Wiki source code of 17A-04 Radiation Signature

Version 2.2 by Barry Bishop on 2017/02/05 14:51

author	version	line-number	content
		1	\|Test Number\|T04
		2	\|Test Name\|Radiation Signature
		3	\|Test Leader\|Christian Agerer
		4	\|Suit\|Aouda.X
		5	\|Date\|04. Jan. 2017
		6
		7	In today’s RF environment it is imperative that modern day devices and especially space suits are meeting the EMC (electromagnetic compatibility) Standards. It basically states that products must not emit unwanted electromagnetic pollution (interference) and, because there is a certain amount
		8	of electromagnetic pollution in the environment, that products must be immune to a reasonable amount of interference. The Directive itself gives no figures or guidelines on what the required level of emissions or immunity are, nor does it state the frequency band limits. This interpretation of the Directive’s requirements is left to the standards that are used to demonstrate compliance with de
		9	Directive. For the Aouda Suit it is not entirely clear which EN Standards apply and further research has to be done.
		10
		11	Subtest 1: Radiated, radio-frequency, electromagnetic field immunity test; reaction of device under test should be: a normal performance within the specification limits.
		12
		13	Subtest 2: Electrostatic Discharge Immunity Test; reaction of device under test should be: a normal performance within the specification limits.
		14
		15	Subtest 3: Human exposure to radio frequency fields
		16
		17	=== Experiment Data ===
		18
		19	\|=Directories/files\|=Description
		20	\|[[Test report>>url:https://mission.oewf.org/archive_downloads/aoudatest17a/04-RadiationSignature/2017-01-04/]]\|Test report
		21	\|[[Result data>>url:https://mission.oewf.org/archive_downloads/aoudatest17a/04-RadiationSignature/2017-01-04/Ergebnisse/]]\|Result data
		22	\|[[Matlab>>url:https://mission.oewf.org/archive_downloads/aoudatest17a/04-RadiationSignature/2017-01-04/Matlab/]]\|Matlab source code