Taiwan semiconductor manufacturing company, ltd. (20240338511). INTEGRATED CIRCUIT AND METHOD OF FORMING SAME AND A SYSTEM simplified abstract
Contents
INTEGRATED CIRCUIT AND METHOD OF FORMING SAME AND A SYSTEM
Organization Name
taiwan semiconductor manufacturing company, ltd.
Inventor(s)
Sheng-Hsiung Chen of Hsinchu (TW)
Shao-Huan Wang of Hsinchu (TW)
INTEGRATED CIRCUIT AND METHOD OF FORMING SAME AND A SYSTEM - A simplified explanation of the abstract
This abstract first appeared for US patent application 20240338511 titled 'INTEGRATED CIRCUIT AND METHOD OF FORMING SAME AND A SYSTEM
Simplified Explanation:
This patent application describes a multi-bit flip-flop that includes two flip-flops with different driving capabilities, sharing a set signal and clock pin.
- The multi-bit flip-flop consists of a first flip-flop with a first driving capability and a second flip-flop with a different driving capability.
- The first flip-flop has a set pin for receiving a set signal, which is also connected to the set pin of the second flip-flop.
- Both flip-flops share at least one clock pin for synchronization.
Key Features and Innovation:
- Dual flip-flops with different driving capabilities
- Shared set signal input for both flip-flops
- Shared clock pin for synchronization
Potential Applications:
This technology could be used in digital circuits, memory storage systems, and other applications requiring synchronized multi-bit operations.
Problems Solved:
This technology addresses the need for efficient multi-bit storage and processing with synchronized operation.
Benefits:
- Improved efficiency in multi-bit operations
- Simplified circuit design with shared inputs
- Enhanced synchronization between flip-flops
Commercial Applications:
Title: Synchronized Multi-Bit Flip-Flop Technology for Digital Circuits
This technology could be applied in the development of advanced digital systems, memory units, and data processing applications, potentially improving overall system performance and reliability.
Questions about Synchronized Multi-Bit Flip-Flop Technology:
1. How does the shared set signal input benefit the operation of the multi-bit flip-flop? 2. What are the potential challenges in implementing this technology in complex digital systems?
Original Abstract Submitted
a multi-bit flip-flop includes a first flip-flop and a second flip-flop. the first flip-flop has a first driving capability. the first flip-flop includes a first set pin configured to receive a first set signal. the second flip-flop has a second driving capability different from the first driving capability. the second flip-flop includes a second set pin configured to receive the first set signal, and the first set pin and the second set pin are coupled together. the first flip-flop and the second flip-flop are configured to share at least a first clock pin.
