18403097. Programmable Spread Spectrum Signaling over a Pin of an Integrated Circuit Device simplified abstract (Micron Technology, Inc.)

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Programmable Spread Spectrum Signaling over a Pin of an Integrated Circuit Device

Organization Name

Micron Technology, Inc.

Inventor(s)

Robert Richard Noel Bielby of Placerville CA (US)

Poorna Kale of Folsom CA (US)

Programmable Spread Spectrum Signaling over a Pin of an Integrated Circuit Device - A simplified explanation of the abstract

This abstract first appeared for US patent application 18403097 titled 'Programmable Spread Spectrum Signaling over a Pin of an Integrated Circuit Device

Simplified Explanation

The patent application describes a device with programmable driver circuits that generate spread spectrum signals to reduce energy consumption, electromagnetic interference, and errors in data transmission.

  • The device has multiple pins connecting circuits within and outside the integrated circuit package.
  • The driver enclosed within the package can be programmed to generate spread spectrum signals representing transmitted data.
  • The frequency distribution of the signal spreading can be customized to control electromagnetic emissions caused by data communication.
  • Settings can be programmed into registers to control the driver or adjusted dynamically using an artificial intelligent engine.

Potential Applications

This technology could be applied in various industries such as telecommunications, consumer electronics, and automotive for improved data transmission and reduced electromagnetic interference.

Problems Solved

This technology solves issues related to energy consumption, electromagnetic interference, and errors in data transmission, leading to more efficient and reliable communication.

Benefits

The benefits of this technology include reduced energy consumption, improved data transmission reliability, and decreased electromagnetic interference, resulting in better overall performance of integrated circuits.

Potential Commercial Applications

Potential commercial applications of this technology include mobile devices, IoT devices, automotive electronics, and networking equipment, where reliable data transmission and reduced electromagnetic interference are crucial.

Possible Prior Art

One possible prior art could be the use of spread spectrum technology in wireless communication systems to reduce interference and improve signal quality.

What is the specific frequency range used for the spread spectrum signals in this technology?

The specific frequency range used for the spread spectrum signals in this technology can be programmed to spread over a bandwidth in the frequency domain to customize electromagnetic emissions.

How does the programmable driver help in reducing errors in data transmission?

The programmable driver helps in reducing errors in data transmission by generating spread spectrum signals that can be adjusted to optimize the communication process, leading to more reliable data transmission.


Original Abstract Submitted

A device having a plurality of pins configured to connect circuits within an integrated circuit package to circuits outside of the integrated circuit package. A driver enclosed within the package is programmable to generate a spread spectrum signal to represent data being transmitted from a pin of the device. Frequency distribution of the signal spreading over a bandwidth in a frequency domain can be programmed to customize the electromagnetic emission caused by the communication of data through the pin. The frequency spreading can be programmed to reduce energy consumption, electromagnetic interference, and/or errors in receiving the data transmitted via the pin. The settings can be programmed into registers enclosed in the integrated circuit package to control the driver and/or dynamically adjusted using an artificial intelligent engine to optimize a cost function.