Functional pathway configuration at a system/IC interface

Electronic digital logic circuitry – Interface – Logic level shifting

Reexamination Certificate

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C327S333000

Reexamination Certificate

active

06556046

ABSTRACT:

FIELD OF THE INVENTION
The present invention relates generally to functional pathway configurations at the interfaces between integrated circuit (IC) packages and the circuit assemblies with which the IC packages communicate. More particularly, the present invention relates generally to the functional pathway configuration at the interface between one or more semiconductor integrated circuit dice, including an IC package capable of wireless control and/or status functionality in combination with a digital device adapted for wireless radio frequency (RF) functionality (hereinafter “wireless RF digital device”) and the circuitry of a system comprising the wireless RF digital device in the IC package. Even more particularly, the present invention relates to an 18 or 20 pin functional pathway configuration for the interface between the wireless RF digital device and the system in which it is embedded. Advantageously, the wireless RF digital system comprises a digital device, e.g., microcontroller, microprocessor, programmable logic array (PLA), application specific integrated circuit (ASIC), digital state machine; digital code hopping encoder, digital code hopping decoder, digital code hopping encoder-decoder, and a radio frequency device, e.g., receiver, transmitter, or transceiver.
BACKGROUND OF THE INVENTION
The electronics industry is generally divided into two main segments: application products companies and semiconductor companies. The application products companies segment includes the companies that design, manufacture, and sell the wide variety of semiconductor-based goods. The semiconductor companies segment includes integrated circuit (IC) design companies (e.g., fabless companies which may design and/or sell semiconductor chips), foundries (e.g., companies that manufacture chips for others), and partially or fully integrated companies that may design, manufacture, package and/or market chips to application products companies.
There is a large range of semiconductor-based goods available across a broad spectrum of applications, e.g., goods which include one or more semiconductor devices, in applications ranging from manufactured printed circuit boards to consumer electronic devices (stereos, computers, toasters, microwave ovens, etc.) and automobiles (which, for example, include semiconductor devices in fuel injection, anti-lock brake, power windows and other on-board systems). Thus, as one might imagine, there also are a wide variety of semiconductor devices available to meet the various requirements of such products and applications.
Wireless radio frequency (RF) digital devices are replacing wired digital devices requiring interconnections to control and monitoring systems because the wireless RF digital devices are smaller, are controllable in remote locations not feasible for installation of wiring, and are becoming lower in cost. The wireless RF digital device is intended for use in the most compact, low cost class of wireless equipment such as control and security, telemetry, and R.F. automatic identification. Example applications include, but are not limited to, garage door openers, vehicle keyless entry systems, security sensors, process monitoring and control systems, inventory tracking and the like.
Typically, semiconductor integrated circuit companies who offer wireless RF digital devices provide these wireless RF digital devices with a set of features and capabilities appropriate for a particular product or application. Thus, these wireless RF digital devices may have a broad range of features and capabilities, and semiconductor companies typically tend to offer their customers a wide range of products incorporating wireless RF digital devices to meet their customers' needs. For example, a semiconductor company may offer a family of products including a feature-rich “high-end” product (e.g., for automobile applications) and one or more “low-end” products including fewer features (e.g., for household appliance applications).
But while an end-user consumer, concerned only with whether a product works, might be indifferent as to the integrated circuit wireless RF digital device included in a product, the product designer and manufacturer certainly are not. Product companies generally will expend great efforts to ensure that their products work properly and that consumers receive value and remain satisfied. Thus, product companies tend to select integrated circuit wireless RF digital devices for use in an application based on their features and capabilities, not to mention costs and other factors.
In view of such circumstances, there tends to be vigorous competition amongst semiconductor companies for integrated circuit wireless RF digital device “design wins.” In other words, at the design stage, when a products company is designing a product for a given application, semiconductor companies compete for having their wireless RF digital devices included in the product. Once a product company establishes a design and sets the functional pathway configuration for the interface between a wireless RF digital device and the system in which it is embedded, the product company is less likely to change the configuration to accommodate another integrated wireless RF digital device having a different functional pathway configuration. Such configuration changes typically result in increased costs for the product company due to the system having to be re-designed in which the integrated circuit wireless RF digital device is embedded.
While there are a number of factors involved in any decision to award a design win, one such factor comprises a semiconductor company's product “roadmap.” Over time, end-user consumers generally tend to favor future generation consumer products having increased features at lower costs. Accordingly, product companies evaluating integrated circuit wireless RF digital products of two or more semiconductor companies today will consider whether the particular solutions being offered now will allow them to migrate easily from a basic first generation design to an enhanced future generation design having increased capabilities and features. Such migration—without the products company incurring extensive system re-design costs—in general is necessary if the products company is to offer the future generation products that consumers typically demand.
A standard functional pathway configuration also significantly lowers testing costs by allowing reuse of test boards and software.
Accordingly, there remains a need for a simple and convenient functional pathway configuration for the interface between an integrated circuit wireless RF digital device and the system in which the integrated circuit wireless RF digital device is embedded, e.g., that tends to promote increased performance with lower costs.
SUMMARY OF THE INVENTION
The present invention may address one or more of the problems set forth above. Certain possible aspects of the present invention are set forth below as examples. It should be understood that such aspects are presented simply to provide the reader with a brief summary of certain forms the invention might take, and that these aspects are not intended to limit the scope of the invention. Indeed, the invention may encompass a variety of aspects that may not be set forth below.
In one embodiment of the present invention, a functional pathway configuration at the interface between an integrated circuit (IC) radio frequency (RF) digital device and the circuit assembly with which the IC RF digital device is provided. In a further embodiment, a functional pathway configuration at the interface between one or more semiconductor dice including a digital device and radio frequency device and the circuitry of a system including the one or more semiconductor dice is provided.
In accordance with the present invention, in one embodiment a system including the IC RF digital device may, advantageously, comprise a digital device having a plurality of digital inputs and outputs, a clock input, a serial data output, one or more analog inputs, on

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