ENHANCED SERIAL PERIPHERAL INTERFACE

Organization Name

NXP USA, Inc.

Inventor(s)

Kenneth Jaramillo of Gilbert AZ (US)

Sharad Murari of Gilbert AZ (US)

Ajay Kumar Reddy Gaddam Mupkal of Chandler AZ (US)

Sundarapandian Andi Thevar of Chandler AZ (US)

ENHANCED SERIAL PERIPHERAL INTERFACE - A simplified explanation of the abstract

This abstract first appeared for US patent application 18298052 titled 'ENHANCED SERIAL PERIPHERAL INTERFACE

Simplified Explanation:

The patent application describes a bus system with a clock line, a first data line, and a second data line. An initiator connected to one end of the lines sends start and stop indications, command bits, and address bits. A target connected to the other end sends target acknowledge and interrupt information.

Key Features and Innovation:

• Bus system with clock, data lines, initiator, and target
• Initiator sends start, stop indications, command bits, address bits
• Target sends target acknowledge, interrupt information

Potential Applications: This technology can be used in various communication systems, data transfer protocols, and network devices.

Problems Solved: This technology addresses the need for efficient and reliable data transfer between different components in a system.

Benefits:

• Improved communication between devices
• Enhanced data transfer speed and accuracy
• Simplified system architecture

Commercial Applications: Potential commercial applications include telecommunications equipment, computer networking devices, and industrial automation systems.

Prior Art: Readers can explore prior art related to bus systems, data transfer protocols, and communication technologies to understand the evolution of this innovation.

Frequently Updated Research: Researchers may find updated studies on bus systems, data transfer efficiency, and network communication protocols relevant to this technology.

Questions about Bus Systems: 1. How does the bus system improve data transfer efficiency? 2. What are the key components of a bus system and their functions?

Question 1: How does the bus system improve data transfer efficiency?

The bus system enhances data transfer efficiency by providing a structured and organized way for devices to communicate with each other. Initiators and targets can efficiently send and receive data, reducing delays and improving overall system performance.

Question 2: What are the key components of a bus system and their functions?

The key components of a bus system include the clock line, data lines, initiator, and target. The clock line synchronizes data transfer, while the data lines carry the actual information. The initiator initiates communication and sends commands, while the target responds and provides acknowledgment. Each component plays a crucial role in ensuring smooth and reliable data transfer within the system.

Original Abstract Submitted

A bus system, including a clock line, a first data line, and a second data line. The bus system further includes an initiator connected to a first end of the clock line, the first data line, and the second data line. The initiator sends a start indication on the clock line and the first data line, sends command bits followed by address bits on the first data line, and sends a stop indication on the clock line and the first data line. The bus system also includes a target connected to a second end of the clock line, the first data line, and the second data line. The target sends target acknowledge information followed by target interrupt information on the second line while the command bits and address bits are sent.