ATP Electronics introduces new SD and microSD memory cards with 176-layer 3D NAND technology, designed for emerging technologies like 5G and AI.
- 176-layer 3D NAND technology
- Extended supply longevity support of up to 5 years
- Designed to operate in extreme conditions
ATP Electronics, the leading provider of specialized storage and memory solutions, is introducing its latest SD and microSD memory cards, the S650Si (TLC) and S750Pi (pSLC) Series. These memory cards are built with 176-layer 3D NAND technology and feature a low-density parity check (LDPC) controller. The new cards offer expanded capacity options up to 512 GB and come with extended supply longevity support of up to 5 years. They are specifically designed to meet the demands of emerging technologies like 5G, artificial intelligence (AI), and edge computing.
The S650Si Series, with capacities ranging from 64 GB to 512 GB, is perfect for non-stop recording environments. It boasts a high endurance rating of 5K+ P/E cycles and offers Terabytes Written (TBW) of up to 2,000 TB. For customers requiring even greater endurance, the S750Pi Series in pseudo single level cell configuration delivers up to 100K+ P/E cycles and a TBW rating of up to 12,670 TB. These memory cards are available in capacities from 16 GB to 128 GB.
Both the S650Si and S750Pi Series are designed to operate in extreme conditions, with an I-Temp operable feature and power loss protection technology. They can withstand temperature shifts from -40°C to 85°C and unstable power supply settings. Compared to previous-generation ATP SD/microSD cards, the new models offer 3X faster sequential write speeds and improved sustained writing performance.
In terms of cost-effectiveness, ATP’s 176-layer TLC cards outperform competitors with the same storage capacity, providing extended recording hours and a reliable solution for video recording. The graph below demonstrates the superior performance of ATP’s TLC cards compared to competitors.
ATP is committed to meeting the unique needs of customers in the rapidly advancing AI surveillance industry. With its mass production infrastructure, ATP can develop firmware and hardware configurations tailored to specific applications. Additionally, ATP offers the SD Life Monitor tool, which provides intelligent workload inspection. This tool allows customers to monitor write operations and file sizes, ensuring optimal performance.
To ensure consistent performance and high-quality continuous video recording, ATP’s memory cards maintain stable Latency even after long-term writing. This is crucial for applications like digital video recorders (DVRs), where latency issues can result in frame dropping or low recording quality. The graph below illustrates the stable latency performance of ATP’s TLC solutions compared to unoptimized solutions.
ATP also offers a Joint Validation Service, where compatibility and function tests are conducted using client-supplied host devices and systems. This proactive approach helps detect and minimize failures that may not have been caught during production tests. The validation tests are optimized based on specific application needs, ensuring seamless integration.
ATP’s memory cards are built with an advanced System-in-Package (SiP) wafer/die process, making them resistant to water, dust, and shock. However, this process makes component analysis challenging compared to traditional surface-mount technology (SMT) process. To overcome this, ATP has developed a uniquely designed Substrate and debug tool that enables post-analysis.
With its latest S650Si and S750Pi Series memory cards, ATP Electronics continues to push the boundaries of storage and memory solutions, catering to the evolving needs of industries driven by 5G, AI, and edge technologies.
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Technology Explained
Latency: Technology latency is the time it takes for a computer system to respond to a request. It is an important factor in the performance of computer systems, as it affects the speed and efficiency of data processing. In the computer industry, latency is a major factor in the performance of computer networks, storage systems, and other computer systems. Low latency is essential for applications that require fast response times, such as online gaming, streaming media, and real-time data processing. High latency can cause delays in data processing, resulting in slow response times and poor performance. To reduce latency, computer systems use various techniques such as caching, load balancing, and parallel processing. By reducing latency, computer systems can provide faster response times and improved performance.
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NAND: NAND technology is a type of non-volatile memory that is used in many computer applications. It is a type of flash memory that is used to store data in a non-volatile manner, meaning that the data is not lost when the power is turned off. NAND technology is used in many computer applications, such as solid-state drives, USB flash drives, digital cameras, and memory cards. It is also used in many embedded systems, such as cell phones, tablets, and other consumer electronics. NAND technology is a reliable and cost-effective way to store data, making it a popular choice for many computer applications.
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SMT: Simultaneous multithreading (SMT) is a technology that allows a CPU core to process two tasks (threads) simultaneously. It is crucial to the swift operation of modern-day CPUs. SMT is AMD’s brand of multithreading, while Hyperthreading is Intel’s
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Substrate: The technology substrate is a layer of material that provides a foundation for the components of a computer system. It is the foundation upon which the components of a computer system are built. It is usually made of a material such as silicon, which is a semiconductor material. The technology substrate is used to create the circuits and pathways that allow the components of a computer system to communicate with each other. It is also used to create the physical structure of the computer system, such as the motherboard, memory, and other components. The technology substrate is essential for the functioning of a computer system, as it provides the necessary pathways for the components to communicate with each other. It is also used to create the physical structure of the computer system, such as the motherboard, memory, and other components.
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