TTTech Computertechnik AG
TTTech Group unites TTTech Computertechnik AG, TTTech Auto AG, TTControl GmbH and TTTech Industrial Automation AG. These globally oriented high-tech companies all rely on proven TTTech know-how and experience gained since 1998. Our safety control platforms and real-time networks are applied in various markets and are trusted by many renowned market leaders. We combine highly innovative software technology with a deep understanding of digital transformation in key verticals. All TTTech Group companies have access to our global ecosystem of customers and partners from different domains, research institutions and organizations. TTTech products fulfill all relevant industry standards as well as current safety requirements.
- +1 978 933 – 7979
- usa@tttech.com
- Schoenbrunner Strasse 7
Vienna, 1040
Austria
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Safety Certified I/O Modules
HY-TTC 48XS
HY-TTC 48XS is an intelligent safety I/O module for extending the number of I/Os in mobile applications. The I/O module acts as a slave and is used in combination with, and controlled by a master electronic control unit and communicates via the standardized CANopen protocol, parameterized according to CiA DS 401. It is also compliant to the European Standard EN 50325-5 for CANopenSafety and is developed in accordance with the international standard EN ISO 13849 on functional safety, performance level (PL) d.
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Development Switches
TTESwitch A664 Lab
The TTESwitch A664 Lab supports multi-environment development efforts for hard real-time operations in distributed systems. The Deterministic Ethernet switch enables the design of highly dependable systems with focus on high availability, reliability, integrity, security, maintainability and safety.
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100base-T1 Ethernet (BroadR-Reach®) Logging Expansion With Low Latency
PT-15B
The PT-15B expands the PM-200 data logger from the Power Family by adding twelve 100base-T1 interfaces. Ethernet traffic is looped through the device with constantly low latency irrespective of the frame length. This means that the time synchronization protocols of the logged Ethernet interfaces are not affected. 100base-T1 packets are time stamped, filtered and sent to the PM-200 data logger via a 1000base-T interface.
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TTEEnd System A664 Pro
The TTEEnd System A664 Pro board brings the full power of Deterministic Ethernet communication technology to aerospace certifiable hardware. The TTEEnd System A664 Pro card supports three standard traffic classes: Ethernet (IEEE 802.3), rate-constrained (ARINC 664 part 7) and time-triggered (SAE AS6802) traffic in parallel on one physical infrastructure. It offers redundancy management, as well as an IP/UDP profiled communication layer fully implemented in hardware. The card is designed for safety-critical applications and fully complies with DAL A levels of RTCA DO-254 and DO-178C.
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AFDXEnd System
A664 Pro (PMC)
The AFDXEnd System A664 Pro board supports speeds up to 100 Mbit/s and is certifiable to civil aerospace standards. This PMC card supports rate-constrained traffic shaping to ensure bounded latency and jitter for Deterministic Ethernet networking, as described in the ARINC 664 part 7 standard. The network board can be used for production system integration and provides redundancy management as well as an IP/UDP profiled communication layer fully implemented in hardware.
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TTPLoad
As part of TTPTools, TTPLoad enables download of data blocks, configuration data and applications. Its flexible programming/scripting interface with Python enables integration into customer-specific tool environments.
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Test Hardware
TTPSimulate PCI
TTPSimulate supports hardware-in-the-loop simulation and design of complex distributed control systems where some parts of the systems are physically available and others exist only as a simulation model. This board enables concurrent engineering and reliable integration of complex integrated systems in large programs.
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TTEDevelopment System Space
The TTEDevelopment System Space provides a full development environment for hard real-time and non-real-time Ethernet communication on the same network using different quality of service traffic classes. Standard Ethernet traffic seamlessly integrates with fully deterministic, synchronous hard real-time Ethernet traffic on the same physical media. The system allows the evaluation and development of real-time applications leveraging the benefits of TTEthernet products in an out-of-the-box system.
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Development Switch
AFDXSwitch Lab v2.0
The AFDXSwitch Lab v2.0 is identical to the TTESwitch A664 Lab v2.0, which fully supports AFDX® and operates in accordance with all requirements specified in the ARINC 664 part 7 standard. Features include traffic policing and frame filtering functions as well as integrity and error checking of frames. Additionally, the switch comes with advanced features like 1 Gbit/s speeds and flexible physical layer configuration. The TTESwitch A664 Lab v2.0 is based on the TTESwitch Module A664 Pro, thus providing the full range of technical functionalities of TTTech’s certifiable AFDX switch modules and making it the optimal switching solution for a large variety of different application areas.
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Development Switch
TTESwitch Lab Space
The TTESwitch Lab Space supports laboratory testing efforts of Time-Triggered Ethernet applications; user development costs can be reduced by using the internal TTESwitch Controller HiRel ASIC that is also used in flight equipment. With advanced features like speeds of up to 1 Gbit/s, flexible physical layer configuration and three supported traffic classes, it is the optimal switching solution for a large variety of application areas. TTEthernet is a fault-tolerant, real-time communication protocol for safety-relevant systems integrating Ethernet and TTEthernet data flows onto one physical infrastructure.
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TTPDevelopment Cluster
TTP based systems enable design of open, reusable and modular integrated systems at lower complexity. TTPDevelopment Cluster is ideally suited to evaluate TTP and build first demonstrators.
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1000BASE-T1 Ethernet Logging Expansion With Low Latency
PT-20MG
The PT-20MG expands the PM-200 data logger from the Power Family by adding six 1000BASE-T1 automotive gigabit Ethernet interfaces. Ethernet traffic is looped through the device with constantly low latency irrespective of the frame length. This means that the time synchronization protocols of the logged Ethernet interfaces are not affected. 1000BASE-T1 packets are time-stamped, filtered and sent to the data logger via a 1000BASE-T interface.
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Development Switches
TTESwitch A664 Lab v2.0
The TTESwitch A664 Lab v2.0 supports laboratory testing and development efforts for non-real-time to hard real-time operations in distributed systems. The flight-capable TTESwitch Module A664 Pro is the core of TTESwitch A664 Lab v2.0. This enables a reduction in the development cost and time of a flightworthy switch.
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Safety Certified Controllers
HY-TTC 500 Family
The HY-TTC 500 family consists of high-end safety control units designed to satisfy upcoming needs for a wide range of high-end applications like construction and agricultural machines. The freely programmable high-end controllers with a powerful dual-core ARM Cortex®-R4 lockstep processor are protected by a compact, automotive-style housing suited for harsh environments. The safety controllers fulfill requirements up to SIL 2 (IEC 61508) / PL d (ISO 13849) / AgPLd (ISO 25119) – and can be programmed either in C or in CODESYS®. The safety certified CODESYS® Safety SIL 2 speeds up application validation of the certified controller significantly.
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TTESync For VxWorks 653
TTESync is a synchronization component that allows tight synchronization of VxWorks 653 partitions to the fault-tolerant system-wide cycle time of the TTEthernet communication network. All partitions executed on different modules can be “pinned down” within the overall system cycle time, thus enabling the lowest latency and minimum jitter in message exchange among distributed functions. At system level this results in clean layering, well-understood functional interactions and simpler application design, testing and system integration. System architects can reduce system complexity and further optimize system size, weight, power (SWaP) and life-cycle costs.
