliability, equipped to withstand the rigorous demands of daily use in hospitals and clinics. The design incorporates high-quality materials and components that support longevity and performance, making it a worthy investment for healthcare institutions.

Another remarkable characteristic of the SGC5101BD is its capability for integration with existing healthcare systems. This interoperability allows the device to work in conjunction with electronic health records (EHR), streamlining documentation and improving the overall efficiency of patient management.

Furthermore, the SGC5101BD is designed with patient comfort in mind. Its sensors and interfaces are ergonomically designed to minimize discomfort during assessments, an essential aspect of modern medical care.

Overall, the Philips SGC5101BD stands out with its combination of advanced monitoring features, user-friendly design, and robust technology, making it an invaluable tool in the pursuit of quality patient care. The integration of innovative technologies ensures that healthcare professionals have access to precise data, which is critical for effective treatment strategies and improving patient outcomes.