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Meet our team at Electronica 2022, booth C4.215!

Electronica Munich 2022 is fast approaching! Our team will be happy to meet you in Hall C4 Booth 215 from November 15th to 18th.

Our experts will be demonstrating the following innovations for the first time:
  •  Our new ADC & DAC performances in multiple frequency bands up to Ka.
  • Our Space Radiation Tolerant computing module, featuring a quad core ARM® Cortex®-A72 and 4GB DDR4.
  •  An Off-the-Shelf 6U Space VPX reference platform for AMD-Xilinx Versal AI Core Adaptable SoC featuring Teledyne e2v 8GB Radiation Tolerant DDR4 for Space 2.0.
  •  Asteroid landing demonstration based on LS1046-Space processor executing
  •  The Klepsydra AI inference engine
Register for Electronica

Join our test drive on new product demonstrations at electronica 2022!

New ADC Performance Demonstrations in multiple frequency bands up to KA with only 195mW/GSPS and single ended inputs.

Come and see the first live demonstration of the most advanced Analog-to-Digital Converter (ADC) from Teledyne e2v Semiconductors, EV10AS940. The latest 10-bit single channel 12.8 GSps ADC, with a max total power consumption of 2.5W, is capable of acquiring signal waveforms over multiple frequency bands up to Ka-band. The ADC will be presented in its characterization environment with the description of all its functionalities (Multi-ADC Synchronization, Decimation, Multi-NCO, Fast Frequency Hopping, ESIstream 62B/64B serial interface, single ended inputs…). The performance and its wide instantaneous bandwidth up to 6.4 GHz will be demonstrated by sampling directly signals coming from a signal generator.

New DAC Performance Demonstrations in multiple frequency bands up to Ka.

Discover our live demonstration of the most advanced Digital-to-Analog Converter (DAC) from Teledyne e2v, EV12DD700. The latest 12-bit dual channel 12 GSps DAC is capable of generating signal waveforms over multiple frequency bands up to Ka-band. The DAC will be presented in its development environment with the description of all its functionalities. This double width FMC+ Mezzanine board is compatible with large range of COTS FPGA carrier board. Performance will be showcased on spectrum plots up to 26 GHz, exhibiting the widest instantaneous bandwidth up to 6 GHz.

Space Radiation Tolerant computing module, featuring a quad core ARM® Cortex®-A72 and 4GB DDR4.

Discover Teledyne e2v Qormino® computing module, featuring an ARM® Cortex®-A72 and 4GB DDR4, and its dedicated development kit.

This demonstration highlights :

  • The compatibility of Teledyne e2v’ system solution with third party hardware & software ecosystem partners.
  • The development platform that Teledyne e2v provides to customers for evaluation and development of their system

The demonstration shows a UAV application, developed using Presagis VAPS XT tool, running on the Wind River VxWorks 7 platform, and using CoreAVI’s OpenGL SC driver and GPU. Qormino QLS1046-Space and its development kit are sampling today to serve multiple Space projects worldwide.

Off-the-Shelf 6U Space VPX reference platform for AMD-Xilinx Versal AI Core Adaptable SoC featuring Teledyne e2v 8GB Radiation Tolerant DDR4 for Space 2.0.

Come and see the ADM-VA600, a 6U Space VPX reference platform for the AMD-Xilinx Versal AI Core XQRVC1902 Adaptable SoC platform for Space 2.0, featuring 8GB Radiation Tolerant DDR4 Memory from Teledyne e2v.

Versal AI Core provides a massive leap forward in reconfigurable and customizable processing performance for Space mission deployment of compute intensive applications such as Signal Processing and Machine Learning. The platform is designed to accept components suitable for Space 2.0 level missions with limited radiation environment or mission length, such as LEO applications.

Among other Space Grade components, the board features the world’s smallest 8GB Radiation Tolerant DDR4 Memory modules from Teledyne e2v.

Asteroid landing demonstration based on LS1046-Space processor executing the Klepsydra AI inference engine.

Visit us to see the LS1046-Space processor operating in an asteroid landing application.

The LS1046-Space is a quad-core Arm® Cortex®-A72 running up to 1.8GHz, offering compute intensive capabilities up to 30kDMIPs. In this demonstration, the processor executes the Klepsydra AI inference engine to realize the image processing that is used for automated guidance of the spacecraft during landing on an Asteroid.

This application takes advantage both of the high performance of the processor and of the Klepsydra AI which allows to accelerate execution, reduce resource utilization and power consumption. In particular, Klepsydra AI has been highly optimized for the LS1046-Space and hence the performance achieved is 8x better than any other AI software.

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Published 2022-10-24
Relevance: Semiconductors



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