18378191. SEMICONDUCTOR DEVICE simplified abstract (Samsung Electronics Co., Ltd.)
Contents
SEMICONDUCTOR DEVICE
Organization Name
Inventor(s)
SEMICONDUCTOR DEVICE - A simplified explanation of the abstract
This abstract first appeared for US patent application 18378191 titled 'SEMICONDUCTOR DEVICE
The semiconductor device described in the abstract includes a device isolation part on a substrate that defines first to fourth active regions, with the device isolation part positioned between the first and second active regions and the third and fourth active regions. Additionally, there are first and second word lines that cross the first and second active regions and are adjacent to each other, a first impurity region in the first active region between the first and second word lines, a second impurity region in the first active region at one side of the first word line and spaced apart from the first impurity region, first and second conductive pads contacting the first and second impurity regions respectively, a bit line on the first conductive pad, a storage node contact on the second conductive pad, and a landing pad on the storage node contact.
- Device isolation part on substrate
- First to fourth active regions defined by the device isolation part
- First and second word lines crossing the active regions
- First and second impurity regions in the first active region
- First and second conductive pads contacting the impurity regions
- Bit line on the first conductive pad
- Storage node contact on the second conductive pad
- Landing pad on the storage node contact
Potential Applications: - Memory devices - Integrated circuits - Semiconductor manufacturing
Problems Solved: - Efficient organization of active regions - Improved connectivity within the semiconductor device
Benefits: - Enhanced performance of memory devices - Increased efficiency in semiconductor manufacturing processes
Commercial Applications: Title: "Advanced Semiconductor Memory Devices for Enhanced Performance" This technology can be utilized in the production of memory devices for various electronic applications, leading to improved performance and reliability. The market implications include increased demand for high-quality memory solutions in consumer electronics, automotive systems, and industrial equipment.
Prior Art: Readers can explore prior art related to semiconductor memory devices, device isolation techniques, and impurity region configurations in semiconductor manufacturing processes.
Frequently Updated Research: Stay updated on the latest advancements in semiconductor memory technology, device isolation methods, and impurity region design for enhanced performance and efficiency.
Questions about Semiconductor Memory Devices: 1. How does the configuration of impurity regions impact the performance of semiconductor memory devices? 2. What are the key differences between traditional memory devices and those utilizing advanced device isolation techniques?
Original Abstract Submitted
A semiconductor device including: a device isolation part on a substrate to define first to fourth active regions, the device isolation part interposed between the first and second active regions and the third and fourth active regions; first and second word lines crossing the first and second active regions and adjacent to each other; a first impurity region in the first active region between the first and second word lines; a second impurity region in the first active region at one side of the first word line and spaced apart from the first impurity region; a first conductive pad contacting the first impurity region; a second conductive pad contacting the second impurity region; a bit line on the first conductive pad; a storage node contact on the second conductive pad; and a landing pad on the storage node contact.
