Integrator’s Reference Manual

3. Use Dial-Up Networking to initiate a packet data call on the Data port.

For help with Dial-Up Networking, see your Windows documentation.

4. Start a browser, go to a Web page such as http://www.globalstar.com, and download something.

5. Wait for the data transfer to end, then wait 10 seconds for the idle timer to expire.

or

On the Control port, type ATH777 <CR> to hang up the call and immediately put the modem into dormant mode.

6. On the Control port, type AT$QCSTATUS <CR> and observe how the CALL STATE is IDLE, indicating that the modem has entered dormant mode.

7. In your browser connected to the Data port, click another link.

8. On the Control port, type AT$QCSTATUS <CR> and observe how the CALL STATE is no longer IDLE.

Note

For the above example to work, AT&C0 must be set so that DCD

 

remains asserted in dormant mode. Otherwise, the networking

 

application will terminate the PPP session. For more information, see

 

DCE Received Line Signal Detector Behavior (&C) on page 6-16. For

 

more information about dormant mode, see Set Dormant Mode Timeout

 

Value (+CTA) on page 6-49.

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Qualcomm GSP-1620 specifications Value +CTA on

GSP-1620 specifications

Qualcomm GSP-1620 is a powerful, cutting-edge SoC (System on Chip) that is tailored for the demands of modern mobile and embedded applications. Designed to deliver high performance, energy efficiency, and advanced connectivity, the GSP-1620 stands out in the competitive landscape of processor solutions.

One of the main features of the GSP-1620 is its multi-core architecture, which facilitates simultaneous processing of multiple tasks. This architecture ensures enhanced multitasking capabilities, allowing devices to run complex applications smoothly without compromising performance. The GSP-1620 integrates Qualcomm's latest Kryo CPU technology, which optimizes performance while maintaining lower power consumption.

The GSP-1620 excels in graphics performance, powered by Adreno GPU technology. This integration enables rich visual experiences, making it ideal for gaming, augmented reality, and immersive multimedia applications. The GPU's capabilities allow for high frame rates and stunning graphics, ensuring that users enjoy a premium visual experience.

In terms of connectivity, the GSP-1620 supports advanced wireless technologies, including 5G, Wi-Fi 6, and Bluetooth 5. With these capabilities, users can expect ultra-fast data speeds, low latency, and improved networking performance. The integration of Qualcomm’s Snapdragon X55 modem enhances the SoC's capability to deliver seamless connectivity in various environments, whether indoors or outdoors.

Moreover, the GSP-1620 features cutting-edge AI and machine learning capabilities, enabled by Qualcomm’s Hexagon DSP technology. This allows for efficient processing of AI tasks, supporting functionalities such as voice recognition, image processing, and real-time translation. It makes the GSP-1620 suitable for applications in smart devices, automotive solutions, and industrial IoT.

Security is a priority in the design of the GSP-1620. The SoC incorporates hardware-based security features that protect sensitive data and applications, ensuring robust defense against cyber threats. This is vital for applications requiring high levels of security, such as mobile payments and confidential communications.

Lastly, the GSP-1620 is designed with scalability in mind. Its modular architecture allows manufacturers to customize the chipset according to specific needs, making it a versatile solution for a broad range of devices, from smartphones and tablets to wearables and embedded systems.

In summary, Qualcomm GSP-1620 combines high-performance processing, advanced graphics capabilities, sophisticated connectivity options, AI support, and robust security features. With these characteristics, it sets a new standard for mobile and embedded platforms, driving innovation in a variety of industries.