Transcend's SSD472K features the SATA III 6Gb/s interface and 112-layer 3D NAND technology. Its built-in DRAM cache allows faster data access, while anti-sulfur resistors guarantee its reliability in harsh conditions. The SSD472K is fully tested in-house to guarantee reliability in mission-critical applications, boasting an endurance rating of 3K Program/Erase cycles and an extended operating temperature ranging from -20℃~75℃. Transcend also offers the SSD472K-I with wide temperature (-40℃ ~ 85℃) capabilities to ensure sustained functionality, enhanced endurance and optimal reliability in mission-critical applications. Hardware Features -Compliant with RoHS 2.0 standards -DDR3 DRAM Cache embedded -Endurance: 3K P/E cycles (Program/Erase cycles) guaranteed -Anti-sulfur technology implemented to prevent sulfurization in the environment -Power Shield (PS) to ensure data transfer integrity and minimize data corruption in the drive during an abnormal power outage -Extended Temp. (-20°C ~ 75°C) and Wide Temp. (-40°C ~ 85°C) options available Firmware Features -Dynamic thermal throttling -Built-in LDPC ECC (Error Correction Code) functionality -Advanced Global Wear-Leveling and Block management for reliability -Advanced Garbage Collection -Supports S.M.A.R.T. function to conduct health monitoring, analysis, and reporting for storage devices -TRIM command for better performance -NCQ command for better performance -Full drive encryption with Advanced Encryption Standard (AES) (optional) -Power-saving DevSleep (Device Sleep) mode (optional)

Transcend's U.2 SSD UTE210T is built by the 112-layer 3D NAND flash, an 8-channel controller, and a PCIe Gen 4x4 interface, setting new benchmarks in data transfer efficiency. Its built-in DRAM cache enables fast random read and write speeds, while the anti-sulfur resistor guarantees high storage reliability in harsh conditions. The UTE210T also features superior heat dissipation, enabling high-speed operations without the risk of overheating. The U.2 SSD UTE210T is also designed with a built-in tantalum capacitor, facilitating the Power Loss Protection function. During unexpected power outages, the SSD guarantees data integrity and storage reliability, safeguarding important information. Transcend's UTE210T is 100% chamber tested in-house for extended operating temperatures ranging from -20℃ to 75℃. Wide-temp capability (-40℃~85℃) can also be provided upon request, optimizing stability in extreme environments, suitable for high performance computing (HPC), data centers, big data analytics, online transaction processing (OLTP), high-resolution image streaming, and AI applications, etc. Hardware Features -Compliant with RoHS 2.0 standards -Compliant with NVM Express specification 1.4 -Compliant with PCI Express specification 4.0 -PCIe Gen 4 x4 interface -DDR4 DRAM Cache embedded -Endurance: 3K P/E cycles (Program/Erase cycles) guaranteed -Anti-sulfur technology implemented to prevent sulfurization in the environment -Power Loss Protection (PLP) to prevent data loss in the event of sudden power outage Firmware Features -Supports NVM command -Dynamic thermal throttling -Built-in LDPC ECC (Error Correction Code) functionality -Advanced Global Wear-Leveling and Block management for reliability -Advanced Garbage Collection -Supports S.M.A.R.T. function to conduct health monitoring, analysis, and reporting for storage devices -TRIM command for better performance -NCQ command for better performance -Full drive encryption with Advanced Encryption Standard (AES) (optional)

We have a range of standardised finishing options available that can cater for all your applications, we can also offer bespoke options at request. #scrimback, #Single Perforated, #Double Perforated, #Double Grooved etc . Many more options are available.

Litecon develops and produces globally unique system solutions for lightweight construction, with uniquely possibilities for automobile industry, aerospace industry and all industry segments which are interested in lightweight products. The high-performance PMI foam Triple F makes it possible to produce complex shapes in different densities (between 50 kg/m³ and 300 kg/m³) in a single process step. Inmold foaming (IMF) enables the industrial series production of complex, three-dimensional components and structural cores.

Whether as an air-cooled precision tool with up to 500 W or as the water-cooled variant with up to 2 kW laser power – our TruFiber P compact lasers are the ideal solution for a variety of applications. This includes, for example, additive manufacturing, laser precision welding in the automotive industry or laser precision cutting in medical technology.

With the compact and high-precision 5-axis laser machine TruLaser Cell 3000 you can weld and cut in two or three dimensions. In addition, the 3D laser machine is also suitable for laser metal deposition (LMD). From prototypes to large-scale series production with extensive automation, this multi-talented machine displays its superiority across the board. This applies particularly to cost-effective laser processing of small to medium-sized components with top quality.

Are you looking for a compact, efficient and at the same time ergonomic 3D laser welding system for processing small assemblies such as sensors, rotationally symmetrical components and medical devices? The TruLaser Station 7000 is a compact and fully equipped, low-investment 3D laser welding system in the TRUMPF portfolio. It has a very broad range of applications thanks to a higher laser power of up to 2 W and higher flexibility. It has a small installation area but a large work area for integrating fixtures and processing larger components. An optional rotary table means large quantities can be processed much more productively than with comparable products.

The TruMark Station 3000 combines simplicity and convenient operation in a marking system for processing medium lot sizes. An optional rotary axis offers flexibility for marking various components. With outside dimensions of only around 600 mm, the TruMark Station 3000 forms a compact marking cube, which provides a true desktop solution in combination with the TruMark 1110, TruMark 5010 and TruMark 6030 one-box lasers.

Due to its intelligent, ergonomic design, the compact TruMark Station 5000 can be used as both a standing and a sitting work station. We equip the machine with linear axes in the X and Y direction and rotary axes with various clamping systems, according to your requirements. The marking station offers the possibility of workpiece flow through transfer for integration in a flow line. The openings in the side of the housing offer excellent flexibility so that the TruMark Station 5000 can be expanded in line with your requirements. Its flexibility and its suitability for diverse application scenarios make the TruMark Station 5000 the true all-round solution of the TRUMPF marking systems.

The TruMark Station 7000 is a complete turnkey solution that is extremely versatile to use – for everything from marking to surface processing. With its generous inside dimensions, the TruMark Station 7000 laser marking system provides plenty of space for almost any application. The marking system is suitable for marking large, heavy single parts or multiple small parts. Optionally, you can get the TruMark Station 7000 with our rotary table system for loading parallel to production. The motorised door ensures safety and boosts productivity with quick opening and closing, with an option for partial opening/closing.

TRUMPF marking systems are available in different sizes and performance classes, and with a range of equipment. From marking to surface processing operations such as cleaning and structuring – we stock the perfect device for every application! Our marking systems offer a complete turnkey solution including software and image processing, and can be configured to meet individual requirements thanks to a flexible range of options. This means that the marking systems can be tailored to specific requirements, offering customised solutions for various industries – whether in mechanical engineering or medical technology. The devices are easy and safe to operate, enabling ergonomic working while standing or seated. TRUMPF's marking systems are certified according to laser protection class 1, so they can be used in the factory without any additional protective measures.

Short and ultrashort pulse lasers from TRUMPF are the ideal industry-ready tool for microprocessing. They are well-suited for all standard processing methods such as cutting, drilling, ablating and structuring, in a wide range of materials. The bandwidth of the TruMicro Series ranges from short-pulse lasers operating in the nanosecond range (ns-lasers) to ultrashort pulse lasers, picosecond lasers and femtosecond lasers (ps- and fs-lasers). The ps-lasers and fs-lasers enable cold processing of the material even at moderate average power, meaning that there is practically no heat input on the workpiece. The average laser powers of the short and ultrashort pulse lasers from TRUMPF range from 10 - 150 watts for the ultrashort pulse lasers to several hundred watts for the short-pulse lasers. The high peak pulse powers are unrivalled, with the total costs remaining extremely low over the full life cycle.

The TruMicro Mark Series is characterised by maximum process reliability and precision. By using multi-level laser power control and monitoring the pulse energy for each individual pulse, you achieve precise marking results that meet the highest standards, especially in areas such as medical technology. Whether you are working with complex 3D free-form geometries or scanning marking content, the TruMicro Mark series in combination with image processing software is available as a turnkey solution. This gives you a wide range of options for "cold" microprocessing and surface modification.

The TruMicro Mark Series is characterised by maximum process reliability and precision. By using multi-level laser power control and monitoring the pulse energy for each individual pulse, you achieve precise marking results that meet the highest standards, especially in areas such as medical technology. Whether you are working with complex 3D free-form geometries or scanning marking content, the TruMicro Mark series in combination with image processing software is available as a turnkey solution. This gives you a wide range of options for "cold" microprocessing and surface modification.