Product name：IEC 62368-1 Test Equipment

IEC 62368 Test Equipment

Figure 1 – Three block model for pain and injury
Figure 2 – Three block model for safety 
Figure 3 – Schematic and model for electrically-caused pain or injury
Figure 4 – Model for protection against electrically-caused pain or injury 
Figure 5 – Model for electrically-caused fire
Figure 6 – Models for protection against fire
Figure 7 – Schematic and model for thermally-caused injury
Figure 8 – Model for protection against thermally-caused injury
Figure 9 – Model for protection of an ordinary person against a class 1 energy source
Figure 10 – Model for protection of an ordinary person against a class 2 energy source
Figure 11 – Model for protection of an ordinary person against a class 2 energy source during ordinary person servicing conditions
Figure 12 – Model for protection of an ordinary person against a class 3 energy source 
Figure 13 – Model for protection of an instructed person against a class 1 energy source 
Figure 14 – Model for protection of an instructed person against a class 2 energy source
Figure 15 – Model for protection of an instructed person against a class 3 energy  source
Figure 16 – Model for protection of a skilled person against a class 1 energy source
Figure 17 – Model for protection of a skilled person against a class 2 energy source
Figure 18 – Model for protection of a skilled person against a class 3 energy source
Figure 19 – Model for protection of a skilled person against class 3 energy sources during equipment servicing conditions
Figure 20 – Illustration of accessible and inaccessible parts of a basic safeguard
Figure 21 – Illustration of accessible and inaccessible parts of a supplementary safeguard 
Figure 22 – Illustration of accessible and inaccessible parts of a reinforced safeguard
Figure 23 – Illustration that shows that ES limits depend on both voltage and curren
Figure 24 – Maximum values for combined a.c. current and d.c. current 
Figure 25 – Maximum values for combined a.c. voltage and d.c. voltage
Figure 26 – Model for protection of ES1 against ES2 
Figure 27 – Model for protection of ES1 against ES3
Figure 28 – Model for protection of ES1 against ES3 
Figure 29 – Model for protection of ES2 against ES3
Figure 30 – Model for protection of ES2 against ES3 
Figure 31 – Contact requirements to bare internal conductive parts
Figure 32 – Mandrel
Figure 33 – Initial position of mandrel
Figure 34 – Final position of mandrel 
Figure 35 – Position of metal foil on insulating material
Figure 36 – Example of electric strength test instrument for solid insulation
Figure 37 – Test for separation between a telecommunication network and earth
Figure 38 – Power measurement for worst-case load fault
Figure 39 – Power measurement for worst-case power source fault
Figure 40 – Illustration of power source classification
Figure 41 – Minimum separation requirements from an arcing PIS
Figure 42 – Extended separation requirements from a PIS
Figure 43 – Rotated separation requirements due to forced air flow
Figure 44 – Deflected separation requirements from a PIS when a fire barrier is used
Figure 45 – Top openings
Figure 46 – Bottom openings
Figure 47 – Illustration showing MS limits for moving fan blades
Figure 48 – Example for determining opening ‘X’ without a deflector
Figure 49 – Example for determining opening ‘X’ with a deflector
Figure D.1 – 1,2/50 μs and 10/700 μs voltage surge generator
Figure D.2 – Antenna interface test generator circuit
Figure D.3 – Example of an electronic pulse generator
Figure E.1 – Band-pass filter for wide-band noise measurement
Figure F.1 – Example of an instructional safeguard
Figure G.1 – Determination of arithmetic average temperature
Figure G.2 – Thermal ageing time
Figure G.3 – Abrasion resistance test for coating layers
Figure H.1 – Definition of ringing period and cadence cycle
Figure H.2 – ITS1 limit curve for cadenced ringing signal
Figure H.3 – Peak and peak-to-peak currents
Figure H.4 – Ringing voltage trip criteria 
Figure M.1 – Distance d as a function of the rated capacity for various charge currents I (mA/Ah) 
Figure O.1 – Narrow groove
Figure O.2 – Wide groove
Figure O.3 – V-shaped groove
Figure O.4 – Intervening unconnected conductive part
Figure O.5 – Rib
Figure O.6 – Uncemented joint with narrow groove