Exhibitor products

MitySOM-QC5430 System on Module The MitySOM-QC5430 is a system on module family featuring a Qualcomm DragonwingTM QCS5430 processor with on-board power supplies, an LPDDR5 RAM memory subsystem, and a UFS configuration memory. This product family is in development now — contact us for details! Qualcomm Dragonwing QCS5430 is a powerful application processor designed for Enterprise & IoT applications Option to upgrade features over-the-air via software now or later, according to your product needs Support for 5G and Wi-Fi on the development board Advanced camera, AI and compute for powerful performance at low-power Purpose built for industrial and commercial IoT applications such as ruggedized handhelds and tablets, kiosks, industrial scanners, point of sale systems and human machine interface systems Long-term support for Android OS upgrades, Linux, Ubuntu, Windows 11 IoT Enterprise, security updates, and enterprise-grade hardware Long-term support expected through July 2036 with the Product Longevity Program Specifications QCS5430 SoC Processor - Qualcomm Kryo 670 CPU up to 1x 2.38GHz, 3x 2.4GHz, 4x 1.8GHz - Qualcomm Adreno A642L GPU - Qualcomm Adreno 633 VPU (video encode 4K30 / decode 4K60) Memory - Up to 8 GB LPDDR5 - Up to 256GB Flash - SD/eMMC - EEPROM for configuration Power - 4Vdc Input, all supplies generated on board - Optional 3.75V battery or USBC power delivery Interfaces - 2x PCIe Gen 3 (1x 1 lane, 1x 2) - 1x eMMC (8-bit) - 1x sd Card (4-bit) - 5x MIPI x4 input + DSI output - USB 3.1 Gen 2 with Display Port - Display Port - USB 2.0 - 14x I2C* - 4x I3C* - 2x I2S Audio - 10x SPI* - 10x UART - 1×5 Lane QLINK - SLIMBus - SoundWire - 67 GPIO* * Max available subject to pin mux Mechanical - 45mm x 45mm (1.77" x 1.77") Applications - High End CPU or Graphics / UI - Handheld / Mobile Devices - Embedded MIPI Camera Applications

MitySOM-QC6490 System on ModuleProduction-ready System on Module based on Qualcomm Dragonwing QCS6490 The MitySOM-QC6490 is a system on module family featuring a Qualcomm DragonwingTM QCS6490 processor with on-board power supplies, an LPDDR5 RAM memory subsystem, and a UFS configuration memory. This product family is in development now — contact us for details! Qualcomm Dragonwing QCS6490 is a powerful application processor designed for Enterprise & IoT applications Support for 5G and Wi-Fi on the development board AI Engine brings the total performance up to 12 TOPS Expanded interfaces for industrial use cases Long-term support for Android OS upgrades, Linux, Ubuntu, Windows 11 IoT Enterprise, security updates, and enterprise-grade hardware Long-term support expected through July 2036 with the Product Longevity Program Specifications QCS6490 SoC Processor - Qualcomm Kryo 670 CPU: 1x 2.7GHz, 3x 2.4GHz, 4x 1.9GHz - Qualcomm Adreno 643 GPU - Qualcomm Adreno 633 VPU (video encode 4K30 / decode 4K60) Memory - 8 GB LPDDR5 - 256GB Flash - SD/eMMC - EEPROM for configuration Power - 4Vdc Input, all supplies generated on board - Optional 3.75V battery or USBC power delivery Interfaces - 2x PCIe Gen 3 (1x 1 lane, 1x 2) - 1x eMMC (8-bit) - 1x sd Card (4-bit) - 5x MIPI x4 input + DSI output - USB 3.1 Gen 2 with Display Port - Display Port - USB 2.0 - 14x I2C* - 4x I3C* - 2x I2S Audio - 10x SPI* - 10x UART - 1×5 Lane QLINK - SLIMBus - SoundWire - 67 GPIO* * Max available subject to pin mux Mechanical - 45mm x 45mm (1.77" x 1.77") Applications - High End CPU or Graphics / UI - Handheld / Mobile Devices - Embedded MIPI Camera Applications

Optris CTlaser – Precision and Flexibility in Non-Contact Temperature Measurement The CTlaser series from Optris stands for the highest accuracy and reliability in non-contact temperature measurement in a wide range of industrial applications. The innovative diverging laser sighting system helps determine the exact measuring point and optimally position the sensor, keeping the measuring spot size to a minimum. Two laser dots at the edge of the measuring spot indicate the exact measuring area, simplifying setup and increasing measurement accuracy. Diverse Optics for Every Application With numerous available optics, measuring spots from 0.9 mm to 25 mm can be achieved – from close range to long distances. This makes the CTlaser series perfectly adaptable to a variety of operating conditions. Two-Component Design for Maximum Flexibility The small, heat-resistant measuring head is separated from the electronics module, which is equipped with an LED display and manual on-site operation. The extensive analog (e.g., 0/4–20 mA, 0–10 V) and digital interfaces (USB, Ethernet, Profibus, Modbus, and many more) enable easy integration into control and monitoring systems. Wide Industrial Applications Ideally suited for metal foundries and the glass industry, the CTlaser series measures reliably and accurately even in fast-paced processes or in hard-to-reach areas. The optical resolution of up to 300:1 ensures precise results. With its precise laser sighting, flexible optics, and versatile interfaces, the Optris CTlaser series offers a first-class solution for non-contact temperature measurements in demanding industrial processes.

Very small infrared thermometers with integrated electronics for non-contact temperature measurements from -50 °C to 1600 °C

quotient pyrometer with motorized focus, crosshair laser and video sighting

High speed pyrometer with ultra-fast exposure time of 90 µs

Optris CTi LT – Compact, precise, robust The pyrometers of the Optris CTi LT series set new standards in non-contact temperature measurement – with one of the world's smallest infrared measuring heads, a high optical resolution of up to 22:1, and a wide temperature range from -50°C to 1050°C. Their specially tuned spectral range of 8–14µm makes them ideal for measurements on non-reflective objects with high emissivity – even at low temperatures. The robust design allows for use in environments with temperatures up to 180°C – without the need for additional cooling. Thanks to the thermal shock-resistant construction, measurement results remain consistent and reproducible even under fluctuating ambient conditions. The separation of the measuring head and electronics unit ensures high installation flexibility – even in tight spaces. The electronics offer analog output signals (0/4–20 mA, 0–5 V, 0–10 V, Type K thermocouple) as well as digital interfaces such as USB, RS232, RS485, Profibus DP, Profinet, Ethernet TCP/IP, and Ethernet/IP. Two galvanically isolated relay outputs enable easy process integration. With a response time of only 115 ms (90% energy), the CTi LT is ideal for monitoring dynamic manufacturing processes. Optional accessories – such as a mounting fork, target optics, close-focus lens, air purge, and cooling housing – further expand the application possibilities and ensure protection and precision in demanding environments. Made in Germany, the CTi LT series stands for the highest quality, durability, and depth of integration. Whether in plastics processing, the food industry, electronics manufacturing, or high-temperature processes – this pyrometer is the reliable solution for precise and continuous temperature monitoring. Optris CTi LT – when smallest dimensions meet maximum performance.

Optris CTratio – Precision under Extreme Conditions The Optris CTratio series is the first choice for non-contact temperature measurements in demanding industrial environments, especially in metal processing. With its two-color ratio technology (also known as ratio pyrometry), it delivers reliable and precise measurements at temperatures up to 3,000°C, even under the most difficult conditions – where conventional single-wavelength pyrometers reach their limits. Reliable Measurement in Dust, Vapor, and IR Attenuation In industrial processes, factors such as dust, water vapor, smoke, or IR-attenuating viewing windows are often unavoidable. CTratio sensors intelligently compensate for these influences: Even with signal attenuation of up to 90%, they still measure precise temperatures – ideal for processes in closed chambers or in areas of the plant that are difficult to access. Independent of emissivity and measurement geometry The ratio technology of the CTratio series is particularly effective for materials with low or changing emissivity – e.g., metals, oxides, or highly reflective surfaces. Even if the measurement object is small, moving, or difficult to focus, the temperature measurement remains precise and stable. Highest temperature resistance – without water cooling Another unique selling point is the extreme heat resistance: Both the sensor and the fiber optic cable can withstand ambient temperatures of up to 200°C without external cooling. For applications under particularly harsh conditions, an optional high-temperature version is available for use up to 315°C – reliable and cost-effective. The CTratio series from Optris combines intelligent ratio measurement technology with maximum durability. It is the perfect solution for industrial high-temperature environments where reliability, precision, and robustness are crucial. Optris CTratio – measure where others give up.

Decentralization at Its Finest Greater flexibility and modularity are major trends in machine and plant engineering. It is increasingly common for standard machines and optional additional units to be manufactured as separate mechanical and electronic units that are joined together only shortly before commissioning the full system. The installation hardware must live up to the modularity of the machine. The Murrelektronik Cube67 field bus system is exactly the right solution. With the combination of a Cube67 Diagnostics Gateway and the straightforward integration of IO-Link, Cube67 paves the way toward decentralization and digitalization in the cloud using OPC UA. The Murrelektronik Cube67 system advances the trend toward flexibility and is designed for modularity – including even the finest details. Already used in well over 100,000 machines and plants in diverse industries and applications worldwide, the system can boast an impressively large number of different products. Many of these are equipped with multifunctional ports that can be configured as inputs or outputs, enabling flexible installation concepts that are customized for number of IOs at the sensor/actuator level in order to meet the customer’s precise needs. This cost-efficient solution leaves practically no port unused to achieve decentralization at its finest. One major advantages of the Cube system is the “one cable strategy:” both communication and power are carried over just one system cable. This leaves cable channels and energy chains available meaning that they can be designed smaller from the start, or even eliminated entirely. The six-pole M12 connector also eliminates the possibility of wiring errors. Up to 32 modules can be connected to each bus node, using four lines within an installation radius of 60 m, making the Cube system perfectly suited for even extensive installations. The lines are protected by integrated electronic fuses (MICO), the proven Murrelektronik current monitoring system. This saves space in the control cabinet by removing the need for circuit breakers. A complete portfolio of modules ranging from protection level IP20 to IP67 and even IP69K is available for installations. Meanwhile, the communication only ever runs through a single bus node, which can also be swapped out depending on the protocol in use. As a result, it is also possible to “change the protocol without changing the system.” In other words, an identical installation concept (Profibus, ProfiNet, Ethernet/IP, EtherCAT) can be designed for different protocols by simply choosing the appropriate bus node. The streamlining potential of this concept is unbelievable. Machine option management – one concept for all versions To prevent difficulties when getting different machine modules to work together, the Cube system offers machine option management (MOM). The related hardware and software planning is carried out virtually based on a standardized full configuration. The components actually present in the real machine are activated automatically, making configuration for all the different parts of the machine a breeze. This simplification streamlines everything for the user. Optional add-ons can be configured easily with the press of a button. No need for time-consuming software modifications. Direct integration of safety signals The idea of streamlined machine installations poses a particular challenge when it comes to integrating safety aspects. The Cube system offers an extremely appealing solution to this problem: combining Cube67 K3 modules with the MVK Metal Safety block module is an affordable way to duplicate safety outputs. The safety outputs of the MVK Metal Safety module will securely switch off up to 12 standard outputs, controlled by a ProfiNet/PROFIsafe control system (K3 functionality). They are divided between two safety circuits, each with three ports suitable for double connections. This multiplication of the safety outputs is a simple but effective way to reduce both costs and labor. Safety sensors are integrated directly into the installation concept with this approach, and eliminating the need for a safety relay significantly reduces the wiring workload while saving considerable space in the rack cabinet. Highly detailed diagnosis of the entire installation One of the core advantages of the Cube system is its impressive range of informative diagnostic capabilities, which extend from the bus node across the entire installation down to the individual modules and channels. The extensive information saves time during commissioning and is of particular advantage during troubleshooting taking into consideration the immense costs that can result from even short downtimes. Cube offers easily identifiable diagnostics with red LEDs that show maintenance at a glance which port is affected by an error. This diagnostic functionality can be used in detail via programming on the relevant control system. The Cube67 Diagnostics Gateway certainly offers a more efficient, time-saving, and highly integrated method of diagnosis as it allows troubleshooting without any programming at all. The module is unique in the market and is suitable for both new and existing installations. The Cube67 Diagnostics Gateway precisely evaluates all signals and diagnostic messages from the entire installation, independently of the control system. The network topology and any errors that arise are clearly visualized in a user-friendly, multilingual web interface. The data is also available over a standard OPC UA interface for further analysis in any cloud system. This all takes place entirely independently of the control system, making it an integral aspect of the installation that need not be changed even if the control system is changed. 52 smart IO-Link devices in a single node Thanks to specially designed modules, Cube67 is also excellently suited for the integration of smart IO-Link sensors. Up to 52 IO-Link devices can be connected to a single node – an impressive number compared to the competition! Murrelektronik makes installation even easier with a wide selection of accessories for IO-Link integration, including analog/IO-Link converters, inductive couplers, and hubs. Anyone looking to realize flexible and modular installation concepts and increase the modularity of existing machines and systems will find the Cube67 to be a versatile and powerful solution. The system opens the door to Industry 4.0, but not only for new installations. The Cube67 Diagnostics Gateway also makes it possible to optimally upgrade existing solutions with new standards.

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At HSB Automation, we stand for tailored linear technology solutions – practical in design, carefully engineered, and built to perform reliably in real-world applications. In addition to purposefully modified standard units, we deliver customized solutions such as cleanroom, ATEX, and stainless-steel versions, as well as temperature- and contamination-resistant designs. Our portfolio covers a wide range of applications: from powerful manifold linear units, right-left, dual-drive, and double-stroke linear units for complex motion tasks in compact spaces, to toothed belt units with rear-mounted Omega drives, rotary feedthroughs, robust gantry axes with steel base profiles, and heavy-duty linear tables for demanding loads. And if your requirements go beyond what’s listed here, we will develop the right solution to meet them.

At BAT Maschinenbau, you’ll find custom machines designed and manufactured specifically to meet your needs. Below is a selection of completed projects in the field of custom machinery and assembly systems.

For many years, manufacturing custom-designed enclosures and components using different materials and processing methods has been part of our range of services and products. In addition, and on request, we manufacture prototypes for fault-analysis and very small runs for field tests. Learn about the manufacturing method of your choice: ● Plastic enclosures ● Metal enclosures ● Aluminium profiles ● Die-cast enclosures ● Prototypes

Our unique development approach allows for highly-customized HMI display and control panels. We offer solutions for an intuitive and efficient communication between humans and machines which can be seamlessly integrated in existing machinery and systems. A consistent user interface offers many benefits, but the most important one is the positive affect on customer retention satisfaction. The field of application ranges from control units for machine and vehicle construction to display units for point of sale (POS) applications.