PI CONTROLLER FOR CELLULAR BASEBAND MITIGATION

Organization Name

apple inc.

Inventor(s)

Amir Rajaee of San Carlos CA (US)

Hao Ping Wen of Sunnyvale CA (US)

De Jun Li of Santa Clara CA (US)

Murali Mohan Chakka of Los Gatos CA (US)

Douglas A Mackay of San Mateo CA (US)

Vasanthakumar Balasubramaniam of San Jose CA (US)

Achmed Rumi Zahir of Menlo Park CA (US)

Prashant H Vashi of San Jose CA (US)

Mingkun Li of San Jose CA (US)

Priyank Mamania of Milpitas CA (US)

Michael V Yeh of Cupertino CA (US)

Luca Aldegheri of Mountain View CA (US)

Reza Arastoo of Santa Clara CA (US)

Tu Le of Los Gatos CA (US)

Punit H Awatramani of Fremont CA (US)

PI CONTROLLER FOR CELLULAR BASEBAND MITIGATION - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240349080 titled 'PI CONTROLLER FOR CELLULAR BASEBAND MITIGATION

Communication device in a patent application includes a transmitter and a receiver coupled to antennas to communicate with a base station.

• The device receives operating characteristics of a cellular modem in a first cellular configuration.
• It determines if the operating characteristics exceed a threshold, which may include power and temperature parameters.
• If the threshold is surpassed, the device calculates a control effort value based on the operating characteristics and the threshold.
• The device maps the control effort value to a second cellular configuration with reduced operating characteristics.
• It then instructs the cellular modem to operate in the second cellular configuration.

Potential Applications: - This technology can be applied in mobile devices to optimize power consumption and temperature management. - It can be used in IoT devices to enhance communication efficiency and reliability.

Problems Solved: - Addresses issues related to power consumption and temperature control in cellular modems. - Improves overall performance and longevity of communication devices.

Benefits: - Enhanced efficiency and reliability of communication devices. - Extended battery life in mobile devices. - Improved performance in IoT applications.

Commercial Applications: Title: Enhanced Communication Device Optimization Technology This technology can be utilized in smartphones, tablets, IoT devices, and other wireless communication devices to improve performance and efficiency. It can benefit manufacturers looking to enhance the capabilities of their products and provide a competitive edge in the market.

Questions about Communication Device Optimization Technology: 1. How does this technology impact the battery life of mobile devices?

  - This technology can significantly extend the battery life of mobile devices by optimizing power consumption based on operating characteristics.

2. What are the potential cost savings for manufacturers implementing this technology?

  - Manufacturers can save costs on battery replacements and improve customer satisfaction by offering devices with longer battery life.

Original Abstract Submitted

communication device may include a transmitter and a receiver respectively coupled to one or more antennas to communicate (e.g., transmit or receive signals) with a base station. the communication device may receive an operating characteristic of a cellular modem within the communication device operating in a first cellular configuration and determine if the operating characteristic are greater than a threshold. the operating characteristic may include power and/or temperature. the threshold may include a power budget and/or a temperature threshold. if the operating characteristic is greater than the threshold, then the communication device may determine a control effort value based on the operating characteristic and the threshold. the communication device may map the control effort value to a second cellular configuration, which may correspond to reduced operating characteristics in comparison to the first cellular configuration. the communication device may then cause the cellular modem to operate in the second cellular configuration.