Preferred Networks

Preferred network list is stored in the SIM card. It specifies the priority by which your phone will register to the available network during automatic registration.

1.In idle mode, press , to enter the main menu.

2.Select Settings > Connectivity > Network settings > Preferred networks and press ,.

3.Press , or L Select to enter the preferred

network list. The most preferred network will be at the top of the list. L

4.Press +/- to select a certain network and press L Option.

5.You can then select to Insert, Add to end or Delete the selected network.

Attach GPRS

This option allows you to set the GPRS attach mode during PDP session. You can choose either one of the following:

Always attached

Attached during PDP session

Browser

Various parameters relative to browser can be set under this option, including WAP parameters and Push message.

WAP profiles

You can set up to 5 groups of WAP profiles. You can activate and use one of the profiles. At the same time, you can edit or directly connect to the address. Select Edit to access the following settings:

Profile name: A name to identify the server.

IP address: The numeric address of the server in nnn.nnn.nnn.nnn format.

Port: The port number on the server. The number is usually 0 (=9201).

Homepage: The URL of the homepage.

Linger time: The duration your phone stays connected to the WAP.

Connection: Select HTTP or WSP connection.

CSD profiles: Select one of the CSD profiles.

GPRS profiles: Select one of the GPRS profiles.

Bearer: Select CSD or GPRS.

Connections

CSD profiles

This menu allows you to configure a CSD (circuit switched data) connection to the network. The available CSD settings are:

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Settings

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Philips CT9A9KBRN manual Browser, Connections

CT9A9KBRN specifications

The Philips CT9A9KBRN is a cutting-edge computed tomography (CT) scanner that is designed to deliver high-quality imaging while enhancing patient safety and comfort. This innovative device incorporates advanced technologies that improve diagnostic accuracy, making it an invaluable tool in modern medical facilities.

One of the main features of the CT9A9KBRN is its exceptional imaging capabilities. With a high-resolution detector and sophisticated image reconstruction algorithms, the scanner provides detailed images of various anatomical structures. Its rapid scanning speed significantly reduces motion artifacts, ensuring clear and precise images even with uncooperative patients. This is particularly beneficial in emergency situations where quick and accurate diagnosis is paramount.

The scanner boasts advanced dose optimization techniques, including Smart Dose technology, which intelligently adjusts radiation dose based on the patient's size and the specific examination being performed. This feature not only protects patients from unnecessary exposure but also promotes safer imaging practices in compliance with current health regulations.

Philips also places a strong emphasis on patient comfort, and the CT9A9KBRN reflects this commitment. The system features a spacious bore that accommodates larger patients and reduces feelings of claustrophobia. Additionally, the design minimizes noise and vibration during the scanning process, contributing to a more pleasant experience for patients.

Connectivity and integration are other key characteristics of the CT9A9KBRN. The device can easily connect to hospital information systems (HIS) and picture archiving and communication systems (PACS), allowing for seamless data transfer and management. This connectivity ensures that healthcare professionals have quick access to patient images and information, enhancing workflow efficiency.

Furthermore, the CT9A9KBRN is equipped with state-of-the-art software that facilitates advanced imaging techniques, including 3D reconstructions and virtual colonoscopy. These capabilities allow radiologists to gain deeper insights into patients' conditions, leading to more accurate diagnoses and better patient outcomes.

In conclusion, the Philips CT9A9KBRN is a sophisticated imaging system that combines high-quality imaging, patient safety, and ease of use. Its advanced features and technologies make it an essential tool for hospitals and clinics seeking to improve diagnostic effectiveness and patient care in today's fast-paced healthcare environment.