Warm Congratulations on the Relocation of CCSS and the Completion of the Semiconductor Laboratory
2023-08-07
In order to celebrate the relocation of CCSS and the completion of the semiconductor laboratory, we have specially selected August 6, 2023 as a special day to settle in the new location. The company's shareholders, main leaders, suppliers, and agents have personally witnessed this exciting moment with us! We solemnly announce that CCSS has settled in a brand new office and laboratory, embarking on a new journey!
The new headquarters of CCSS is located in Huaqiang Creative Industry Park, Guangming Street, Guangming District, Shenzhen. Here, we not only have spacious and bright office space, but also a well-equipped and professional semiconductor laboratory with a wide floor area. The modern and comfortable atmosphere will provide our team with a better working environment and innovative atmosphere. The well-designed and well-equipped laboratory will provide better production, testing, after-sales and other support for our growing business needs.
We believe that a superior environment is the source of creativity and passion. Formal, professional, and complete equipment is the foundation for smooth production and testing, and is the guarantee of product quality. Every inch here is carefully designed, with modern facilities and efficient office equipment that will provide us with stronger support to achieve better work results.
The completion of the new office and semiconductor laboratory not only signifies a new starting point for us, but also represents our commitment to our customers. We will continue to uphold the service philosophy of quality, professionalism, and innovation, providing customers with higher quality products and solutions, and working together with customers to achieve business goals.
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The Birth of CCSS's PG Brand Micro SD 6.1 (TF) Card
2023-07-26
With the development of mobile Internet, the birth of micro SD6.1 (TF) card provides a convenient way for people. It can help users quickly view information and store it in devices, effectively improving people's work efficiency and quality of life. The birth of micro SD6.1 (TF) card is mainly to meet the needs of different users for information storage and sharing. It includes components such as card substrate, controller chip, flash memory module, etc., which are implemented through firmware development technology. This card is based on flash memory and memory chips, and is connected to a computer through a USB interface to achieve data transfer function.
1、About Material Selection
Material selection is the first step in making micro SD6.1 (TF) cards. When material selection is a big issue, how can we make the micro SD6.1 (TF) card achieve optimal processing and testing? Firstly, we need to know what material is suitable for making micro SD6.1 (TF) cards. Generally speaking, the softer the material, the better the hand feel, and the higher the density, the more likely it is to deform or be damaged. Therefore, we will use copper plate as the material to manufacture the soft bottom plate main structure of micro SD6.1 (TF) cards, which can effectively reduce processing difficulty. Secondly, attention should be paid to the quality requirements of the materials. TF cards should have good durability, impact resistance, and chemical corrosion resistance, and can withstand a certain degree of temperature changes (-40 ° C to 265 ° C). In addition, attention should be paid to the thickness of the micro SD6.1 (TF) card. Thin micro SD6.1 (TF) cards are prone to thermal deformation and scrap; Thick micro SD6.1 (TF) cards may also malfunction due to poor heat dissipation. Overall, the micro SD6.1 (TF) card is a storage device, and the materials used have a crucial impact on its functionality and performance. The birth of CCSS’s PG brand micro SD6.1 (TF) card cannot be separated from the careful selection of materials. When choosing materials, we pay attention to the reliability and durability of the materials. After multiple experiments and tests, we have selected high-quality high-temperature resistant materials and used 0.6mil pure gold wire for solidification and wire bonding to ensure that the micro SD6.1 (TF) card has the best extension, conductivity, and transmission rate characteristics. It can demonstrate high-frequency and high-speed performance in various environments and fully supports 4K UHD ultra high definition playback. It is equipped with UHS-1 and video speed level V30, and uses advanced LDPC error correction technology with DDR200 and A2 level program loading to achieve the function of reading 180MB/s and writing 150MB/s.
2、Regarding Processing
Generally speaking, the processing technology of micro SD6.1 (TF) cards is completed according to its standards. When embedding electronic chips into thin films for assembly, special process techniques must be used. First, a template must be made to locate the position of the printed components that need to be installed. Then, a specific method must be used to process the pattern or text. Finally, a layer of protective agent should be applied on the surface to prevent oxidation and corrosion, so as to make the pattern or text clearer and more eye-catching. The manufacturing process of micro SD6.1 (TF) card is divided into the following steps: Firstly, the micro SD6.1 (TF) card must pass security testing and obtain necessary certifications; Secondly, testing should be conducted in industrial environments, including drops, vibrations, etc; Finally, align the test results with expectations. For CCSS’s PG brand micro SD6.1 (TF) card, we use advanced processing technology to ensure its stability and reliability. During the processing, we strictly control every step, from the procurement of raw materials to the packaging of finished products, and undergo strict monitoring and testing to ensure that every micro SD6.1 (TF) card has high-quality.
3、Regarding Testing
In order to ensure the quality of CCSS’s PG brand micro SD6.1 (TF) cards, we have conducted multiple quality tests. We conducted rigorous performance and durability tests on the micro SD6.1 (TF) card using advanced testing equipment and technological means. Only micro SD6.1 (TF) cards that have undergone multiple testing stages can be recognized as qualified products. We ensure that every TF card can work stably and reliably, without any problems during user use. The projects we test for the micro SD6.1 (TF) card include functional testing, copy/read/write functionality, read/write speed, capacity, voltage, card slot testing, environmental testing, application testing, durability application testing (over 72 hours), etc., to ensure that each test meets the standards.
4、Regarding Quality Assurance PPM
The quality assurance of PPM needs to consider many factors, including materials, processes, and testing methods. When producing micro SD6.1 (TF) cards, we first determine whether their size meets the requirements, which will affect the performance of the card; Secondly, appropriate processing equipment and production processes should be selected to ensure good strength and corrosion resistance of the materials; In addition, attention should be paid to controlling the types and amounts of chemicals used in the production process to avoid harm to human health. In order to achieve extremely high quality standards, CCSS’s PG brand has implemented strict quality control in every production process of micro SD6.1 (TF) cards. From raw material procurement to processing and production, to product packaging and delivery, we follow a strict quality management system to ensure that the micro SD6.1 (TF) card meets the standard of ≤ 50-100 PPM. Through comprehensive quality assurance measures, we ensure that every TF card is carefully crafted and tested, making CCSS’s PG micro SD6.1 (TF) card highly competitive in the market.
5、Maintaining Good User Experiences
In order to meet the user experience, Micro SD6.1 (TF) card of CCSS adopts a special design to make it more durable, and we will provide more accessories or accessory products to better meet the needs of different customers. In addition, the micro SD6.1 (TF) can also be inspected and repaired by professional maintenance service agencies to ensure normal use. CCSS’s PG brand is committed to creating a good user experience. We not only focus on the quality of micro SD6.1 (TF) cards, but also pay attention to optimizing user operation and compatibility. We provide a simple operation guide to help users use the micro SD6.1 (TF) card more conveniently. At the same time, we also work closely with major equipment manufacturers to ensure the compatibility of CCSS’s PG brand micro SD6.1 (TF) cards on various devices, bringing users a good user experience.
Summary:
The birth of CCSS’s PG brand micro SD6.1 (TF) card cannot be separated from a precise grasp of materials, processing, testing, and quality control. We are always committed to providing an excellent user experience, ensuring that every micro SD6.1 (TF) card can withstand various environmental and usage conditions. Through continuous innovation and efforts, CCSS’s PG brand will continue to surpass other manufacturers and become a highly professional micro SD6.1 (TF) card manufacturer in the semiconductor industry.
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Exploring High-speed and Reliable SSD
2023-08-26
SSD stands for Solid State Drive, which translates to “固态硬盘” in Chinese. It is a storage device used to replace traditional HDD. Compared with HDD, SSD uses flash memory chips instead of mechanical components when storing data, which makes SSD have faster read and write speeds, higher reliability, and lower energy consumption. The flash memory chips in SSD uses non-volatile storage technology, which means that data can still be retained even in the event of a power outage.
The working principle of SSD is to use transistors in flash memory chips to store data. Each transistor can store one binary bit of data, representing 0 and 1 by charging and discharging electrons in the transistor. Compared with HDD, SSD doesn’t require mechanical components to read and write data. SSD uses flash technology to store data inside the flash chip, without the need to access data through disk rotation and read-write heads like HDD. This makes SSD much faster in read speed than HDD, resulting in faster data transfer rates and lower response times, performing better in data transfer, boot speed, and application loading.
In addition, SSD has high seismic resistance and low noise levels because it doesn’t has moving mechanical parts. It is also more durable because there is no magnetic head in contact with the surface of the disk, which eliminates the problem of HDD being easily damaged.
One of the shortcomings of SSD is that it is relatively expensive compared to HDD and has limited storage capacity. But with the development of technology, the price of SSD is gradually decreasing, and the capacity is also gradually increasing.
In fact, when SSD was first introduced, due to its high prices, installation enthusiasts could only choose 64GB/128GB SSD with smaller capacities as installation disks. It wasn't until later, with the precipitation of SSD technology, prices finally became affordable, and even 1TB SSD was often priced at six or seven hundred yuan. However, there are still many users who don't understand why the speed difference between SSD with the same Nvme protocol is so large? There are SSDs with speeds of around 1500MB/s and 3000MB/s on the market. What is the difference between them?
Let's first talk about the two most common types of SSDs on the market. One is the SATA protocol SSD, which is a very old protocol and has the same interface as the HDD we commonly used in the past. These SSDs are generally used to upgrade old hosts or as storage disks, and their highest read and write speeds are usually around 500MB/s, which is relatively cheaper in price. Another type is SSD with M.2 interface that supports Nvme protocol. Currently, most mainstream motherboards support PCle3.0 protocol. Under this framework, the maximum read and write speed of SSD is generally around 3500MB/s. Of course, the latest motherboards currently support the PCle4.0 protocol, which will result in faster speeds, even up to 5500MB/s, and this is also a popular trend in the future. However, the price is currently not very affordable.
In short, SSD is an advanced storage device widely used in computers and other electronic devices, which has advantages such as high-speed performance, reliability, energy saving and environmental protection, and compact size. With the advancement of technology and the reduction of costs, SSD is gradually replacing traditional HDD and becoming the mainstream storage devices.
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Independently-develope controller+YMTC Mount Tai Wafer eMMC5.1: Outstanding Performance and High Cost-Effectiveness
2023-12-06
For various storage products on the market? Are you pursuing high cost-effectiveness while also emphasizing product quality? Now, CCSS has brought you a brand new solution ----independently-develope controller’s eMMC5.1. This independently developed controller eMMC5.1 storage product is definitely a must-have choice for you!
1、Research and Development Background of the Independently-develope Controller’s eMMC5.1
1.1 Project Origin
There are a variety of storage products on the market, with customers pursuing high cost-effectiveness while also emphasizing the perfect combination of quality and experience.
1.2 Technical Difficulties and Challenges
To ensure the quality and performance of the product and improve its transmission speed while reducing production costs.
2. Technical Features of independently-develope controller eMMC5.1
2.1 Fast Storage and Reading
2.2 High Reliability and Stability
2.3 Low-lower Consumption
2.4 Strong Scalability
3. Application of Independently-developed Controller’s eMMC5.1
The application of eMMC5.1 include but are not limited to:
1. Consumer grade products: such as mid-range tablets, PCs, smart TVs, and other portable handheld devices.
2. Portable devices: such as mobile phones and tablets, eMMC is usually used in conjunction with processors or SOC to achieve data storage and retrieval.
3. Emerging technology fields: For example, DPU and EMMC are used as memory to support the large capacity storage required by DPU for processing large amounts of data, while meeting DPU's demand for high-speed data transmission.
4. Market prospects of Independently-developed controller’s eMMC5.1
EMMC5.1 is an embedded memory standard widely used in mobile devices and other consumer electronics products. However, with the continuous advancement of technology and changes in market demand, the market prospects of eMMC5.1 may face some challenges.
Firstly, with the development of smartphones and other mobile devices, users' demand for storage capacity is constantly increasing. Although eMMC5.1 has good performance and reliability, compared to new storage technologies such as UFS and PCIe, its read/write speed and transfer speed may be slightly insufficient.
Therefore, the application of eMMC5.1 in high-end smartphones and other high-performance mobile devices may be limited. Secondly, the rapid development of the Internet of Things may have an impact on the market prospects of eMMC5.1. IoT devices typically require a large amount of storage space and high-speed read-write performance to achieve real-time data collection, analysis, and processing. However, eMMC5.1 still has advantages in certain fields. For example, in some cost sensitive fields, eMMC5.1 may continue to be applied due to its lower cost and stable performance.
In addition, in some specific application scenarios, such as fields that require a large amount of storage space but do not require too high read and write speeds, eMMC5.1 may still have market prospects.
Overall, the market prospects of eMMC5.1 are influenced by various factors, including technological development, market demand, costs, and more. The changes in these factors in the future may have an impact on the market prospects of eMMC5.1.
5. Research and Development Value of Independently-developed controller’s eMMC5.1
5.1 Improving the Level of Domestic Storage Technology
5.2 Promoting Industrial Transformation and Upgrading
5.3 Industrial Expansion and Strategic Development
5.4 Enhancing International Competitiveness
In summary, the independent research and innovation value of eMMC5.1 is mainly reflected in various aspects such as domestic storage technology innovation, industrial transformation and landing, industrial expansion, strategic development, and enhancing international competitiveness, demonstrating the strength and value of CCSS in technological innovation and physical industry.
This eMMC5.1 storage product uses the master SA3635+YMTC Mount Tai wafer independently and jointly developed by CCSS. Compared with similar products, this storage product uses advanced flash memory technology, advanced production technology and carefully selected materials, which not only ensures the quality and performance of the product, but also reduces production costs. Its reading and writing speed is far faster than that of traditional storage devices. This makes the transfer and editing of large files very fast, while also meeting the storage needs of various complex applications, with excellent reliability and stability. This product has been carefully designed and rigorously tested to ensure the long-term stable operation of storage products. Even in frequent use, you don't have to worry about data loss or storage device failure. By purchasing this storage product, you can not only enjoy a high-quality storage experience, but also save unnecessary expenses, achieving true value for money. Come and give this storage product a try!
In summary, this independently-developed eMMC5.1 storage product is a high-quality, high-performance, easy-to-use, and cost-effective storage choice. Whether you need to store important data or improve device performance, it can meet your needs and provide you with an excellent experience. If you are still hesitating about choosing a suitable storage product, why not give this storage product a try! It will bring you unexpected surprises and convenience!
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CCSS Successfully Passes Quality Management System Certification
2023-12-14
On December 12, 2023, CCSS successfully passed the GB/T 19001-2016 and ISO 9001:2015 quality management system certifications, and obtained certification certificates issued by authoritative institutions. This important milestone marks a significant breakthrough for CCSS in quality management and semiconductor storage chip fields, while further enhancing the company's overall strength and market competitiveness.
CCSS has always focused on high-end industrial grade storage chips and is committed to becoming a professional brand PG (Perfect Grade) for domestically produced storage products. With high-quality services, first-class quality, efficient output capabilities, and strong R&D teams, we serve customers to meet the growing demand of the storage market. By obtaining GB/T 19001-2016 and ISO 9001:2015 quality management system certifications, CCSS further demonstrates its outstanding performance in production and service, as well as its commitment to meeting strict standards in the storage industry.
This certification process is a comprehensive evaluation for CCSS, covering all aspects and processes of the company. After rigorous review and evaluation, CCSS's quality management system is considered to comply with the requirements of GB/T 19001-2016 and ISO 9001:2015 standards, and has been recognized by the certification body. This is not only a recognition of CCSS's past efforts, but also a strong support for the company's future development. Through this certification, CCSS further demonstrates its professional capabilities and technical strength in the field of storage chips, providing strong support for the company's sustainable development and market expansion.
CCSS will continue to uphold the principle of quality first, continuously improve product quality and service level to meet customer needs and expectations. At the same time, the company will continue to strengthen internal management and technological innovation to maintain its leading position in the field of memory chips.
In summary, obtaining the GB/T 19001-2016 and ISO 9001:2015 quality management system certifications is an important milestone in the development process of CCSS. This certification will inject new momentum and confidence into the company's future development, winning more market share and customer trust.
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