Exhibitor products

Conveying technology is one of the most important disciplines in mechanical engineering, as it plays a central role in managing the flow of materials within companies. This specialized field focuses on the transportation of both unit loads and bulk materials, making it an essential part of internal logistics systems. Throughout the entire process chain-form production and processing to distribution- it ensures that goods are efficiently handled, stored, moved, and ultimately packed for delivery. Depending on the industry or business model, conveying technology is applied in different ways and adapted to specific operational needs.

NetUSB II™ Boundary-scan has proven itself time and again to be a truly versatile interface for structural test, embedded functional test, built-in self-test (BIST), software debug, and in-system programming. Supporting such diverse applications requires a controller with high performance specifications and diverse features. The NetUSB II is a high-performance, multi-feature boundary-scan controller for multi-TAP and concurrent JTAG test and in-system programming. Featuring dual-interface USB and LAN support with four or eight independent and configurable Test Access Ports (TAPs), direct serial programming capability and voltage sense support, the NetUSB II fits a multitude of boundary-scan applications. Features - High-performance JTAG controller with I2C and SPI interfaces - Concurrent (gang) testing and In-System Programming on up to eight UUTs for high volume test - Four or eight TAP connections for UUT designs with multiple scan chains - Configurable TAP pinout to accommodate custom JTAG connections - User-programmable JTAG TCK rate up to 100 MHz on each TAP - Independently configurable output voltage and input voltage threshold - Adjustable signal delay compensation to maximize achievable clock rate - Up to 16 total analog voltage measurement channels; two per TAP - Dual interface with high-speed USB and gigabit Ethernet - Supports Microsoft Windows and Linux operating systems The Corelis NetUSB II is fully compliant with the IEEE Standard 1149.1 for test access. The standalone unit connects between the host PC through a high-speed USB port or Ethernet connection and up to four (4-TAP version) or eight (8- TAP version) TAP connectors on any JTAG-based target system. Support for concurrent (Gang) test execution and in-system programming, voltage sense capabilities, configurable pinout, and integrated serial interfaces on each TAP connector make the NetUSB II ideal for multi-TAP and high-volume JTAG and serial bus-programming integration.

DP9301 corrosion resistant heavy duty slide with a load rating up to 272kg for 10,000 cycles and a 100% extension, featuring stainless steel ball bearings.

Flexible corrugated conduits and accessories for optimal cable protection – available in different versions.

cOSMo Lite is a socket C-OFDM modem for embedded applications. It features exceptional reliability in problematic environments and very quick synchronisation. cOSMo Lite enables data rates of up to 1000 kbps across simple twisted-pair, co-ax and power cables that may be several miles long. No matter whether in a Point-to-Point (PtP) or Point-to-Multipoint (PtmP) topology, the modem particularly qualifies for use in existing infrastructure. cOSMo Lite is based on a proprietary modem technology designed to transparently link any local data source, e.g. a UART, an SPI- or any other type of interface to a remote device. cOSMo Lite is a universal modem for data transmission near the theoretical limit over channels exposed to linear distortions, impulse noise, sudden phase and amplitude shifts, frequency offsets and line drop-outs. For analog signals a single-channel 24-bit audio codec is available. Sampling rates of up to 96kHz are possible for highest audio quality. The patented technology behind cOSMo Lite is available as a licensable code or hardware for use in home automation, infrastructure, power line, telecom, imaging, speech and security applications.

The great advantage of the modular operating concept is the connection of several expansion modules via a basic module and the associated saving of costs. Only the basic module includes the bus-specific bus connection and the bus node which communicates with the corresponding bus system. Thus, the basic module is the most complex module of the total package. The expansion modules are connected via a cable connection to the basic module, which then communicates with all connected command points. The usual additional cabling of the command points is no longer necessary, thus, saving installation time and reducing wiring outlay and space requirement. Moreover, customers who opt for the modular control concept, enjoy high long-term flexibility. If their requirements change, for example if more actuators are required, the modular operating concept can be expanded at any time until the maximum number of expansion modules is reached. Also, switching to a different bus system can be implemented quickly. For this purpose, only the basic module needs to be replaced by one that is compatible with the new bus system, no further installation work must be done. Thanks to its modular and standardised design, the operating concept is suitable for all applications and allows cost-optimised solutions even at quantities of only 10 to 20 units – a fact that is of particular interest for the special machinery construction with small lot sizes.

The CRA series, the new generation of collaborative robots, incorporates high-performance integrated joints, leading to a 25% increase in the cycle time and unprecedented efficiency. The new control cabinet and DobotStudio Pro system software ensures a comprehensive enhancement in safety, stability, and scalability, and improve human-machine collaboration to a whole new level.

MitySBC-A5E Single Board ComputerSingle Board Computer based on Intel Agilex 5E SoC. This product is currently in development The MitySBC-A5E is a single board computer featuring an Intel / Altera Agilex 5E SoC (System on a Chip) and includes up to 656KLE FPGA fabric, dual core Cortex-A55 + dual core Cortex-A76, on-board power supplies, and memory subsystems. The Agilex 5 delivers 2.5x the performance at 50% less power consumption versus the Cyclone V SoC. Prototypes of the MitySBC-A5E and MitySOM-A5E are currently available. Contact us to get more information. Specifications - Intel Agilex 5E SoC - Agilex 5 E-Series: 32mm x 32 mm package - FPGA fabric up to 656 KLE - Dual core Cortex-A55 + Dual core Cortex-A76 Memory - 8 GB LPDDR4 HPS - 8 GB LPDDR4 FPGA - eMMC - uSD - QSPI NOR for configuration Power - 12Vdc Input, all supplies generated on board Interfaces - FMC - MIPI (x4 lanes x 8) - QSFP+ - 10M / 100M / 1G / 2.5G Ethernet - 10M / 100M / 1G Ethernet - Display Port - M.2 - USB-C & USB 2 Applications - Industry 4.0 - Medical Equipment & Imaging - Automated Test & Measurement - Embedded Instrumentation - Retail Automation - Smart City / Infrastructure - Broadcast & Pro-AV - Radar & Defense - FPGA Prototyping

MitySOM-A5E System on Module The MitySOM-A5E Standard is a system on module featuring an Altera Agilex 5E SoC (System on a Chip) and includes up to 656KLE FPGA fabric, dual core Cortex-A55 + dual core Cortex-A76, on-board power supplies, and memory subsystems. The Altera Agilex 5 delivers 2.5x the performance at 50% less power consumption versus the Cyclone V SoC. Prototypes of the MitySOM-A5E Standard will be available soon, or you can get started with the MitySOM-A5E Mini that is currently available. Contact us to get more information. Specifications - Altera Agilex 5E SoC - Agilex 5E-Series: 32mm x 32mm package - FPGA fabric up to 656 KLE - Dual core Cortex-A55 + Dual core Cortex-A76 - Up to 24 transceiver pairs Memory - Up to 8 GB HPS FPGA shared LPDDR4 - Up to 8 GB FPGA LPDDR4 - 32 MB QSPI Configuration FLASH Power - 5-12Vdc Input, all supplies generated on board FPGA IO - 120 User FPGA HVIO Pins (1.8/2.5/3.3V CMOS) - 216 User FPGA HSIO Pins • 24 1.1V Single Ended • 2 96 pin banks supporting 1.1V/1.2V/1.3V standards • Up to 108 LVDS pair supported • MIPI D-PHY to 2.5/3.5 Gbps - 48 HPS IO Pins - Up to 24 Transceiver Pairs HPS IO - Up to 3 10/100/1000/2500 Mbps Ethernet MACs with TSN Support - 1 USB 2.0 On-The-Go (OTG) Port - 1 USB 3.1 Gen 1 Superspeed Port - 2 UARTs - 1 MMC/SD/SDIO - 2 SPI Masters and 2 SPI Slaves - 5 I2C/2 I3C controllers Applications - Artificial Intelligence - Video & Vision Analytics - Biometrics - Radios & Communications - Automated Test & Measurement - Robotics - Industry 4.0 / Industrial IOT - Medical Equipment & Imaging - Process Automation - Equipment / Condition Monitoring

MitySOM-A5E Mini System on Module The MitySOM-A5E Mini is a system on module featuring an Altera Agilex 5E SoC (System on a Chip) and includes up to 656KLE FPGA fabric, dual core Cortex-A55 + dual core Cortex-A76, on-board power supplies, and memory subsystems. The Altera Agilex 5 delivers 2.5x the performance at 50% less power consumption versus the Cyclone V SoC. Prototypes of the MitySOM-A5E Mini and the MitySBC-A5E are currently available. Contact us to get more information. Specifications - Altera Agilex 5E SoC - Agilex 5E-Series: 23mm x 23mm package - FPGA fabric 85KLE up to 656 KLE - Dual core Cortex-A55 + Dual core Cortex-A76 - Up to twelve transceiver pairs at 17.16/28.1 Gbps Memory - 8 GB LPDDR4 - SD/eMMC - uSD - QSPI NOR for configuration Power - 5-12Vdc Input, all supplies generated on board Interfaces - MIPI (x4 lanes x 7) - UART - SPI - I2C - USB2 - RGMII - Ethernet - Display Port - 48 LVDS pairs - GPIO Applications - Artificial Intelligence - Video & Vision Analytics - Biometrics - Radios & Communications - Automated Test & Measurement - Robotics - Industry 4.0 / Industrial IOT - Medical Equipment & Imaging - Process Automation - Equipment / Condition Monitoring

MitySOM-AM62A System on Module The MitySOM-AM62A family of system-on-modules features the Texas Instruments Sitara AM62Ax Processor. The module includes (optional) eMMC FLASH, (optional) Octal or Quad SPI NOR FLASH, and LPDDR4 RAM memory subsystems. A MitySOM-AM62 provides a complete and flexible CPU infrastructure for highly integrated embedded systems. The onboard AM62Ax processor provides up to a Quad Core Cortex-A53 64-bit RISC processor with a NEON SIMD coprocessor. This microprocessor unit (MPU) can run a rich set of real-time operating systems containing software applications programming interfaces (APIs) expected by modern system designers. The ARM architecture supports several operating systems, including Linux. In addition to the Cortex-A53, the AM62Ax family also offers a Single Core Arm Cortex-R5F MCU at up to 800 MHz as well as a deep learning accelerator engine that is based on a single C7x DSP core. The Cortex-R5F runs independently of the main Cortex-A53 MPU complex and has access to all the on-chip peripherals as well as all external memory and can be used for any purpose. Typical applications for the R5F might include managing an EtherCAT master interface, providing safety critical software operation or real-time handling of attached peripherals, etc. Specifications CPU - TI AM62Ax Application Processor • Up to Quad Arm Cortex-A53 MPU at up to 1.4 GHz • 32 KB L1 Program Cache per Core • 32 KB L1 Data Cache per Core • 512 KB Shared L2 Cache • JTAG Emulation/Debug - Single Core Arm Cortex-R5F MCU at up to 800 MHz with 256 KB SRAM - Deep Learning Accelerator - Vision Processing Accelerator with Image Signal Processing blocks Memory - Up To 16 GB LPDDR4 CPU RAM - Up to 128 GB eMMC FLASH - Up to 256 MB Octal/Quad SPI NOR FLASH Additional Features - Arm Cortex-R5F processor for boot, resource, and power management - Watchdog Timer and Real Time Clock - Secure Boot - Crypto Hardware Accelerators (AES, SHA, DRBG, PKA)

MitySOM-AM62P System on ModuleProduction-ready system on modules based on Texas Instruments Sitara AM62Px processor The MitySOM-AM62P family of system-on-modules features the Texas Instruments Sitara AM62Px Processor. The module includes (optional) eMMC FLASH, (optional) Octal or Quad SPI NOR FLASH, and LPDDR4 RAM memory subsystems. A MitySOM-AM62P provides a complete and flexible CPU infrastructure for highly integrated embedded systems. The onboard AM62Px processor provides up to a Quad Core Cortex-A53 microprocessor unit (MPU) at up to 1.4GHz. This MPU can run a rich set of real-time operating systems containing software applications programming interfaces (APIs) expected by modern system designers. The ARM architecture supports several operating systems, including Linux. In addition to the Cortex-A53, the AM62Px family also offers a Single Core Arm Cortex-R5F MCU at up to 800 MHz with 256KB SRAM, and a 3D graphics processing unit (GPU) supporting OpenGL ES 3.2 at 50 GFLOPS. The AM62Px also supports H264/H265 encode & decode, and can support three simultaneous displays. Specifications CPU - TI AM62Px Application Processor • Up to Quad Arm Cortex-A53 MPU at up to 1.4 GHz • 32 KB L1 Program Cache per Core • 32 KB L1 Data Cache per Core • 512 KB Shared L2 Cache • JTAG Emulation/Debug • High security field securable option - Single Core Arm Cortex-R5F MCU at up to 800 MHz with 256 KB SRAM - 3D Graphics Processor Unit (GPU) supporting OpenGL ES 3.2 @ 50 GFLOPS (processor dependent) - Video Encode/Decode Acceleration - AM62Px Processor Choices • AM62P54 (Quad Core, 3D) • AM62P52 (Dual Core, 3D) • AM62P34 (Quad Core) • AM62P32 (Dual Core) Memory - Up To 8 GB LPDDR4 CPU RAM - Up to 256 GB eMMC FLASH - Up to 256 MB Octal SPI NOR FLASH Additional Features - Arm Cortex-R5F processor for boot, resource, and power management - Real Time Clock - Secure Boot - Crypto Hardware Accelerators (AES, SHA, DRBG, PKA)

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