company news about The Birth of CCSS's PG Brand Micro SD 6.1 TF Card

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.