bibtype L - Prototype, methodology, f. module, software
ARLID 0564255
utime 20230316105943.3
mtime 20221122235959.9
title (primary) (eng) Smart Oscilloscope Based on TEBF0808 and TE0808-04-6EB21A SoM with Analog Devices AD-FMCDAQ2-EBZ FMC Card.
publisher
pub_time 2022
keyword measurement
keyword microprocesor
keyword data acquisition
keyword automation
keyword Linux Debian Buster
author (primary)
ARLID cav_un_auth*0225749
name1 Kohout
name2 Lukáš
institution UTIA-B
full_dept (cz) Zpracování signálů
full_dept (eng) Department of Signal Processing
department (cz) ZS
department (eng) ZS
full_dept Department of Signal Processing
fullinstit Ústav teorie informace a automatizace AV ČR, v. v. i.
source
url https://zs.utia.cas.cz/index.php?ids=results&id=uc10
cas_special
project
project_id 8A19009
agency GA MŠk
country CZ
ARLID cav_un_auth*0385121
abstract (eng) A smart oscilloscope based on Trenz Electronic TEBF0808 carrier board with Trenz Electronic TE0808-04-6EB21A System on Module (SoM) and with Analog Devices AD-FMCDAQ2-EBZ evaluation board. The system is based on the example in HDL package provided by Analog Devices for Xilinx tools in version 2018.2. The package is downloadable from Analog Devices GitHub. The sample rate of the system is 1 GS/s. It can capture up to 939 000 000 samples that corresponds to 939 ms. If the system is configured to capture one input channel, it can store up to the maximal number of samples. But when the oscilloscope is set to capture two input channels at the same time, of course, it can store only a half of the maximum number of samples per one channel. The original design is modified to be able to run continuously. It supports a hardware trigger and the system can pre-buffer samples before the trigger is activated. The size of this buffer is configurable, the maximal number of samples stored in this buffer is 524288. The oscilloscope is extended with the hardware accelerated signal measurement unit (SMU).
RIV JC
FORD0 20000
FORD1 20200
FORD2 20205
reportyear 2023
num_of_auth 1
permalink https://hdl.handle.net/11104/0336413
confidential S
arlyear 2022
mrcbU10 2022